GENETIC POLYMORPHISMS ASSOCIATED WITH STATIN RESPONSE AND CARDIOVASCULAR DISEASES, METHODS OF DETECTION AND USES THEREOF

Information

  • Patent Application
  • 20160108473
  • Publication Number
    20160108473
  • Date Filed
    August 25, 2015
    9 years ago
  • Date Published
    April 21, 2016
    8 years ago
Abstract
The present invention provides compositions and methods based on genetic polymorphisms that are associated with response to statin treatment, particularly for reducing the risk of cardiovascular disease, especially coronary heart disease (such as myocardial infarction) and stroke. For example, the present invention relates to nucleic acid molecules containing the polymorphisms, variant proteins encoded by these nucleic acid molecules, reagents and kits for detecting the polymorphic nucleic acid molecules and variant proteins, and methods of using the nucleic acid molecules and proteins as well as methods of using reagents and kits for their detection.
Description
FIELD OF THE INVENTION

The present invention is in the field of drug response and disease risk, particularly genetic polymorphisms that are associated with response to statins, especially for the prevention or treatment of cardiovascular diseases (CVD) such as coronary heart disease (CHD) (which includes coronary events such as myocardial infarction (MI)) and cerebrovascular events (such as stroke). In particular, the present invention relates to specific single nucleotide polymorphisms (SNPs) in the human genome, and their association with variability in responsiveness to statin treatment (including preventive treatment) in reducing CVD risk between different individuals. These SNPs are also useful for assessing an individual's risk for developing CVD. The SNPs disclosed herein can be used, for example, as targets for diagnostic reagents and for the development of therapeutic agents. In particular, the SNPs of the present invention are useful for such uses as predicting an individual's response to therapeutic agents such as evaluating the likelihood of an individual differentially responding positively to statins, particularly for the treatment or prevention of CVD (particularly CHD such as MI, as well as stroke), identifying an individual who has an increased or decreased risk of developing CVD (particularly CHD such as MI, as well as stroke), for early detection of the disease, for providing clinically important information for the prevention and/or treatment of CVD, for predicting recurrence of CVD, and for screening and selecting therapeutic agents. Methods, assays, kits, and reagents for detecting the presence of these polymorphisms and their encoded products are provided.


BACKGROUND OF THE INVENTION

The present invention relates to SNPs that are associated with variability between individuals in their response to statins, particularly for the prevention or treatment of cardiovascular disease (CVD), which includes coronary heart disease (CHD) (which further includes myocardial infarction (MI) and other coronary events) and cerebrovascular events such as stroke and transient ischemic attack (TIA). These SNPs are also useful for determining an individual's risk for developing CVD, particularly CHD (including coronary events such as MI) as well as cerebrovascular events (such as stroke and TIA).


HMG-CoA Reductase Inhibitors (Statins)


HMG-CoA reductase inhibitors (statins) are used for the treatment and prevention of CVD, particularly CHD (including coronary events such as MI) and cerebrovascular events (such as stroke). Reduction of MI, stroke, and other coronary and cerebrovascular events and total mortality by treatment with HMG-CoA reductase inhibitors has been demonstrated in a number of randomized, double-blinded, placebo-controlled prospective trials (D. D. Waters, Clin Cardiol 24(8 Suppl):III3-7 (2001); B. K. Singh and J. L. Mehta, Curr Opin Cardiol 17(5):503-11 (2002)). These drugs are thought to typically have their primary effect through the inhibition of hepatic cholesterol synthesis, thereby upregulating LDL receptors in the liver. The resultant increase in LDL catabolism results in decreased circulating LDL, a major risk factor for cardiovascular disease.


Examples of statins include, but are not limited to, atorvastatin (Lipitor®), rosuvastatin (Crestor®), pravastatin (Pravachol®), simvastatin (Zocor®), fluvastatin (Lescol®), and lovastatin (Mevacor®), as well as combination therapies that include a statin such as simvastatin+ezetimibe (Vytorin®), lovastatin+niacin (Advicor®), atorvastatin+amlodipine besylate (Caduet®), and simvastatin+niacin (Simcor®).


Statins can be divided into two types according to their physicochemical and pharmacokinetic properties. Statins such as atorvastatin, simvastatin, lovastatin, and cerivastatin are lipophilic in nature and, as such, diffuse across membranes and thus are highly cell permeable. Hydrophilic statins such as pravastatin are more polar, such that they require specific cell surface transporters for cellular uptake. K. Ziegler and W. Stunkel, Biochim Biophys Acta 1139(3):203-9 (1992); M. Yamazaki et al., Am J Physiol 264(1 Pt 1):G36-44 (1993); T. Komai et al., Biochem Pharmacol 43(4):667-70 (1992). The latter statins utilizes a transporter, OATP2, whose tissue distribution is confined to the liver and, therefore, they are relatively hepato-specific inhibitors. B. Hsiang et al., J Biol Chem 274(52):37161-37168 (1999). The former statins, not requiring specific transport mechanisms, are available to all cells and they can directly impact a much broader spectrum of cells and tissues. These differences in properties may influence the spectrum of activities that each statin possesses. Pravastatin, for instance, has a low myopathic potential in animal models and myocyte cultures compared to lipophilic statins. B. A. Masters et al., Toxicol Appl Pharmacol 131(1):163-174 (1995); K. Nakahara et al., Toxicol Appl Pharmacol 152(1):99-106 (1998); J. C. Reijneveld et al., Pediatr Res 39(6):1028-1035 (1996). Statins are reviewed in Vaughan et al., “Update on Statins: 2003”, Circulation 2004; 110; 886-892.


Evidence from gene association studies is accumulating to indicate that responses to drugs are, indeed, at least partly under genetic control. As such, pharmacogenetics—the study of variability in drug responses attributed to hereditary factors in different populations—may significantly assist in providing answers toward meeting this challenge. A. D. Roses, Nature 405(6788):857-865 (2000); V. Mooser et al., J Thromb Haemost 1(7):1398-1402 (2003); L. M. Humma and S. G. Terra, Am J Health Syst Pharm 59(13):1241-1252 (2002). Associations have been reported between specific genotypes, as defined by SNPs and other genetic sequence variations, and specific responses to cardiovascular drugs. For example, a polymorphism in the KIF6 gene is associated with response to statin treatment (Iakoubova et al., “Polymorphism in KIF6 gene and benefit from statins after acute coronary syndromes: results from the PROVE IT-TIMI 22 study”, J Am Coll Cardiol. 2008 Jan. 29; 51(4):449-55; Iakoubova et al., “Association of the 719Arg variant of KIF6 with both increased risk of coronary events and with greater response to statin therapy”, J Am Coll Cardiol. 2008 Jun. 3; 51(22):2195; Iakoubova et al., “KIF6 Trp719Arg polymorphism and the effect of statin therapy in elderly patients: results from the PROSPER study”, Eur J Cardiovasc Prev Rehabil. 2010 Apr. 20; and Shiffman et al., “Effect of pravastatin therapy on coronary events in carriers of the KIF6 719Arg allele from the cholesterol and recurrent events trial”, Am J Cardiol. 2010 May 1; 105(9):1300-5).


There is a need for genetic markers that can be used to predict an individual's responsiveness to statins. For example, there is a growing need to better identify people who have a high chance of benefiting from statins, and those who have a low risk of developing side-effects. For example, severe myopathies represent a significant risk for a low percentage of the patient population, and this may be a particular concern for patients who are treated more aggressively with statins. Furthermore, different patients may have the same the risk for adverse events but are more likely to benefit from a drug (such as statins) and this may justify use of the drug in those individuals who are more likely to benefit. Similarly, in individuals who are less likely to benefit from a drug but are at risk for adverse events, use of the drug in these individuals can be de-prioritized or delayed.


An example of a large trial which analyzed the benefits of statin treatment for reducing the risk of CVD in a large population was the JUPITER Study (described in Ridker et al., “Rosuvastatin to prevent vascular events in men and women with elevated C-reactive protein”, N Engl J Med. 2008 Nov. 20; 359(21):2195-207), which demonstrated that rosuvastatin (Crestor®) significantly reduced the incidence of major cardiovascular events (including MI, stroke, arterial revascularization, hospitalization for unstable angina, and death from cardiovascular causes) in a study of 17,802 individuals.


The benefits of using statins for stroke is also described in O'Regan et al., “Statin therapy in stroke prevention: a meta-analysis involving 121,000 patients”, Am J Med. 2008 January; 121(1):24-33 and Everett et al., “Rosuvastatin in the prevention of stroke among men and women with elevated levels of C-reactive protein: justification for the Use of Statins in Prevention: an Intervention Trial Evaluating Rosuvastatin (JUPITER)”, Circulation. 2010 Jan. 5; 121(1):143-50.


Cardiovascular Disease (CVD), Including Coronary Heart Disease (CHD) and Stroke


Cardiovascular disease (CVD) includes coronary heart disease (CHD) (which further includes myocardial infarction (MI) and other coronary events) and cerebrovascular events such as stroke and transient ischemic attack (TIA).


Coronary heart disease (CHD) is defined herein as encompassing MI (fatal or non-fatal) and other coronary events, death from coronary disease, angina pectoris (particularly unstable angina), and coronary stenosis. The presence of CHD may be indicated by the occurrence of medical interventions such as coronary revascularization, which can include percutaneous transluminal coronary angioplasty (PTCA), coronary stent placement, and coronary artery bypass graft (CABG). Cardiovascular disease (CVD) is defined herein as encompassing CHD as well as cerebrovascular events such as stroke and transient ischemic attack (TIA).


Myocardial Infarction (MI)


Myocardial infarction (MI) is encompassed within CHD. MI, also referred to as a “heart attack”, is the most common cause of mortality in developed countries. The incidence of MI is still high despite currently available preventive measures and therapeutic intervention. More than 1,500,000 people in the U.S. suffer acute MI each year, many without seeking help due to unrecognized MI, and one third of these people die. The lifetime risk of coronary artery disease events at age 40 is 42.4% for men, nearly one in two, and 24.9% for women, or one in four (D. M. Lloyd-Jones, Lancet 353:89-92 (1999)).


MI is a multifactorial disease that involves atherogenesis, thrombus formation and propagation. Thrombosis can result in complete or partial occlusion of coronary arteries. The luminal narrowing or blockage of coronary arteries reduces oxygen and nutrient supply to the cardiac muscle (cardiac ischemia), leading to myocardial necrosis and/or stunning. MI, unstable angina, and sudden ischemic death are clinical manifestations of cardiac muscle damage. All three endpoints are part of acute coronary syndrome since the underlying mechanisms of acute complications of atherosclerosis are considered to be the same.


Atherogenesis, the first step of pathogenesis of MI, is an interaction between blood elements, mechanical forces, disturbed blood flow, and vessel wall abnormality that results in plaque accumulation. An unstable (vulnerable) plaque is an underlying cause of arterial thrombotic events and MI. A vulnerable plaque is a plaque, often not stenotic, that has a high likelihood of becoming disrupted or eroded, thus forming a thrombogenic focus. The “vulnerability” of an individual to MI may be due to vulnerable plaque, blood vulnerability (hypercoagulation, hypothrombolysis), and heart vulnerability (sensitivity of the heart to ischemia or propensity for arrhythmia). Recurrent myocardial infarction (RMI) can generally be viewed as a severe form of MI progression caused by multiple vulnerable plaques that are able to undergo pre-rupture or a pre-erosive state, coupled with extreme blood coagulability.


The current diagnosis of MI with presentation (rather than to predict if MI is likely to occur in the future) is based on the levels of troponin I or T that indicate the cardiac muscle progressive necrosis, impaired electrocardiogram (ECG), and detection of abnormal ventricular wall motion or angiographic data (the presence of acute thrombi). However, due to the asymptomatic nature of 25% of acute MIs (absence of atypical chest pain, low ECG sensitivity), a significant portion of MIs are not diagnosed and therefore not treated appropriately (e.g., prevention of recurrent MIs).


MI risk assessment and prognosis is currently done using classic risk factors or the recently introduced Framingham Risk Index. Both of these assessments put a significant weight on LDL levels to justify preventive treatment. However, it is well established that half of all MIs occur in individuals without overt hyperlipidemia.


Other emerging risk factors of MI are inflammatory biomarkers such as C-reactive protein (CRP), ICAM-1, SAA, TNF a, homocysteine, impaired fasting glucose, new lipid markers (ox LDL, Lp-a, MAD-LDL, etc.) and pro-thrombotic factors (fibrinogen, PAI-1). These markers have significant limitations such as low specificity and low positive predictive value, and the need for multiple reference intervals to be used for different groups of people (e.g., males-females, smokers-non smokers, hormone replacement therapy users, different age groups). These limitations diminish the utility of such markers as independent prognostic markers for MI screening.


Genetics plays an important role in MI risk. Families with a positive family history of MI account for 14% of the general population, 72% of premature MIs, and 48% of all MIs (R. R. Williams, Am J Cardiology 87:129 (2001)). Associations have been reported between genetic polymorphisms and MI risk. For example, polymorphism in the KIF6, LPA, and other genes and chromosomal regions are associated with MI risk (Shiffman et al., “Association of gene variants with incident myocardial infarction in the Cardiovascular Health Study”, Arterioscler Thromb Vasc Biol. 2008 January; 28(1):173-9; Bare et al., “Five common gene variants identify elevated genetic risk for coronary heart disease”, Genet Med. 2007 October; 9(10):682-9; Iakoubova et al., “Association of the Trp719Arg polymorphism in kinesin-like protein 6 with myocardial infarction and coronary heart disease in 2 prospective trials: the CARE and WOSCOPS trials”, J Am Coll Cardiol. 2008 Jan. 29; 51(4):435-43; and Shiffman et al., “A kinesin family member 6 variant is associated with coronary heart disease in the Women's Health Study”, J Am Coll Cardiol. 2008 Jan. 29; 51(4):444-8.


Genetic markers such as single nucleotide polymorphisms (SNPs) are preferable to other types of biomarkers. Genetic markers that are prognostic for MI can be genotyped early in life and could predict individual response to various risk factors. The combination of serum protein levels and genetic predisposition revealed by genetic analysis of susceptibility genes can provide an integrated assessment of the interaction between genotypes and environmental factors, resulting in synergistically increased prognostic value of diagnostic tests.


Thus, there is an urgent need for novel genetic markers that are predictive of predisposition to CHD such as MI, particularly for individuals who are unrecognized as having a predisposition to MI. Such genetic markers may enable prognosis of MI in much larger populations compared with the populations that can currently be evaluated by using existing risk factors and biomarkers. The availability of a genetic test may allow, for example, appropriate preventive treatments for acute coronary events to be provided for susceptible individuals (such preventive treatments may include, for example, statin treatments and statin dose escalation, as well as changes to modifiable risk factors), lowering of the thresholds for ECG and angiography testing, and allow adequate monitoring of informative biomarkers. Moreover, the discovery of genetic markers associated with MI can provide novel targets for therapeutic intervention or preventive treatments of MI, and enable the development of new therapeutic agents for treating or preventing MI and other cardiovascular disorders.


Furthermore, novel genetic markers that are predictive of predisposition to MI can be particularly useful for identifying individuals who are at risk for early-onset MI. “Early-onset MI” may be defined as MI in men who are less than 55 years of age and women who are less than 65 years of age (K. O. Akosah et al., “Preventing myocardial infarction in the young adult in the first place: How do the National Cholesterol Education Panel III guidelines perform?” JACC 41(9):1475-1479 (2003)). Individuals who experience early-onset MI may not be effectively identified by current cholesterol treatment guidelines, such as those suggested by the National Cholesterol Education Program. In one study, for example, a significant number of individuals who suffered MI at an earlier age (≦50 years) were shown to have LDL cholesterol below 100 mg/dl (K. O. Akosah et al., “Myocardial infarction in young adults with low-density lipoprotein cholesterol levels less than or equal to 100 mg/dl. Clinical profile and 1-year outcomes.” Chest 120:1953-1958 (2001)). Because risk for MI can be reduced by lifestyle changes and by treatment of modifiable risk factors, better methods to identify individuals at risk for early-onset MI could be useful for making preventive treatment decisions, especially considering that these patients may not be identified for medical management by conventional treatment guidelines. Genetic markers for risk of early-onset MI could potentially be incorporated into individual risk assessment protocols, as they have the advantage of being easily detected at any age.


Stroke


Stroke is a prevalent and serious cerebrovascular disease. It affects 4.7 million individuals in the United States, with 500,000 first attacks and 200,000 recurrent cases yearly. Approximately one in four men and one in five women aged 45 years will have a stroke if they live to their 85th year. About 25% of those who have a stroke die within a year. Stroke is the third leading cause of mortality in the United States and is responsible for 170,000 deaths a year. Among those who survive a stroke attack, 30 to 50% do not regain functional independence. Stroke therefore is the most common cause of disability and the second leading cause of dementia (Heart Disease and Stroke Statistics—2004 Update, American Heart Association).


Stroke occurs when an artery bringing oxygen and nutrients to the brain either ruptures, causing hemorrhagic stroke, or gets occluded, causing ischemic stroke. Ischemic stroke can be caused by thrombi formation at the site of an atherosclerotic plaque rupture (this type of ischemic stroke is interchangeably referred to as thrombotic or atherothrombotic stroke) or by emboli (clots) that have travelled from another part of the vasculature (this type of ischemic stroke is referred to as embolic stroke), often from the heart (this type of embolic stroke may be referred to as cardioembolic stroke). In both ischemic and hemorrhagic stroke, a cascade of cellular changes due to ischemia or increased cranial pressure leads to injuries or death of the brain cells. In the United States, the majority (about 80-90%) of stroke cases are ischemic (Rathore, et al., Stroke 33:2718-2721 ((2002)), including 30% large-vessel thrombotic (also referred to as large-vessel occlusive disease), 20% small-vessel thrombotic (also referred to as small-vessel occlusive disease), and 30% embolic or cardiogenic (caused by a clot originating from elsewhere in the body, e.g., from blood pooling due to atrial fibrillation, or from carotid artery stenosis). The ischemic form of stroke results from obstruction of blood flow in cerebral blood vessels, and it shares common pathological etiology with atherosclerosis and thrombosis.


About 10-20% of stroke cases are of the hemorrhagic type (Rathore, et al., Stroke 33:2718-2721 ((2002)), involving bleeding within or around the brain. Bleeding within the brain is known as cerebral hemorrhage, which is often linked to high blood pressure. Bleeding into the meninges surrounding the brain is known as a subarachnoid hemorrhage, which could be caused by a ruptured cerebral aneurysm, an arteriovenous malformation, or a head injury. The hemorrhagic stroke, although less prevalent, poses a greater danger. Whereas about 8% of ischemic stroke cases result in death within 30 days, about 38% of hemorrhagic stroke cases result in death within the same time period (Collins, et al., J. Clin. Epidemiol. 56:81-87 (2003)).


Transient ischemic attack (TIA) is a condition related to stroke. According to the National Institute of Neurological Disorders and Stroke (NINDS), “A transient ischemic attack (TIA) is a transient stroke that lasts only a few minutes. It occurs when the blood supply to part of the brain is briefly interrupted. TIA symptoms, which usually occur suddenly, are similar to those of stroke but do not last as long. Most symptoms of a TIA disappear within an hour, although they may persist for up to 24 hours. Symptoms can include: numbness or weakness in the face, arm, or leg, especially on one side of the body; confusion or difficulty in talking or understanding speech; trouble seeing in one or both eyes; and difficulty with walking, dizziness, or loss of balance and coordination”. NINDS further states that, “TIAs are often warning signs that a person is at risk for a more serious and debilitating stroke. About one-third of those who have a TIA will have an acute stroke some time in the future. Many strokes can be prevented by heeding the warning signs of TIAs and treating underlying risk factors.”


Known risk factors for stroke or TIA can be divided into modifiable and non-modifiable risk factors. Older age, male sex, black or Hispanic ethnicity, and family history of stroke are non-modifiable risk factors. Modifiable risk factors include hypertension, smoking, increased insulin levels, asymptomatic carotid disease, cardiac vessel disease, and hyperlipidemia.


Multiple reports based on twin studies (Brass et al., Stroke. 1992; 23:221-223 and Bak et al., Stroke. 2002; 33:769-774) and family studies (Welin L, et al. N Engl J Med. 1987; 317:521-526 and Jousilahti et al., Stroke. 1997; 28:1361-136) have shown that genetics contributes to risk of stroke independently of traditional risk factors. A number of genetic markers have been reported to be associated with stroke. For example, SNPs in the 4q25 region were reported to be associated with stroke (Gretarsdottir et al., “Risk variants for atrial fibrillation on chromosome 4q25 associate with ischemic stroke”, Ann Neurol. 2008; 64:402-409) and with atrial fibrillation (AF) (Gudbjartsson et al., “Variants conferring risk of atrial fibrillation on chromosome 4q25”, Nature. 2007; 448:353-357), SNPs in the 16q22 region (Gudbjartsson et al., “A sequence variant in ZFHX3 on 16q22 associates with atrial fibrillation and ischemic stroke”, Nat Genet. 2009; 41:876-878) and in the 9p21 region were found to be associated with noncardioembolic or atherothrombotic stroke (Luke et al., “Polymorphisms associated with both noncardioembolic stroke and coronary heart disease: vienna stroke registry”, Cerebrovasc Dis. 2009; 28:499-504 and Gschwendtner et al., “Sequence variants on chromosome 9p21.3 confer risk for atherosclerotic stroke”, Ann Neurol. 2009; 65:531-539), and variants in the 12p13 region were associated with stroke in general and with atherothrombotic stroke in particular (Ikram et al., “Genomewide association studies of stroke”, N Engl J Med. 2009; 360:1718-1728).


The acute nature of stroke leaves physicians with little time to prevent or lessen the devastation of brain damage. Strategies to diminish the impact of stroke include prevention and treatment with thrombolytic and, possibly, neuroprotective agents. The success of preventive measures will depend on the identification of risk factors in individual patients and means to modulate their impact.


Although some risk factors for stroke or TIA are not modifiable, such as age and family history, other underlying pathology or risk factors of stroke or TIA such as atherosclerosis, hypertension, smoking, diabetes, aneurysm, and atrial fibrillation, are chronic and amenable to effective life-style changes, pharmacological interventions, as well as surgical treatments. Early recognition of patients with informative risk factors, and especially those with a family history, using a non-invasive test of genetic markers associated with stroke can enable physicians to target the highest risk individuals for aggressive risk reduction.


Thus, there is a need for the identification of genetic markers that are predictive of an individual's predisposition to stroke or TIA and other vascular diseases. Furthermore, the identification of genetic markers which are useful for identifying individuals who are at an increased risk of having a stroke may lead to, for example, better preventive and therapeutic strategies, economic models, and health care policy decisions.


Single Nucleotide Polymorphisms (SNPs)


The genomes of all organisms undergo spontaneous mutations in the course of their continuing evolution, generating variant forms of progenitor genetic sequences. Gusella, Ann Rev Biochem 55:831-854 (1986). A variant form may confer an evolutionary advantage or disadvantage relative to a progenitor form or may be neutral. In some instances, a variant form confers an evolutionary advantage to individual members of a species and is eventually incorporated into the DNA of many or most members of the species and effectively becomes the progenitor form. Additionally, the effects of a variant form may be both beneficial and detrimental, depending on the environment. For example, a heterozygous sickle cell mutation confers resistance to malaria, but a homozygous sickle cell mutation is usually lethal. In many cases, both progenitor and variant forms survive and co-exist in a species population. The coexistence of multiple forms of a genetic sequence segregating at appreciable frequencies is defined as a genetic polymorphism, which includes single nucleotide polymorphisms (SNPs).


Approximately 90% of all genetic polymorphisms in the human genome are SNPs. SNPs are single base positions in DNA at which different alleles, or alternative nucleotides, exist in a population. The SNP position (interchangeably referred to herein as SNP, SNP site, SNP locus, SNP marker, or marker) is usually preceded by and followed by highly conserved sequences (e.g., sequences that vary in less than 1/100 or 1/1000 members of the populations). An individual may be homozygous or heterozygous for an allele at each SNP position. A SNP can, in some instances, be referred to as a “cSNP” to denote that the nucleotide sequence containing the SNP is an amino acid coding sequence.


A SNP may arise from a substitution of one nucleotide for another at the polymorphic site. Substitutions can be transitions or transversions. A transition is the replacement of one purine nucleotide by another purine nucleotide, or one pyrimidine by another pyrimidine. A transversion is the replacement of a purine by a pyrimidine, or vice versa. A SNP may also be a single base insertion or deletion variant referred to as an “indel.” Weber et al., “Human diallelic insertion/deletion polymorphisms,” Am J Hum Genet 71(4):854-62 (October 2002).


A synonymous codon change, or silent mutation/SNP (terms such as “SNP”, “polymorphism”, “mutation”, “mutant”, “variation”, and “variant” are used herein interchangeably), is one that does not result in a change of amino acid due to the degeneracy of the genetic code. A substitution that changes a codon coding for one amino acid to a codon coding for a different amino acid (i.e., a non-synonymous codon change) is referred to as a missense mutation. A nonsense mutation results in a type of non-synonymous codon change in which a stop codon is formed, thereby leading to premature termination of a polypeptide chain and a truncated protein. A read-through mutation is another type of non-synonymous codon change that causes the destruction of a stop codon, thereby resulting in an extended polypeptide product. While SNPs can be bi-, tri-, or tetra-allelic, the vast majority of SNPs are bi-allelic, and are thus often referred to as “bi-allelic markers,” or “di-allelic markers.”


As used herein, references to SNPs and SNP genotypes include individual SNPs and/or haplotypes, which are groups of SNPs that are generally inherited together. Haplotypes can have stronger correlations with diseases or other phenotypic effects compared with individual SNPs, and therefore may provide increased diagnostic accuracy in some cases. Stephens et al., Science 293:489-493 (July 2001).


Causative SNPs are those SNPs that produce alterations in gene expression or in the expression, structure, and/or function of a gene product, and therefore are most predictive of a possible clinical phenotype. One such class includes SNPs falling within regions of genes encoding a polypeptide product, i.e. cSNPs. These SNPs may result in an alteration of the amino acid sequence of the polypeptide product (i.e., non-synonymous codon changes) and give rise to the expression of a defective or other variant protein. Furthermore, in the case of nonsense mutations, a SNP may lead to premature termination of a polypeptide product. Such variant products can result in a pathological condition, e.g., genetic disease. Examples of genes in which a SNP within a coding sequence causes a genetic disease include sickle cell anemia and cystic fibrosis.


Causative SNPs do not necessarily have to occur in coding regions; causative SNPs can occur in, for example, any genetic region that can ultimately affect the expression, structure, and/or activity of the protein encoded by a nucleic acid. Such genetic regions include, for example, those involved in transcription, such as SNPs in transcription factor binding domains, SNPs in promoter regions, in areas involved in transcript processing, such as SNPs at intron-exon boundaries that may cause defective splicing, or SNPs in mRNA processing signal sequences such as polyadenylation signal regions. Some SNPs that are not causative SNPs nevertheless are in close association with, and therefore segregate with, a disease-causing sequence. In this situation, the presence of a SNP correlates with the presence of, or predisposition to, or an increased risk in developing the disease. These SNPs, although not causative, are nonetheless also useful for diagnostics, disease predisposition screening, and other uses.


An association study of a SNP and a specific disorder involves determining the presence or frequency of the SNP allele in biological samples from individuals with the disorder of interest, such as CVD, and comparing the information to that of controls (i.e., individuals who do not have the disorder; controls may be also referred to as “healthy” or “normal” individuals) who are preferably of similar age and race. The appropriate selection of patients and controls is important to the success of SNP association studies. Therefore, a pool of individuals with well-characterized phenotypes is extremely desirable.


A SNP may be screened in diseased tissue samples or any biological sample obtained from a diseased individual, and compared to control samples, and selected for its increased (or decreased) occurrence in a specific pathological condition, such as pathologies related to CVD and in particular, CHD (e.g., MI). Once a statistically significant association is established between one or more SNP(s) and a pathological condition (or other phenotype) of interest, then the region around the SNP can optionally be thoroughly screened to identify the causative genetic locus/sequence(s) (e.g., causative SNP/mutation, gene, regulatory region, etc.) that influences the pathological condition or phenotype. Association studies may be conducted within the general population and are not limited to studies performed on related individuals in affected families (linkage studies).


Clinical trials have shown that patient response to treatment with pharmaceuticals is often heterogeneous. There is a continuing need to improve pharmaceutical agent design and therapy. In that regard, SNPs can be used to identify patients most suited to therapy with particular pharmaceutical agents (this is often termed “pharmacogenomics”). Similarly, SNPs can be used to exclude patients from certain treatment due to the patient's increased likelihood of developing toxic side effects or their likelihood of not responding to the treatment. Pharmacogenomics can also be used in pharmaceutical research to assist the drug development and selection process. Linder et al., Clinical Chemistry 43:254 (1997); Marshall, Nature Biotechnology 15:1249 (1997); International Patent Application WO 97/40462, Spectra Biomedical; and Schafer et al., Nature Biotechnology 16:3 (1998).


SUMMARY OF THE INVENTION

Exemplary embodiments of the present invention relate to the identification of SNPs, as well as unique combinations of such SNPs and haplotypes of SNPs, that are associated with variability between individuals in their response to statins, particularly for the prevention or treatment of cardiovascular disease (CVD), which includes coronary heart disease (CHD) (which further includes myocardial infarction (MI) and other coronary events) and cerebrovascular events such as stroke. These SNPs are also useful for determining an individual's risk for developing CVD, particularly CHD (including coronary events such as MI) as well as cerebrovascular events such as stroke. The polymorphisms disclosed herein are directly useful as targets for the design of diagnostic and prognostic reagents and the development of therapeutic and preventive agents for use in the diagnosis, prognosis, treatment, and/or prevention of CVD (particularly CHD, such as MI), as well as for predicting a patient's response to therapeutic agents such as statins, particularly for the treatment or prevention of CVD (particularly CHD, such as MI).


Based on the identification of SNPs associated with variability between individuals in their response to statins, particularly for reducing the risk of CVD such as CHD (e.g., MI) and stroke, exemplary embodiments of the present invention also provide methods of detecting these variants as well as the design and preparation of detection reagents needed to accomplish this task. The invention specifically provides, for example, SNPs associated with responsiveness to statin treatment, isolated nucleic acid molecules (including DNA and RNA molecules) containing these SNPs, variant proteins encoded by nucleic acid molecules containing such SNPs, antibodies to the encoded variant proteins, computer-based and data storage systems containing the novel SNP information, methods of detecting these SNPs in a test sample, methods of identifying individuals who have an altered (i.e., increased or decreased) risk of developing CVD (such as CHD (e.g., MI) or stroke), methods for determining the risk of an individual for recurring CVD (e.g., recurrent MI), methods of treating an individual who has an increased risk for CVD and/or increased likelihood of responding to statin treatment, and methods for identifying individuals (e.g., determining a particular individual's likelihood) who have an altered (i.e., increased or decreased) likelihood of responding to drug treatment (especially statin treatment), particularly drug treatment of CVD (e.g., prevention or treatment of CHD such as MI), based on the presence or absence of one or more particular nucleotides (alleles) at one or more SNP sites disclosed herein or the detection of one or more encoded variant products (e.g., variant mRNA transcripts or variant proteins), methods of screening for compounds useful in the treatment or prevention of CVD, compounds identified by these methods, methods of treating or preventing CVD, etc.


Exemplary embodiments of the present invention further provide methods for selecting or formulating a treatment regimen (e.g., methods for determining whether or not to administer statin treatment to an individual having CVD, or who is at risk for developing CVD in the future, or who has previously had CVD, methods for selecting a particular statin-based treatment regimen such as dosage and frequency of administration of statin, or a particular form/type of statin such as a particular pharmaceutical formulation or statin compound, methods for administering (either in addition to or instead of a statin) an alternative, non-statin-based treatment, such as niacin, fibrates, or ezetimibe (e.g., Zetia® or Ezetrol®), to individuals who are predicted to be unlikely to respond positively to statin treatment, etc.), and methods for determining the likelihood of experiencing toxicity or other undesirable side effects from statin treatment, etc. Various embodiments of the present invention also provide methods for selecting individuals to whom a statin or other therapeutic will be administered based on the individual's genotype, and methods for selecting individuals for a clinical trial of a statin or other therapeutic agent based on the genotypes of the individuals (e.g., selecting individuals to participate in the trial who are most likely to respond positively from the statin treatment and/or excluding individuals from the trial who are unlikely to respond positively from the statin treatment based on their SNP genotype(s), or selecting individuals who are unlikely to respond positively to statins based on their SNP genotype(s) to participate in a clinical trial of another type of drug that may benefit them). Further embodiments of the present invention provide methods for reducing an individual's risk of developing CVD (such as CHD (e.g., MI) or stroke) using statin treatment, including preventing recurring CVD (e.g., recurrent MI) using statin treatment, when said individual carries one or more SNPs identified herein as being associated with statin response.


Tables 1 and 2 provides gene information, references to the identification of transcript sequences (SEQ ID NOS:1-51), encoded amino acid sequences (SEQ ID NOS:52-102), genomic sequences (SEQ ID NOS:177-622), transcript-based context sequences (SEQ ID NOS:103-176) and genomic-based context sequences (SEQ ID NOS:623-3661) that contain the SNPs of the present application, and extensive SNP information that includes observed alleles, allele frequencies, populations/ethnic groups in which alleles have been observed, information about the type of SNP and corresponding functional effect, and, for cSNPs, information about the encoded polypeptide product. The actual transcript sequences (SEQ ID NOS:1-51), amino acid sequences (SEQ ID NOS:52-102), genomic sequences (SEQ ID NOS:177-622), transcript-based SNP context sequences (SEQ ID NOS:103-176), and genomic-based SNP context sequences (SEQ ID NOS:623-3661) are provided in the Sequence Listing.


In certain exemplary embodiments, the invention provides methods for identifying an individual who has an altered likelihood of responding to statin treatment or an altered risk for developing CVD, particularly CHD or stroke (including, for example, a first incidence and/or a recurrence of the disease, such as primary or recurrent MI), in which the method comprises detecting a single nucleotide polymorphism (SNP) in any one of the nucleotide sequences of SEQ ID NOS:1-51, SEQ ID NOS:103-176, SEQ ID NOS:177-622, and SEQ ID NOS:623-3661 in said individual's nucleic acids, wherein the SNP is specified in Table 1 and/or Table 2, and the presence of the SNP is indicative of an altered response to statin treatment of an altered risk for CVD in said individual. In certain embodiments, the CVD is CHD, particularly MI. In certain other embodiments, the CVD is stroke. In certain exemplary embodiments of the invention, SNPs that occur naturally in the human genome are provided within isolated nucleic acid molecules. These SNPs are associated with response to statin treatment thereby reducing the risk of CVD, such as CHD (e.g., MI) or stroke, such that they can have a variety of uses in the diagnosis, prognosis, treatment, and/or prevention of CVD, and particularly in the treatment or prevention of CVD using statins. In certain embodiments, a nucleic acid of the invention is an amplified polynucleotide, which is produced by amplification of a SNP-containing nucleic acid template. In another embodiment, the invention provides for a variant protein that is encoded by a nucleic acid molecule containing a SNP disclosed herein.


In further embodiments of the invention, reagents for detecting a SNP in the context of its naturally-occurring flanking nucleotide sequences (which can be, e.g., either DNA or mRNA) are provided. In particular, such a reagent may be in the form of, for example, a hybridization probe or an amplification primer that is useful in the specific detection of a SNP of interest. In an alternative embodiment, a protein detection reagent is used to detect a variant protein that is encoded by a nucleic acid molecule containing a SNP disclosed herein. A preferred embodiment of a protein detection reagent is an antibody or an antigen-reactive antibody fragment. Various embodiments of the invention also provide kits comprising SNP detection reagents, and methods for detecting the SNPs disclosed herein by employing the SNP detection reagents. An exemplary embodiment of the present invention provides a kit comprising a SNP detection reagent for use in determining whether a human's risk for CVD is reduced by treatment with statins based upon the presence or absence of a particular allele of one or more SNPs disclosed herein.


In various embodiments, the present invention provides methods for evaluating whether an individual is likely (or unlikely) to respond to statin treatment (i.e., benefit from statin treatment)), particularly statin treatment for reducing the risk of CVD, particularly CHD (such as MI) or stroke, by detecting the presence or absence of one or more SNP alleles disclosed herein. The present invention also provides methods of identifying an individual having an increased or decreased risk of developing CVD, such as CHD (e.g., MI) or stroke, by detecting the presence or absence of one or more SNP alleles disclosed herein.


In certain embodiments, the presence of a statin response allele disclosed herein in Tables 4-22 (an allele associated with increased response to statin treatment for reducing CVD or CHD risk) is detected and indicates that an individual has an increased risk for developing CVD, such as CHD (e.g., MI) or stroke. In these embodiments, in which the same allele is associated with both increased risk for developing CVD and increased response to statin treatment (i.e., the same allele is both a risk and a response allele), this increased risk for developing CVD can be reduced by administering statin treatment to an individual having the allele.


The nucleic acid molecules of the invention can be inserted in an expression vector, such as to produce a variant protein in a host cell. Thus, the present invention also provides for a vector comprising a SNP-containing nucleic acid molecule, genetically-engineered host cells containing the vector, and methods for expressing a recombinant variant protein using such host cells. In another specific embodiment, the host cells, SNP-containing nucleic acid molecules, and/or variant proteins can be used as targets in a method for screening and identifying therapeutic agents or pharmaceutical compounds useful in the treatment or prevention of CVD, such as CHD (e.g., MI) or stroke.


An aspect of this invention is a method for treating or preventing CVD such as CHD or stroke (including, for example, a first occurrence and/or a recurrence of the disease, such as primary or recurrent MI), in a human subject wherein said human subject harbors a SNP, gene, transcript, and/or encoded protein identified in Tables 1 and 2, which method comprises administering to said human subject a therapeutically or prophylactically effective amount of one or more agents counteracting the effects of the disease, such as by inhibiting (or stimulating) the activity of a gene, transcript, and/or encoded protein identified in Tables 1 and 2.


Another aspect of this invention is a method for identifying an agent useful in therapeutically or prophylactically treating CVD (particularly CHD or stroke), in a human subject wherein said human subject harbors a SNP, gene, transcript, and/or encoded protein identified in Tables 1 and 2, which method comprises contacting the gene, transcript, or encoded protein with a candidate agent under conditions suitable to allow formation of a binding complex between the gene, transcript, or encoded protein and the candidate agent and detecting the formation of the binding complex, wherein the presence of the complex identifies said agent.


Another aspect of this invention is a method for treating or preventing CVD such as CHD (e.g., MI) or stroke, in a human subject, in which the method comprises:


(i) determining that said human subject harbors a SNP, gene, transcript, and/or encoded protein identified in Tables 1 and 2, and


(ii) administering to said subject a therapeutically or prophylactically effective amount of one or more agents counteracting the effects of the disease, such as statins.


Another aspect of the invention is a method for identifying a human who is likely to benefit from statin treatment, in which the method comprises detecting an allele of one or more SNPs disclosed herein in said human's nucleic acids, wherein the presence of the allele indicates that said human is likely to benefit from statin treatment.


Another aspect of the invention is a method for identifying a human who is likely to benefit from statin treatment, in which the method comprises detecting an allele of one or more SNPs that are in LD with one or more SNPs disclosed herein in said human's nucleic acids, wherein the presence of the allele of the LD SNP indicates that said human is likely to benefit from statin treatment.


Many other uses and advantages of the present invention will be apparent to those skilled in the art upon review of the detailed description of the exemplary embodiments herein. Solely for clarity of discussion, the invention is described in the sections below by way of non-limiting examples.


Description of the Text (ASCII) Files Submitted Electronically Via EFS-Web

The following three text (ASCII) files are submitted electronically via EFS-Web as part of the instant application:


1) File SEQLIST_CD000027ORD.txt provides the Sequence Listing. The Sequence Listing provides the transcript sequences (SEQ ID NOS:1-51) and protein sequences (SEQ ID NOS:52-102) as referred to in Table 1, and genomic sequences (SEQ ID NOS:177-622) as referred to in Table 2, for each gene (or genomic region for intergenic SNPs) that contains one or more statin response-associated SNPs of the present invention. Also provided in the Sequence Listing are context sequences flanking each SNP, including both transcript-based context sequences as referred to in Table 1 (SEQ ID NOS:103-176) and genomic-based context sequences as referred to in Table 2 (SEQ ID NOS:623-3661). The context sequences generally provide 100 bp upstream (5′) and 100 bp downstream (3′) of each SNP, with the SNP in the middle of the context sequence, for a total of 200 bp of context sequence surrounding each SNP. File SEQLIST_CD000027ORD.txt is 63,960 KB in size, and was created on Apr. 5, 2011.









LENGTHY TABLES




The patent application contains a lengthy table section. A copy of the table is available in electronic form from the USPTO web site (). An electronic copy of the table will also be available from the USPTO upon request and payment of the fee set forth in 37 CFR 1.19(b)(3).






2) File TABLE1_CD000027ORD.txt provides Table 1, which is 78 KB in size and was created on Apr. 6, 2011.


3) File TABLE2_CD000027ORD.txt provides Table 2, which is 1,971 KB in size and was created on Apr. 6, 2011.


These three text files are hereby incorporated by reference pursuant to 37 CFR 1.77(b)(4).


Description of Table 1 and Table 2


Table 1 and Table 2 (both submitted electronically via EFS-Web as part of the instant application) disclose the SNP and associated gene/transcript/protein information and sequences for the SNPs disclosed in Tables 4-22, as well as for the LD SNPs disclosed in Table 3. Table 1 is based on transcript and protein sequences, whereas Table 2 is based on genomic sequences.


For each gene, Table 1 provides a header containing gene, transcript and protein information, followed by a transcript and protein sequence identifier (SEQ ID NO), and then SNP information regarding each SNP found in that gene/transcript including the transcript context sequence. For each gene in Table 2, a header is provided that contains gene and genomic information, followed by a genomic sequence identifier (SEQ ID NO) and then SNP information regarding each SNP found in that gene, including the genomic context sequence.


Note that SNP markers may be included in both Table 1 and Table 2; Table 1 presents the SNPs relative to their transcript sequences and encoded protein sequences, whereas Table 2 presents the SNPs relative to their genomic sequences. In some instances Table 2 may also include, after the last gene sequence, genomic sequences of one or more intergenic regions, as well as SNP context sequences and other SNP information for any SNPs that lie within these intergenic regions. Additionally, in either Table 1 or 2, a “Related Interrogated SNP” may be listed following a SNP which is determined to be in LD with that interrogated SNP according to the given Power value. SNPs can be readily cross-referenced between all Tables based on their Celera hCV (or, in some instances, hDV) identification numbers and/or public rs identification numbers, and to the Sequence Listing based on their corresponding SEQ ID NOs.


The gene/transcript/protein information includes:

    • a gene number (1 through n, where n=the total number of genes in the Table),
    • a gene symbol, along with an Entrez gene identification number (Entrez Gene database, National Center for Biotechnology Information (NCBI), National Library of Medicine (NLM), National Institutes of Health (NIH))
    • a gene name,
    • an accession number for the transcript (e.g., RefSeq NM number, or a Celera hCT identification number if no RefSeq NM number is available) (Table 1 only),
    • an accession number for the protein (e.g., RefSeq NP number, or a Celera hCP identification number if no RefSeq NP number is available) (Table 1 only),
    • the chromosome number of the chromosome on which the gene is located,
    • an OMIM (“Online Mendelian Inheritance in Man” database, Johns Hopkins University/NCBI) public reference number for the gene, and OMIM information such as alternative gene/protein name(s) and/or symbol(s) in the OMIM entry.


Note that, due to the presence of alternative splice forms, multiple transcript/protein entries may be provided for a single gene entry in Table 1; i.e., for a single Gene Number, multiple entries may be provided in series that differ in their transcript/protein information and sequences.


Following the gene/transcript/protein information is a transcript context sequence (Table 1), or a genomic context sequence (Table 2), for each SNP within that gene.


After the last gene sequence, Table 2 may include additional genomic sequences of intergenic regions (in such instances, these sequences are identified as “Intergenic region:” followed by a numerical identification number), as well as SNP context sequences and other SNP information for any SNPs that lie within each intergenic region (such SNPs are identified as “INTERGENIC” for SNP type).


Note that the transcript, protein, and transcript-based SNP context sequences are all provided in the Sequence Listing. The transcript-based SNP context sequences are provided in both Table 1 and also in the Sequence Listing. The genomic and genomic-based SNP context sequences are provided in the Sequence Listing. The genomic-based SNP context sequences are provided in both Table 2 and in the Sequence Listing. SEQ ID NOs are indicated in Table 1 for the transcript-based context sequences (SEQ ID NOS:103-176); SEQ ID NOs are indicated in Table 2 for the genomic-based context sequences (SEQ ID NOS:623-3661).


The SNP information includes:

    • Context sequence (taken from the transcript sequence in Table 1, the genomic sequence in Table 2) with the SNP represented by its IUB code, including 100 bp upstream (5′) of the SNP position plus 100 bp downstream (3′) of the SNP position (the transcript-based SNP context sequences in Table 1 are provided in the Sequence Listing as SEQ ID NOS:103-176; the genomic-based SNP context sequences in Table 2 are provided in the Sequence Listing as SEQ ID NOS:623-3661).
    • Celera hCV internal identification number for the SNP (in some instances, an “hDV” number is given instead of an “hCV” number).
    • The corresponding public identification number for the SNP, the rs number.
    • “SNP Chromosome Position” indicates the nucleotide position of the SNP along the entire sequence of the chromosome as provided in NCBI Genome Build 36.
    • SNP position (nucleotide position of the SNP within the given transcript sequence (Table 1) or within the given genomic sequence (Table 2)).
    • “Related Interrogated SNP” is the interrogated SNP with which the listed SNP is in LD at the given value of Power.
    • SNP source (may include any combination of one or more of the following five codes, depending on which internal sequencing projects and/or public databases the SNP has been observed in: “Applera”=SNP observed during the re-sequencing of genes and regulatory regions of 39 individuals, “Celera”=SNP observed during shotgun sequencing and assembly of the Celera human genome sequence, “Celera Diagnostics”=SNP observed during re-sequencing of nucleic acid samples from individuals who have a disease, “dbSNP”=SNP observed in the dbSNP public database, “HGBASE”=SNP observed in the HGBASE public database, “HGMD”=SNP observed in the Human Gene Mutation Database (HGMD) public database, “HapMap”=SNP observed in the International HapMap Project public database, “CSNP”=SNP observed in an internal Applied Biosystems (Foster City, Calif.) database of coding SNPS (cSNPs).


Note that multiple “Applera” source entries for a single SNP indicate that the same SNP was covered by multiple overlapping amplification products and the re-sequencing results (e.g., observed allele counts) from each of these amplification products is being provided.

    • Population/allele/allele count information in the format of [population1(first_allele,count|second_allele,count)population2(first_allele,count|second_allele,count) total (first_allele,total count|second_allele,total count)]. The information in this field includes populations/ethnic groups in which particular SNP alleles have been observed (“cau”=Caucasian, “his”=Hispanic, “chn”=Chinese, and “afr”=African-American, “jpn”=Japanese, “ind”=Indian, “mex”=Mexican, “ain”=“American Indian, “cra”=Celera donor, “no_pop”=no population information available), identified SNP alleles, and observed allele counts (within each population group and total allele counts), where available [“−” in the allele field represents a deletion allele of an insertion/deletion (“indel”) polymorphism (in which case the corresponding insertion allele, which may be comprised of one or more nucleotides, is indicated in the allele field on the opposite side of the “|”); “−” in the count field indicates that allele count information is not available]. For certain SNPs from the public dbSNP database, population/ethnic information is indicated as follows (this population information is publicly available in dbSNP): “HISP1”=human individual DNA (anonymized samples) from 23 individuals of self-described HISPANIC heritage; “PAC1”=human individual DNA (anonymized samples) from 24 individuals of self-described PACIFIC RIM heritage; “CAUC1”=human individual DNA (anonymized samples) from 31 individuals of self-described CAUCASIAN heritage; “AFR1”=human individual DNA (anonymized samples) from 24 individuals of self-described AFRICAN/AFRICAN AMERICAN heritage; “P1”=human individual DNA (anonymized samples) from 102 individuals of self-described heritage; “PA130299515”; “SC_12_A”=SANGER 12 DNAs of Asian origin from Corielle cell repositories, 6 of which are male and 6 female; “SC_12_C”=SANGER 12 DNAs of Caucasian origin from Corielle cell repositories from the CEPH/UTAH library, six male and six female; “SC_12_AA”=SANGER 12 DNAs of African-American origin from Corielle cell repositories 6 of which are male and 6 female; “SC_95_C”=SANGER 95 DNAs of Caucasian origin from Corielle cell repositories from the CEPH/UTAH library; and “SC_12_CA”=Caucasians—12 DNAs from Corielle cell repositories that are from the CEPH/UTAH library, six male and six female.


Note that for SNPs of “Applera” SNP source, genes/regulatory regions of 39 individuals (20 Caucasians and 19 African Americans) were re-sequenced and, since each SNP position is represented by two chromosomes in each individual (with the exception of SNPs on X and Y chromosomes in males, for which each SNP position is represented by a single chromosome), up to 78 chromosomes were genotyped for each SNP position. Thus, the sum of the African-American (“afr”) allele counts is up to 38, the sum of the Caucasian allele counts (“cau”) is up to 40, and the total sum of all allele counts is up to 78.


Note that semicolons separate population/allele/count information corresponding to each indicated SNP source; i.e., if four SNP sources are indicated, such as “Celera,” “dbSNP,” “HGBASE,” and “HGMD,” then population/allele/count information is provided in four groups which are separated by semicolons and listed in the same order as the listing of SNP sources, with each population/allele/count information group corresponding to the respective SNP source based on order; thus, in this example, the first population/allele/count information group would correspond to the first listed SNP source (Celera) and the third population/allele/count information group separated by semicolons would correspond to the third listed SNP source (HGBASE); if population/allele/count information is not available for any particular SNP source, then a pair of semicolons is still inserted as a place-holder in order to maintain correspondence between the list of SNP sources and the corresponding listing of population/allele/count information.

    • SNP type (e.g., location within gene/transcript and/or predicted functional effect) [“MISSENSE MUTATION”=SNP causes a change in the encoded amino acid (i.e., a non-synonymous coding SNP); “SILENT MUTATION”=SNP does not cause a change in the encoded amino acid (i.e., a synonymous coding SNP); “STOP CODON MUTATION”=SNP is located in a stop codon; “NONSENSE MUTATION”=SNP creates or destroys a stop codon; “UTR 5”=SNP is located in a 5′ UTR of a transcript; “UTR 3”=SNP is located in a 3′ UTR of a transcript; “PUTATIVE UTR 5”=SNP is located in a putative 5′ UTR; “PUTATIVE UTR 3”=SNP is located in a putative 3′ UTR; “DONOR SPLICE SITE”=SNP is located in a donor splice site (5′ intron boundary); “ACCEPTOR SPLICE SITE”=SNP is located in an acceptor splice site (3′ intron boundary); “CODING REGION”=SNP is located in a protein-coding region of the transcript; “EXON”=SNP is located in an exon; “INTRON”=SNP is located in an intron; “hmCS”=SNP is located in a human-mouse conserved segment; “TFBS”=SNP is located in a transcription factor binding site; “UNKNOWN”=SNP type is not defined; “INTERGENIC”=SNP is intergenic, i.e., outside of any gene boundary].
    • Protein coding information (Table 1 only), where relevant, in the format of [protein SEQ ID NO, amino acid position, (amino acid-1, codon1) (amino acid-2, codon2)]. The information in this field includes SEQ ID NO of the encoded protein sequence, position of the amino acid residue within the protein identified by the SEQ ID NO that is encoded by the codon containing the SNP, amino acids (represented by one-letter amino acid codes) that are encoded by the alternative SNP alleles (in the case of stop codons, “X” is used for the one-letter amino acid code), and alternative codons containing the alternative SNP nucleotides which encode the amino acid residues (thus, for example, for missense mutation-type SNPs, at least two different amino acids and at least two different codons are generally indicated; for silent mutation-type SNPs, one amino acid and at least two different codons are generally indicated, etc.). In instances where the SNP is located outside of a protein-coding region (e.g., in a UTR region), “None” is indicated following the protein SEQ ID NO.


Description of Table 3


Table 3 provides a list of linkage disequilibrium (LD) SNPs that are related to and derived from certain interrogated SNPs. The interrogated SNPs, which are those SNPs provided in Tables 4-22, are statistically significantly associated with, for example, response to statin treatment for reducing CVD/CHD risk, as described and shown herein. The LD SNPs provided in Table 3 all have an r2 value at or above 0.9 (which was set as the Threshold r2 value), and are provided as examples of SNPs which can also be used as markers for, for example, response to statin treatment for reducing risk of CVD (especially CHD, such as MI and other coronary events, as well as cerebrovascular events such as stroke) based on their being in high LD with an interrogated statin response-associated SNP.


In Table 3, the columns labeled “Interrogated SNP” presents each interrogated SNP as identified by its unique hCV and rs identification number. The columns labeled “LD SNP” presents the hCV and rs numbers of the LD SNPs that are derived from their corresponding interrogated SNPs. The column labeled “Threshold r2” presents the minimum value of r2 that an LD SNP must meet in reference to an interrogated SNP in order to be included in Table 3 (the Threshold r2 value is set at 0.9 for all SNPs in Table 3). The column labeled “r2” presents the actual r2 value of the LD SNP in reference to the interrogated SNP to which it is related (since the Threshold r2 value is set at 0.9, all SNPs in Table 3 will have an r2 value at or above 0.9). The criteria for selecting the LD SNPs provided in Table 3 are further described in Example 4 below.


Sequences, SNP information, and associated gene/transcript/protein information for each of the LD SNPs listed in Table 3 is provided in Tables 1-2.


Description of Tables 4-22


Tables 4-22 provide the results of analyses for SNPs disclosed in Tables 1 and 2 (SNPs can be cross-referenced between all the tables herein based on their hCV and/or rs identification numbers). The results shown in Tables 4-22 provide support for the association of these SNPs with, for example, response to statin treatment for reducing the risk of CVD, particularly CHD (e.g., MI) and stroke.


Tables 4-8


The analyses in Tables 4-8 are further described in Example 1 below.


Cohort and case-only study designs were used to identify SNPs associated with response to statin treatment in sample sets from the CARE, WOSCOPS, and PROVE-IT trials (these sample sets, with corresponding references, are described in Example 1 below). Specifically, analyses were carried out using the entire cohorts (individuals with and without incident CHD or CVD events) or cases only (only individuals with an incident CHD or CVD event) from these three sample sets (individually, as well as in combined meta-analyses) to identify SNPs associated with a reduction in the risk of CHD or CVD (CVD includes CHD and stroke) in response to statin treatment, and the results of these analyses are provided in Table 4-7 (Table 8 provides the degree of LD (r2) between pairs of SNPs listed in Tables 5 and 7).


Tables 4-7 provides SNPs that had a synergy index (odds ratio) with P value lower than 10−4 in a meta-analysis of CARE and WOSCOPS combined (Table 4-5) or in a meta-analysis of CARE, WOSCOPS, and PROVE-IT combined (Table 6-7), in any genetic model (dominant, recessive, or additive) in either the CHD or CVD endpoint (the CHD or CVD endpoint is indicated in the last column, labeled “Endpoint”, of Tables 4-7, and the genetic model is indicated in the next to last column, labeled “Model”, of Tables 4-7). For each analysis, Tables 4-7 indicate whether the data comes from case-only analysis (“CaseOnly” in the “Source” column) or from analysis of the entire cohort (“cohort” in the “Source” column). Whenever cohort data was available, it was used in the meta-analysis.


Tables 4-5 provide meta-analyses of CARE and WOSCOPS combined (2nd section of each table) for two endpoints (CHD and CVD) and three genetic models (dominant, recessive, and additive), as well as logistic regression analyses of CARE (3rd section of each table) and WOSCOPS (4th section of each table) individually.


Tables 6-7 provide meta-analyses of CARE, WOSCOPS, and PROVE-IT combined (2nd section of each table) for two endpoints (CHD and CVD) and three genetic models (dominant, recessive, and additive), as well as logistic regression analyses of CARE (3rd section of each table), WOSCOPS (4th section of each table), and PROVE-IT (5th section of each table) individually. For PROVE-IT, there was only one endpoint (the composite primary endpoint of the original PROVE-IT study, which includes some stroke cases), and this endpoint was used in meta-analysis of both CHD and CVD.


Tables 5 and 7 provide analyses of certain LD SNPs in CARE and WOSCOPS (Table 5) and in CARE, WOSCOPS, and PROVE-IT (Table 7). For some SNPs, case-only data was available for a first SNP while cohort data was available for a SNP in LD with the first SNP (LD SNP), which occurred when a working kPCR assay could not be made for the first SNP. For these SNPs, the data for case-only analysis and the available data for the cohort is reported. The meta-analysis was performed using the cohort data when available. These SNPs are listed in Tables 5 and 7, with the two SNPs in LD listed one below the other, and the degree of LD between each of these pairs of SNPs is provided in Table 8.


Notations in Tables 4-7 are as follows:


In Tables 4-7, “allele A1” may be interchangeably referred to as the “non-reference allele” (“non-ref”), and “allele A2” may be interchangeably referred to as the “reference allele” (“ref”). The OR's that are indicated in Tables 4-7 correspond to the indicated “non-reference allele” (“allele A1”). Thus, if OR<1, the “non-reference allele” (“allele A1”) is associated with reduction of CVD/CHD risk by statin treatment, whereas if OR>1, the other alternative allele at the SNP (the “reference allele” or “allele A2”) is associated with reduction of CVD/CHD risk by statin treatment.


The counts are indicated in the following format: allele A1 homozygotes/heterozygotes/allele A2 homozygotes. These counts indicate the number of individuals in the pravastatin (“Prava”), placebo, or atorvastatin (“Atorva”) arms of the CARE, WOSCOPS, or PROVE-IT trials (as indicated) who have the corresponding genotypes.


In Tables 4-7, “P value” indicates the p-value, “OR” indicates the odds ratio (synergy index), “OR L95” and “OR U95” indicates the lower and upper (respectively) 95% confidence interval for the odds ratio, and “Source” indicates whether the data comes from case-only analysis (“CaseOnly”) or from analysis of the entire cohort (“cohort”).


Tables 9-18


Tables 9-18 provide additional SNPs associated with response to statin treatment for reducing CVD/CHD risk. Tables 9-18 differ from Tables 4-8 in that Tables 9-18 include SNPs analyzed by imputation as well as by genotyping, whereas all of the SNPs in Tables 4-8 were analyzed by genotyping. Imputation involves imputing the allele/genotype present at a SNP for each individual in the sample set (CARE, WOSCOPS, and PROVE-IT) rather than directly genotyping the SNP in a sample from the individual. The column labeled “Source” in each of Tables 9-18 indicates whether the data presented for each SNP was derived from imputation or from genotyping.


Specifically, analyses were carried out using the same three sample sets as in Tables 4-8 (CARE, WOSCOPS, and PROVE-IT) to identify (by both genotyping and imputation) additional SNPs beyond those provided in Tables 4-8 that are also associated with a reduction in the risk of CHD or CVD. Tables 9-18 provide results of analyses of statin response for the same two endpoints as in Tables 4-8 (CHD in Tables 9-13, and CVD in Tables 14-18) and four genetic models (dominant, recessive, additive, and genotypic 2df).


Tables 9-18 provide genotyped and imputed SNPs for which the p-value for a random effect was lower than 10−4 for either the meta-analysis of CARE and WOSCOPS combined or the meta-analysis of CARE, WOSCOPS, and PROVE-IT combined, for either the CHD or CVD endpoint, and for any genetic model (dominant, recessive, additive, or genotypic). Association interaction between statin response and either the CHD or CVD phenotype was performed.


Tables 9-13 have CHD as an endpoint, whereas Tables 14-18 have CVD as an endpoint (CVD includes CHD and stroke).


Tables 9 and 14 provide results of logistic regression analysis of the CARE sample set by direct genotyping and by imputing genotypes.


Tables 10 and 15 provide results of logistic regression analysis of the WOSCOPS sample set by direct genotyping and by imputing genotypes.


Tables 11 and 16 provide results of logistic regression analysis of the PROVE-IT sample set by direct genotyping and by imputing genotypes.


Tables 12 and 17 provide results of meta-analysis of the CARE and WOSCOPS sample sets combined by direct genotyping and by imputing genotypes.


Tables 13 and 18 provide results of meta-analysis of the CARE, WOSCOPS, and PROVE-IT sample sets combined by direct genotyping and by imputing genotypes.


Notations in Tables 9-11 and 14-16 (for the analysis of CARE, WOSCOPS, and PROVE-IT sample sets individually) are as follows:


“SOURCE” indicates whether each SNP was genotyped (“Genotyped”) or imputed (“Imputed”).


“ALLELE” indicates the allele for which the given data (such as the OR) correspond to, which is also referred to herein as allele “A1” (and the other alternative allele at each SNP, which is not shown in Tables 9-11 and 14-16, but is shown in Tables 1-2 for each SNP, is referred to as allele “A2”).


“MODEL” indicates whether the model was additive (“ADD”), recessive (“REC”), dominant (“DOM”), or genotypic 2df (“GEN”).


“NMISS” indicates the number of genotypes present in the analysis (the number of non-missing genotypes).


“OR” indicates the odds ratio (synergy index (SI)). If the odds ratio is less than one for the indicated allele (i.e., allele A1) then this indicates that this allele is associated with statin response (benefit from statin treatment), i.e., fewer CVD or CHD events (e.g., MI) were observed in individuals with this allele in the pravastatin arm of CARE or WOSCOPS or the atorvastatin arm of PROVE-IT, relative to individuals with this allele in the placebo arm of CARE or WOSCOPS or the pravastatin arm of PROVE-IT. If the odds ratio is greater than one for the indicated allele, then this indicates that the other alternative allele at the SNP (the allele which is not shown in Tables 9-11 and 14-16, but is indicated in Tables 1-2, i.e., allele A2), is associated with statin response (benefit from statin treatment).


“SE” indicates standard error of the natural log of the synergy index (the synergy index is the odds ratio, labeled “OR”).


“L95” and “U95” indicates the lower and upper (respectively) 95% confidence interval for the odds ratio.


“STAT” is the test statistic used in evaluating the significance of an association in logistic regression analysis. The statistic is equal to the natural log of the synergy index divided by its standard error and follows a Gaussian distribution under the null hypothesis that the synergy index is equal to one.


“P” indicates the p-value (corresponding to a statistical test of whether the synergy index is equal to one), and “HW_PVALUE” indicates the p-value corresponding to a statistical test of whether the distribution of genotypes among subjects in the study agrees with the distribution expected according to Hardy-Weinberg equilibrium.


“ALLELE_FREQ” indicates the allele frequency of the given allele in the analyzed sample set (CARE in Tables 9 and 14; WOSCOPS in Tables 10 and 15; or PROVE-IT in Tables 11 and 16).


“PRAVA_ALLELE_FREQ” or “ATORVA_ALLELE_FREQ” indicates the allele frequency of the given allele in the pravastatin or atorvastatin-treated arms (respectively) of the CARE, WOSCOPS, or PROVE-IT trials.


“PRAVA_A1_HZ_COUNT”, “PRAVA_HET_COUNT”, and “PRAVA_A2_HZ_COUNT” (or, in Tables 11 and 16, “ATORVA_A1_HZ_COUNT”, “ATORVA_HET_COUNT”, and “ATORVA_A2_HZ_COUNT”) indicate the number of homozygotes of the allele that is indicated in the table (allele A1), the number of heterozygotes, and the number of homozygotes of the other alternative allele (allele A2) at the SNP, respectively, in the pravastatin arm of the CARE trial (in Tables 9 and 14) or the WOSCOPS trial (in Tables 10 and 15), or in the atorvastatin arm of the PROVE-IT trial (in Tables 11 and 16, in which the column headings labeled “atorvastatin” (“atorva”) are analogous to the column headings labeled “pravastatin” (“prava”) in Tables 9-10 and 14-15).


“PLACEBO_A1_HZ_COUNT”, “PLACEBO_HET_COUNT”, and “PLACEBO_A2_HZ_COUNT” (or, in Tables 11 and 16, “PRAVA_A1_HZ_COUNT”, “PRAVA_HET_COUNT”, and “PRAVA_A2_HZ_COUNT”) indicate the number of homozygotes of the allele that is indicated in the table (allele A1), the number of heterozygotes, and the number of homozygotes of the other alternative allele (allele A2) at the SNP, respectively, in the placebo arm of the CARE trial (in Tables 9 and 14) or the WOSCOPS trial (in Tables 10 and 15), or in the pravastatin arm of the PROVE-IT trial (in Tables 11 and 16, in which the column headings labeled “pravastatin” (“prava”) are analogous to the column headings labeled “placebo” in Tables 9-10 and 14-15).


Notations in Tables 12-13 and 17-18 (for the meta-analysis of CARE and WOSCOPS combined, and CARE, WOSCOPS, and PROVE-IT combined) are as follows:


“SOURCE” indicates whether each SNP was genotyped or imputed.


“ALLELE” indicates the allele for which the given data (such as the OR) correspond to, which is also referred to herein as allele “A1” (and the other alternative allele at each SNP, which is not shown in Tables 12-13 and 17-18, but is shown in Tables 1-2 for each SNP, is referred to as allele “A2”).


“MODEL” indicates whether the model was additive, recessive, dominant, or genotypic.


“P” indicates the p-value, and “P(R)” (or “P.R.”) indicates the p-value random effect. Both of these are p-values corresponding to a statistical test of whether the combined synergy index is equal to one but use different assumptions to derive the p-value. “P” is calculated using a fixed effects model, and “P(R)” is calculated using a random effects model.


“OR” indicates the odds ratio (synergy index) calculated from a fixed effects model, and “OR(R)” (or “OR.R.”) indicates the odds ratio (synergy index) calculated from a random effects model. If the odds ratio is less than one for the indicated allele (i.e., allele A1) then this indicates that this allele is associated with statin response (benefit from statin treatment), i.e., fewer CVD or CHD events (e.g., MI) were observed in individuals with this allele in a combined meta-analysis of the pravastatin arms of CARE and WOSCOPS (Tables 12 and 17) and the atorvastatin arm of PROVE-IT (Tables 13 and 18), relative to individuals with this allele in the placebo arms of CARE and WOSCOPS (Tables 12 and 17) and the pravastatin arm of PROVE-IT (Tables 13 and 18). If the odds ratio is greater than one for the indicated allele, then this indicates that the other alternative allele at the SNP (the allele which is not shown in Tables 12-13 and 17-18, but is indicated in Tables 1-2, i.e., allele A2), is associated with statin response (benefit from statin treatment).


“Q” indicates the Cochran Q test p-value, which is a p-value corresponding to the statistical test of the homogeneity of the synergy index across studies (small p-values indicate a greater degree of heterogeneity between studies).


“I” indicates the I2 heterogeneity index, which can be interpreted as the proportion of total variation in the estimates of effect that is due to heterogeneity between studies.


Table 19


The analysis in Table 19 is further described in Example 2 below.


Notations in Table 19 are similar to Tables 4-7. “P.R.” and “OR.R.” indicate the p-value and odds ratio (synergy index), respectively, calculated from a random effects model (rather than a fixed effects model).


Table 19 shows that SNP rs11556924 (hCV31283062) in the ZC3HC1 gene is associated with differential reduction of CHD risk by pravastatin therapy in both the CARE and WOSCOPS sample sets.


Tables 20-22


The analyses in Tables 20-22 are further described in Example 3 below.


The results shown in Tables 20-22 provide support for the association of these SNPs with CVD risk and/or statin response, particularly risk for stroke and/or response to statin treatment for reducing the risk of stroke (Tables 20-21) and CHD (Table 22).


Tables 20-21 provides SNPs associated with stroke risk and/or stroke statin response (reduction in stroke risk by statin treatment) in the CARE sample set. Consistent with the CARE trial, the stroke endpoint in the analysis for which the results are provided in Tables 20-21 included stroke as well as transient ischemic attack (TIA).


Table 22 provides a SNP associated with CHD statin response in the CARE sample set. Table 22 shows that SNP rs873134 in the B4GALNT3 gene is associated with response to statin treatment for reducing the risk of CHD, particularly recurrent MI. In the analysis for which the results are provided in Table 22, the endpoint was recurrent MI, and the analysis was adjusted for age, gender, hypertension, diabetes, base LDL and HDL, and whether an individual was a current smoker.


Notations in Tables 20-22 are as follows:


In Tables 20-22, certain columns are labeled “RESP”, “PLACEBO, OR “ALL”. “RESP” is for statin response as measured by comparing risk (risk for stroke, including TIA, in Tables 20-21, and risk for CHD, specifically recurrent MI, in Table 22) in the pravastatin-treated group with risk in the placebo-treated group, “PLACEBO” is the placebo-treated group, and “ALL” is the combination of the placebo-treated group and the pravastatin-treated group. “RESP” is the analysis to assess statin response in the indicated genotype group.


“MODE” indicates whether the model was additive (“ADD”), recessive (“REC”), dominant (“DOM”), or genotypic (“GEN”).


“mAF CEU” (Table 20 only) indicates the frequency of the minor allele in HapMap for Europeans.


“GENO” indicates the genotype.


“STATIN” indicates either the pravastatin-treated (“Pravastatin”) or placebo-treated (“Placebo”) groups (i.e., arms of the CARE trial).


“EVENTS” indicates the total number of events (stroke or TIA for Tables 20-21, and recurrent MI for Table 22) in individuals with the indicated genotype.


“TOTAL” indicates the total number of individuals with the indicated genotype.


“HR” indicates the hazard ratio.


“L95” and “U95” indicates the lower and upper (respectively) 95% confidence interval for the hazard ratio.


“P” indicates the p-value, “P_INT” indicates p-interaction, “P_DF2” indicates two degrees of freedom p-value, and “HW(ALL)pExact” (Table 21 only) indicates p exact for Hardy Weinberg Equilibrium for the ALL group.


Throughout Tables 4-22, “OR” refers to the odds ratio, “HR” refers to the hazard ratio, and “OR L95” or “OR U95” refers to the lower and upper (respectively) 95% confidence interval for the odds ratio or hazard ratio. With respect to drug response (e.g., response to a statin), if the OR or HR of those treated with the drug (e.g., a statin) compared with those treated with a placebo within a particular genotype (or with a particular allele) is less than one, this indicates that an individual with this particular genotype or allele would benefit from the drug (an OR or HR equal to one would indicate that the drug has no effect). In contrast, with respect to drug response, if the OR or HR is greater than one for a particular allele, then this indicates that an individual with the other alternative allele would benefit from the drug. As used herein, the term “benefit” (with respect to a preventive or therapeutic drug treatment) is defined as achieving a reduced risk for a disease that the drug is intended to treat or prevent (e.g., CVD such as CHD, particularly MI) by administering the drug treatment, compared with the risk for the disease in the absence of receiving the drug treatment (or receiving a placebo in lieu of the drug treatment) for the same genotype.


With respect to disease risk, an OR or HR that is greater than one indicates that a given allele is a risk allele (which may also be referred to as a susceptibility allele), whereas an OR or HR that is less than one indicates that a given allele is a non-risk allele (which may also be referred to as a protective allele). For a given risk allele, the other alternative allele at the SNP position (which can be derived from the information provided in Tables 1-2, for example) may be considered a non-risk allele. For a given non-risk allele, the other alternative allele at the SNP position may be considered a risk allele. Thus, with respect to disease risk, if the OR or HR for a particular allele at a SNP position is greater than one, this indicates that an individual with this particular allele has a higher risk for the disease than an individual who has the other allele at the SNP position. In contrast, if the OR or HR for a particular allele is less than one, this indicates that an individual with this particular allele has a reduced risk for the disease compared with an individual who has the other allele at the SNP position.







DETAILED DESCRIPTION OF THE INVENTION

Exemplary embodiments of the present invention provide SNPs associated with response to statin treatment, particularly for reducing the risk of CVD (especially CHD, such as MI and other coronary events, as well as cerebrovascular events such as stroke), and methods for their use. The present invention further provides nucleic acid molecules containing these SNPs, methods and reagents for the detection of the SNPs disclosed herein, uses of these SNPs for the development of detection reagents, and assays or kits that utilize such reagents. The statin response-associated SNPs disclosed herein are particularly useful for predicting, screening for, and evaluating response to statin treatment, particularly for prevention or treatment of CVD (particularly CHD, such as MI and other coronary events, as well as cerebrovascular events such as stroke) using statins, in humans. The SNPs disclosed herein are also useful for diagnosing, prognosing, screening for, and evaluating predisposition to CVD, particularly CHD (such as MI) as well as cerebrovascular events such as stroke, in humans. Furthermore, such SNPs and their encoded products are useful targets for the development of therapeutic and preventive agents.


Thus, exemplary embodiments of the present invention provide individual SNPs associated with response to statin treatments, particularly for reducing the risk of CVD (especially CHD, such as MI and other coronary events, as well as cerebrovascular events such as stroke), as well as combinations of SNPs and haplotypes, polymorphic/variant transcript sequences (SEQ ID NOS:1-51) and genomic sequences (SEQ ID NOS:177-622) containing SNPs, encoded amino acid sequences (SEQ ID NOS:52-102), and both transcript-based SNP context sequences (SEQ ID NOS:103-176) and genomic-based SNP context sequences (SEQ ID NOS:623-3661) (transcript sequences, protein sequences, and transcript-based SNP context sequences are provided in Table 1 and the Sequence Listing; genomic sequences and genomic-based SNP context sequences are provided in Table 2 and the Sequence Listing), methods of detecting these polymorphisms in a test sample, methods of determining if an individual is likely to respond to a particular treatment such as statins (particularly for treating or preventing CVD, such as CHD or stroke), methods of determining an individual's risk for developing CVD, methods of screening for compounds useful for treating CVD, compounds identified by these screening methods, methods of using the disclosed SNPs to select a treatment/preventive strategy or therapeutic agent, and methods of treating or preventing CVD.


Exemplary embodiments of the present invention further provide methods for selecting or formulating a treatment regimen (e.g., methods for determining whether or not to administer statin treatment to an individual having CVD, or who is at risk for developing CVD in the future, or who has previously had CVD, methods for selecting a particular statin-based treatment regimen such as dosage and frequency of administration of statin, or a particular form/type of statin such as a particular pharmaceutical formulation or statin compound, methods for administering (either in addition to or instead of a statin) an alternative, non-statin-based treatment, such as niacin, fibrates, or ezetimibe (e.g., Zetia® or Ezetrol®), to individuals who are predicted to be unlikely to respond positively to statin treatment, etc.), and methods for determining the likelihood of experiencing toxicity or other undesirable side effects from statin treatment, etc. The present invention also provides methods for selecting individuals to whom a statin or other therapeutic will be administered based on the individual's genotype, and methods for selecting individuals for a clinical trial of a statin or other therapeutic agent based on the genotypes of the individuals (e.g., selecting individuals to participate in the trial who are most likely to respond positively from the statin treatment and/or excluding individuals from the trial who are unlikely to respond positively from the statin treatment based on their SNP genotype(s), or selecting individuals who are unlikely to respond positively to statins based on their SNP genotype(s) to participate in a clinical trial of another type of drug that may benefit them).


Exemplary embodiments of the present invention may include novel SNPs associated with response to statin treatment, as well as SNPs that were previously known in the art, but were not previously known to be associated with response to statin treatment. Accordingly, the present invention may provide novel compositions and methods based on novel SNPs disclosed herein, and may also provide novel methods of using known, but previously unassociated, SNPs in methods relating to, for example, methods relating to evaluating an individual's likelihood of responding to statin treatment (particularly statin treatment, including preventive treatment, of CVD, such as CHD or stroke), evaluating an individual's likelihood of having or developing CVD (particularly CHD or stroke), and predicting the likelihood of an individual experiencing a reccurrence of CVD (e.g., experiencing recurrent MI). In Tables 1 and 2, known SNPs are identified based on the public database in which they have been observed, which is indicated as one or more of the following SNP types: “dbSNP”=SNP observed in dbSNP, “HGBASE”=SNP observed in HGBASE, and “HGMD”=SNP observed in the Human Gene Mutation Database (HGMD).


Particular alleles of the SNPs disclosed herein can be associated with either an increased likelihood of responding to statin treatment (particularly for reducing the risk of CVD, such as CHD (e.g., MI) or stroke) or increased risk of developing CVD (e.g., CHD or stroke), or a decreased likelihood of responding to statin treatment or a decreased risk of developing CVD. Thus, whereas certain SNPs (or their encoded products) can be assayed to determine whether an individual possesses a SNP allele that is indicative of an increased likelihood of responding to statin treatment or an increased risk of developing CVD, other SNPs (or their encoded products) can be assayed to determine whether an individual possesses a SNP allele that is indicative of a decreased likelihood of responding to statin treatment or a decreased risk of developing CVD. Similarly, particular alleles of the SNPs disclosed herein can be associated with either an increased or decreased likelihood of having a reccurrence of CVD (e.g., recurrent MI), etc. The term “altered” may be used herein to encompass either of these two possibilities (e.g., either an increased or a decreased likelihood/risk).


SNP alleles that are associated with increased response to statin treatment for reducing CVD risk (benefit from statin treatment) may be referred to as “response” alleles, and SNP alleles that are associated with a lack of response to statin treatment may be referred to as “non-response” alleles. SNP alleles that are associated with an increased risk of having or developing CVD may be referred to as “risk” or “susceptibility” alleles, and SNP alleles that are associated with a decreased risk of having or developing CVD may be referred to as “non-risk” or “protective” alleles.


In certain embodiments, the presence of a statin response allele disclosed herein in Tables 4-22 (an allele associated with increased response to statin treatment for reducing CVD or CHD risk) is detected and indicates that an individual has an increased risk for developing CVD, such as CHD (e.g., MI) or stroke. In these embodiments, in which the same allele is associated with both increased risk for developing CVD and increased response to statin treatment (i.e., the same allele is both a risk and a response allele), this increased risk for developing CVD can be reduced by administering statin treatment to an individual having the allele.


Those skilled in the art will readily recognize that nucleic acid molecules may be double-stranded molecules and that reference to a particular site on one strand refers, as well, to the corresponding site on a complementary strand. In defining a SNP position, SNP allele, or nucleotide sequence, reference to an adenine, a thymine (uridine), a cytosine, or a guanine at a particular site on one strand of a nucleic acid molecule also defines the thymine (uridine), adenine, guanine, or cytosine (respectively) at the corresponding site on a complementary strand of the nucleic acid molecule. Thus, reference may be made to either strand in order to refer to a particular SNP position, SNP allele, or nucleotide sequence. Probes and primers, may be designed to hybridize to either strand and SNP genotyping methods disclosed herein may generally target either strand. Throughout the specification, in identifying a SNP position, reference is generally made to the protein-encoding strand, only for the purpose of convenience.


References to variant peptides, polypeptides, or proteins of the present invention include peptides, polypeptides, proteins, or fragments thereof, that contain at least one amino acid residue that differs from the corresponding amino acid sequence of the art-known peptide/polypeptide/protein (the art-known protein may be interchangeably referred to as the “wild-type,” “reference,” or “normal” protein). Such variant peptides/polypeptides/proteins can result from a codon change caused by a nonsynonymous nucleotide substitution at a protein-coding SNP position (i.e., a missense mutation) disclosed by the present invention. Variant peptides/polypeptides/proteins of the present invention can also result from a nonsense mutation (i.e., a SNP that creates a premature stop codon, a SNP that generates a read-through mutation by abolishing a stop codon), or due to any SNP disclosed by the present invention that otherwise alters the structure, function, activity, or expression of a protein, such as a SNP in a regulatory region (e.g. a promoter or enhancer) or a SNP that leads to alternative or defective splicing, such as a SNP in an intron or a SNP at an exon/intron boundary. As used herein, the terms “polypeptide,” “peptide,” and “protein” are used interchangeably.


As used herein, an “allele” may refer to a nucleotide at a SNP position (wherein at least two alternative nucleotides exist in the population at the SNP position, in accordance with the inherent definition of a SNP) or may refer to an amino acid residue that is encoded by the codon which contains the SNP position (where the alternative nucleotides that are present in the population at the SNP position form alternative codons that encode different amino acid residues). An “allele” may also be referred to herein as a “variant”. Also, an amino acid residue that is encoded by a codon containing a particular SNP may simply be referred to as being encoded by the SNP.


A phrase such as “as represented by”, “as shown by”, “as symbolized by”, or “as designated by” may be used herein to refer to a SNP within a sequence (e.g., a polynucleotide context sequence surrounding a SNP), such as in the context of “a polymorphism as represented by position 101 of SEQ ID NO:X or its complement”. Typically, the sequence surrounding a SNP may be recited when referring to a SNP, however the sequence is not intended as a structural limitation beyond the specific SNP position itself. Rather, the sequence is recited merely as a way of referring to the SNP (in this example, “SEQ ID NO:X or its complement” is recited in order to refer to the SNP located at position 101 of SEQ ID NO:X, but SEQ ID NO:X or its complement is not intended as a structural limitation beyond the specific SNP position itself). In other words, it is recognized that the context sequence of SEQ ID NO:X in this example may contain one or more polymorphic nucleotide positions outside of position 101 and therefore an exact match over the full-length of SEQ ID NO:X is irrelevant since SEQ ID NO:X is only meant to provide context for referring to the SNP at position 101 of SEQ ID NO:X. Likewise, the length of the context sequence is also irrelevant (100 nucleotides on each side of a SNP position has been arbitrarily used in the present application as the length for context sequences merely for convenience and because 201 nucleotides of total length is expected to provide sufficient uniqueness to unambiguously identify a given nucleotide sequence). Thus, since a SNP is a variation at a single nucleotide position, it is customary to refer to context sequence (e.g., SEQ ID NO:X in this example) surrounding a particular SNP position in order to uniquely identify and refer to the SNP. Alternatively, a SNP can be referred to by a unique identification number such as a public “rs” identification number or an internal “hCV” identification number, such as provided herein for each SNP (e.g., in Tables 1-2). For example, in the instant application, “rs11556924”, “hCV31283062”, and “position 101 of SEQ ID NO:1074” all refer to the same SNP.


As used herein, the term “benefit” (with respect to a preventive or therapeutic drug treatment, such as statin treatment) is defined as achieving a reduced risk for a disease that the drug is intended to treat or prevent (e.g., CVD such as CHD (particularly MI) or stroke) by administrating the drug treatment, compared with the risk for the disease in the absence of receiving the drug treatment (or receiving a placebo in lieu of the drug treatment) for the same genotype. The term “benefit” may be used herein interchangeably with terms such as “respond positively” or “positively respond”.


As used herein, the terms “drug” and “therapeutic agent” are used interchangeably, and may include, but are not limited to, small molecule compounds, biologics (e.g., antibodies, proteins, protein fragments, fusion proteins, glycoproteins, etc.), nucleic acid agents (e.g., antisense, RNAi/siRNA, and microRNA molecules, etc.), vaccines, etc., which may be used for therapeutic and/or preventive treatment of a disease (e.g., CVD such as CHD or stroke).


Examples of statins (also known as HMG-CoA reductase inhibitors) include, but are not limited to, atorvastatin (Lipitor®), rosuvastatin (Crestor®), pravastatin (Pravachol®), simvastatin (Zocor®), fluvastatin (Lescol®), and lovastatin (Mevacor®), as well as combination therapies that include a statin such as simvastatin+ezetimibe (Vytorin®), lovastatin+niacin (Advicor®), atorvastatin+amlodipine besylate (Caduet®), and simvastatin+niacin (Simcor®).


Certain exemplary embodiments of the invention provide the following compositions and uses: (1) a reagent (such as an allele-specific probe or primer, or any other oligonucleotide or other reagent suitable for detecting a polymorphism disclosed herein, which can include detection of any allele of the polymorphism) for use as a diagnostic or predictive agent for determining statin response, particularly for reducing the risk of CVD such as CHD (e.g., MI) or stroke (and/or for determining risk for developing CVD); (2) a kit, device, array, or assay component that includes or is coupled with the reagent of (1) above for use in determining statin response, particularly for reducing the risk of CVD (and/or for determining risk for developing CVD); (3) the use of the reagent of (1) above for the manufacture of a kit, device, array, or assay component for determining statin response, particularly for reducing the risk of CVD (and/or for determining risk for CVD); and (4) the use of a polymorphism disclosed herein for the manufacture of a reagent for use as a diagnostic or predictive agent for determining statin response, particularly for reducing the risk of CVD (and/or for determining risk for developing CVD).


The various methods described herein, such as correlating the presence or absence of a polymorphism with the predicted response of an individual to a drug such as a statin, particularly for reducing the risk for CVD such as CHD (e.g., MI) or stroke (and/or correlating the presence or absence of a polymorphism with an altered (e.g., increased or decreased) risk (or no altered risk) for developing CVD), can be carried out by automated methods such as by using a computer (or other apparatus/devices such as biomedical devices, laboratory instrumentation, or other apparatus/devices having a computer processor) programmed to carry out any of the methods described herein. For example, computer software (which may be interchangeably referred to herein as a computer program) can perform the step of correlating the presence or absence of a polymorphism in an individual with an altered (e.g., increased or decreased) response (or no altered response) to statin treatment, particularly for reducing the risk for CVD such as CHD (e.g., MI) or stroke. Accordingly, certain embodiments of the invention provide a computer (or other apparatus/device) programmed to carry out any of the methods described herein.


Reports, Programmed Computers, Business Methods, and Systems


The results of a test (e.g., an individual's predicted responsiveness to statin treatment for reducing CVD risk, or an individual's risk for developing CVD, based on assaying one or more SNPs disclosed herein, and/or an individual's allele(s)/genotype at one or more SNPs disclosed herein, etc.), and/or any other information pertaining to a test, may be referred to herein as a “report”. A tangible report can optionally be generated as part of a testing process (which may be interchangeably referred to herein as “reporting”, or as “providing” a report, “producing” a report, or “generating” a report).


Examples of tangible reports may include, but are not limited to, reports in paper (such as computer-generated printouts of test results) or equivalent formats and reports stored on computer readable medium (such as a CD, USB flash drive or other removable storage device, computer hard drive, or computer network server, etc.). Reports, particularly those stored on computer readable medium, can be part of a database, which may optionally be accessible via the internet (such as a database of patient records or genetic information stored on a computer network server, which may be a “secure database” that has security features that limit access to the report, such as to allow only the patient and the patient's medical practioners to view the report while preventing other unauthorized individuals from viewing the report, for example). In addition to, or as an alternative to, generating a tangible report, reports can also be displayed on a computer screen (or the display of another electronic device or instrument).


A report can include, for example, an individual's predicted responsiveness to statin treatment (e.g., whether the individual will benefit from statin treatment by having their risk for CVD, particularly CHD (e.g., MI) or stroke, reduced), or may just include the allele(s)/genotype that an individual carries at one or more SNPs disclosed herein, which may optionally be linked to information regarding the significance of having the allele(s)/genotype at the SNP (for example, a report on computer readable medium such as a network server may include hyperlink(s) to one or more journal publications or websites that describe the medical/biological implications, such as statin response and/or CVD risk, for individuals having a certain allele/genotype at the SNP). Thus, for example, the report can include drug responsiveness, disease risk, and/or other medical/biological significance, as well as optionally also including the allele/genotype information, or the report may just include allele/genotype information without including drug responsiveness, disease risk, or other medical/biological significance (such that an individual viewing the report can use the allele/genotype information to determine the associated drug response, disease risk, or other medical/biological significance from a source outside of the report itself, such as from a medical practioner, publication, website, etc., which may optionally be linked to the report such as by a hyperlink).


A report can further be “transmitted” or “communicated” (these terms may be used herein interchangeably), such as to the individual who was tested, a medical practitioner (e.g., a doctor, nurse, clinical laboratory practitioner, genetic counselor, etc.), a healthcare organization, a clinical laboratory, and/or any other party or requester intended to view or possess the report. The act of “transmitting” or “communicating” a report can be by any means known in the art, based on the format of the report. Furthermore, “transmitting” or “communicating” a report can include delivering/sending a report (“pushing”) and/or retrieving (“pulling”) a report. For example, reports can be transmitted/communicated by various means, including being physically transferred between parties (such as for reports in paper format) such as by being physically delivered from one party to another, or by being transmitted electronically or in signal form (e.g., via e-mail or over the internet, by facsimile, and/or by any wired or wireless communication methods known in the art) such as by being retrieved from a database stored on a computer network server, etc.


In certain exemplary embodiments, the invention provides computers (or other apparatus/devices such as biomedical devices or laboratory instrumentation) programmed to carry out the methods described herein. For example, in certain embodiments, the invention provides a computer programmed to receive (i.e., as input) the identity (e.g., the allele(s) or genotype at a SNP) of one or more SNPs disclosed herein and provide (i.e., as output) the predicted drug responsiveness or disease risk (e.g., an individual's predicted statin responsiveness or risk for developing CVD) or other result based on the identity of the SNP(s). Such output (e.g., communication of disease risk, disease diagnosis or prognosis, drug responsiveness, etc.) may be, for example, in the form of a report on computer readable medium, printed in paper form, and/or displayed on a computer screen or other display.


In various exemplary embodiments, the invention further provides methods of doing business (with respect to methods of doing business, the terms “individual” and “customer” are used herein interchangeably). For example, exemplary methods of doing business can comprise assaying one or more SNPs disclosed herein and providing a report that includes, for example, a customer's predicted response to statin treatment (e.g., for reducing their risk for CVD, particularly CHD (such as MI) or stroke) or their risk for developing CVD (based on which allele(s)/genotype is present at the assayed SNP(s)) and/or that includes the allele(s)/genotype at the assayed SNP(s) which may optionally be linked to information (e.g., journal publications, websites, etc.) pertaining to disease risk or other biological/medical significance such as by means of a hyperlink (the report may be provided, for example, on a computer network server or other computer readable medium that is internet-accessible, and the report may be included in a secure database that allows the customer to access their report while preventing other unauthorized individuals from viewing the report), and optionally transmitting the report. Customers (or another party who is associated with the customer, such as the customer's doctor, for example) can request/order (e.g., purchase) the test online via the internet (or by phone, mail order, at an outlet/store, etc.), for example, and a kit can be sent/delivered (or otherwise provided) to the customer (or another party on behalf of the customer, such as the customer's doctor, for example) for collection of a biological sample from the customer (e.g., a buccal swab for collecting buccal cells), and the customer (or a party who collects the customer's biological sample) can submit their biological samples for assaying (e.g., to a laboratory or party associated with the laboratory such as a party that accepts the customer samples on behalf of the laboratory, a party for whom the laboratory is under the control of (e.g., the laboratory carries out the assays by request of the party or under a contract with the party, for example), and/or a party that receives at least a portion of the customer's payment for the test). The report (e.g., results of the assay including, for example, the customer's disease risk and/or allele(s)/genotype at the assayed SNP(s)) may be provided to the customer by, for example, the laboratory that assays the SNP(s) or a party associated with the laboratory (e.g., a party that receives at least a portion of the customer's payment for the assay, or a party that requests the laboratory to carry out the assays or that contracts with the laboratory for the assays to be carried out) or a doctor or other medical practitioner who is associated with (e.g., employed by or having a consulting or contracting arrangement with) the laboratory or with a party associated with the laboratory, or the report may be provided to a third party (e.g., a doctor, genetic counselor, hospital, etc.) which optionally provides the report to the customer. In further embodiments, the customer may be a doctor or other medical practitioner, or a hospital, laboratory, medical insurance organization, or other medical organization that requests/orders (e.g., purchases) tests for the purposes of having other individuals (e.g., their patients or customers) assayed for one or more SNPs disclosed herein and optionally obtaining a report of the assay results.


In certain exemplary methods of doing business, a kit for collecting a biological sample (e.g., a buccal swab for collecting buccal cells, or other sample collection device) is provided to a medical practitioner (e.g., a physician) which the medical practitioner uses to obtain a sample (e.g., buccal cells, saliva, blood, etc.) from a patient, the sample is then sent to a laboratory (e.g., a CLIA-certified laboratory) or other facility that tests the sample for one or more SNPs disclosed herein (e.g., to determine the genotype of one or more SNPs disclosed herein, such as to determine the patient's predicted response to statin treatment for reducing their risk for CVD, particularly CHD (such as MI) or stroke, and/or their risk for developing CVD), and the results of the test (e.g., the patient's genotype at one or more SNPs disclosed herein and/or the patient's predicted statin response or CVD risk based on their SNP genotype) are provided back to the medical practitioner (and/or directly to the patient and/or to another party such as a hospital, medical insurance company, genetic counselor, etc.) who may then provide or otherwise convey the results to the patient. The results are typically provided in the form of a report, such as described above.


In certain further exemplary methods of doing business, kits for collecting a biological sample from a customer (e.g., a buccal swab for collecting buccal cells, or other sample collection device) are provided (e.g., for sale), such as at an outlet (e.g., a drug store, pharmacy, general merchandise store, or any other desirable outlet), online via the internet, by mail order, etc., whereby customers can obtain (e.g., purchase) the kits, collect their own biological samples, and submit (e.g., send/deliver via mail) their samples to a laboratory (e.g., a CLIA-certified laboratory) or other facility which tests the samples for one or more SNPs disclosed herein (e.g., to determine the genotype of one or more SNPs disclosed herein, such as to determine the customer's predicted response to statin treatment for reducing their risk for CVD, particularly CHD (e.g., MI) or stroke, and/or their risk for developing CVD) and provides the results of the test (e.g., of the customer's genotype at one or more SNPs disclosed herein and/or the customer's statin response or CVD risk based on their SNP genotype) back to the customer and/or to a third party (e.g., a physician or other medical practitioner, hospital, medical insurance company, genetic counselor, etc.). The results are typically provided in the form of a report, such as described above. If the results of the test are provided to a third party, then this third party may optionally provide another report to the customer based on the results of the test (e.g., the result of the test from the laboratory may provide the customer's genotype at one or more SNPs disclosed herein without statin response or CVD risk information, and the third party may provide a report of the customer's statin response or CVD risk based on this genotype result).


Certain further embodiments of the invention provide a system for determining whether an individual will benefit from statin treatment (or other therapy) in reducing CVD risk (particularly risk for CHD (such as MI) or stroke), or for determining an individual's risk for developing CVD. Certain exemplary systems comprise an integrated “loop” in which an individual (or their medical practitioner) requests a determination of such individual's predicted statin response (or CVD risk, etc.), this determination is carried out by testing a sample from the individual, and then the results of this determination are provided back to the requestor. For example, in certain systems, a sample (e.g., buccal cells, saliva, blood, etc.) is obtained from an individual for testing (the sample may be obtained by the individual or, for example, by a medical practitioner), the sample is submitted to a laboratory (or other facility) for testing (e.g., determining the genotype of one or more SNPs disclosed herein), and then the results of the testing are sent to the patient (which optionally can be done by first sending the results to an intermediary, such as a medical practioner, who then provides or otherwise conveys the results to the individual and/or acts on the results), thereby forming an integrated loop system for determining an individual's predicted statin response (or CVD risk, etc.). The portions of the system in which the results are transmitted (e.g., between any of a testing facility, a medical practitioner, and/or the individual) can be carried out by way of electronic or signal transmission (e.g., by computer such as via e-mail or the internet, by providing the results on a website or computer network server which may optionally be a secure database, by phone or fax, or by any other wired or wireless transmission methods known in the art). Optionally, the system can further include a risk reduction component (i.e., a disease management system) as part of the integrated loop (for an example of a disease management system, see U.S. Pat. No. 6,770,029, “Disease management system and method including correlation assessment”). For example, the results of the test can be used to reduce the risk of the disease in the individual who was tested, such as by implementing a preventive therapy regimen (e.g., administration of a statin or other drug for reducing CVD risk), modifying the individual's diet, increasing exercise, reducing stress, and/or implementing any other physiological or behavioral modifications in the individual with the goal of reducing disease risk. For reducing CVD risk, this may include any means used in the art for improving aspects of an individual's health relevant to reducing CVD risk. Thus, in exemplary embodiments, the system is controlled by the individual and/or their medical practioner in that the individual and/or their medical practioner requests the test, receives the test results back, and (optionally) acts on the test results to reduce the individual's disease risk, such as by implementing a disease management system.


Isolated Nucleic Acid Molecules and SNP Detection Reagents & Kits


Tables 1 and 2 provide a variety of information about each SNP of the present invention that is associated with response to statin treatment, particularly for reducing an individual's risk for CVD such as CHD (e.g., MI) or stroke, including the transcript sequences (SEQ ID NOS:1-51), genomic sequences (SEQ ID NOS:177-622), and protein sequences (SEQ ID NOS:52-102) of the encoded gene products (with the SNPs indicated by IUB codes in the nucleic acid sequences). In addition, Tables 1 and 2 include SNP context sequences, which generally include 100 nucleotide upstream (5′) plus 100 nucleotides downstream (3′) of each SNP position (SEQ ID NOS:103-176 correspond to transcript-based SNP context sequences disclosed in Table 1, and SEQ ID NOS:623-3661 correspond to genomic-based context sequences disclosed in Table 2), the alternative nucleotides (alleles) at each SNP position, and additional information about the variant where relevant, such as SNP type (coding, missense, splice site, UTR, etc.), human populations in which the SNP was observed, observed allele frequencies, information about the encoded protein, etc.


Isolated Nucleic Acid Molecules


Exemplary embodiments of the invention provide isolated nucleic acid molecules that contain one or more SNPs disclosed herein, particularly SNPs disclosed in Table 1 and/or Table 2. Isolated nucleic acid molecules containing one or more SNPs disclosed herein (such as in at least one of Tables 1 and 2) may be interchangeably referred to throughout the present text as “SNP-containing nucleic acid molecules.” Isolated nucleic acid molecules may optionally encode a full-length variant protein or fragment thereof. The isolated nucleic acid molecules of the present invention also include probes and primers (which are described in greater detail below in the section entitled “SNP Detection Reagents”), which may be used for assaying the disclosed SNPs, and isolated full-length genes, transcripts, cDNA molecules, and fragments thereof, which may be used for such purposes as expressing an encoded protein.


As used herein, an “isolated nucleic acid molecule” generally is one that contains a SNP of the present invention or one that hybridizes to such molecule such as a nucleic acid with a complementary sequence, and is separated from most other nucleic acids present in the natural source of the nucleic acid molecule. Moreover, an “isolated” nucleic acid molecule, such as a cDNA molecule containing a SNP of the present invention, can be substantially free of other cellular material, or culture medium when produced by recombinant techniques, or chemical precursors or other chemicals when chemically synthesized. A nucleic acid molecule can be fused to other coding or regulatory sequences and still be considered “isolated.” Nucleic acid molecules present in non-human transgenic animals, which do not naturally occur in the animal, are also considered “isolated.” For example, recombinant DNA molecules contained in a vector are considered “isolated.” Further examples of “isolated” DNA molecules include recombinant DNA molecules maintained in heterologous host cells, and purified (partially or substantially) DNA molecules in solution. Isolated RNA molecules include in vivo or in vitro RNA transcripts of the isolated SNP-containing DNA molecules of the present invention. Isolated nucleic acid molecules according to the present invention further include such molecules produced synthetically.


Generally, an isolated SNP-containing nucleic acid molecule comprises one or more SNP positions disclosed by the present invention with flanking nucleotide sequences on either side of the SNP positions. A flanking sequence can include nucleotide residues that are naturally associated with the SNP site and/or heterologous nucleotide sequences. Preferably, the flanking sequence is up to about 500, 300, 100, 60, 50, 30, 25, 20, 15, 10, 8, or 4 nucleotides (or any other length in-between) on either side of a SNP position, or as long as the full-length gene or entire protein-coding sequence (or any portion thereof such as an exon), especially if the SNP-containing nucleic acid molecule is to be used to produce a protein or protein fragment.


For full-length genes and entire protein-coding sequences, a SNP flanking sequence can be, for example, up to about 5 KB, 4 KB, 3 KB, 2 KB, 1 KB on either side of the SNP. Furthermore, in such instances the isolated nucleic acid molecule comprises exonic sequences (including protein-coding and/or non-coding exonic sequences), but may also include intronic sequences. Thus, any protein coding sequence may be either contiguous or separated by introns. The important point is that the nucleic acid is isolated from remote and unimportant flanking sequences and is of appropriate length such that it can be subjected to the specific manipulations or uses described herein such as recombinant protein expression, preparation of probes and primers for assaying the SNP position, and other uses specific to the SNP-containing nucleic acid sequences.


An isolated SNP-containing nucleic acid molecule can comprise, for example, a full-length gene or transcript, such as a gene isolated from genomic DNA (e.g., by cloning or PCR amplification), a cDNA molecule, or an mRNA transcript molecule. Polymorphic transcript sequences are referred to in Table 1 and provided in the Sequence Listing (SEQ ID NOS:1-51), and polymorphic genomic sequences are referred to in Table 2 and provided in the Sequence Listing (SEQ ID NOS:177-622). Furthermore, fragments of such full-length genes and transcripts that contain one or more SNPs disclosed herein are also encompassed by the present invention, and such fragments may be used, for example, to express any part of a protein, such as a particular functional domain or an antigenic epitope.


Thus, the present invention also encompasses fragments of the nucleic acid sequences as disclosed in Tables 1 and 2 (transcript sequences are referred to in Table 1 as SEQ ID NOS:1-51, genomic sequences are referred to in Table 2 as SEQ ID NOS:177-622, transcript-based SNP context sequences are referred to in Table 1 as SEQ ID NOS:103-176, and genomic-based SNP context sequences are referred to in Table 2 as SEQ ID NOS:623-3661) and their complements. The actual sequences referred to in the tables are provided in the Sequence Listing. A fragment typically comprises a contiguous nucleotide sequence at least about 8 or more nucleotides, more preferably at least about 12 or more nucleotides, and even more preferably at least about 16 or more nucleotides. Furthermore, a fragment could comprise at least about 18, 20, 22, 25, 30, 40, 50, 60, 80, 100, 150, 200, 250 or 500 nucleotides in length (or any other number in between). The length of the fragment will be based on its intended use. For example, the fragment can encode epitope-bearing regions of a variant peptide or regions of a variant peptide that differ from the normal/wild-type protein, or can be useful as a polynucleotide probe or primer. Such fragments can be isolated using the nucleotide sequences provided in Table 1 and/or Table 2 for the synthesis of a polynucleotide probe. A labeled probe can then be used, for example, to screen a cDNA library, genomic DNA library, or mRNA to isolate nucleic acid corresponding to the coding region. Further, primers can be used in amplification reactions, such as for purposes of assaying one or more SNPs sites or for cloning specific regions of a gene.


An isolated nucleic acid molecule of the present invention further encompasses a SNP-containing polynucleotide that is the product of any one of a variety of nucleic acid amplification methods, which are used to increase the copy numbers of a polynucleotide of interest in a nucleic acid sample. Such amplification methods are well known in the art, and they include but are not limited to, polymerase chain reaction (PCR) (U.S. Pat. Nos. 4,683,195 and 4,683,202; PCR Technology: Principles and Applications for DNA Amplification, ed. H. A. Erlich, Freeman Press, NY, N.Y. (1992)), ligase chain reaction (LCR) (Wu and Wallace, Genomics 4:560 (1989); Landegren et al., Science 241:1077 (1988)), strand displacement amplification (SDA) (U.S. Pat. Nos. 5,270,184 and 5,422,252), transcription-mediated amplification (TMA) (U.S. Pat. No. 5,399,491), linked linear amplification (LLA) (U.S. Pat. No. 6,027,923) and the like, and isothermal amplification methods such as nucleic acid sequence based amplification (NASBA) and self-sustained sequence replication (Guatelli et al., Proc Natl Acad Sci USA 87:1874 (1990)). Based on such methodologies, a person skilled in the art can readily design primers in any suitable regions 5′ and 3′ to a SNP disclosed herein. Such primers may be used to amplify DNA of any length so long that it contains the SNP of interest in its sequence.


As used herein, an “amplified polynucleotide” of the invention is a SNP-containing nucleic acid molecule whose amount has been increased at least two fold by any nucleic acid amplification method performed in vitro as compared to its starting amount in a test sample. In other preferred embodiments, an amplified polynucleotide is the result of at least ten fold, fifty fold, one hundred fold, one thousand fold, or even ten thousand fold increase as compared to its starting amount in a test sample. In a typical PCR amplification, a polynucleotide of interest is often amplified at least fifty thousand fold in amount over the unamplified genomic DNA, but the precise amount of amplification needed for an assay depends on the sensitivity of the subsequent detection method used.


Generally, an amplified polynucleotide is at least about 16 nucleotides in length. More typically, an amplified polynucleotide is at least about 20 nucleotides in length. In a preferred embodiment of the invention, an amplified polynucleotide is at least about 30 nucleotides in length. In a more preferred embodiment of the invention, an amplified polynucleotide is at least about 32, 40, 45, 50, or 60 nucleotides in length. In yet another preferred embodiment of the invention, an amplified polynucleotide is at least about 100, 200, 300, 400, or 500 nucleotides in length. While the total length of an amplified polynucleotide of the invention can be as long as an exon, an intron or the entire gene where the SNP of interest resides, an amplified product is typically up to about 1,000 nucleotides in length (although certain amplification methods may generate amplified products greater than 1000 nucleotides in length). More preferably, an amplified polynucleotide is not greater than about 600-700 nucleotides in length. It is understood that irrespective of the length of an amplified polynucleotide, a SNP of interest may be located anywhere along its sequence.


In a specific embodiment of the invention, the amplified product is at least about 201 nucleotides in length, comprises one of the transcript-based context sequences or the genomic-based context sequences shown in Tables 1 and 2. Such a product may have additional sequences on its 5′ end or 3′ end or both. In another embodiment, the amplified product is about 101 nucleotides in length, and it contains a SNP disclosed herein. Preferably, the SNP is located at the middle of the amplified product (e.g., at position 101 in an amplified product that is 201 nucleotides in length, or at position 51 in an amplified product that is 101 nucleotides in length), or within 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 15, or 20 nucleotides from the middle of the amplified product. However, as indicated above, the SNP of interest may be located anywhere along the length of the amplified product.


The present invention provides isolated nucleic acid molecules that comprise, consist of, or consist essentially of one or more polynucleotide sequences that contain one or more SNPs disclosed herein, complements thereof, and SNP-containing fragments thereof.


Accordingly, the present invention provides nucleic acid molecules that consist of any of the nucleotide sequences shown in Table 1 and/or Table 2 (transcript sequences are referred to in Table 1 as SEQ ID NOS:1-51, genomic sequences are referred to in Table 2 as SEQ ID NOS:177-622, transcript-based SNP context sequences are referred to in Table 1 as SEQ ID NOS:103-176, and genomic-based SNP context sequences are referred to in Table 2 as SEQ ID NOS:623-3661), or any nucleic acid molecule that encodes any of the variant proteins referred to in Table 1 (SEQ ID NOS:52-102). The actual sequences referred to in the tables are provided in the Sequence Listing. A nucleic acid molecule consists of a nucleotide sequence when the nucleotide sequence is the complete nucleotide sequence of the nucleic acid molecule.


The present invention further provides nucleic acid molecules that consist essentially of any of the nucleotide sequences referred to in Table 1 and/or Table 2 (transcript sequences are referred to in Table 1 as SEQ ID NOS:1-51, genomic sequences are referred to in Table 2 as SEQ ID NOS:177-622, transcript-based SNP context sequences are referred to in Table 1 as SEQ ID NOS:103-176, and genomic-based SNP context sequences are referred to in Table 2 as SEQ ID NOS:623-3661), or any nucleic acid molecule that encodes any of the variant proteins referred to in Table 1 (SEQ ID NOS:52-102). The actual sequences referred to in the tables are provided in the Sequence Listing. A nucleic acid molecule consists essentially of a nucleotide sequence when such a nucleotide sequence is present with only a few additional nucleotide residues in the final nucleic acid molecule.


The present invention further provides nucleic acid molecules that comprise any of the nucleotide sequences shown in Table 1 and/or Table 2 or a SNP-containing fragment thereof (transcript sequences are referred to in Table 1 as SEQ ID NOS:1-51, genomic sequences are referred to in Table 2 as SEQ ID NOS:177-622, transcript-based SNP context sequences are referred to in Table 1 as SEQ ID NOS:103-176, and genomic-based SNP context sequences are referred to in Table 2 as SEQ ID NOS:623-3661), or any nucleic acid molecule that encodes any of the variant proteins provided in Table 1 (SEQ ID NOS:52-102). The actual sequences referred to in the tables are provided in the Sequence Listing. A nucleic acid molecule comprises a nucleotide sequence when the nucleotide sequence is at least part of the final nucleotide sequence of the nucleic acid molecule. In such a fashion, the nucleic acid molecule can be only the nucleotide sequence or have additional nucleotide residues, such as residues that are naturally associated with it or heterologous nucleotide sequences. Such a nucleic acid molecule can have one to a few additional nucleotides or can comprise many more additional nucleotides. A brief description of how various types of these nucleic acid molecules can be readily made and isolated is provided below, and such techniques are well known to those of ordinary skill in the art. Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Press, N.Y. (2000).


The isolated nucleic acid molecules can encode mature proteins plus additional amino or carboxyl-terminal amino acids or both, or amino acids interior to the mature peptide (when the mature form has more than one peptide chain, for instance). Such sequences may play a role in processing of a protein from precursor to a mature form, facilitate protein trafficking, prolong or shorten protein half-life, or facilitate manipulation of a protein for assay or production. As generally is the case in situ, the additional amino acids may be processed away from the mature protein by cellular enzymes.


Thus, the isolated nucleic acid molecules include, but are not limited to, nucleic acid molecules having a sequence encoding a peptide alone, a sequence encoding a mature peptide and additional coding sequences such as a leader or secretory sequence (e.g., a pre-pro or pro-protein sequence), a sequence encoding a mature peptide with or without additional coding sequences, plus additional non-coding sequences, for example introns and non-coding 5′ and 3′ sequences such as transcribed but untranslated sequences that play a role in, for example, transcription, mRNA processing (including splicing and polyadenylation signals), ribosome binding, and/or stability of mRNA. In addition, the nucleic acid molecules may be fused to heterologous marker sequences encoding, for example, a peptide that facilitates purification.


Isolated nucleic acid molecules can be in the form of RNA, such as mRNA, or in the form DNA, including cDNA and genomic DNA, which may be obtained, for example, by molecular cloning or produced by chemical synthetic techniques or by a combination thereof. Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Press, N.Y. (2000). Furthermore, isolated nucleic acid molecules, particularly SNP detection reagents such as probes and primers, can also be partially or completely in the form of one or more types of nucleic acid analogs, such as peptide nucleic acid (PNA). U.S. Pat. Nos. 5,539,082; 5,527,675; 5,623,049; and 5,714,331. The nucleic acid, especially DNA, can be double-stranded or single-stranded. Single-stranded nucleic acid can be the coding strand (sense strand) or the complementary non-coding strand (anti-sense strand). DNA, RNA, or PNA segments can be assembled, for example, from fragments of the human genome (in the case of DNA or RNA) or single nucleotides, short oligonucleotide linkers, or from a series of oligonucleotides, to provide a synthetic nucleic acid molecule. Nucleic acid molecules can be readily synthesized using the sequences provided herein as a reference; oligonucleotide and PNA oligomer synthesis techniques are well known in the art. See, e.g., Corey, “Peptide nucleic acids: expanding the scope of nucleic acid recognition,” Trends Biotechnol 15(6):224-9 (June 1997), and Hyrup et al., “Peptide nucleic acids (PNA): synthesis, properties and potential applications,” Bioorg Med Chem 4(1):5-23) (January 1996). Furthermore, large-scale automated oligonucleotide/PNA synthesis (including synthesis on an array or bead surface or other solid support) can readily be accomplished using commercially available nucleic acid synthesizers, such as the Applied Biosystems (Foster City, Calif.) 3900 High-Throughput DNA Synthesizer or Expedite 8909 Nucleic Acid Synthesis System, and the sequence information provided herein.


The present invention encompasses nucleic acid analogs that contain modified, synthetic, or non-naturally occurring nucleotides or structural elements or other alternative/modified nucleic acid chemistries known in the art. Such nucleic acid analogs are useful, for example, as detection reagents (e.g., primers/probes) for detecting one or more SNPs identified in Table 1 and/or Table 2. Furthermore, kits/systems (such as beads, arrays, etc.) that include these analogs are also encompassed by the present invention. For example, PNA oligomers that are based on the polymorphic sequences of the present invention are specifically contemplated. PNA oligomers are analogs of DNA in which the phosphate backbone is replaced with a peptide-like backbone. Lagriffoul et al., Bioorganic & Medicinal Chemistry Letters 4:1081-1082 (1994); Petersen et al., Bioorganic & Medicinal Chemistry Letters 6:793-796 (1996); Kumar et al., Organic Letters 3(9):1269-1272 (2001); WO 96/04000. PNA hybridizes to complementary RNA or DNA with higher affinity and specificity than conventional oligonucleotides and oligonucleotide analogs. The properties of PNA enable novel molecular biology and biochemistry applications unachievable with traditional oligonucleotides and peptides.


Additional examples of nucleic acid modifications that improve the binding properties and/or stability of a nucleic acid include the use of base analogs such as inosine, intercalators (U.S. Pat. No. 4,835,263) and the minor groove binders (U.S. Pat. No. 5,801,115). Thus, references herein to nucleic acid molecules, SNP-containing nucleic acid molecules, SNP detection reagents (e.g., probes and primers), oligonucleotides/polynucleotides include PNA oligomers and other nucleic acid analogs. Other examples of nucleic acid analogs and alternative/modified nucleic acid chemistries known in the art are described in Current Protocols in Nucleic Acid Chemistry, John Wiley & Sons, N.Y. (2002).


The present invention further provides nucleic acid molecules that encode fragments of the variant polypeptides disclosed herein as well as nucleic acid molecules that encode obvious variants of such variant polypeptides. Such nucleic acid molecules may be naturally occurring, such as paralogs (different locus) and orthologs (different organism), or may be constructed by recombinant DNA methods or by chemical synthesis. Non-naturally occurring variants may be made by mutagenesis techniques, including those applied to nucleic acid molecules, cells, or organisms. Accordingly, the variants can contain nucleotide substitutions, deletions, inversions and insertions (in addition to the SNPs disclosed in Tables 1 and 2). Variation can occur in either or both the coding and non-coding regions. The variations can produce conservative and/or non-conservative amino acid substitutions.


Further variants of the nucleic acid molecules disclosed in Tables 1 and 2, such as naturally occurring allelic variants (as well as orthologs and paralogs) and synthetic variants produced by mutagenesis techniques, can be identified and/or produced using methods well known in the art. Such further variants can comprise a nucleotide sequence that shares at least 70-80%, 80-85%, 85-90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, or 99% sequence identity with a nucleic acid sequence disclosed in Table 1 and/or Table 2 (or a fragment thereof) and that includes a novel SNP allele disclosed in Table 1 and/or Table 2. Further, variants can comprise a nucleotide sequence that encodes a polypeptide that shares at least 70-80%, 80-85%, 85-90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, or 99% sequence identity with a polypeptide sequence disclosed in Table 1 (or a fragment thereof) and that includes a novel SNP allele disclosed in Table 1 and/or Table 2. Thus, an aspect of the present invention that is specifically contemplated are isolated nucleic acid molecules that have a certain degree of sequence variation compared with the sequences shown in Tables 1-2, but that contain a novel SNP allele disclosed herein. In other words, as long as an isolated nucleic acid molecule contains a novel SNP allele disclosed herein, other portions of the nucleic acid molecule that flank the novel SNP allele can vary to some degree from the specific transcript, genomic, and context sequences referred to and shown in Tables 1 and 2, and can encode a polypeptide that varies to some degree from the specific polypeptide sequences referred to in Table 1.


To determine the percent identity of two amino acid sequences or two nucleotide sequences of two molecules that share sequence homology, the sequences are aligned for optimal comparison purposes (e.g., gaps can be introduced in one or both of a first and a second amino acid or nucleic acid sequence for optimal alignment and non-homologous sequences can be disregarded for comparison purposes). In a preferred embodiment, at least 30%, 40%, 50%, 60%, 70%, 80%, or 90% or more of the length of a reference sequence is aligned for comparison purposes. The amino acid residues or nucleotides at corresponding amino acid positions or nucleotide positions are then compared. When a position in the first sequence is occupied by the same amino acid residue or nucleotide as the corresponding position in the second sequence, then the molecules are identical at that position (as used herein, amino acid or nucleic acid “identity” is equivalent to amino acid or nucleic acid “homology”). The percent identity between the two sequences is a function of the number of identical positions shared by the sequences, taking into account the number of gaps, and the length of each gap, which need to be introduced for optimal alignment of the two sequences.


The comparison of sequences and determination of percent identity between two sequences can be accomplished using a mathematical algorithm. Computational Molecular Biology, A. M. Lesk, ed., Oxford University Press, N.Y (1988); Biocomputing: Informatics and Genome Projects, D. W. Smith, ed., Academic Press, N.Y. (1993); Computer Analysis of Sequence Data, Part 1, A. M. Griffin and H. G. Griffin, eds., Humana Press, N.J. (1994); Sequence Analysis in Molecular Biology, G. von Heinje, ed., Academic Press, N.Y. (1987); and Sequence Analysis Primer, M. Gribskov and J. Devereux, eds., M. Stockton Press, N.Y. (1991). In a preferred embodiment, the percent identity between two amino acid sequences is determined using the Needleman and Wunsch algorithm (J Mol Biol (48):444-453 (1970)) which has been incorporated into the GAP program in the GCG software package, using either a Blossom 62 matrix or a PAM250 matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a length weight of 1, 2, 3, 4, 5, or 6.


In yet another preferred embodiment, the percent identity between two nucleotide sequences is determined using the GAP program in the GCG software package using a NWSgapdna.CMP matrix and a gap weight of 40, 50, 60, 70, or 80 and a length weight of 1, 2, 3, 4, 5, or 6. J. Devereux et al., Nucleic Acids Res. 12(1):387 (1984). In another embodiment, the percent identity between two amino acid or nucleotide sequences is determined using the algorithm of E. Myers and W. Miller (CABIOS 4:11-17 (1989)) which has been incorporated into the ALIGN program (version 2.0), using a PAM120 weight residue table, a gap length penalty of 12, and a gap penalty of 4.


The nucleotide and amino acid sequences of the present invention can further be used as a “query sequence” to perform a search against sequence databases; for example, to identify other family members or related sequences. Such searches can be performed using the NBLAST and XBLAST programs (version 2.0). Altschul et al., J Mol Biol 215:403-10 (1990). BLAST nucleotide searches can be performed with the NBLAST program, score=100, wordlength=12 to obtain nucleotide sequences homologous to the nucleic acid molecules of the invention. BLAST protein searches can be performed with the XBLAST program, score=50, wordlength=3 to obtain amino acid sequences homologous to the proteins of the invention. To obtain gapped alignments for comparison purposes, Gapped BLAST can be utilized. Altschul et al., Nucleic Acids Res 25(17):3389-3402 (1997). When utilizing BLAST and gapped BLAST programs, the default parameters of the respective programs (e.g., XBLAST and NBLAST) can be used. In addition to BLAST, examples of other search and sequence comparison programs used in the art include, but are not limited to, FASTA (Pearson, Methods Mol Biol 25, 365-389 (1994)) and KERR (Dufresne et al., Nat Biotechnol 20(12):1269-71 (December 2002)). For further information regarding bioinformatics techniques, see Current Protocols in Bioinformatics, John Wiley & Sons, Inc., N.Y.


The present invention further provides non-coding fragments of the nucleic acid molecules disclosed in Table 1 and/or Table 2. Preferred non-coding fragments include, but are not limited to, promoter sequences, enhancer sequences, intronic sequences, 5′ untranslated regions (UTRs), 3′ untranslated regions, gene modulating sequences and gene termination sequences. Such fragments are useful, for example, in controlling heterologous gene expression and in developing screens to identify gene-modulating agents.


SNP Detection Reagents


In a specific aspect of the present invention, the SNPs disclosed in Table 1 and/or Table 2, and their associated transcript sequences (referred to in Table 1 as SEQ ID NOS:1-51), genomic sequences (referred to in Table 2 as SEQ ID NOS:177-622), and context sequences (transcript-based context sequences are referred to in Table 1 as SEQ ID NOS:103-176; genomic-based context sequences are provided in Table 2 as SEQ ID NOS:623-3661), can be used for the design of SNP detection reagents. The actual sequences referred to in the tables are provided in the Sequence Listing. As used herein, a “SNP detection reagent” is a reagent that specifically detects a specific target SNP position disclosed herein, and that is preferably specific for a particular nucleotide (allele) of the target SNP position (i.e., the detection reagent preferably can differentiate between different alternative nucleotides at a target SNP position, thereby allowing the identity of the nucleotide present at the target SNP position to be determined). Typically, such detection reagent hybridizes to a target SNP-containing nucleic acid molecule by complementary base-pairing in a sequence specific manner, and discriminates the target variant sequence from other nucleic acid sequences such as an art-known form in a test sample. An example of a detection reagent is a probe that hybridizes to a target nucleic acid containing one or more of the SNPs referred to in Table 1 and/or Table 2. In a preferred embodiment, such a probe can differentiate between nucleic acids having a particular nucleotide (allele) at a target SNP position from other nucleic acids that have a different nucleotide at the same target SNP position. In addition, a detection reagent may hybridize to a specific region 5′ and/or 3′ to a SNP position, particularly a region corresponding to the context sequences referred to in Table 1 and/or Table 2 (transcript-based context sequences are referred to in Table 1 as SEQ ID NOS:103-176; genomic-based context sequences are referred to in Table 2 as SEQ ID NOS:623-3661). Another example of a detection reagent is a primer that acts as an initiation point of nucleotide extension along a complementary strand of a target polynucleotide. The SNP sequence information provided herein is also useful for designing primers, e.g. allele-specific primers, to amplify (e.g., using PCR) any SNP of the present invention.


In one preferred embodiment of the invention, a SNP detection reagent is an isolated or synthetic DNA or RNA polynucleotide probe or primer or PNA oligomer, or a combination of DNA, RNA and/or PNA, that hybridizes to a segment of a target nucleic acid molecule containing a SNP identified in Table 1 and/or Table 2. A detection reagent in the form of a polynucleotide may optionally contain modified base analogs, intercalators or minor groove binders. Multiple detection reagents such as probes may be, for example, affixed to a solid support (e.g., arrays or beads) or supplied in solution (e.g. probe/primer sets for enzymatic reactions such as PCR, RT-PCR, TaqMan assays, or primer-extension reactions) to form a SNP detection kit.


A probe or primer typically is a substantially purified oligonucleotide or PNA oligomer. Such oligonucleotide typically comprises a region of complementary nucleotide sequence that hybridizes under stringent conditions to at least about 8, 10, 12, 16, 18, 20, 22, 25, 30, 40, 50, 55, 60, 65, 70, 80, 90, 100, 120 (or any other number in-between) or more consecutive nucleotides in a target nucleic acid molecule. Depending on the particular assay, the consecutive nucleotides can either include the target SNP position, or be a specific region in close enough proximity 5′ and/or 3′ to the SNP position to carry out the desired assay.


Other preferred primer and probe sequences can readily be determined using the transcript sequences (SEQ ID NOS:1-51), genomic sequences (SEQ ID NOS:177-622), and SNP context sequences (transcript-based context sequences are referred to in Table 1 as SEQ ID NOS:103-176; genomic-based context sequences are referred to in Table 2 as SEQ ID NOS:623-3661) disclosed in the Sequence Listing and in Tables 1 and 2. The actual sequences referred to in the tables are provided in the Sequence Listing. It will be apparent to one of skill in the art that such primers and probes are directly useful as reagents for genotyping the SNPs of the present invention, and can be incorporated into any kit/system format.


In order to produce a probe or primer specific for a target SNP-containing sequence, the gene/transcript and/or context sequence surrounding the SNP of interest is typically examined using a computer algorithm that starts at the 5′ or at the 3′ end of the nucleotide sequence. Typical algorithms will then identify oligomers of defined length that are unique to the gene/SNP context sequence, have a GC content within a range suitable for hybridization, lack predicted secondary structure that may interfere with hybridization, and/or possess other desired characteristics or that lack other undesired characteristics.


A primer or probe of the present invention is typically at least about 8 nucleotides in length. In one embodiment of the invention, a primer or a probe is at least about 10 nucleotides in length. In a preferred embodiment, a primer or a probe is at least about 12 nucleotides in length. In a more preferred embodiment, a primer or probe is at least about 16, 17, 18, 19, 20, 21, 22, 23, 24 or 25 nucleotides in length. While the maximal length of a probe can be as long as the target sequence to be detected, depending on the type of assay in which it is employed, it is typically less than about 50, 60, 65, or 70 nucleotides in length. In the case of a primer, it is typically less than about 30 nucleotides in length. In a specific preferred embodiment of the invention, a primer or a probe is within the length of about 18 and about 28 nucleotides. However, in other embodiments, such as nucleic acid arrays and other embodiments in which probes are affixed to a substrate, the probes can be longer, such as on the order of 30-70, 75, 80, 90, 100, or more nucleotides in length (see the section below entitled “SNP Detection Kits and Systems”).


For analyzing SNPs, it may be appropriate to use oligonucleotides specific for alternative SNP alleles. Such oligonucleotides that detect single nucleotide variations in target sequences may be referred to by such terms as “allele-specific oligonucleotides,” “allele-specific probes,” or “allele-specific primers.” The design and use of allele-specific probes for analyzing polymorphisms is described in, e.g., Mutation Detection: A Practical Approach, Cotton et al., eds., Oxford University Press (1998); Saiki et al., Nature 324:163-166 (1986); Dattagupta, EP235,726; and Saiki, WO 89/11548.


While the design of each allele-specific primer or probe depends on variables such as the precise composition of the nucleotide sequences flanking a SNP position in a target nucleic acid molecule, and the length of the primer or probe, another factor in the use of primers and probes is the stringency of the condition under which the hybridization between the probe or primer and the target sequence is performed. Higher stringency conditions utilize buffers with lower ionic strength and/or a higher reaction temperature, and tend to require a more perfect match between probe/primer and a target sequence in order to form a stable duplex. If the stringency is too high, however, hybridization may not occur at all. In contrast, lower stringency conditions utilize buffers with higher ionic strength and/or a lower reaction temperature, and permit the formation of stable duplexes with more mismatched bases between a probe/primer and a target sequence. By way of example and not limitation, exemplary conditions for high stringency hybridization conditions using an allele-specific probe are as follows: prehybridization with a solution containing 5× standard saline phosphate EDTA (SSPE), 0.5% NaDodSO4 (SDS) at 55° C., and incubating probe with target nucleic acid molecules in the same solution at the same temperature, followed by washing with a solution containing 2×SSPE, and 0.1% SDS at 55° C. or room temperature.


Moderate stringency hybridization conditions may be used for allele-specific primer extension reactions with a solution containing, e.g., about 50 mM KCl at about 46° C. Alternatively, the reaction may be carried out at an elevated temperature such as 60° C. In another embodiment, a moderately stringent hybridization condition suitable for oligonucleotide ligation assay (OLA) reactions wherein two probes are ligated if they are completely complementary to the target sequence may utilize a solution of about 100 mM KCl at a temperature of 46° C.


In a hybridization-based assay, allele-specific probes can be designed that hybridize to a segment of target DNA from one individual but do not hybridize to the corresponding segment from another individual due to the presence of different polymorphic forms (e.g., alternative SNP alleles/nucleotides) in the respective DNA segments from the two individuals. Hybridization conditions should be sufficiently stringent that there is a significant detectable difference in hybridization intensity between alleles, and preferably an essentially binary response, whereby a probe hybridizes to only one of the alleles or significantly more strongly to one allele. While a probe may be designed to hybridize to a target sequence that contains a SNP site such that the SNP site aligns anywhere along the sequence of the probe, the probe is preferably designed to hybridize to a segment of the target sequence such that the SNP site aligns with a central position of the probe (e.g., a position within the probe that is at least three nucleotides from either end of the probe). This design of probe generally achieves good discrimination in hybridization between different allelic forms.


In another embodiment, a probe or primer may be designed to hybridize to a segment of target DNA such that the SNP aligns with either the 5′ most end or the 3′ most end of the probe or primer. In a specific preferred embodiment that is particularly suitable for use in a oligonucleotide ligation assay (U.S. Pat. No. 4,988,617), the 3′ most nucleotide of the probe aligns with the SNP position in the target sequence.


Oligonucleotide probes and primers may be prepared by methods well known in the art. Chemical synthetic methods include, but are not limited to, the phosphotriester method described by Narang et al., Methods in Enzymology 68:90 (1979); the phosphodiester method described by Brown et al., Methods in Enzymology 68:109 (1979); the diethylphosphoamidate method described by Beaucage et al., Tetrahedron Letters 22:1859 (1981); and the solid support method described in U.S. Pat. No. 4,458,066.


Allele-specific probes are often used in pairs (or, less commonly, in sets of 3 or 4, such as if a SNP position is known to have 3 or 4 alleles, respectively, or to assay both strands of a nucleic acid molecule for a target SNP allele), and such pairs may be identical except for a one nucleotide mismatch that represents the allelic variants at the SNP position. Commonly, one member of a pair perfectly matches a reference form of a target sequence that has a more common SNP allele (i.e., the allele that is more frequent in the target population) and the other member of the pair perfectly matches a form of the target sequence that has a less common SNP allele (i.e., the allele that is rarer in the target population). In the case of an array, multiple pairs of probes can be immobilized on the same support for simultaneous analysis of multiple different polymorphisms.


In one type of PCR-based assay, an allele-specific primer hybridizes to a region on a target nucleic acid molecule that overlaps a SNP position and only primes amplification of an allelic form to which the primer exhibits perfect complementarity. Gibbs, Nucleic Acid Res 17:2427-2448 (1989). Typically, the primer's 3′-most nucleotide is aligned with and complementary to the SNP position of the target nucleic acid molecule. This primer is used in conjunction with a second primer that hybridizes at a distal site. Amplification proceeds from the two primers, producing a detectable product that indicates which allelic form is present in the test sample. A control is usually performed with a second pair of primers, one of which shows a single base mismatch at the polymorphic site and the other of which exhibits perfect complementarity to a distal site. The single-base mismatch prevents amplification or substantially reduces amplification efficiency, so that either no detectable product is formed or it is formed in lower amounts or at a slower pace. The method generally works most effectively when the mismatch is at the 3′-most position of the oligonucleotide (i.e., the 3′-most position of the oligonucleotide aligns with the target SNP position) because this position is most destabilizing to elongation from the primer (see, e.g., WO 93/22456). This PCR-based assay can be utilized as part of the TaqMan assay, described below.


In a specific embodiment of the invention, a primer of the invention contains a sequence substantially complementary to a segment of a target SNP-containing nucleic acid molecule except that the primer has a mismatched nucleotide in one of the three nucleotide positions at the 3′-most end of the primer, such that the mismatched nucleotide does not base pair with a particular allele at the SNP site. In a preferred embodiment, the mismatched nucleotide in the primer is the second from the last nucleotide at the 3′-most position of the primer. In a more preferred embodiment, the mismatched nucleotide in the primer is the last nucleotide at the 3′-most position of the primer.


In another embodiment of the invention, a SNP detection reagent of the invention is labeled with a fluorogenic reporter dye that emits a detectable signal. While the preferred reporter dye is a fluorescent dye, any reporter dye that can be attached to a detection reagent such as an oligonucleotide probe or primer is suitable for use in the invention. Such dyes include, but are not limited to, Acridine, AMCA, BODIPY, Cascade Blue, Cy2, Cy3, Cy5, Cy7, Dabcyl, Edans, Eosin, Erythrosin, Fluorescein, 6-Fam, Tet, Joe, Hex, Oregon Green, Rhodamine, Rhodol Green, Tamra, Rox, and Texas Red.


In yet another embodiment of the invention, the detection reagent may be further labeled with a quencher dye such as Tamra, especially when the reagent is used as a self-quenching probe such as a TaqMan (U.S. Pat. Nos. 5,210,015 and 5,538,848) or Molecular Beacon probe (U.S. Pat. Nos. 5,118,801 and 5,312,728), or other stemless or linear beacon probe (Livak et al., PCR Method Appl 4:357-362 (1995); Tyagi et al., Nature Biotechnology 14:303-308 (1996); Nazarenko et al., Nucl Acids Res 25:2516-2521 (1997); U.S. Pat. Nos. 5,866,336 and 6,117,635.


The detection reagents of the invention may also contain other labels, including but not limited to, biotin for streptavidin binding, hapten for antibody binding, and oligonucleotide for binding to another complementary oligonucleotide such as pairs of zipcodes.


The present invention also contemplates reagents that do not contain (or that are complementary to) a SNP nucleotide identified herein but that are used to assay one or more SNPs disclosed herein. For example, primers that flank, but do not hybridize directly to a target SNP position provided herein are useful in primer extension reactions in which the primers hybridize to a region adjacent to the target SNP position (i.e., within one or more nucleotides from the target SNP site). During the primer extension reaction, a primer is typically not able to extend past a target SNP site if a particular nucleotide (allele) is present at that target SNP site, and the primer extension product can be detected in order to determine which SNP allele is present at the target SNP site. For example, particular ddNTPs are typically used in the primer extension reaction to terminate primer extension once a ddNTP is incorporated into the extension product (a primer extension product which includes a ddNTP at the 3′-most end of the primer extension product, and in which the ddNTP is a nucleotide of a SNP disclosed herein, is a composition that is specifically contemplated by the present invention). Thus, reagents that bind to a nucleic acid molecule in a region adjacent to a SNP site and that are used for assaying the SNP site, even though the bound sequences do not necessarily include the SNP site itself, are also contemplated by the present invention.


SNP Detection Kits and Systems


A person skilled in the art will recognize that, based on the SNP and associated sequence information disclosed herein, detection reagents can be developed and used to assay any SNP of the present invention individually or in combination, and such detection reagents can be readily incorporated into one of the established kit or system formats which are well known in the art. The terms “kits” and “systems,” as used herein in the context of SNP detection reagents, are intended to refer to such things as combinations of multiple SNP detection reagents, or one or more SNP detection reagents in combination with one or more other types of elements or components (e.g., other types of biochemical reagents, containers, packages such as packaging intended for commercial sale, substrates to which SNP detection reagents are attached, electronic hardware components, etc.). Accordingly, the present invention further provides SNP detection kits and systems, including but not limited to, packaged probe and primer sets (e.g. TaqMan probe/primer sets), arrays/microarrays of nucleic acid molecules, and beads that contain one or more probes, primers, or other detection reagents for detecting one or more SNPs of the present invention. The kits/systems can optionally include various electronic hardware components; for example, arrays (“DNA chips”) and microfluidic systems (“lab-on-a-chip” systems) provided by various manufacturers typically comprise hardware components. Other kits/systems (e.g., probe/primer sets) may not include electronic hardware components, but may be comprised of, for example, one or more SNP detection reagents (along with, optionally, other biochemical reagents) packaged in one or more containers.


In some embodiments, a SNP detection kit typically contains one or more detection reagents and other components (e.g. a buffer, enzymes such as DNA polymerases or ligases, chain extension nucleotides such as deoxynucleotide triphosphates, and in the case of Sanger-type DNA sequencing reactions, chain terminating nucleotides, positive control sequences, negative control sequences, and the like) necessary to carry out an assay or reaction, such as amplification and/or detection of a SNP-containing nucleic acid molecule. A kit may further contain means for determining the amount of a target nucleic acid, and means for comparing the amount with a standard, and can comprise instructions for using the kit to detect the SNP-containing nucleic acid molecule of interest. In one embodiment of the present invention, kits are provided which contain the necessary reagents to carry out one or more assays to detect one or more SNPs disclosed herein. In a preferred embodiment of the present invention, SNP detection kits/systems are in the form of nucleic acid arrays, or compartmentalized kits, including microfluidic/lab-on-a-chip systems.


Exemplary kits of the invention can comprise a container containing a SNP detection reagent which detects a SNP disclosed herein, said container can optionally be enclosed in a package (e.g., a box for commercial sale), and said package can further include other containers containing any or all of the following: enzyme (e.g., polymerase or ligase, any of which can be thermostable), dNTPs and/or ddNTPs (which can optionally be detectably labeled, such as with a fluorescent label or mass tag, and such label can optionally differ between any of the dATPs, dCTPs, dGTPs, dTTPs, ddATPs, ddCTPs, ddGTPs, and/or ddTTPs, so that each of these dNTPs and/or ddNTPs can be distinguished from each other by detection of the label, and any of these dNTPs and/or ddNTPs can optionally be stored in the same container or each in separate containers), buffer, controls (e.g., positive control nucleic acid, or a negative control), reagent(s) for extracting nucleic acid from a test sample, and instructions for using the kit (such as instructions for correlating the presence or absence of a particular allele or genotype with an increased or decreased risk for disease such as CVD, or an increased or decreased likelihood of responding to a drug such as a statin). The SNP detection reagent can comprise, for example, at least one primer and/or probe, any of which can optionally be allele-specific, and any of which can optionally be detectably labeled (e.g., with a fluorescent label).


SNP detection kits/systems may contain, for example, one or more probes, or pairs of probes, that hybridize to a nucleic acid molecule at or near each target SNP position. Multiple pairs of allele-specific probes may be included in the kit/system to simultaneously assay large numbers of SNPs, at least one of which is a SNP of the present invention. In some kits/systems, the allele-specific probes are immobilized to a substrate such as an array or bead. For example, the same substrate can comprise allele-specific probes for detecting at least 1; 10; 100; 1000; 10,000; 100,000 (or any other number in-between) or substantially all of the SNPs shown in Table 1 and/or Table 2.


The terms “arrays,” “microarrays,” and “DNA chips” are used herein interchangeably to refer to an array of distinct polynucleotides affixed to a substrate, such as glass, plastic, paper, nylon or other type of membrane, filter, chip, or any other suitable solid support. The polynucleotides can be synthesized directly on the substrate, or synthesized separate from the substrate and then affixed to the substrate. In one embodiment, the microarray is prepared and used according to the methods described in Chee et al., U.S. Pat. No. 5,837,832 and PCT application WO95/11995; D. J. Lockhart et al., Nat Biotech 14:1675-1680 (1996); and M. Schena et al., Proc Natl Acad Sci 93:10614-10619 (1996), all of which are incorporated herein in their entirety by reference. In other embodiments, such arrays are produced by the methods described by Brown et al., U.S. Pat. No. 5,807,522.


Nucleic acid arrays are reviewed in the following references: Zammatteo et al., “New chips for molecular biology and diagnostics,” Biotechnol Annu Rev 8:85-101 (2002); Sosnowski et al., “Active microelectronic array system for DNA hybridization, genotyping and pharmacogenomic applications,” Psychiatr Genet 12(4):181-92 (December 2002); Heller, “DNA microarray technology: devices, systems, and applications,” Annu Rev Biomed Eng 4:129-53 (2002); Epub Mar. 22, 2002; Kolchinsky et al., “Analysis of SNPs and other genomic variations using gel-based chips,” Hum Mutat 19(4):343-60 (April 2002); and McGall et al., “High-density genechip oligonucleotide probe arrays,” Adv Biochem Eng Biotechnol 77:21-42 (2002).


Any number of probes, such as allele-specific probes, may be implemented in an array, and each probe or pair of probes can hybridize to a different SNP position. In the case of polynucleotide probes, they can be synthesized at designated areas (or synthesized separately and then affixed to designated areas) on a substrate using a light-directed chemical process. Each DNA chip can contain, for example, thousands to millions of individual synthetic polynucleotide probes arranged in a grid-like pattern and miniaturized (e.g., to the size of a dime). Preferably, probes are attached to a solid support in an ordered, addressable array.


A microarray can be composed of a large number of unique, single-stranded polynucleotides, usually either synthetic antisense polynucleotides or fragments of cDNAs, fixed to a solid support. Typical polynucleotides are preferably about 6-60 nucleotides in length, more preferably about 15-30 nucleotides in length, and most preferably about 18-25 nucleotides in length. For certain types of microarrays or other detection kits/systems, it may be preferable to use oligonucleotides that are only about 7-20 nucleotides in length. In other types of arrays, such as arrays used in conjunction with chemiluminescent detection technology, preferred probe lengths can be, for example, about 15-80 nucleotides in length, preferably about 50-70 nucleotides in length, more preferably about 55-65 nucleotides in length, and most preferably about 60 nucleotides in length. The microarray or detection kit can contain polynucleotides that cover the known 5′ or 3′ sequence of a gene/transcript or target SNP site, sequential polynucleotides that cover the full-length sequence of a gene/transcript; or unique polynucleotides selected from particular areas along the length of a target gene/transcript sequence, particularly areas corresponding to one or more SNPs disclosed in Table 1 and/or Table 2. Polynucleotides used in the microarray or detection kit can be specific to a SNP or SNPs of interest (e.g., specific to a particular SNP allele at a target SNP site, or specific to particular SNP alleles at multiple different SNP sites), or specific to a polymorphic gene/transcript or genes/transcripts of interest.


Hybridization assays based on polynucleotide arrays rely on the differences in hybridization stability of the probes to perfectly matched and mismatched target sequence variants. For SNP genotyping, it is generally preferable that stringency conditions used in hybridization assays are high enough such that nucleic acid molecules that differ from one another at as little as a single SNP position can be differentiated (e.g., typical SNP hybridization assays are designed so that hybridization will occur only if one particular nucleotide is present at a SNP position, but will not occur if an alternative nucleotide is present at that SNP position). Such high stringency conditions may be preferable when using, for example, nucleic acid arrays of allele-specific probes for SNP detection. Such high stringency conditions are described in the preceding section, and are well known to those skilled in the art and can be found in, for example, Current Protocols in Molecular Biology 6.3.1-6.3.6, John Wiley & Sons, N.Y. (1989).


In other embodiments, the arrays are used in conjunction with chemiluminescent detection technology. The following patents and patent applications, which are all hereby incorporated by reference, provide additional information pertaining to chemiluminescent detection. U.S. patent applications that describe chemiluminescent approaches for microarray detection: Ser. Nos. 10/620,332 and 10/620,333. U.S. patents that describe methods and compositions of dioxetane for performing chemiluminescent detection: U.S. Pat. Nos. 6,124,478; 6,107,024; 5,994,073; 5,981,768; 5,871,938; 5,843,681; 5,800,999 and 5,773,628. And the U.S. published application that discloses methods and compositions for microarray controls: US2002/0110828.


In one embodiment of the invention, a nucleic acid array can comprise an array of probes of about 15-25 nucleotides in length. In further embodiments, a nucleic acid array can comprise any number of probes, in which at least one probe is capable of detecting one or more SNPs disclosed in Table 1 and/or Table 2, and/or at least one probe comprises a fragment of one of the sequences selected from the group consisting of those disclosed in Table 1, Table 2, the Sequence Listing, and sequences complementary thereto, said fragment comprising at least about 8 consecutive nucleotides, preferably 10, 12, 15, 16, 18, 20, more preferably 22, 25, 30, 40, 47, 50, 55, 60, 65, 70, 80, 90, 100, or more consecutive nucleotides (or any other number in-between) and containing (or being complementary to) a novel SNP allele disclosed in Table 1 and/or Table 2. In some embodiments, the nucleotide complementary to the SNP site is within 5, 4, 3, 2, or 1 nucleotide from the center of the probe, more preferably at the center of said probe.


A polynucleotide probe can be synthesized on the surface of the substrate by using a chemical coupling procedure and an ink jet application apparatus, as described in PCT application WO95/251116 (Baldeschweiler et al.) which is incorporated herein in its entirety by reference. In another aspect, a “gridded” array analogous to a dot (or slot) blot may be used to arrange and link cDNA fragments or oligonucleotides to the surface of a substrate using a vacuum system, thermal, UV, mechanical or chemical bonding procedures. An array, such as those described above, may be produced by hand or by using available devices (slot blot or dot blot apparatus), materials (any suitable solid support), and machines (including robotic instruments), and may contain 8, 24, 96, 384, 1536, 6144 or more polynucleotides, or any other number which lends itself to the efficient use of commercially available instrumentation.


Using such arrays or other kits/systems, the present invention provides methods of identifying the SNPs disclosed herein in a test sample. Such methods typically involve incubating a test sample of nucleic acids with an array comprising one or more probes corresponding to at least one SNP position of the present invention, and assaying for binding of a nucleic acid from the test sample with one or more of the probes. Conditions for incubating a SNP detection reagent (or a kit/system that employs one or more such SNP detection reagents) with a test sample vary. Incubation conditions depend on such factors as the format employed in the assay, the detection methods employed, and the type and nature of the detection reagents used in the assay. One skilled in the art will recognize that any one of the commonly available hybridization, amplification and array assay formats can readily be adapted to detect the SNPs disclosed herein.


A SNP detection kit/system of the present invention may include components that are used to prepare nucleic acids from a test sample for the subsequent amplification and/or detection of a SNP-containing nucleic acid molecule. Such sample preparation components can be used to produce nucleic acid extracts (including DNA and/or RNA), proteins or membrane extracts from any bodily fluids (such as blood, serum, plasma, urine, saliva, phlegm, gastric juices, semen, tears, sweat, etc.), skin, hair, cells (especially nucleated cells) such as buccal cells (e.g., as obtained by buccal swabs), biopsies, or tissue specimens. The test samples used in the above-described methods will vary based on such factors as the assay format, nature of the detection method, and the specific tissues, cells or extracts used as the test sample to be assayed. Methods of preparing nucleic acids, proteins, and cell extracts are well known in the art and can be readily adapted to obtain a sample that is compatible with the system utilized. Automated sample preparation systems for extracting nucleic acids from a test sample are commercially available, and examples are Qiagen's BioRobot 9600, Applied Biosystems' PRISM™ 6700 sample preparation system, and Roche Molecular Systems' COBAS AmpliPrep System.


Another form of kit contemplated by the present invention is a compartmentalized kit. A compartmentalized kit includes any kit in which reagents are contained in separate containers. Such containers include, for example, small glass containers, plastic containers, strips of plastic, glass or paper, or arraying material such as silica. Such containers allow one to efficiently transfer reagents from one compartment to another compartment such that the test samples and reagents are not cross-contaminated, or from one container to another vessel not included in the kit, and the agents or solutions of each container can be added in a quantitative fashion from one compartment to another or to another vessel. Such containers may include, for example, one or more containers which will accept the test sample, one or more containers which contain at least one probe or other SNP detection reagent for detecting one or more SNPs of the present invention, one or more containers which contain wash reagents (such as phosphate buffered saline, Tris-buffers, etc.), and one or more containers which contain the reagents used to reveal the presence of the bound probe or other SNP detection reagents. The kit can optionally further comprise compartments and/or reagents for, for example, nucleic acid amplification or other enzymatic reactions such as primer extension reactions, hybridization, ligation, electrophoresis (preferably capillary electrophoresis), mass spectrometry, and/or laser-induced fluorescent detection. The kit may also include instructions for using the kit. Exemplary compartmentalized kits include microfluidic devices known in the art. See, e.g., Weigl et al., “Lab-on-a-chip for drug development,” Adv Drug Deliv Rev 55(3):349-77 (February 2003). In such microfluidic devices, the containers may be referred to as, for example, microfluidic “compartments,” “chambers,” or “channels.”


Microfluidic devices, which may also be referred to as “lab-on-a-chip” systems, biomedical micro-electro-mechanical systems (bioMEMs), or multicomponent integrated systems, are exemplary kits/systems of the present invention for analyzing SNPs. Such systems miniaturize and compartmentalize processes such as probe/target hybridization, nucleic acid amplification, and capillary electrophoresis reactions in a single functional device. Such microfluidic devices typically utilize detection reagents in at least one aspect of the system, and such detection reagents may be used to detect one or more SNPs of the present invention. One example of a microfluidic system is disclosed in U.S. Pat. No. 5,589,136, which describes the integration of PCR amplification and capillary electrophoresis in chips. Exemplary microfluidic systems comprise a pattern of microchannels designed onto a glass, silicon, quartz, or plastic wafer included on a microchip. The movements of the samples may be controlled by electric, electroosmotic or hydrostatic forces applied across different areas of the microchip to create functional microscopic valves and pumps with no moving parts. Varying the voltage can be used as a means to control the liquid flow at intersections between the micro-machined channels and to change the liquid flow rate for pumping across different sections of the microchip. See, for example, U.S. Pat. No. 6,153,073, Dubrow et al., and U.S. Pat. No. 6,156,181, Parce et al.


For genotyping SNPs, an exemplary microfluidic system may integrate, for example, nucleic acid amplification, primer extension, capillary electrophoresis, and a detection method such as laser induced fluorescence detection. In a first step of an exemplary process for using such an exemplary system, nucleic acid samples are amplified, preferably by PCR. Then, the amplification products are subjected to automated primer extension reactions using ddNTPs (specific fluorescence for each ddNTP) and the appropriate oligonucleotide primers to carry out primer extension reactions which hybridize just upstream of the targeted SNP. Once the extension at the 3′ end is completed, the primers are separated from the unincorporated fluorescent ddNTPs by capillary electrophoresis. The separation medium used in capillary electrophoresis can be, for example, polyacrylamide, polyethyleneglycol or dextran. The incorporated ddNTPs in the single nucleotide primer extension products are identified by laser-induced fluorescence detection. Such an exemplary microchip can be used to process, for example, at least 96 to 384 samples, or more, in parallel.


Uses of Nucleic Acid Molecules


The nucleic acid molecules of the present invention have a variety of uses, particularly for predicting whether an individual will benefit from statin treatment by reducing their risk for CVD (particularly CHD, such as MI) in response to the statin treatment, as well as for the diagnosis, prognosis, treatment, and prevention of CVD (particularly CHD, such as MI). For example, the nucleic acid molecules of the invention are useful for determining the likelihood of an individual who currently or previously has or has had CVD (such as an individual who has previously had an MI) or who is at increased risk for developing CVD (such as an individual who has not yet had an MI but is at increased risk for having an MI in the future) of responding to treatment (or prevention) of CVD with statins (such as by reducing their risk of developing primary or recurrent CVD, such as MI, in the future), predicting the likelihood that the individual will experience toxicity or other undesirable side effects from the statin treatment, predicting an individual's risk for developing CVD (particularly the risk for CHD such as MI), etc. For example, the nucleic acid molecules are useful as hybridization probes, such as for genotyping SNPs in messenger RNA, transcript, cDNA, genomic DNA, amplified DNA or other nucleic acid molecules, and for isolating full-length cDNA and genomic clones encoding the variant peptides disclosed in Table 1 as well as their orthologs.


A probe can hybridize to any nucleotide sequence along the entire length of a nucleic acid molecule referred to in Table 1 and/or Table 2. Preferably, a probe of the present invention hybridizes to a region of a target sequence that encompasses a SNP position indicated in Table 1 and/or Table 2. More preferably, a probe hybridizes to a SNP-containing target sequence in a sequence-specific manner such that it distinguishes the target sequence from other nucleotide sequences which vary from the target sequence only by which nucleotide is present at the SNP site. Such a probe is particularly useful for detecting the presence of a SNP-containing nucleic acid in a test sample, or for determining which nucleotide (allele) is present at a particular SNP site (i.e., genotyping the SNP site).


A nucleic acid hybridization probe may be used for determining the presence, level, form, and/or distribution of nucleic acid expression. The nucleic acid whose level is determined can be DNA or RNA. Accordingly, probes specific for the SNPs described herein can be used to assess the presence, expression and/or gene copy number in a given cell, tissue, or organism. These uses are relevant for diagnosis of disorders involving an increase or decrease in gene expression relative to normal levels. In vitro techniques for detection of mRNA include, for example, Northern blot hybridizations and in situ hybridizations. In vitro techniques for detecting DNA include Southern blot hybridizations and in situ hybridizations. Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Press, N.Y. (2000).


Probes can be used as part of a diagnostic test kit for identifying cells or tissues in which a variant protein is expressed, such as by measuring the level of a variant protein-encoding nucleic acid (e.g., mRNA) in a sample of cells from a subject or determining if a polynucleotide contains a SNP of interest.


Thus, the nucleic acid molecules of the invention can be used as hybridization probes to detect the SNPs disclosed herein, thereby determining the likelihood that an individual will respond positively to statin treatment for reducing the risk of CVD (particularly CHD such as MI), or whether an individual with the polymorphism(s) is at risk for developing CVD (or has already developed early stage CVD). Detection of a SNP associated with a disease phenotype provides a diagnostic tool for an active disease and/or genetic predisposition to the disease.


Furthermore, the nucleic acid molecules of the invention are therefore useful for detecting a gene (gene information is disclosed in Table 2, for example) which contains a SNP disclosed herein and/or products of such genes, such as expressed mRNA transcript molecules (transcript information is disclosed in Table 1, for example), and are thus useful for detecting gene expression. The nucleic acid molecules can optionally be implemented in, for example, an array or kit format for use in detecting gene expression.


The nucleic acid molecules of the invention are also useful as primers to amplify any given region of a nucleic acid molecule, particularly a region containing a SNP identified in Table 1 and/or Table 2.


The nucleic acid molecules of the invention are also useful for constructing recombinant vectors (described in greater detail below). Such vectors include expression vectors that express a portion of, or all of, any of the variant peptide sequences referred to in Table 1. Vectors also include insertion vectors, used to integrate into another nucleic acid molecule sequence, such as into the cellular genome, to alter in situ expression of a gene and/or gene product. For example, an endogenous coding sequence can be replaced via homologous recombination with all or part of the coding region containing one or more specifically introduced SNPs.


The nucleic acid molecules of the invention are also useful for expressing antigenic portions of the variant proteins, particularly antigenic portions that contain a variant amino acid sequence (e.g., an amino acid substitution) caused by a SNP disclosed in Table 1 and/or Table 2.


The nucleic acid molecules of the invention are also useful for constructing vectors containing a gene regulatory region of the nucleic acid molecules of the present invention.


The nucleic acid molecules of the invention are also useful for designing ribozymes corresponding to all, or a part, of an mRNA molecule expressed from a SNP-containing nucleic acid molecule described herein.


The nucleic acid molecules of the invention are also useful for constructing host cells expressing a part, or all, of the nucleic acid molecules and variant peptides.


The nucleic acid molecules of the invention are also useful for constructing transgenic animals expressing all, or a part, of the nucleic acid molecules and variant peptides. The production of recombinant cells and transgenic animals having nucleic acid molecules which contain the SNPs disclosed in Table 1 and/or Table 2 allows, for example, effective clinical design of treatment compounds and dosage regimens.


The nucleic acid molecules of the invention are also useful in assays for drug screening to identify compounds that, for example, modulate nucleic acid expression.


The nucleic acid molecules of the invention are also useful in gene therapy in patients whose cells have aberrant gene expression. Thus, recombinant cells, which include a patient's cells that have been engineered ex vivo and returned to the patient, can be introduced into an individual where the recombinant cells produce the desired protein to treat the individual.


SNP Genotyping Methods


The process of determining which nucleotide(s) is/are present at each of one or more SNP positions (such as a SNP position disclosed in Table 1 and/or Table 2), for either or both alleles, may be referred to by such phrases as SNP genotyping, determining the “identity” of a SNP, determining the “content” of a SNP, or determining which nucleotide(s)/allele(s) is/are present at a SNP position. Thus, these terms can refer to detecting a single allele (nucleotide) at a SNP position or can encompass detecting both alleles (nucleotides) at a SNP position (such as to determine the homozygous or heterozygous state of a SNP position). Furthermore, these terms may also refer to detecting an amino acid residue encoded by a SNP (such as alternative amino acid residues that are encoded by different codons created by alternative nucleotides at a missense SNP position, for example).


The present invention provides methods of SNP genotyping, such as for use in implementing a preventive or treatment regimen for an individual based on that individual having an increased susceptibility for developing CVD (e.g., increased risk for CHD, such as MI) and/or an increased likelihood of benefiting from statin treatment for reducing the risk of CVD, in evaluating an individual's likelihood of responding to statin treatment (particularly for treating or preventing CVD), in selecting a treatment or preventive regimen (e.g., in deciding whether or not to administer statin treatment to an individual having CVD, or who is at increased risk for developing CVD, such as MI, in the future), or in formulating or selecting a particular statin-based treatment or preventive regimen such as dosage and/or frequency of administration of statin treatment or choosing which form/type of statin to be administered, such as a particular pharmaceutical composition or compound, etc.), determining the likelihood of experiencing toxicity or other undesirable side effects from statin treatment, or selecting individuals for a clinical trial of a statin (e.g., selecting individuals to participate in the trial who are most likely to respond positively from the statin treatment and/or excluding individuals from the trial who are unlikely to respond positively from the statin treatment based on their SNP genotype(s), or selecting individuals who are unlikely to respond positively to statins based on their SNP genotype(s) to participate in a clinical trial of another type of drug that may benefit them), etc. The SNP genotyping methods of the invention can also be useful for evaluating an individual's risk for developing CVD (particularly CHD, such as MI) and for predicting the likelihood that an individual who has previously had CVD will have a recurrence of CVD again in the future (e.g., recurrent MI).


Nucleic acid samples can be genotyped to determine which allele(s) is/are present at any given genetic region (e.g., SNP position) of interest by methods well known in the art. The neighboring sequence can be used to design SNP detection reagents such as oligonucleotide probes, which may optionally be implemented in a kit format. Exemplary SNP genotyping methods are described in Chen et al., “Single nucleotide polymorphism genotyping: biochemistry, protocol, cost and throughput,” Pharmacogenomics J 3(2):77-96 (2003); Kwok et al., “Detection of single nucleotide polymorphisms,” Curr Issues Mol Biol 5(2):43-60 (April 2003); Shi, “Technologies for individual genotyping: detection of genetic polymorphisms in drug targets and disease genes,” Am J Pharmacogenomics 2(3):197-205 (2002); and Kwok, “Methods for genotyping single nucleotide polymorphisms,” Annu Rev Genomics Hum Genet 2:235-58 (2001). Exemplary techniques for high-throughput SNP genotyping are described in Marnellos, “High-throughput SNP analysis for genetic association studies,” Curr Opin Drug Discov Devel 6(3):317-21 (May 2003). Common SNP genotyping methods include, but are not limited to, TaqMan assays, molecular beacon assays, nucleic acid arrays, allele-specific primer extension, allele-specific PCR, arrayed primer extension, homogeneous primer extension assays, primer extension with detection by mass spectrometry, pyrosequencing, multiplex primer extension sorted on genetic arrays, ligation with rolling circle amplification, homogeneous ligation, OLA (U.S. Pat. No. 4,988,167), multiplex ligation reaction sorted on genetic arrays, restriction-fragment length polymorphism, single base extension-tag assays, and the Invader assay. Such methods may be used in combination with detection mechanisms such as, for example, luminescence or chemiluminescence detection, fluorescence detection, time-resolved fluorescence detection, fluorescence resonance energy transfer, fluorescence polarization, mass spectrometry, and electrical detection.


Various methods for detecting polymorphisms include, but are not limited to, methods in which protection from cleavage agents is used to detect mismatched bases in RNA/RNA or RNA/DNA duplexes (Myers et al., Science 230:1242 (1985); Cotton et al., PNAS 85:4397 (1988); and Saleeba et al., Meth. Enzymol 217:286-295 (1992)), comparison of the electrophoretic mobility of variant and wild type nucleic acid molecules (Orita et al., PNAS 86:2766 (1989); Cotton et al., Mutat Res 285:125-144 (1993); and Hayashi et al., Genet Anal Tech Appl 9:73-79 (1992)), and assaying the movement of polymorphic or wild-type fragments in polyacrylamide gels containing a gradient of denaturant using denaturing gradient gel electrophoresis (DGGE) (Myers et al., Nature 313:495 (1985)). Sequence variations at specific locations can also be assessed by nuclease protection assays such as RNase and S1 protection or chemical cleavage methods.


In a preferred embodiment, SNP genotyping is performed using the TaqMan assay, which is also known as the 5′ nuclease assay (U.S. Pat. Nos. 5,210,015 and 5,538,848). The TaqMan assay detects the accumulation of a specific amplified product during PCR. The TaqMan assay utilizes an oligonucleotide probe labeled with a fluorescent reporter dye and a quencher dye. The reporter dye is excited by irradiation at an appropriate wavelength, it transfers energy to the quencher dye in the same probe via a process called fluorescence resonance energy transfer (FRET). When attached to the probe, the excited reporter dye does not emit a signal. The proximity of the quencher dye to the reporter dye in the intact probe maintains a reduced fluorescence for the reporter. The reporter dye and quencher dye may be at the 5′ most and the 3′ most ends, respectively, or vice versa. Alternatively, the reporter dye may be at the 5′ or 3′ most end while the quencher dye is attached to an internal nucleotide, or vice versa. In yet another embodiment, both the reporter and the quencher may be attached to internal nucleotides at a distance from each other such that fluorescence of the reporter is reduced.


During PCR, the 5′ nuclease activity of DNA polymerase cleaves the probe, thereby separating the reporter dye and the quencher dye and resulting in increased fluorescence of the reporter. Accumulation of PCR product is detected directly by monitoring the increase in fluorescence of the reporter dye. The DNA polymerase cleaves the probe between the reporter dye and the quencher dye only if the probe hybridizes to the target SNP-containing template which is amplified during PCR, and the probe is designed to hybridize to the target SNP site only if a particular SNP allele is present.


Preferred TaqMan primer and probe sequences can readily be determined using the SNP and associated nucleic acid sequence information provided herein. A number of computer programs, such as Primer Express (Applied Biosystems, Foster City, Calif.), can be used to rapidly obtain optimal primer/probe sets. It will be apparent to one of skill in the art that such primers and probes for detecting the SNPs of the present invention are useful in, for example, screening individuals for their likelihood of responding to statin treatment (i.e., benefiting from statin treatment), particularly individuals who have or are susceptible to CVD (particularly CHD, such as MI), or in screening for individuals who are susceptible to developing CVD. These probes and primers can be readily incorporated into a kit format. The present invention also includes modifications of the Taqman assay well known in the art such as the use of Molecular Beacon probes (U.S. Pat. Nos. 5,118,801 and 5,312,728) and other variant formats (U.S. Pat. Nos. 5,866,336 and 6,117,635).


Another preferred method for genotyping the SNPs of the present invention is the use of two oligonucleotide probes in an OLA (see, e.g., U.S. Pat. No. 4,988,617). In this method, one probe hybridizes to a segment of a target nucleic acid with its 3′ most end aligned with the SNP site. A second probe hybridizes to an adjacent segment of the target nucleic acid molecule directly 3′ to the first probe. The two juxtaposed probes hybridize to the target nucleic acid molecule, and are ligated in the presence of a linking agent such as a ligase if there is perfect complementarity between the 3′ most nucleotide of the first probe with the SNP site. If there is a mismatch, ligation would not occur. After the reaction, the ligated probes are separated from the target nucleic acid molecule, and detected as indicators of the presence of a SNP.


The following patents, patent applications, and published international patent applications, which are all hereby incorporated by reference, provide additional information pertaining to techniques for carrying out various types of OLA. The following U.S. patents describe OLA strategies for performing SNP detection: U.S. Pat. Nos. 6,027,889; 6,268,148; 5,494,810; 5,830,711 and 6,054,564. WO 97/31256 and WO 00/56927 describe OLA strategies for performing SNP detection using universal arrays, wherein a zipcode sequence can be introduced into one of the hybridization probes, and the resulting product, or amplified product, hybridized to a universal zip code array. U.S. application US01/17329 (and Ser. No. 09/584,905) describes OLA (or LDR) followed by PCR, wherein zipcodes are incorporated into OLA probes, and amplified PCR products are determined by electrophoretic or universal zipcode array readout. U.S. applications 60/427,818, 60/445,636, and 60/445,494 describe SNPlex methods and software for multiplexed SNP detection using OLA followed by PCR, wherein zipcodes are incorporated into OLA probes, and amplified PCR products are hybridized with a zipchute reagent, and the identity of the SNP determined from electrophoretic readout of the zipchute. In some embodiments, OLA is carried out prior to PCR (or another method of nucleic acid amplification). In other embodiments, PCR (or another method of nucleic acid amplification) is carried out prior to OLA.


Another method for SNP genotyping is based on mass spectrometry. Mass spectrometry takes advantage of the unique mass of each of the four nucleotides of DNA. SNPs can be unambiguously genotyped by mass spectrometry by measuring the differences in the mass of nucleic acids having alternative SNP alleles. MALDI-TOF (Matrix Assisted Laser Desorption Ionization-Time of Flight) mass spectrometry technology is preferred for extremely precise determinations of molecular mass, such as SNPs. Numerous approaches to SNP analysis have been developed based on mass spectrometry. Preferred mass spectrometry-based methods of SNP genotyping include primer extension assays, which can also be utilized in combination with other approaches, such as traditional gel-based formats and microarrays.


Typically, the primer extension assay involves designing and annealing a primer to a template PCR amplicon upstream (5′) from a target SNP position. A mix of dideoxynucleotide triphosphates (ddNTPs) and/or deoxynucleotide triphosphates (dNTPs) are added to a reaction mixture containing template (e.g., a SNP-containing nucleic acid molecule which has typically been amplified, such as by PCR), primer, and DNA polymerase. Extension of the primer terminates at the first position in the template where a nucleotide complementary to one of the ddNTPs in the mix occurs. The primer can be either immediately adjacent (i.e., the nucleotide at the 3′ end of the primer hybridizes to the nucleotide next to the target SNP site) or two or more nucleotides removed from the SNP position. If the primer is several nucleotides removed from the target SNP position, the only limitation is that the template sequence between the 3′ end of the primer and the SNP position cannot contain a nucleotide of the same type as the one to be detected, or this will cause premature termination of the extension primer. Alternatively, if all four ddNTPs alone, with no dNTPs, are added to the reaction mixture, the primer will always be extended by only one nucleotide, corresponding to the target SNP position. In this instance, primers are designed to bind one nucleotide upstream from the SNP position (i.e., the nucleotide at the 3′ end of the primer hybridizes to the nucleotide that is immediately adjacent to the target SNP site on the 5′ side of the target SNP site). Extension by only one nucleotide is preferable, as it minimizes the overall mass of the extended primer, thereby increasing the resolution of mass differences between alternative SNP nucleotides. Furthermore, mass-tagged ddNTPs can be employed in the primer extension reactions in place of unmodified ddNTPs. This increases the mass difference between primers extended with these ddNTPs, thereby providing increased sensitivity and accuracy, and is particularly useful for typing heterozygous base positions. Mass-tagging also alleviates the need for intensive sample-preparation procedures and decreases the necessary resolving power of the mass spectrometer.


The extended primers can then be purified and analyzed by MALDI-TOF mass spectrometry to determine the identity of the nucleotide present at the target SNP position. In one method of analysis, the products from the primer extension reaction are combined with light absorbing crystals that form a matrix. The matrix is then hit with an energy source such as a laser to ionize and desorb the nucleic acid molecules into the gas-phase. The ionized molecules are then ejected into a flight tube and accelerated down the tube towards a detector. The time between the ionization event, such as a laser pulse, and collision of the molecule with the detector is the time of flight of that molecule. The time of flight is precisely correlated with the mass-to-charge ratio (m/z) of the ionized molecule. Ions with smaller m/z travel down the tube faster than ions with larger m/z and therefore the lighter ions reach the detector before the heavier ions. The time-of-flight is then converted into a corresponding, and highly precise, m/z. In this manner, SNPs can be identified based on the slight differences in mass, and the corresponding time of flight differences, inherent in nucleic acid molecules having different nucleotides at a single base position. For further information regarding the use of primer extension assays in conjunction with MALDI-TOF mass spectrometry for SNP genotyping, see, e.g., Wise et al., “A standard protocol for single nucleotide primer extension in the human genome using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry,” Rapid Commun Mass Spectrom 17(11):1195-202 (2003).


The following references provide further information describing mass spectrometry-based methods for SNP genotyping: Bocker, “SNP and mutation discovery using base-specific cleavage and MALDI-TOF mass spectrometry,” Bioinformatics 19 Suppl 1:144-153 (July 2003); Storm et al., “MALDI-TOF mass spectrometry-based SNP genotyping,” Methods Mol Biol 212:241-62 (2003); Jurinke et al., “The use of Mass ARRAY technology for high throughput genotyping,” Adv Biochem Eng Biotechnol 77:57-74 (2002); and Jurinke et al., “Automated genotyping using the DNA MassArray technology,” Methods Mol Biol 187:179-92 (2002).


SNPs can also be scored by direct DNA sequencing. A variety of automated sequencing procedures can be utilized (e.g. Biotechniques 19:448 (1995)), including sequencing by mass spectrometry. See, e.g., PCT International Publication No. WO 94/16101; Cohen et al., Adv Chromatogr 36:127-162 (1996); and Griffin et al., Appl Biochem Biotechnol 38:147-159 (1993). The nucleic acid sequences of the present invention enable one of ordinary skill in the art to readily design sequencing primers for such automated sequencing procedures. Commercial instrumentation, such as the Applied Biosystems 377, 3100, 3700, 3730, and 3730xl DNA Analyzers (Foster City, Calif.), is commonly used in the art for automated sequencing.


Other methods that can be used to genotype the SNPs of the present invention include single-strand conformational polymorphism (SSCP), and denaturing gradient gel electrophoresis (DGGE). Myers et al., Nature 313:495 (1985). SSCP identifies base differences by alteration in electrophoretic migration of single stranded PCR products, as described in Orita et al., Proc. Nat. Acad. Single-stranded PCR products can be generated by heating or otherwise denaturing double stranded PCR products. Single-stranded nucleic acids may refold or form secondary structures that are partially dependent on the base sequence. The different electrophoretic mobilities of single-stranded amplification products are related to base-sequence differences at SNP positions. DGGE differentiates SNP alleles based on the different sequence-dependent stabilities and melting properties inherent in polymorphic DNA and the corresponding differences in electrophoretic migration patterns in a denaturing gradient gel. PCR Technology: Principles and Applications for DNA Amplification Chapter 7, Erlich, ed., W.H. Freeman and Co, N.Y. (1992).


Sequence-specific ribozymes (U.S. Pat. No. 5,498,531) can also be used to score SNPs based on the development or loss of a ribozyme cleavage site. Perfectly matched sequences can be distinguished from mismatched sequences by nuclease cleavage digestion assays or by differences in melting temperature. If the SNP affects a restriction enzyme cleavage site, the SNP can be identified by alterations in restriction enzyme digestion patterns, and the corresponding changes in nucleic acid fragment lengths determined by gel electrophoresis.


SNP genotyping can include the steps of, for example, collecting a biological sample from a human subject (e.g., sample of tissues, cells, fluids, secretions, etc.), isolating nucleic acids (e.g., genomic DNA, mRNA or both) from the cells of the sample, contacting the nucleic acids with one or more primers which specifically hybridize to a region of the isolated nucleic acid containing a target SNP under conditions such that hybridization and amplification of the target nucleic acid region occurs, and determining the nucleotide present at the SNP position of interest, or, in some assays, detecting the presence or absence of an amplification product (assays can be designed so that hybridization and/or amplification will only occur if a particular SNP allele is present or absent). In some assays, the size of the amplification product is detected and compared to the length of a control sample; for example, deletions and insertions can be detected by a change in size of the amplified product compared to a normal genotype.


SNP genotyping is useful for numerous practical applications, as described below. Examples of such applications include, but are not limited to, SNP-disease association analysis, disease predisposition screening, disease diagnosis, disease prognosis, disease progression monitoring, determining therapeutic strategies based on an individual's genotype (“pharmacogenomics”), developing therapeutic agents based on SNP genotypes associated with a disease or likelihood of responding to a drug, stratifying patient populations for clinical trials of a therapeutic, preventive, or diagnostic agent, and predicting the likelihood that an individual will experience toxic side effects from a therapeutic agent.


Analysis of Genetic Associations Between SNPs and Phenotypic Traits


SNP genotyping for disease diagnosis, disease predisposition screening, disease prognosis, determining drug responsiveness (pharmacogenomics), drug toxicity screening, and other uses described herein, typically relies on initially establishing a genetic association between one or more specific SNPs and the particular phenotypic traits of interest.


Different study designs may be used for genetic association studies. Modern Epidemiology 609-622, Lippincott, Williams & Wilkins (1998). Observational studies are most frequently carried out in which the response of the patients is not interfered with. The first type of observational study identifies a sample of persons in whom the suspected cause of the disease is present and another sample of persons in whom the suspected cause is absent, and then the frequency of development of disease in the two samples is compared. These sampled populations are called cohorts, and the study is a prospective study. The other type of observational study is case-control or a retrospective study. In typical case-control studies, samples are collected from individuals with the phenotype of interest (cases) such as certain manifestations of a disease, and from individuals without the phenotype (controls) in a population (target population) that conclusions are to be drawn from. Then the possible causes of the disease are investigated retrospectively. As the time and costs of collecting samples in case-control studies are considerably less than those for prospective studies, case-control studies are the more commonly used study design in genetic association studies, at least during the exploration and discovery stage.


Case-only studies are an alternative to case-control studies when gene-environment interaction is the association of interest (Piegorsch et al., “Non-hierarchical logistic models and case-only designs for assessing susceptibility in population-based case-control studies”, Statistics in Medicine 13 (1994) pp 153-162). In a typical case-only study of gene-environment interaction, genotypes are obtained only from cases who are often selected from an existing cohort study. The association between genotypes and the environmental factor is then assessed and a significant association implies that the effect of the environmental factor on the endpoint of interest (the case definition) differs by genotype. The primary assumption underlying the test of association in case-only studies is that the environmental effect of interest is independent of genotype (e.g., allocation to statin therapy is independent of genotype) and it has been shown that the case-only design has more power than the case-control design to detect gene-environment interaction when this assumption is true in the population (Yang et al., “Sample Size Requirements in Case-Only Designs to Detect Gene-Environment Interaction”, American Journal of Epidemiology 146:9 (1997) pp 713-720). Selecting cases from a randomized clinical trial may be an ideal setting in which to perform a case-only study since genotypes will be independent of treatment by design.


In observational studies, there may be potential confounding factors that should be taken into consideration. Confounding factors are those that are associated with both the real cause(s) of the disease and the disease itself, and they include demographic information such as age, gender, ethnicity as well as environmental factors. When confounding factors are not matched in cases and controls in a study, and are not controlled properly, spurious association results can arise. If potential confounding factors are identified, they should be controlled for by analysis methods explained below.


In a genetic association study, the cause of interest to be tested is a certain allele or a SNP or a combination of alleles or a haplotype from several SNPs. Thus, tissue specimens (e.g., whole blood) from the sampled individuals may be collected and genomic DNA genotyped for the SNP(s) of interest. In addition to the phenotypic trait of interest, other information such as demographic (e.g., age, gender, ethnicity, etc.), clinical, and environmental information that may influence the outcome of the trait can be collected to further characterize and define the sample set. In many cases, these factors are known to be associated with diseases and/or SNP allele frequencies. There are likely gene-environment and/or gene-gene interactions as well. Analysis methods to address gene-environment and gene-gene interactions (for example, the effects of the presence of both susceptibility alleles at two different genes can be greater than the effects of the individual alleles at two genes combined) are discussed below.


After all the relevant phenotypic and genotypic information has been obtained, statistical analyses are carried out to determine if there is any significant correlation between the presence of an allele or a genotype with the phenotypic characteristics of an individual. Preferably, data inspection and cleaning are first performed before carrying out statistical tests for genetic association. Epidemiological and clinical data of the samples can be summarized by descriptive statistics with tables and graphs. Data validation is preferably performed to check for data completion, inconsistent entries, and outliers. Chi-squared tests and t-tests (Wilcoxon rank-sum tests if distributions are not normal) may then be used to check for significant differences between cases and controls for discrete and continuous variables, respectively. To ensure genotyping quality, Hardy-Weinberg disequilibrium tests can be performed on cases and controls separately. Significant deviation from Hardy-Weinberg equilibrium (HWE) in both cases and controls for individual markers can be indicative of genotyping errors. If HWE is violated in a majority of markers, it is indicative of population substructure that should be further investigated. Moreover, Hardy-Weinberg disequilibrium in cases only can indicate genetic association of the markers with the disease. B. Weir, Genetic Data Analysis, Sinauer (1990).


To test whether an allele of a single SNP is associated with the case or control status of a phenotypic trait, one skilled in the art can compare allele frequencies in cases and controls. Standard chi-squared tests and Fisher exact tests can be carried out on a 2×2 table (2 SNP alleles×2 outcomes in the categorical trait of interest). To test whether genotypes of a SNP are associated, chi-squared tests can be carried out on a 3×2 table (3 genotypes×2 outcomes). Score tests are also carried out for genotypic association to contrast the three genotypic frequencies (major homozygotes, heterozygotes and minor homozygotes) in cases and controls, and to look for trends using 3 different modes of inheritance, namely dominant (with contrast coefficients 2, −1, −1), additive or allelic (with contrast coefficients 1, 0, −1) and recessive (with contrast coefficients 1, 1, −2). Odds ratios for minor versus major alleles, and odds ratios for heterozygote and homozygote variants versus the wild type genotypes are calculated with the desired confidence limits, usually 95%.


In order to control for confounders and to test for interaction and effect modifiers, stratified analyses may be performed using stratified factors that are likely to be confounding, including demographic information such as age, ethnicity, and gender, or an interacting element or effect modifier, such as a known major gene (e.g., APOE for Alzheimer's disease or HLA genes for autoimmune diseases), or environmental factors such as smoking in lung cancer. Stratified association tests may be carried out using Cochran-Mantel-Haenszel tests that take into account the ordinal nature of genotypes with 0, 1, and 2 variant alleles. Exact tests by StatXact may also be performed when computationally possible. Another way to adjust for confounding effects and test for interactions is to perform stepwise multiple logistic regression analysis using statistical packages such as SAS or R. Logistic regression is a model-building technique in which the best fitting and most parsimonious model is built to describe the relation between the dichotomous outcome (for instance, getting a certain disease or not) and a set of independent variables (for instance, genotypes of different associated genes, and the associated demographic and environmental factors). The most common model is one in which the logit transformation of the odds ratios is expressed as a linear combination of the variables (main effects) and their cross-product terms (interactions). Hosmer and Lemeshow, Applied Logistic Regression, Wiley (2000). To test whether a certain variable or interaction is significantly associated with the outcome, coefficients in the model are first estimated and then tested for statistical significance of their departure from zero.


In addition to performing association tests one marker at a time, haplotype association analysis may also be performed to study a number of markers that are closely linked together. Haplotype association tests can have better power than genotypic or allelic association tests when the tested markers are not the disease-causing mutations themselves but are in linkage disequilibrium with such mutations. The test will even be more powerful if the disease is indeed caused by a combination of alleles on a haplotype (e.g., APOE is a haplotype formed by 2 SNPs that are very close to each other). In order to perform haplotype association effectively, marker-marker linkage disequilibrium measures, both D′ and r2, are typically calculated for the markers within a gene to elucidate the haplotype structure. Recent studies in linkage disequilibrium indicate that SNPs within a gene are organized in block pattern, and a high degree of linkage disequilibrium exists within blocks and very little linkage disequilibrium exists between blocks. Daly et al, Nature Genetics 29:232-235 (2001). Haplotype association with the disease status can be performed using such blocks once they have been elucidated.


Haplotype association tests can be carried out in a similar fashion as the allelic and genotypic association tests. Each haplotype in a gene is analogous to an allele in a multi-allelic marker. One skilled in the art can either compare the haplotype frequencies in cases and controls or test genetic association with different pairs of haplotypes. It has been proposed that score tests can be done on haplotypes using the program “haplo.score.” Schaid et al, Am J Hum Genet 70:425-434 (2002). In that method, haplotypes are first inferred by EM algorithm and score tests are carried out with a generalized linear model (GLM) framework that allows the adjustment of other factors.


An important decision in the performance of genetic association tests is the determination of the significance level at which significant association can be declared when the P value of the tests reaches that level. In an exploratory analysis where positive hits will be followed up in subsequent confirmatory testing, an unadjusted P value <0.2 (a significance level on the lenient side), for example, may be used for generating hypotheses for significant association of a SNP with certain phenotypic characteristics of a disease. It is preferred that a p-value <0.05 (a significance level traditionally used in the art) is achieved in order for a SNP to be considered to have an association with a disease. It is more preferred that a p-value <0.01 (a significance level on the stringent side) is achieved for an association to be declared. When hits are followed up in confirmatory analyses in more samples of the same source or in different samples from different sources, adjustment for multiple testing will be performed as to avoid excess number of hits while maintaining the experiment-wide error rates at 0.05. While there are different methods to adjust for multiple testing to control for different kinds of error rates, a commonly used but rather conservative method is Bonferroni correction to control the experiment-wise or family-wise error rate. Westfall et al., Multiple comparisons and multiple tests, SAS Institute (1999). Permutation tests to control for the false discovery rates, FDR, can be more powerful. Benjamini and Hochberg, Journal of the Royal Statistical Society, Series B 57:1289-1300 (1995); Westfall and Young, Resampling-based Multiple Testing, Wiley (1993). Such methods to control for multiplicity would be preferred when the tests are dependent and controlling for false discovery rates is sufficient as opposed to controlling for the experiment-wise error rates.


In replication studies using samples from different populations after statistically significant markers have been identified in the exploratory stage, meta-analyses can then be performed by combining evidence of different studies. Modern Epidemiology 643-673, Lippincott, Williams & Wilkins (1998). If available, association results known in the art for the same SNPs can be included in the meta-analyses.


Since both genotyping and disease status classification can involve errors, sensitivity analyses may be performed to see how odds ratios and p-values would change upon various estimates on genotyping and disease classification error rates.


It has been well known that subpopulation-based sampling bias between cases and controls can lead to spurious results in case-control association studies when prevalence of the disease is associated with different subpopulation groups. Ewens and Spielman, Am J Hum Genet 62:450-458 (1995). Such bias can also lead to a loss of statistical power in genetic association studies. To detect population stratification, Pritchard and Rosenberg suggested typing markers that are unlinked to the disease and using results of association tests on those markers to determine whether there is any population stratification. Pritchard et al., Am J Hum Gen 65:220-228 (1999). When stratification is detected, the genomic control (GC) method as proposed by Devlin and Roeder can be used to adjust for the inflation of test statistics due to population stratification. Devlin et al., Biometrics 55:997-1004 (1999). The GC method is robust to changes in population structure levels as well as being applicable to DNA pooling designs. Devlin et al., Genet Epidem 21:273-284 (2001).


While Pritchard's method recommended using 15-20 unlinked microsatellite markers, it suggested using more than 30 biallelic markers to get enough power to detect population stratification. For the GC method, it has been shown that about 60-70 biallelic markers are sufficient to estimate the inflation factor for the test statistics due to population stratification. Bacanu et al., Am J Hum Genet 66:1933-1944 (2000). Hence, 70 intergenic SNPs can be chosen in unlinked regions as indicated in a genome scan. Kehoe et al., Hum Mol Genet 8:237-245 (1999).


Once individual risk factors, genetic or non-genetic, have been found for the predisposition to disease, the next step is to set up a classification/prediction scheme to predict the category (for instance, disease or no-disease) that an individual will be in depending on his genotypes of associated SNPs and other non-genetic risk factors. Logistic regression for discrete trait and linear regression for continuous trait are standard techniques for such tasks. Draper and Smith, Applied Regression Analysis, Wiley (1998). Moreover, other techniques can also be used for setting up classification. Such techniques include, but are not limited to, MART, CART, neural network, and discriminant analyses that are suitable for use in comparing the performance of different methods. The Elements of Statistical Learning, Hastie, Tibshirani & Friedman, Springer (2002).


For further information about genetic association studies, see Balding, “A tutorial on statistical methods for population association studies”, Nature Reviews Genetics 7, 781 (2006).


Disease Diagnosis and Predisposition Screening


Information on association/correlation between genotypes and disease-related phenotypes can be exploited in several ways. For example, in the case of a highly statistically significant association between one or more SNPs with predisposition to a disease for which treatment is available, detection of such a genotype pattern in an individual may justify immediate administration of treatment, or at least the institution of regular monitoring of the individual. Detection of the susceptibility alleles associated with serious disease in a couple contemplating having children may also be valuable to the couple in their reproductive decisions. In the case of a weaker but still statistically significant association between a SNP and a human disease, immediate therapeutic intervention or monitoring may not be justified after detecting the susceptibility allele or SNP. Nevertheless, the subject can be motivated to begin simple life-style changes (e.g., diet, exercise) that can be accomplished at little or no cost to the individual but would confer potential benefits in reducing the risk of developing conditions for which that individual may have an increased risk by virtue of having the risk allele(s).


The SNPs of the invention may contribute to responsiveness of an individual to statin treatment, or to the development of CVD (e.g., CHD, such as MI), in different ways. Some polymorphisms occur within a protein coding sequence and contribute to disease phenotype by affecting protein structure. Other polymorphisms occur in noncoding regions but may exert phenotypic effects indirectly via influence on, for example, replication, transcription, and/or translation. A single SNP may affect more than one phenotypic trait. Likewise, a single phenotypic trait may be affected by multiple SNPs in different genes.


As used herein, the terms “diagnose,” “diagnosis,” and “diagnostics” include, but are not limited to, any of the following: detection of CVD (e.g., CHD, such as MI) that an individual may presently have, predisposition/susceptibility/predictive screening (i.e., determining whether an individual has an increased or decreased risk of developing CVD in the future), predicting recurrence of CVD (e.g., recurrent MI) in an individual, determining a particular type or subclass of CVD in an individual who currently or previously had CVD, confirming or reinforcing a previously made diagnosis of CVD, evaluating an individual's likelihood of responding positively to a particular treatment or therapeutic agent (i.e., benefiting) such as statin treatment (particularly treatment or prevention of CVD, especially CHD such as MI, using statins), determining or selecting a therapeutic or preventive strategy that an individual is most likely to positively respond to (e.g., selecting a particular therapeutic agent such as a statin, or combination of therapeutic agents, or selecting a particular statin from among other statins, or determining a dosing regimen or selecting a dosage formulation, etc.), classifying (or confirming/reinforcing) an individual as a responder/non-responder (or determining a particular subtype of responder/non-responder) with respect to the individual's response to a drug treatment such as statin treatment, and predicting whether a patient is likely to experience toxic effects from a particular treatment or therapeutic compound. Such diagnostic uses can be based on the SNPs individually or a unique combination or SNPs disclosed herein, as well as SNP haplotypes.


Haplotypes are particularly useful in that, for example, fewer SNPs can be genotyped to determine if a particular genomic region harbors a locus that influences a particular phenotype, such as in linkage disequilibrium-based SNP association analysis.


Linkage disequilibrium (LD) refers to the co-inheritance of alleles (e.g., alternative nucleotides) at two or more different SNP sites at frequencies greater than would be expected from the separate frequencies of occurrence of each allele in a given population. The expected frequency of co-occurrence of two alleles that are inherited independently is the frequency of the first allele multiplied by the frequency of the second allele. Alleles that co-occur at expected frequencies are said to be in “linkage equilibrium.” In contrast, LD refers to any non-random genetic association between allele(s) at two or more different SNP sites, which is generally due to the physical proximity of the two loci along a chromosome. LD can occur when two or more SNPs sites are in close physical proximity to each other on a given chromosome and therefore alleles at these SNP sites will tend to remain unseparated for multiple generations with the consequence that a particular nucleotide (allele) at one SNP site will show a non-random association with a particular nucleotide (allele) at a different SNP site located nearby. Hence, genotyping one of the SNP sites will give almost the same information as genotyping the other SNP site that is in LD.


Various degrees of LD can be encountered between two or more SNPs with the result being that some SNPs are more closely associated (i.e., in stronger LD) than others. Furthermore, the physical distance over which LD extends along a chromosome differs between different regions of the genome, and therefore the degree of physical separation between two or more SNP sites necessary for LD to occur can differ between different regions of the genome.


For diagnostic purposes and similar uses, if a particular SNP site is found to be useful for, for example, predicting an individual's response to statin treatment or an individual's susceptibility to CVD, then the skilled artisan would recognize that other SNP sites which are in LD with this SNP site would also be useful for the same purposes. Thus, polymorphisms (e.g., SNPs and/or haplotypes) that are not the actual disease-causing (causative) polymorphisms, but are in LD with such causative polymorphisms, are also useful. In such instances, the genotype of the polymorphism(s) that is/are in LD with the causative polymorphism is predictive of the genotype of the causative polymorphism and, consequently, predictive of the phenotype (e.g., response to statin treatment or risk for developing CVD) that is influenced by the causative SNP(s). Therefore, polymorphic markers that are in LD with causative polymorphisms are useful as diagnostic markers, and are particularly useful when the actual causative polymorphism(s) is/are unknown.


Examples of polymorphisms that can be in LD with one or more causative polymorphisms (and/or in LD with one or more polymorphisms that have a significant statistical association with a condition) and therefore useful for diagnosing the same condition that the causative/associated SNP(s) is used to diagnose, include other SNPs in the same gene, protein-coding, or mRNA transcript-coding region as the causative/associated SNP, other SNPs in the same exon or same intron as the causative/associated SNP, other SNPs in the same haplotype block as the causative/associated SNP, other SNPs in the same intergenic region as the causative/associated SNP, SNPs that are outside but near a gene (e.g., within 6 kb on either side, 5′ or 3′, of a gene boundary) that harbors a causative/associated SNP, etc. Such useful LD SNPs can be selected from among the SNPs disclosed in Table 3, for example.


Linkage disequilibrium in the human genome is reviewed in Wall et al., “Haplotype blocks and linkage disequilibrium in the human genome,” Nat Rev Genet 4(8):587-97 (August 2003); Garner et al., “On selecting markers for association studies: patterns of linkage disequilibrium between two and three diallelic loci,” Genet Epidemiol 24(1):57-67 (January 2003); Ardlie et al., “Patterns of linkage disequilibrium in the human genome,” Nat Rev Genet 3(4):299-309 (April 2002); erratum in Nat Rev Genet 3(7):566 (July 2002); and Remm et al., “High-density genotyping and linkage disequilibrium in the human genome using chromosome 22 as a model,” Curr Opin Chem Biol 6(1):24-30 (February 2002); J. B. S. Haldane, “The combination of linkage values, and the calculation of distances between the loci of linked factors,” J Genet 8:299-309 (1919); G. Mendel, Versuche über Pflanzen-Hybriden. Verhandlungen des naturforschenden Vereines in Brünn (Proceedings of the Natural History Society of Brünn) (1866); Genes IV, B. Lewin, ed., Oxford University Press, N.Y. (1990); D. L. Hartl and A. G. Clark Principles of Population Genetics 2nd ed., Sinauer Associates, Inc., Mass. (1989); J. H. Gillespie Population Genetics: A Concise Guide. 2nd ed., Johns Hopkins University Press (2004); R. C. Lewontin, “The interaction of selection and linkage. I. General considerations; heterotic models,” Genetics 49:49-67 (1964); P. G. Hoel, Introduction to Mathematical Statistics 2nd ed., John Wiley & Sons, Inc., N.Y. (1954); R. R. Hudson, “Two-locus sampling distributions and their application,” Genetics 159:1805-1817 (2001); A. P. Dempster, N. M. Laird, D. B. Rubin, “Maximum likelihood from incomplete data via the EM algorithm,” J R Stat Soc 39:1-38 (1977); L. Excoffier, M. Slatkin, “Maximum-likelihood estimation of molecular haplotype frequencies in a diploid population,” Mol Biol Evol 12(5):921-927 (1995); D. A. Tregouet, S. Escolano, L. Tiret, A. Mallet, J. L. Golmard, “A new algorithm for haplotype-based association analysis: the Stochastic-EM algorithm,” Ann Hum Genet 68(Pt 2):165-177 (2004); A. D. Long and C. H. Langley C H, “The power of association studies to detect the contribution of candidate genetic loci to variation in complex traits,” Genome Research 9:720-731 (1999); A. Agresti, Categorical Data Analysis, John Wiley & Sons, Inc., N.Y. (1990); K. Lange, Mathematical and Statistical Methods for Genetic Analysis, Springer-Verlag New York, Inc., N.Y. (1997); The International HapMap Consortium, “The International HapMap Project,” Nature 426:789-796 (2003); The International HapMap Consortium, “A haplotype map of the human genome,” Nature 437:1299-1320 (2005); G. A. Thorisson, A. V. Smith, L. Krishnan, L. D. Stein, “The International HapMap Project Web Site,” Genome Research 15:1591-1593 (2005); G. McVean, C. C. A. Spencer, R. Chaix, “Perspectives on human genetic variation from the HapMap project,” PLoS Genetics 1(4):413-418 (2005); J. N. Hirschhorn, M. J. Daly, “Genome-wide association studies for common diseases and complex traits,” Nat Genet 6:95-108 (2005); S. J. Schrodi, “A probabilistic approach to large-scale association scans: a semi-Bayesian method to detect disease-predisposing alleles,” SAGMB 4(1):31 (2005); W. Y. S. Wang, B. J. Barratt, D. G. Clayton, J. A. Todd, “Genome-wide association studies: theoretical and practical concerns,” Nat Rev Genet 6:109-118 (2005); J. K. Pritchard, M. Przeworski, “Linkage disequilibrium in humans: models and data,” Am J Hum Genet 69:1-14 (2001).


As discussed above, an aspect of the present invention relates to SNPs that are in LD with an interrogated SNP and which can also be used as valid markers for determining an individual's likelihood of benefiting from statin treatment, or whether an individual has an increased or decreased risk of having or developing CVD. As used herein, the term “interrogated SNP” refers to SNPs that have been found to be associated with statin response, particularly for reducing CVD risk, using genotyping results and analysis, or other appropriate experimental method as exemplified in the working examples described in this application. As used herein, the term “LD SNP” refers to a SNP that has been characterized as a SNP associated with statin response or an increased or decreased risk of CVD due to their being in LD with the “interrogated SNP” under the methods of calculation described in the application. Below, applicants describe the methods of calculation with which one of ordinary skilled in the art may determine if a particular SNP is in LD with an interrogated SNP. The parameter r2 is commonly used in the genetics art to characterize the extent of linkage disequilibrium between markers (Hudson, 2001). As used herein, the term “in LD with” refers to a particular SNP that is measured at above the threshold of a parameter such as r2 with an interrogated SNP.


It is now common place to directly observe genetic variants in a sample of chromosomes obtained from a population. Suppose one has genotype data at two genetic markers located on the same chromosome, for the markers A and B. Further suppose that two alleles segregate at each of these two markers such that alleles A1 and A2 can be found at marker A and alleles B1 and B2 at marker B. Also assume that these two markers are on a human autosome. If one is to examine a specific individual and find that they are heterozygous at both markers, such that their two-marker genotype is A1A2B1B2, then there are two possible configurations: the individual in question could have the alleles A1B1 on one chromosome and A2B2 on the remaining chromosome; alternatively, the individual could have alleles A1B2 on one chromosome and A2B1 on the other. The arrangement of alleles on a chromosome is called a haplotype. In this illustration, the individual could have haplotypes A1B1/A2B2 or A1B2/A2B1 (see Hartl and Clark (1989) for a more complete description). The concept of linkage equilibrium relates the frequency of haplotypes to the allele frequencies.


Assume that a sample of individuals is selected from a larger population. Considering the two markers described above, each having two alleles, there are four possible haplotypes: A1B1, A1B2, A2B1 and A2B2. Denote the frequencies of these four haplotypes with the following notation.






P
11=freq(A1B1)  (1)






P
12=freq(A1B2)  (2)






P
21=freq(A2B1)  (3)






P
22=freq(A2B2)  (4)


The allele frequencies at the two markers are then the sum of different haplotype frequencies, it is straightforward to write down a similar set of equations relating single-marker allele frequencies to two-marker haplotype frequencies:






p
1=freq(A1)=P11+P12  (5)






p
2=freq(A2)=P21+P22  (6)






q
1=freq(B1)=P11+P21  (7)






q
2=freq(B2)=P12+P22  (8)


Note that the four haplotype frequencies and the allele frequencies at each marker must sum to a frequency of 1.






P
11
+P
12
+P
21
+P
22=1  (9)






p
1
+p
2=1  (10)






q
1
+q
2=1  (11)


If there is no correlation between the alleles at the two markers, one would expect that the frequency of the haplotypes would be approximately the product of the composite alleles. Therefore,






P
11
≈p
1
q
1  (12)






P
12
≈p
1
q
2  (13)






P
21
≈p
2
q
1  (14)






P
22
≈p
2
q
2  (15)


These approximating equations (12)-(15) represent the concept of linkage equilibrium where there is independent assortment between the two markers—the alleles at the two markers occur together at random. These are represented as approximations because linkage equilibrium and linkage disequilibrium are concepts typically thought of as properties of a sample of chromosomes; and as such they are susceptible to stochastic fluctuations due to the sampling process. Empirically, many pairs of genetic markers will be in linkage equilibrium, but certainly not all pairs.


Having established the concept of linkage equilibrium above, applicants can now describe the concept of linkage disequilibrium (LD), which is the deviation from linkage equilibrium. Since the frequency of the A1B1 haplotype is approximately the product of the allele frequencies for A1 and B1 under the assumption of linkage equilibrium as stated mathematically in (12), a simple measure for the amount of departure from linkage equilibrium is the difference in these two quantities, D,






D=P
11
−p
1
q
1  (16)


D=0 indicates perfect linkage equilibrium. Substantial departures from D=0 indicates LD in the sample of chromosomes examined. Many properties of D are discussed in Lewontin (1964) including the maximum and minimum values that D can take. Mathematically, using basic algebra, it can be shown that D can also be written solely in terms of haplotypes:






D=P
11
P
22
−P
12
P
21  (17)


If one transforms D by squaring it and subsequently dividing by the product of the allele frequencies of A1, A2, B1 and B2, the resulting quantity, called r2, is equivalent to the square of the Pearson's correlation coefficient commonly used in statistics (e.g., Hoel, 1954).










r
2

=


D
2



p
1



p
2



q
1



q
2







(
18
)







As with D, values of r2 close to 0 indicate linkage equilibrium between the two markers examined in the sample set. As values of r2 increase, the two markers are said to be in linkage disequilibrium. The range of values that r2 can take are from 0 to 1. r2=1 when there is a perfect correlation between the alleles at the two markers.


In addition, the quantities discussed above are sample-specific. And as such, it is necessary to formulate notation specific to the samples studied. In the approach discussed here, three types of samples are of primary interest: (i) a sample of chromosomes from individuals affected by a disease-related phenotype (cases), (ii) a sample of chromosomes obtained from individuals not affected by the disease-related phenotype (controls), and (iii) a standard sample set used for the construction of haplotypes and calculation pairwise linkage disequilibrium. For the allele frequencies used in the development of the method described below, an additional subscript will be added to denote either the case or control sample sets.






p
1,cs=freq(A1 in cases)  (19)






p
2,cs=freq(A2 in cases)  (20)






q
1,cs=freq(B1 in cases)  (21)






q
2,cs=freq(B2 in cases)  (22)





Similarly,






p
1,ct=freq(A1 in controls)  (23)






p
2,ct=freq(A2 in controls)  (24)






q
1,ct=freq(B1 in controls)  (25)






q
2,ct=freq(B2 in controls)  (26)


As a well-accepted sample set is necessary for robust linkage disequilibrium calculations, data obtained from the International HapMap project (The International HapMap Consortium 2003, 2005; Thorisson et al, 2005; McVean et al, 2005) can be used for the calculation of pairwise r2 values. Indeed, the samples genotyped for the International HapMap Project were selected to be representative examples from various human sub-populations with sufficient numbers of chromosomes examined to draw meaningful and robust conclusions from the patterns of genetic variation observed. The International HapMap project website (hapmap.org) contains a description of the project, methods utilized and samples examined. It is useful to examine empirical data to get a sense of the patterns present in such data.


Haplotype frequencies were explicit arguments in equation (18) above. However, knowing the 2-marker haplotype frequencies requires that phase to be determined for doubly heterozygous samples. When phase is unknown in the data examined, various algorithms can be used to infer phase from the genotype data. This issue was discussed earlier where the doubly heterozygous individual with a 2-SNP genotype of A1A2B1B2 could have one of two different sets of chromosomes: A1B1/A2B2 or A1B2/A2B1. One such algorithm to estimate haplotype frequencies is the expectation-maximization (EM) algorithm first formalized by Dempster et al. (1977). This algorithm is often used in genetics to infer haplotype frequencies from genotype data (e.g. Excoffier and Slatkin (1995); Tregouet et al. (2004)). It should be noted that for the two-SNP case explored here, EM algorithms have very little error provided that the allele frequencies and sample sizes are not too small. The impact on r2 values is typically negligible.


As correlated genetic markers share information, interrogation of SNP markers in LD with a disease-associated SNP marker can also have sufficient power to detect disease association (Long and Langley (1999)). The relationship between the power to directly find disease-associated alleles and the power to indirectly detect disease-association was investigated by Pritchard and Przeworski (2001). In a straight-forward derivation, it can be shown that the power to detect disease association indirectly at a marker locus in linkage disequilibrium with a disease-association locus is approximately the same as the power to detect disease-association directly at the disease-association locus if the sample size is increased by a factor of






1

r
2





(the reciprocal of equation 18) at the marker in comparison with the disease-association locus.


Therefore, if one calculated the power to detect disease-association indirectly with an experiment having N samples, then equivalent power to directly detect disease-association (at the actual disease-susceptibility locus) would necessitate an experiment using approximately r2N samples. This elementary relationship between power, sample size and linkage disequilibrium can be used to derive an r2 threshold value useful in determining whether or not genotyping markers in linkage disequilibrium with a SNP marker directly associated with disease status has enough power to indirectly detect disease-association.


To commence a derivation of the power to detect disease-associated markers through an indirect process, define the effective chromosomal sample size as










n
=


4






N
cs



N
ct




N
cs

+

N
ct




;




(
27
)







where Ncs and Nct are the numbers of diploid cases and controls, respectively. This is necessary to handle situations where the numbers of cases and controls are not equivalent. For equal case and control sample sizes, Ncs=Nct=N, the value of the effective number of chromosomes is simply n=2N—as expected. Let power be calculated for a significance level α (such that traditional P-values below α will be deemed statistically significant). Define the standard Gaussian distribution function as Φ(•). Mathematically,










Φ


(
x
)


=


1


2

π








-


x






-


θ
2

2










θ








(
28
)







Alternatively, the following error function notation (Erf) may also be used,










Φ


(
x
)


=


1
2



[

1
+

Erf


(

x

2


)



]






(
29
)







For example, Φ(1.644854)=0.95. The value of r2 may be derived to yield a pre-specified minimum amount of power to detect disease association though indirect interrogation. Noting that the LD SNP marker could be the one that is carrying the disease-association allele, therefore that this approach constitutes a lower-bound model where all indirect power results are expected to be at least as large as those interrogated.


Denote by β the error rate for not detecting truly disease-associated markers. Therefore, 1−β is the classical definition of statistical power. Substituting the Pritchard-Pzreworski result into the sample size, the power to detect disease association at a significance level of α is given by the approximation











1
-
β



Φ
[






q

1
,
cs


-

q

1
,
ct










q

1
,
cs




(

1
-

q

1
,
cs



)


+


q

1
,
ct




(

1
-

q

1
,
ct



)





r
2


n




-

Z

1
-

α
2




]


;




(
30
)







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Suppose that r2 is calculated between an interrogated SNP and a number of other SNPs with varying levels of LD with the interrogated SNP. The threshold value rT2 is the minimum value of linkage disequilibrium between the interrogated SNP and the potential LD SNPs such that the LD SNP still retains a power greater or equal to T for detecting disease-association. For example, suppose that SNP rs200 is genotyped in a case-control disease-association study and it is found to be associated with a disease phenotype. Further suppose that the minor allele frequency in 1,000 case chromosomes was found to be 16% in contrast with a minor allele frequency of 10% in 1,000 control chromosomes. Given those measurements one could have predicted, prior to the experiment, that the power to detect disease association at a significance level of 0.05 was quite high—approximately 98% using a test of allelic association. Applying equation (32) one can calculate a minimum value of r2 to indirectly assess disease association assuming that the minor allele at SNP rs200 is truly disease-predisposing for a threshold level of power. If one sets the threshold level of power to be 80%, then rT2=0.489 given the same significance level and chromosome numbers as above. Hence, any SNP with a pairwise r2 value with rs200 greater than 0.489 is expected to have greater than 80% power to detect the disease association. Further, this is assuming the conservative model where the LD SNP is disease-associated only through linkage disequilibrium with the interrogated SNP rs200.


Imputation


Genotypes of SNPs can be imputed without actually having to be directly genotyped (referred to as “imputation”), by using known haplotype information. Imputation is a process to provide “missing” data, either missing individual genotypes (alleles) or missing SNPs and concomitant genotypes, which have not been directly genotyped (i.e., assayed). Imputation is particularly useful for identifying disease associations for specific ungenotyped SNPs by inferring the missing genotypes to these ungenotyped SNPs. Although the process uses similar information to LD, since the phasing and imputation process uses information from multiple SNPs at the same time, the phased haplotype, it is able to infer the genotype and achieve high identifiable accuracy. Genotype information (such as from the HapMap project by The International HapMap Consortium, NCBI, NLM, NIH) can be used to infer haplotype phase and impute genotypes for SNPs that are not directly genotyped in a given individual or sample set (such as for a disease association study). In general, imputation uses a reference dataset in which the genotypes of potential SNPs that are to be tested for disease association have been determined in multiple individuals (such as in HapMap); the individuals in the reference dataset are then haplotype phased. This phasing can be done with independent programs such as fastPHASE (Sheet and Stephens, Am J Hum Genet (2006) 76: 629-644) or a combination program such as BEAGLE which does both the phasing and the imputation. The reference phased haplotypes and process can be checked using the children of the HapMap individual parents, among other mechanisms. Once the reference phased haplotypes have been created, the imputation of additional individuals for SNPs genotyped or complete sets of SNPs that have not been directly genotyped can then proceed. The HapMap dataset is particularly useful as the reference dataset, however other datasets can be used. Since the imputation creates new concommitant phased haplotypes for individuals in the association study and these contain other SNPs within the genomic region, these ungenotyped but imputed SNPs can also be tested for disease associations (or other traits). Certain exemplary methods for haplotype phase inference and imputation of missing genotypes utilize the BEAGLE genetic analysis program, (Browning, Hum Genet (2008) 124:439-450).


Thus, SNPs for which genotypes are imputed can be tested for association with a disease or other trait even though these SNPs are not directly genotyped. The SNPs for which genotypes are imputed have genotype data available in the reference dataset, e.g. HapMap individuals, but they are not directly genotyped in a particular individual or sample set (such as in a particular disease association study).


In addition to using a reference dataset (e.g., HapMap) to impute genotypes of SNPs that are not directly genotyped in a study, imputation can provide genotypes of SNPs that were directly genotyped in a study but for which the genotypes are missing in some or most of the individuals for some reason, such as because they failed to pass quality control. Imputation can also be used to combine genotyping results from multiple studies in which different sets of SNPs were genotyped to construct a complete meta-analysis. For example, genotyped and imputed genotyped SNP results from multiple different studies can be combined, and the overlapping SNP genotypes (e.g., genotyped in one study, imputed in another study or imputed in both or genotyped in both) can be analyzed across all of the studies (Browning, Hum Genet (2008) 124:439-450).


For a review of imputation (as well as the BEAGLE program), see Browning, “Missing data imputation and haplotype phase inference for genome-wide association studies”, Hum Genet (2008) 124:439-450 and Browning et al. “A unified approach to genotype imputation and haplotype-phase inference for large data sets of trios and unrelated individuals”, Am J Hum Genet. (2009) February; 84(2):210-23, each of which is incorporated herein by reference in its entirety.


The contribution or association of particular SNPs with statin response or disease phenotypes, such as CVD, enables the SNPs of the present invention to be used to develop superior diagnostic tests capable of identifying individuals who express a detectable trait, such as reduced risk for CVD (particularly CHD, such as MI) in response to statin treatment, as the result of a specific genotype, or individuals whose genotype places them at an increased or decreased risk of developing a detectable trait at a subsequent time as compared to individuals who do not have that genotype. As described herein, diagnostics may be based on a single SNP or a group of SNPs. Combined detection of a plurality of SNPs (for example, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 24, 25, 30, 32, 48, 50, 64, 96, 100, or any other number in-between, or more, of the SNPs provided in Table 1 and/or Table 2) typically increases the probability of an accurate diagnosis. For example, the presence of a single SNP known to correlate with CVD might indicate a probability of 20% that an individual has or is at risk of developing CVD, whereas detection of five SNPs, each of which correlates with CVD, might indicate a probability of 80% that an individual has or is at risk of developing CVD. To further increase the accuracy of diagnosis or predisposition screening, analysis of the SNPs of the present invention can be combined with that of other polymorphisms or other risk factors of CVD, such as disease symptoms, pathological characteristics, family history, diet, environmental factors, or lifestyle factors.


It will be understood by practitioners skilled in the treatment or diagnosis of CVD that the present invention generally does not intend to provide an absolute identification of individuals who benefit from statin treatment or individuals who are at risk (or less at risk) of developing CVD, but rather to indicate a certain increased (or decreased) degree or likelihood of responding to statin therapy or developing CVD based on statistically significant association results. However, this information is extremely valuable as it can be used to, for example, encourage individuals to comply with their statin regimens as prescribed by their doctors (even though the benefit of maintaining statin therapy may not be overtly apparent, which often leads to lack of compliance with prescribed statin treatment), to initiate preventive treatments or to allow an individual carrying one or more significant SNPs or SNP haplotypes to foresee warning signs such as minor clinical symptoms, or to have regularly scheduled physical exams to monitor for appearance of a condition in order to identify and begin treatment of the condition at an early stage. Particularly with diseases that are extremely debilitating or fatal if not treated on time, the knowledge of a potential predisposition, even if this predisposition is not absolute, would likely contribute in a very significant manner to treatment efficacy.


The diagnostic techniques of the present invention may employ a variety of methodologies to determine whether a test subject has a SNP or combination of SNPs associated with an increased or decreased risk of developing a detectable trait or whether the individual suffers from a detectable trait as a result of a particular polymorphism/mutation, including, for example, methods which enable the analysis of individual chromosomes for haplotyping, family studies, single sperm DNA analysis, or somatic hybrids. The trait analyzed using the diagnostics of the invention may be any detectable trait that is commonly observed in pathologies and disorders related to CVD or drug response.


Another aspect of the present invention relates to a method of determining whether an individual is at risk (or less at risk) of developing one or more traits or whether an individual expresses one or more traits as a consequence of possessing a particular trait-causing or trait-influencing allele. These methods generally involve obtaining a nucleic acid sample from an individual and assaying the nucleic acid sample to determine which nucleotide(s) is/are present at one or more SNP positions, wherein the assayed nucleotide(s) is/are indicative of an increased or decreased risk of developing the trait or indicative that the individual expresses the trait as a result of possessing a particular trait-causing or trait-influencing allele.


In another embodiment, the SNP detection reagents of the present invention are used to determine whether an individual has one or more SNP allele(s) affecting the level (e.g., the concentration of mRNA or protein in a sample, etc.) or pattern (e.g., the kinetics of expression, rate of decomposition, stability profile, Km, Vmax, etc.) of gene expression (collectively, the “gene response” of a cell or bodily fluid). Such a determination can be accomplished by screening for mRNA or protein expression (e.g., by using nucleic acid arrays, RT-PCR, TaqMan assays, or mass spectrometry), identifying genes having altered expression in an individual, genotyping SNPs disclosed in Table 1 and/or Table 2 that could affect the expression of the genes having altered expression (e.g., SNPs that are in and/or around the gene(s) having altered expression, SNPs in regulatory/control regions, SNPs in and/or around other genes that are involved in pathways that could affect the expression of the gene(s) having altered expression, or all SNPs could be genotyped), and correlating SNP genotypes with altered gene expression. In this manner, specific SNP alleles at particular SNP sites can be identified that affect gene expression.


Therapeutics, Pharmacogenomics, and Drug Development


Therapeutic Methods and Compositions


In certain aspects of the invention, there are provided methods of assaying (i.e., testing) one or more SNPs provided by the present invention in an individual's nucleic acids, and administering a therapeutic or preventive agent to the individual based on the allele(s) present at the SNP(s) having indicated that the individual can benefit from the therapeutic or preventive agent.


In further aspects of the invention, there are provided methods of assaying one or more SNPs provided by the present invention in an individual's nucleic acids, and administering a diagnostic agent (e.g., an imaging agent), or otherwise carrying out further diagnostic procedures on the individual, based on the allele(s) present at the SNP(s) having indicated that the diagnostic agents or diagnostics procedures are justified in the individual.


In yet other aspects of the invention, there is provided a pharmaceutical pack comprising a therapeutic agent (e.g., a small molecule drug, antibody, peptide, antisense or RNAi nucleic acid molecule, etc.) and a set of instructions for administration of the therapeutic agent to an individual who has been tested for one or more SNPs provided by the present invention.


Pharmacogenomics


The present invention provides methods for assessing the pharmacogenomics of a subject harboring particular SNP alleles or haplotypes to a particular therapeutic agent or pharmaceutical compound, or to a class of such compounds. Pharmacogenomics deals with the roles which clinically significant hereditary variations (e.g., SNPs) play in the response to drugs due to altered drug disposition and/or abnormal action in affected persons. See, e.g., Roses, Nature 405, 857-865 (2000); Gould Rothberg, Nature Biotechnology 19, 209-211 (2001); Eichelbaum, Clin Exp Pharmacol Physiol 23(10-11):983-985 (1996); and Linder, Clin Chem 43(2):254-266 (1997). The clinical outcomes of these variations can result in severe toxicity of therapeutic drugs in certain individuals or therapeutic failure of drugs in certain individuals as a result of individual variation in metabolism. Thus, the SNP genotype of an individual can determine the way a therapeutic compound acts on the body or the way the body metabolizes the compound. For example, SNPs in drug metabolizing enzymes can affect the activity of these enzymes, which in turn can affect both the intensity and duration of drug action, as well as drug metabolism and clearance.


The discovery of SNPs in drug metabolizing enzymes, drug transporters, proteins for pharmaceutical agents, and other drug targets has explained why some patients do not obtain the expected drug effects, show an exaggerated drug effect, or experience serious toxicity from standard drug dosages. SNPs can be expressed in the phenotype of the extensive metabolizer and in the phenotype of the poor metabolizer. Accordingly, SNPs may lead to allelic variants of a protein in which one or more of the protein functions in one population are different from those in another population. SNPs and the encoded variant peptides thus provide targets to ascertain a genetic predisposition that can affect treatment modality. For example, in a ligand-based treatment, SNPs may give rise to amino terminal extracellular domains and/or other ligand-binding regions of a receptor that are more or less active in ligand binding, thereby affecting subsequent protein activation. Accordingly, ligand dosage would necessarily be modified to maximize the therapeutic effect within a given population containing particular SNP alleles or haplotypes.


As an alternative to genotyping, specific variant proteins containing variant amino acid sequences encoded by alternative SNP alleles could be identified. Thus, pharmacogenomic characterization of an individual permits the selection of effective compounds and effective dosages of such compounds for prophylactic or therapeutic uses based on the individual's SNP genotype, thereby enhancing and optimizing the effectiveness of the therapy. Furthermore, the production of recombinant cells and transgenic animals containing particular SNPs/haplotypes allow effective clinical design and testing of treatment compounds and dosage regimens. For example, transgenic animals can be produced that differ only in specific SNP alleles in a gene that is orthologous to a human disease susceptibility gene.


Pharmacogenomic uses of the SNPs of the present invention provide several significant advantages for patient care, particularly in predicting an individual's responsiveness to statin treatment (particularly for reducing the risk of CVD, especially CHD such as MI) and in predicting an individual's predisposition to CVD (e.g., CHD such as MI). Pharmacogenomic characterization of an individual, based on an individual's SNP genotype, can identify those individuals unlikely to respond to treatment with a particular medication and thereby allows physicians to avoid prescribing the ineffective medication to those individuals. On the other hand, SNP genotyping of an individual may enable physicians to select the appropriate medication and dosage regimen that will be most effective based on an individual's SNP genotype. This information increases a physician's confidence in prescribing medications and motivates patients to comply with their drug regimens. Furthermore, pharmacogenomics may identify patients predisposed to toxicity and adverse reactions to particular drugs or drug dosages. Adverse drug reactions lead to more than 100,000 avoidable deaths per year in the United States alone and therefore represent a significant cause of hospitalization and death, as well as a significant economic burden on the healthcare system (Pfost et al., Trends in Biotechnology, August 2000). Thus, pharmacogenomics based on the SNPs disclosed herein has the potential to both save lives and reduce healthcare costs substantially.


Pharmacogenomics in general is discussed further in Rose et al., “Pharmacogenetic analysis of clinically relevant genetic polymorphisms,” Methods Mol Med 85:225-37 (2003). Pharmacogenomics as it relates to Alzheimer's disease and other neurodegenerative disorders is discussed in Cacabelos, “Pharmacogenomics for the treatment of dementia,” Ann Med 34(5):357-79 (2002); Maimone et al., “Pharmacogenomics of neurodegenerative diseases,” Eur J Pharmacol 413(1):11-29 (February 2001); and Poirier, “Apolipoprotein E: a pharmacogenetic target for the treatment of Alzheimer's disease,” Mol Diagn 4(4):335-41 (December 1999). Pharmacogenomics as it relates to cardiovascular disorders is discussed in Siest et al., “Pharmacogenomics of drugs affecting the cardiovascular system,” Clin Chem Lab Med 41(4):590-9 (April 2003); Mukherjee et al., “Pharmacogenomics in cardiovascular diseases,” Prog Cardiovasc Dis 44(6):479-98 (May-June 2002); and Mooser et al., “Cardiovascular pharmacogenetics in the SNP era,” J Thromb Haemost 1(7):1398-402 (July 2003). Pharmacogenomics as it relates to cancer is discussed in McLeod et al., “Cancer pharmacogenomics: SNPs, chips, and the individual patient,” Cancer Invest 21(4):630-40 (2003); and Watters et al., “Cancer pharmacogenomics: current and future applications,” Biochim Biophys Acta 1603(2):99-111 (March 2003).


Clinical Trials


In certain aspects of the invention, there are provided methods of using the SNPs disclosed herein to identify or stratify patient populations for clinical trials of a therapeutic, preventive, or diagnostic agent.


For instance, an aspect of the present invention includes selecting individuals for clinical trials based on their SNP genotype, such as selecting individuals for inclusion in a clinical trial and/or assigning individuals to a particular group within a clinical trial (e.g., an “arm” of the trial). For example, individuals with SNP genotypes that indicate that they are likely to positively respond to a drug can be included in the trials, whereas those individuals whose SNP genotypes indicate that they are less likely to or would not respond to the drug, or who are at risk for suffering toxic effects or other adverse reactions, can be excluded from the clinical trials. This not only can improve the safety of clinical trials, but also can enhance the chances that the trial will demonstrate statistically significant efficacy. Further, one can stratify a prospective trial with patients with different SNP variants to determine the impact of differential drug treatment.


Thus, certain embodiments of the invention provide methods for conducting a clinical trial of a therapeutic agent in which a human is selected for inclusion in the clinical trial and/or assigned to a particular group within a clinical trial based on the presence or absence of one or more SNPs disclosed herein. In certain embodiments, the therapeutic agent is a statin.


In certain exemplary embodiments, SNPs of the invention can be used to select individuals who are unlikely to respond positively to a particular therapeutic agent (or class of therapeutic agents) based on their SNP genotype(s) to participate in a clinical trial of another type of drug that may benefit them. Thus, in certain embodiments, the SNPs of the invention can be used to identify patient populations who do not adequately respond to current treatments and are therefore in need of new therapies. This not only benefits the patients themselves, but also benefits organizations such as pharmaceutical companies by enabling the identification of populations that represent markets for new drugs, and enables the efficacy of these new drugs to be tested during clinical trials directly in individuals within these markets.


The SNP-containing nucleic acid molecules of the present invention are also useful for monitoring the effectiveness of modulating compounds on the expression or activity of a variant gene, or encoded product, particularly in a treatment regimen or in clinical trials. Thus, the gene expression pattern can serve as an indicator for the continuing effectiveness of treatment with the compound, particularly with compounds to which a patient can develop resistance, as well as an indicator for toxicities. The gene expression pattern can also serve as a marker indicative of a physiological response of the affected cells to the compound. Accordingly, such monitoring would allow either increased administration of the compound or the administration of alternative compounds to which the patient has not become resistant.


Furthermore, the SNPs of the present invention may have utility in determining why certain previously developed drugs performed poorly in clinical trials and may help identify a subset of the population that would benefit from a drug that had previously performed poorly in clinical trials, thereby “rescuing” previously developed drugs, and enabling the drug to be made available to a particular patient population (e.g., particular CVD patients) that can benefit from it.


Identification, Screening, and Use of Therapeutic Agents


The SNPs of the present invention also can be used to identify novel therapeutic targets for CVD, particularly CHD, such as MI, or stroke. For example, genes containing the disease-associated variants (“variant genes”) or their products, as well as genes or their products that are directly or indirectly regulated by or interacting with these variant genes or their products, can be targeted for the development of therapeutics that, for example, treat the disease or prevent or delay disease onset. The therapeutics may be composed of, for example, small molecules, proteins, protein fragments or peptides, antibodies, nucleic acids, or their derivatives or mimetics which modulate the functions or levels of the target genes or gene products.


The invention further provides methods for identifying a compound or agent that can be used to treat CVD, particularly CHD such as MI. The SNPs disclosed herein are useful as targets for the identification and/or development of therapeutic agents. A method for identifying a therapeutic agent or compound typically includes assaying the ability of the agent or compound to modulate the activity and/or expression of a SNP-containing nucleic acid or the encoded product and thus identifying an agent or a compound that can be used to treat a disorder characterized by undesired activity or expression of the SNP-containing nucleic acid or the encoded product. The assays can be performed in cell-based and cell-free systems. Cell-based assays can include cells naturally expressing the nucleic acid molecules of interest or recombinant cells genetically engineered to express certain nucleic acid molecules.


Variant gene expression in a CVD patient can include, for example, either expression of a SNP-containing nucleic acid sequence (for instance, a gene that contains a SNP can be transcribed into an mRNA transcript molecule containing the SNP, which can in turn be translated into a variant protein) or altered expression of a normal/wild-type nucleic acid sequence due to one or more SNPs (for instance, a regulatory/control region can contain a SNP that affects the level or pattern of expression of a normal transcript).


Assays for variant gene expression can involve direct assays of nucleic acid levels (e.g., mRNA levels), expressed protein levels, or of collateral compounds involved in a signal pathway. Further, the expression of genes that are up- or down-regulated in response to the signal pathway can also be assayed. In this embodiment, the regulatory regions of these genes can be operably linked to a reporter gene such as luciferase.


Modulators of variant gene expression can be identified in a method wherein, for example, a cell is contacted with a candidate compound/agent and the expression of mRNA determined. The level of expression of mRNA in the presence of the candidate compound is compared to the level of expression of mRNA in the absence of the candidate compound. The candidate compound can then be identified as a modulator of variant gene expression based on this comparison and be used to treat a disorder such as CVD that is characterized by variant gene expression (e.g., either expression of a SNP-containing nucleic acid or altered expression of a normal/wild-type nucleic acid molecule due to one or more SNPs that affect expression of the nucleic acid molecule) due to one or more SNPs of the present invention. When expression of mRNA is statistically significantly greater in the presence of the candidate compound than in its absence, the candidate compound is identified as a stimulator of nucleic acid expression. When nucleic acid expression is statistically significantly less in the presence of the candidate compound than in its absence, the candidate compound is identified as an inhibitor of nucleic acid expression.


The invention further provides methods of treatment, with the SNP or associated nucleic acid domain (e.g., catalytic domain, ligand/substrate-binding domain, regulatory/control region, etc.) or gene, or the encoded mRNA transcript, as a target, using a compound identified through drug screening as a gene modulator to modulate variant nucleic acid expression. Modulation can include either up-regulation (i.e., activation or agonization) or down-regulation (i.e., suppression or antagonization) of nucleic acid expression.


Expression of mRNA transcripts and encoded proteins, either wild type or variant, may be altered in individuals with a particular SNP allele in a regulatory/control element, such as a promoter or transcription factor binding domain, that regulates expression. In this situation, methods of treatment and compounds can be identified, as discussed herein, that regulate or overcome the variant regulatory/control element, thereby generating normal, or healthy, expression levels of either the wild type or variant protein.


Pharmaceutical Compositions and Administration Thereof


Any of the statin response-associated proteins, and encoding nucleic acid molecules, disclosed herein can be used as therapeutic targets (or directly used themselves as therapeutic compounds) for treating or preventing CVD, and the present disclosure enables therapeutic compounds (e.g., small molecules, antibodies, therapeutic proteins, RNAi and antisense molecules, etc.) to be developed that target (or are comprised of) any of these therapeutic targets.


In general, a therapeutic compound will be administered in a therapeutically effective amount by any of the accepted modes of administration for agents that serve similar utilities. The actual amount of the therapeutic compound of this invention, i.e., the active ingredient, will depend upon numerous factors such as the severity of the disease to be treated, the age and relative health of the subject, the potency of the compound used, the route and form of administration, and other factors.


Therapeutically effective amounts of therapeutic compounds may range from, for example, approximately 0.01-50 mg per kilogram body weight of the recipient per day; preferably about 0.1-20 mg/kg/day. Thus, as an example, for administration to a 70-kg person, the dosage range would most preferably be about 7 mg to 1.4 g per day.


In general, therapeutic compounds will be administered as pharmaceutical compositions by any one of the following routes: oral, systemic (e.g., transdermal, intranasal, or by suppository), or parenteral (e.g., intramuscular, intravenous, or subcutaneous) administration. The preferred manner of administration is oral or parenteral using a convenient daily dosage regimen, which can be adjusted according to the degree of affliction. Oral compositions can take the form of tablets, pills, capsules, semisolids, powders, sustained release formulations, solutions, suspensions, elixirs, aerosols, or any other appropriate compositions.


The choice of formulation depends on various factors such as the mode of drug administration (e.g., for oral administration, formulations in the form of tablets, pills, or capsules are preferred) and the bioavailability of the drug substance. Recently, pharmaceutical formulations have been developed especially for drugs that show poor bioavailability based upon the principle that bioavailability can be increased by increasing the surface area, i.e., decreasing particle size. For example, U.S. Pat. No. 4,107,288 describes a pharmaceutical formulation having particles in the size range from 10 to 1,000 nm in which the active material is supported on a cross-linked matrix of macromolecules. U.S. Pat. No. 5,145,684 describes the production of a pharmaceutical formulation in which the drug substance is pulverized to nanoparticles (average particle size of 400 nm) in the presence of a surface modifier and then dispersed in a liquid medium to give a pharmaceutical formulation that exhibits remarkably high bioavailability.


Pharmaceutical compositions are comprised of, in general, a therapeutic compound in combination with at least one pharmaceutically acceptable excipient. Acceptable excipients are non-toxic, aid administration, and do not adversely affect the therapeutic benefit of the therapeutic compound. Such excipients may be any solid, liquid, semi-solid or, in the case of an aerosol composition, gaseous excipient that is generally available to one skilled in the art.


Solid pharmaceutical excipients include starch, cellulose, talc, glucose, lactose, sucrose, gelatin, malt, rice, flour, chalk, silica gel, magnesium stearate, sodium stearate, glycerol monostearate, sodium chloride, dried skim milk and the like. Liquid and semisolid excipients may be selected from glycerol, propylene glycol, water, ethanol and various oils, including those of petroleum, animal, vegetable or synthetic origin, e.g., peanut oil, soybean oil, mineral oil, sesame oil, etc. Preferred liquid carriers, particularly for injectable solutions, include water, saline, aqueous dextrose, and glycols.


Compressed gases may be used to disperse a compound of this invention in aerosol form. Inert gases suitable for this purpose are nitrogen, carbon dioxide, etc.


Other suitable pharmaceutical excipients and their formulations are described in Remington's Pharmaceutical Sciences 18th ed., E. W. Martin, ed., Mack Publishing Company (1990).


The amount of the therapeutic compound in a formulation can vary within the full range employed by those skilled in the art. Typically, the formulation will contain, on a weight percent (wt %) basis, from about 0.01-99.99 wt % of the therapeutic compound based on the total formulation, with the balance being one or more suitable pharmaceutical excipients. Preferably, the compound is present at a level of about 1-80% wt.


Therapeutic compounds can be administered alone or in combination with other therapeutic compounds or in combination with one or more other active ingredient(s). For example, an inhibitor or stimulator of a CVD-associated protein can be administered in combination with another agent that inhibits or stimulates the activity of the same or a different CVD-associated protein to thereby counteract the effects of CVD.


For further information regarding pharmacology, see Current Protocols in Pharmacology, John Wiley & Sons, Inc., N.Y.


Nucleic Acid-Based Therapeutic Agents


The SNP-containing nucleic acid molecules disclosed herein, and their complementary nucleic acid molecules, may be used as antisense constructs to control gene expression in cells, tissues, and organisms. Antisense technology is well established in the art and extensively reviewed in Antisense Drug Technology: Principles, Strategies, and Applications, Crooke, ed., Marcel Dekker, Inc., N.Y. (2001). An antisense nucleic acid molecule is generally designed to be complementary to a region of mRNA expressed by a gene so that the antisense molecule hybridizes to the mRNA and thereby blocks translation of mRNA into protein. Various classes of antisense oligonucleotides are used in the art, two of which are cleavers and blockers. Cleavers, by binding to target RNAs, activate intracellular nucleases (e.g., RNaseH or RNase L) that cleave the target RNA. Blockers, which also bind to target RNAs, inhibit protein translation through steric hindrance of ribosomes. Exemplary blockers include peptide nucleic acids, morpholinos, locked nucleic acids, and methylphosphonates. See, e.g., Thompson, Drug Discovery Today 7(17): 912-917 (2002). Antisense oligonucleotides are directly useful as therapeutic agents, and are also useful for determining and validating gene function (e.g., in gene knock-out or knock-down experiments).


Antisense technology is further reviewed in: Lavery et al., “Antisense and RNAi: powerful tools in drug target discovery and validation,” Curr Opin Drug Discov Devel 6(4):561-9 (July 2003); Stephens et al., “Antisense oligonucleotide therapy in cancer,” Curr Opin Mol Ther 5(2):118-22 (April 2003); Kurreck, “Antisense technologies. Improvement through novel chemical modifications,” Eur J Biochem 270(8):1628-44 (April 2003); Dias et al., “Antisense oligonucleotides: basic concepts and mechanisms,” Mol Cancer Ther 1(5):347-55 (March 2002); Chen, “Clinical development of antisense oligonucleotides as anti-cancer therapeutics,” Methods Mol Med 75:621-36 (2003); Wang et al., “Antisense anticancer oligonucleotide therapeutics,” Curr Cancer Drug Targets 1(3):177-96 (November 2001); and Bennett, “Efficiency of antisense oligonucleotide drug discovery,” Antisense Nucleic Acid Drug Dev 12(3):215-24 (June 2002).


The SNPs of the present invention are particularly useful for designing antisense reagents that are specific for particular nucleic acid variants. Based on the SNP information disclosed herein, antisense oligonucleotides can be produced that specifically target mRNA molecules that contain one or more particular SNP nucleotides. In this manner, expression of mRNA molecules that contain one or more undesired polymorphisms (e.g., SNP nucleotides that lead to a defective protein such as an amino acid substitution in a catalytic domain) can be inhibited or completely blocked. Thus, antisense oligonucleotides can be used to specifically bind a particular polymorphic form (e.g., a SNP allele that encodes a defective protein), thereby inhibiting translation of this form, but which do not bind an alternative polymorphic form (e.g., an alternative SNP nucleotide that encodes a protein having normal function).


Antisense molecules can be used to inactivate mRNA in order to inhibit gene expression and production of defective proteins. Accordingly, these molecules can be used to treat a disorder, such as CVD, characterized by abnormal or undesired gene expression or expression of certain defective proteins. This technique can involve cleavage by means of ribozymes containing nucleotide sequences complementary to one or more regions in the mRNA that attenuate the ability of the mRNA to be translated. Possible mRNA regions include, for example, protein-coding regions and particularly protein-coding regions corresponding to catalytic activities, substrate/ligand binding, or other functional activities of a protein.


The SNPs of the present invention are also useful for designing RNA interference reagents that specifically target nucleic acid molecules having particular SNP variants. RNA interference (RNAi), also referred to as gene silencing, is based on using double-stranded RNA (dsRNA) molecules to turn genes off. When introduced into a cell, dsRNAs are processed by the cell into short fragments (generally about 21, 22, or 23 nucleotides in length) known as small interfering RNAs (siRNAs) which the cell uses in a sequence-specific manner to recognize and destroy complementary RNAs. Thompson, Drug Discovery Today 7(17): 912-917 (2002). Accordingly, an aspect of the present invention specifically contemplates isolated nucleic acid molecules that are about 18-26 nucleotides in length, preferably 19-25 nucleotides in length, and more preferably 20, 21, 22, or 23 nucleotides in length, and the use of these nucleic acid molecules for RNAi. Because RNAi molecules, including siRNAs, act in a sequence-specific manner, the SNPs of the present invention can be used to design RNAi reagents that recognize and destroy nucleic acid molecules having specific SNP alleles/nucleotides (such as deleterious alleles that lead to the production of defective proteins), while not affecting nucleic acid molecules having alternative SNP alleles (such as alleles that encode proteins having normal function). As with antisense reagents, RNAi reagents may be directly useful as therapeutic agents (e.g., for turning off defective, disease-causing genes), and are also useful for characterizing and validating gene function (e.g., in gene knock-out or knock-down experiments).


The following references provide a further review of RNAi: Reynolds et al., “Rational siRNA design for RNA interference,” Nat Biotechnol 22(3):326-30 (March 2004); Epub Feb. 1, 2004; Chi et al., “Genomewide view of gene silencing by small interfering RNAs,” PNAS 100(11):6343-6346 (2003); Vickers et al., “Efficient Reduction of Target RNAs by Small Interfering RNA and RNase H-dependent Antisense Agents,” J Biol Chem 278:7108-7118 (2003); Agami, “RNAi and related mechanisms and their potential use for therapy,” Curr Opin Chem Biol 6(6):829-34 (December 2002); Lavery et al., “Antisense and RNAi: powerful tools in drug target discovery and validation,” Curr Opin Drug Discov Devel 6(4):561-9 (July 2003); Shi, “Mammalian RNAi for the masses,” Trends Genet 19(1):9-12 (January 2003); Shuey et al., “RNAi: gene-silencing in therapeutic intervention,” Drug Discovery Today 7(20):1040-1046 (October 2002); McManus et al., Nat Rev Genet 3(10):737-47 (October 2002); Xia et al., Nat Biotechnol 20(10):1006-10 (October 2002); Plasterk et al., Curr Opin Genet Dev 10(5):562-7 (October 2000); Bosher et al., Nat Cell Biol 2(2):E31-6 (February 2000); and Hunter, Curr Biol 17; 9(12):R440-2 (June 1999).


Other Therapeutic Aspects


SNPs have many important uses in drug discovery, screening, and development, and thus the SNPs of the present invention are useful for improving many different aspects of the drug development process.


For example, a high probability exists that, for any gene/protein selected as a potential drug target, variants of that gene/protein will exist in a patient population. Thus, determining the impact of gene/protein variants on the selection and delivery of a therapeutic agent should be an integral aspect of the drug discovery and development process. Jazwinska, A Trends Guide to Genetic Variation and Genomic Medicine S30-S36 (March 2002).


Knowledge of variants (e.g., SNPs and any corresponding amino acid polymorphisms) of a particular therapeutic target (e.g., a gene, mRNA transcript, or protein) enables parallel screening of the variants in order to identify therapeutic candidates (e.g., small molecule compounds, antibodies, antisense or RNAi nucleic acid compounds, etc.) that demonstrate efficacy across variants. Rothberg, Nat Biotechnol 19(3):209-11 (March 2001). Such therapeutic candidates would be expected to show equal efficacy across a larger segment of the patient population, thereby leading to a larger potential market for the therapeutic candidate.


Furthermore, identifying variants of a potential therapeutic target enables the most common form of the target to be used for selection of therapeutic candidates, thereby helping to ensure that the experimental activity that is observed for the selected candidates reflects the real activity expected in the largest proportion of a patient population. Jazwinska, A Trends Guide to Genetic Variation and Genomic Medicine S30-S36 (March 2002).


Additionally, screening therapeutic candidates against all known variants of a target can enable the early identification of potential toxicities and adverse reactions relating to particular variants. For example, variability in drug absorption, distribution, metabolism and excretion (ADME) caused by, for example, SNPs in therapeutic targets or drug metabolizing genes, can be identified, and this information can be utilized during the drug development process to minimize variability in drug disposition and develop therapeutic agents that are safer across a wider range of a patient population. The SNPs of the present invention, including the variant proteins and encoding polymorphic nucleic acid molecules provided in Tables 1 and 2, are useful in conjunction with a variety of toxicology methods established in the art, such as those set forth in Current Protocols in Toxicology, John Wiley & Sons, Inc., N.Y.


Furthermore, therapeutic agents that target any art-known proteins (or nucleic acid molecules, either RNA or DNA) may cross-react with the variant proteins (or polymorphic nucleic acid molecules) disclosed in Table 1, thereby significantly affecting the pharmacokinetic properties of the drug. Consequently, the protein variants and the SNP-containing nucleic acid molecules disclosed in Tables 1 and 2 are useful in developing, screening, and evaluating therapeutic agents that target corresponding art-known protein forms (or nucleic acid molecules). Additionally, as discussed above, knowledge of all polymorphic forms of a particular drug target enables the design of therapeutic agents that are effective against most or all such polymorphic forms of the drug target.


A subject suffering from a pathological condition ascribed to a SNP, such as CVD, may be treated so as to correct the genetic defect. See Kren et al., Proc Natl Acad Sci USA 96:10349-10354 (1999). Such a subject can be identified by any method that can detect the polymorphism in a biological sample drawn from the subject. Such a genetic defect may be permanently corrected by administering to such a subject a nucleic acid fragment incorporating a repair sequence that supplies the normal/wild-type nucleotide at the position of the SNP. This site-specific repair sequence can encompass an RNA/DNA oligonucleotide that operates to promote endogenous repair of a subject's genomic DNA. The site-specific repair sequence is administered in an appropriate vehicle, such as a complex with polyethylenimine, encapsulated in anionic liposomes, a viral vector such as an adenovirus, or other pharmaceutical composition that promotes intracellular uptake of the administered nucleic acid. A genetic defect leading to an inborn pathology may then be overcome, as the chimeric oligonucleotides induce incorporation of the normal sequence into the subject's genome. Upon incorporation, the normal gene product is expressed, and the replacement is propagated, thereby engendering a permanent repair and therapeutic enhancement of the clinical condition of the subject.


In cases in which a cSNP results in a variant protein that is ascribed to be the cause of, or a contributing factor to, a pathological condition, a method of treating such a condition can include administering to a subject experiencing the pathology the wild-type/normal cognate of the variant protein. Once administered in an effective dosing regimen, the wild-type cognate provides complementation or remediation of the pathological condition.


Variant Proteins, Antibodies, Vectors, Host Cells, & Uses Thereof


Variant Proteins Encoded by SNP-Containing Nucleic Acid Molecules


The present invention provides SNP-containing nucleic acid molecules, many of which encode proteins having variant amino acid sequences as compared to the art-known (i.e., wild-type) proteins. Amino acid sequences encoded by the polymorphic nucleic acid molecules of the present invention are referred to as SEQ ID NOS:52-102 in Table 1 and provided in the Sequence Listing. These variants will generally be referred to herein as variant proteins/peptides/polypeptides, or polymorphic proteins/peptides/polypeptides of the present invention. The terms “protein,” “peptide,” and “polypeptide” are used herein interchangeably.


A variant protein of the present invention may be encoded by, for example, a nonsynonymous nucleotide substitution at any one of the cSNP positions disclosed herein. In addition, variant proteins may also include proteins whose expression, structure, and/or function is altered by a SNP disclosed herein, such as a SNP that creates or destroys a stop codon, a SNP that affects splicing, and a SNP in control/regulatory elements, e.g. promoters, enhancers, or transcription factor binding domains.


As used herein, a protein or peptide is said to be “isolated” or “purified” when it is substantially free of cellular material or chemical precursors or other chemicals. The variant proteins of the present invention can be purified to homogeneity or other lower degrees of purity. The level of purification will be based on the intended use. The key feature is that the preparation allows for the desired function of the variant protein, even if in the presence of considerable amounts of other components.


As used herein, “substantially free of cellular material” includes preparations of the variant protein having less than about 30% (by dry weight) other proteins (i.e., contaminating protein), less than about 20% other proteins, less than about 10% other proteins, or less than about 5% other proteins. When the variant protein is recombinantly produced, it can also be substantially free of culture medium, i.e., culture medium represents less than about 20% of the volume of the protein preparation.


The language “substantially free of chemical precursors or other chemicals” includes preparations of the variant protein in which it is separated from chemical precursors or other chemicals that are involved in its synthesis. In one embodiment, the language “substantially free of chemical precursors or other chemicals” includes preparations of the variant protein having less than about 30% (by dry weight) chemical precursors or other chemicals, less than about 20% chemical precursors or other chemicals, less than about 10% chemical precursors or other chemicals, or less than about 5% chemical precursors or other chemicals.


An isolated variant protein may be purified from cells that naturally express it, purified from cells that have been altered to express it (recombinant host cells), or synthesized using known protein synthesis methods. For example, a nucleic acid molecule containing SNP(s) encoding the variant protein can be cloned into an expression vector, the expression vector introduced into a host cell, and the variant protein expressed in the host cell. The variant protein can then be isolated from the cells by any appropriate purification scheme using standard protein purification techniques. Examples of these techniques are described in detail below. Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory Press, N.Y. (2000).


The present invention provides isolated variant proteins that comprise, consist of or consist essentially of amino acid sequences that contain one or more variant amino acids encoded by one or more codons that contain a SNP of the present invention.


Accordingly, the present invention provides variant proteins that consist of amino acid sequences that contain one or more amino acid polymorphisms (or truncations or extensions due to creation or destruction of a stop codon, respectively) encoded by the SNPs provided in Table 1 and/or Table 2. A protein consists of an amino acid sequence when the amino acid sequence is the entire amino acid sequence of the protein.


The present invention further provides variant proteins that consist essentially of amino acid sequences that contain one or more amino acid polymorphisms (or truncations or extensions due to creation or destruction of a stop codon, respectively) encoded by the SNPs provided in Table 1 and/or Table 2. A protein consists essentially of an amino acid sequence when such an amino acid sequence is present with only a few additional amino acid residues in the final protein.


The present invention further provides variant proteins that comprise amino acid sequences that contain one or more amino acid polymorphisms (or truncations or extensions due to creation or destruction of a stop codon, respectively) encoded by the SNPs provided in Table 1 and/or Table 2. A protein comprises an amino acid sequence when the amino acid sequence is at least part of the final amino acid sequence of the protein. In such a fashion, the protein may contain only the variant amino acid sequence or have additional amino acid residues, such as a contiguous encoded sequence that is naturally associated with it or heterologous amino acid residues. Such a protein can have a few additional amino acid residues or can comprise many more additional amino acids. A brief description of how various types of these proteins can be made and isolated is provided below.


The variant proteins of the present invention can be attached to heterologous sequences to form chimeric or fusion proteins. Such chimeric and fusion proteins comprise a variant protein operatively linked to a heterologous protein having an amino acid sequence not substantially homologous to the variant protein. “Operatively linked” indicates that the coding sequences for the variant protein and the heterologous protein are ligated in-frame. The heterologous protein can be fused to the N-terminus or C-terminus of the variant protein. In another embodiment, the fusion protein is encoded by a fusion polynucleotide that is synthesized by conventional techniques including automated DNA synthesizers. Alternatively, PCR amplification of gene fragments can be carried out using anchor primers which give rise to complementary overhangs between two consecutive gene fragments which can subsequently be annealed and re-amplified to generate a chimeric gene sequence. See Ausubel et al., Current Protocols in Molecular Biology (1992). Moreover, many expression vectors are commercially available that already encode a fusion moiety (e.g., a GST protein). A variant protein-encoding nucleic acid can be cloned into such an expression vector such that the fusion moiety is linked in-frame to the variant protein.


In many uses, the fusion protein does not affect the activity of the variant protein. The fusion protein can include, but is not limited to, enzymatic fusion proteins, for example, beta-galactosidase fusions, yeast two-hybrid GAL fusions, poly-His fusions, MYC-tagged, HI-tagged and Ig fusions. Such fusion proteins, particularly poly-His fusions, can facilitate their purification following recombinant expression. In certain host cells (e.g., mammalian host cells), expression and/or secretion of a protein can be increased by using a heterologous signal sequence. Fusion proteins are further described in, for example, Terpe, “Overview of tag protein fusions: from molecular and biochemical fundamentals to commercial systems,” Appl Microbiol Biotechnol 60(5):523-33 (January 2003); Epub Nov. 7, 2002; Graddis et al., “Designing proteins that work using recombinant technologies,” Curr Pharm Biotechnol 3(4):285-97 (December 2002); and Nilsson et al., “Affinity fusion strategies for detection, purification, and immobilization of recombinant proteins,” Protein Expr Purif 11(1):1-16 (October 1997).


In certain embodiments, novel compositions of the present invention also relate to further obvious variants of the variant polypeptides of the present invention, such as naturally-occurring mature forms (e.g., allelic variants), non-naturally occurring recombinantly-derived variants, and orthologs and paralogs of such proteins that share sequence homology. Such variants can readily be generated using art-known techniques in the fields of recombinant nucleic acid technology and protein biochemistry.


Further variants of the variant polypeptides disclosed in Table 1 can comprise an amino acid sequence that shares at least 70-80%, 80-85%, 85-90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, or 99% sequence identity with an amino acid sequence disclosed in Table 1 (or a fragment thereof) and that includes a novel amino acid residue (allele) disclosed in Table 1 (which is encoded by a novel SNP allele). Thus, an aspect of the present invention that is specifically contemplated are polypeptides that have a certain degree of sequence variation compared with the polypeptide sequences shown in Table 1, but that contain a novel amino acid residue (allele) encoded by a novel SNP allele disclosed herein. In other words, as long as a polypeptide contains a novel amino acid residue disclosed herein, other portions of the polypeptide that flank the novel amino acid residue can vary to some degree from the polypeptide sequences shown in Table 1.


Full-length pre-processed forms, as well as mature processed forms, of proteins that comprise one of the amino acid sequences disclosed herein can readily be identified as having complete sequence identity to one of the variant proteins of the present invention as well as being encoded by the same genetic locus as the variant proteins provided herein.


Orthologs of a variant peptide can readily be identified as having some degree of significant sequence homology/identity to at least a portion of a variant peptide as well as being encoded by a gene from another organism. Preferred orthologs will be isolated from non-human mammals, preferably primates, for the development of human therapeutic targets and agents. Such orthologs can be encoded by a nucleic acid sequence that hybridizes to a variant peptide-encoding nucleic acid molecule under moderate to stringent conditions depending on the degree of relatedness of the two organisms yielding the homologous proteins.


Variant proteins include, but are not limited to, proteins containing deletions, additions and substitutions in the amino acid sequence caused by the SNPs of the present invention. One class of substitutions is conserved amino acid substitutions in which a given amino acid in a polypeptide is substituted for another amino acid of like characteristics. Typical conservative substitutions are replacements, one for another, among the aliphatic amino acids Ala, Val, Leu, and Ile; interchange of the hydroxyl residues Ser and Thr; exchange of the acidic residues Asp and Glu; substitution between the amide residues Asn and Gln; exchange of the basic residues Lys and Arg; and replacements among the aromatic residues Phe and Tyr. Guidance concerning which amino acid changes are likely to be phenotypically silent are found, for example, in Bowie et al., Science 247:1306-1310 (1990).


Variant proteins can be fully functional or can lack function in one or more activities, e.g. ability to bind another molecule, ability to catalyze a substrate, ability to mediate signaling, etc. Fully functional variants typically contain only conservative variations or variations in non-critical residues or in non-critical regions. Functional variants can also contain substitution of similar amino acids that result in no change or an insignificant change in function. Alternatively, such substitutions may positively or negatively affect function to some degree. Non-functional variants typically contain one or more non-conservative amino acid substitutions, deletions, insertions, inversions, truncations or extensions, or a substitution, insertion, inversion, or deletion of a critical residue or in a critical region.


Amino acids that are essential for function of a protein can be identified by methods known in the art, such as site-directed mutagenesis or alanine-scanning mutagenesis, particularly using the amino acid sequence and polymorphism information provided in Table 1. Cunningham et al., Science 244:1081-1085 (1989). The latter procedure introduces single alanine mutations at every residue in the molecule. The resulting mutant molecules are then tested for biological activity such as enzyme activity or in assays such as an in vitro proliferative activity. Sites that are critical for binding partner/substrate binding can also be determined by structural analysis such as crystallization, nuclear magnetic resonance or photoaffinity labeling. Smith et al., J Mol Biol 224:899-904 (1992); de Vos et al., Science 255:306-312 (1992).


Polypeptides can contain amino acids other than the 20 amino acids commonly referred to as the 20 naturally occurring amino acids. Further, many amino acids, including the terminal amino acids, may be modified by natural processes, such as processing and other post-translational modifications, or by chemical modification techniques well known in the art. Accordingly, the variant proteins of the present invention also encompass derivatives or analogs in which a substituted amino acid residue is not one encoded by the genetic code, in which a substituent group is included, in which the mature polypeptide is fused with another compound, such as a compound to increase the half-life of the polypeptide (e.g., polyethylene glycol), or in which additional amino acids are fused to the mature polypeptide, such as a leader or secretory sequence or a sequence for purification of the mature polypeptide or a pro-protein sequence.


Known protein modifications include, but are not limited to, acetylation, acylation, ADP-ribosylation, amidation, covalent attachment of flavin, covalent attachment of a heme moiety, covalent attachment of a nucleotide or nucleotide derivative, covalent attachment of a lipid or lipid derivative, covalent attachment of phosphotidylinositol, cross-linking, cyclization, disulfide bond formation, demethylation, formation of covalent crosslinks, formation of cystine, formation of pyroglutamate, formylation, gamma carboxylation, glycosylation, GPI anchor formation, hydroxylation, iodination, methylation, myristoylation, oxidation, proteolytic processing, phosphorylation, prenylation, racemization, selenoylation, sulfation, transfer-RNA mediated addition of amino acids to proteins such as arginylation, and ubiquitination.


Such protein modifications are well known to those of skill in the art and have been described in great detail in the scientific literature. Particularly common modifications, for example glycosylation, lipid attachment, sulfation, gamma-carboxylation of glutamic acid residues, hydroxylation and ADP-ribosylation, are described in most basic texts, such as Proteins—Structure and Molecular Properties 2nd Ed., T. E. Creighton, W.H. Freeman and Company, N.Y. (1993); F. Wold, Posttranslational Covalent Modification of Proteins 1-12, B. C. Johnson, ed., Academic Press, N.Y. (1983); Seifter et al., Meth Enzymol 182:626-646 (1990); and Rattan et al., Ann NY Acad Sci 663:48-62 (1992).


The present invention further provides fragments of the variant proteins in which the fragments contain one or more amino acid sequence variations (e.g., substitutions, or truncations or extensions due to creation or destruction of a stop codon) encoded by one or more SNPs disclosed herein. The fragments to which the invention pertains, however, are not to be construed as encompassing fragments that have been disclosed in the prior art before the present invention.


As used herein, a fragment may comprise at least about 4, 8, 10, 12, 14, 16, 18, 20, 25, 30, 50, 100 (or any other number in-between) or more contiguous amino acid residues from a variant protein, wherein at least one amino acid residue is affected by a SNP of the present invention, e.g., a variant amino acid residue encoded by a nonsynonymous nucleotide substitution at a cSNP position provided by the present invention. The variant amino acid encoded by a cSNP may occupy any residue position along the sequence of the fragment. Such fragments can be chosen based on the ability to retain one or more of the biological activities of the variant protein or the ability to perform a function, e.g., act as an immunogen. Particularly important fragments are biologically active fragments. Such fragments will typically comprise a domain or motif of a variant protein of the present invention, e.g., active site, transmembrane domain, or ligand/substrate binding domain. Other fragments include, but are not limited to, domain or motif-containing fragments, soluble peptide fragments, and fragments containing immunogenic structures. Predicted domains and functional sites are readily identifiable by computer programs well known to those of skill in the art (e.g., PROSITE analysis). Current Protocols in Protein Science, John Wiley & Sons, N.Y. (2002).


Uses of Variant Proteins


The variant proteins of the present invention can be used in a variety of ways, including but not limited to, in assays to determine the biological activity of a variant protein, such as in a panel of multiple proteins for high-throughput screening; to raise antibodies or to elicit another type of immune response; as a reagent (including the labeled reagent) in assays designed to quantitatively determine levels of the variant protein (or its binding partner) in biological fluids; as a marker for cells or tissues in which it is preferentially expressed (either constitutively or at a particular stage of tissue differentiation or development or in a disease state); as a target for screening for a therapeutic agent; and as a direct therapeutic agent to be administered into a human subject. Any of the variant proteins disclosed herein may be developed into reagent grade or kit format for commercialization as research products. Methods for performing the uses listed above are well known to those skilled in the art. See, e.g., Molecular Cloning: A Laboratory Manual, Sambrook and Russell, Cold Spring Harbor Laboratory Press, N.Y. (2000), and Methods in Enzymology: Guide to Molecular Cloning Techniques, S. L. Berger and A. R. Kimmel, eds., Academic Press (1987).


In a specific embodiment of the invention, the methods of the present invention include detection of one or more variant proteins disclosed herein. Variant proteins are disclosed in Table 1 and in the Sequence Listing as SEQ ID NOS:52-102. Detection of such proteins can be accomplished using, for example, antibodies, small molecule compounds, aptamers, ligands/substrates, other proteins or protein fragments, or other protein-binding agents. Preferably, protein detection agents are specific for a variant protein of the present invention and can therefore discriminate between a variant protein of the present invention and the wild-type protein or another variant form. This can generally be accomplished by, for example, selecting or designing detection agents that bind to the region of a protein that differs between the variant and wild-type protein, such as a region of a protein that contains one or more amino acid substitutions that is/are encoded by a non-synonymous cSNP of the present invention, or a region of a protein that follows a nonsense mutation-type SNP that creates a stop codon thereby leading to a shorter polypeptide, or a region of a protein that follows a read-through mutation-type SNP that destroys a stop codon thereby leading to a longer polypeptide in which a portion of the polypeptide is present in one version of the polypeptide but not the other.


In another aspect of the invention, variant proteins of the present invention can be used as targets for predicting an individual's response to statin treatment (particularly for reducing the risk of CVD, especially CHD such as MI), for determining predisposition to CVD (particularly CHD, such as MI), for diagnosing CVD, or for treating and/or preventing CVD, etc. Accordingly, the invention provides methods for detecting the presence of, or levels of, one or more variant proteins of the present invention in a cell, tissue, or organism. Such methods typically involve contacting a test sample with an agent (e.g., an antibody, small molecule compound, or peptide) capable of interacting with the variant protein such that specific binding of the agent to the variant protein can be detected. Such an assay can be provided in a single detection format or a multi-detection format such as an array, for example, an antibody or aptamer array (arrays for protein detection may also be referred to as “protein chips”). The variant protein of interest can be isolated from a test sample and assayed for the presence of a variant amino acid sequence encoded by one or more SNPs disclosed by the present invention. The SNPs may cause changes to the protein and the corresponding protein function/activity, such as through non-synonymous substitutions in protein coding regions that can lead to amino acid substitutions, deletions, insertions, and/or rearrangements; formation or destruction of stop codons; or alteration of control elements such as promoters. SNPs may also cause inappropriate post-translational modifications.


One preferred agent for detecting a variant protein in a sample is an antibody capable of selectively binding to a variant form of the protein (antibodies are described in greater detail in the next section). Such samples include, for example, tissues, cells, and biological fluids isolated from a subject, as well as tissues, cells and fluids present within a subject.


In vitro methods for detection of the variant proteins associated with statin response that are disclosed herein and fragments thereof include, but are not limited to, enzyme linked immunosorbent assays (ELISAs), radioimmunoassays (RIA), Western blots, immunoprecipitations, immunofluorescence, and protein arrays/chips (e.g., arrays of antibodies or aptamers). For further information regarding immunoassays and related protein detection methods, see Current Protocols in Immunology, John Wiley & Sons, N. Y., and Hage, “Immunoassays,” Anal Chem 15; 71(12):294R-304R (June 1999).


Additional analytic methods of detecting amino acid variants include, but are not limited to, altered electrophoretic mobility, altered tryptic peptide digest, altered protein activity in cell-based or cell-free assay, alteration in ligand or antibody-binding pattern, altered isoelectric point, and direct amino acid sequencing.


Alternatively, variant proteins can be detected in vivo in a subject by introducing into the subject a labeled antibody (or other type of detection reagent) specific for a variant protein. For example, the antibody can be labeled with a radioactive marker whose presence and location in a subject can be detected by standard imaging techniques.


Other uses of the variant peptides of the present invention are based on the class or action of the protein. For example, proteins isolated from humans and their mammalian orthologs serve as targets for identifying agents (e.g., small molecule drugs or antibodies) for use in therapeutic applications, particularly for modulating a biological or pathological response in a cell or tissue that expresses the protein. Pharmaceutical agents can be developed that modulate protein activity.


As an alternative to modulating gene expression, therapeutic compounds can be developed that modulate protein function. For example, many SNPs disclosed herein affect the amino acid sequence of the encoded protein (e.g., non-synonymous cSNPs and nonsense mutation-type SNPs). Such alterations in the encoded amino acid sequence may affect protein function, particularly if such amino acid sequence variations occur in functional protein domains, such as catalytic domains, ATP-binding domains, or ligand/substrate binding domains. It is well established in the art that variant proteins having amino acid sequence variations in functional domains can cause or influence pathological conditions. In such instances, compounds (e.g., small molecule drugs or antibodies) can be developed that target the variant protein and modulate (e.g., up- or down-regulate) protein function/activity.


The therapeutic methods of the present invention further include methods that target one or more variant proteins of the present invention. Variant proteins can be targeted using, for example, small molecule compounds, antibodies, aptamers, ligands/substrates, other proteins, or other protein-binding agents. Additionally, the skilled artisan will recognize that the novel protein variants (and polymorphic nucleic acid molecules) disclosed in Table 1 may themselves be directly used as therapeutic agents by acting as competitive inhibitors of corresponding art-known proteins (or nucleic acid molecules such as mRNA molecules).


The variant proteins of the present invention are particularly useful in drug screening assays, in cell-based or cell-free systems. Cell-based systems can utilize cells that naturally express the protein, a biopsy specimen, or cell cultures. In one embodiment, cell-based assays involve recombinant host cells expressing the variant protein. Cell-free assays can be used to detect the ability of a compound to directly bind to a variant protein or to the corresponding SNP-containing nucleic acid fragment that encodes the variant protein.


A variant protein of the present invention, as well as appropriate fragments thereof, can be used in high-throughput screening assays to test candidate compounds for the ability to bind and/or modulate the activity of the variant protein. These candidate compounds can be further screened against a protein having normal function (e.g., a wild-type/non-variant protein) to further determine the effect of the compound on the protein activity. Furthermore, these compounds can be tested in animal or invertebrate systems to determine in vivo activity/effectiveness. Compounds can be identified that activate (agonists) or inactivate (antagonists) the variant protein, and different compounds can be identified that cause various degrees of activation or inactivation of the variant protein.


Further, the variant proteins can be used to screen a compound for the ability to stimulate or inhibit interaction between the variant protein and a target molecule that normally interacts with the protein. The target can be a ligand, a substrate or a binding partner that the protein normally interacts with (for example, epinephrine or norepinephrine). Such assays typically include the steps of combining the variant protein with a candidate compound under conditions that allow the variant protein, or fragment thereof, to interact with the target molecule, and to detect the formation of a complex between the protein and the target or to detect the biochemical consequence of the interaction with the variant protein and the target, such as any of the associated effects of signal transduction.


Candidate compounds include, for example, 1) peptides such as soluble peptides, including Ig-tailed fusion peptides and members of random peptide libraries (see, e.g., Lam et al., Nature 354:82-84 (1991); Houghten et al., Nature 354:84-86 (1991)) and combinatorial chemistry-derived molecular libraries made of D- and/or L-configuration amino acids; 2) phosphopeptides (e.g., members of random and partially degenerate, directed phosphopeptide libraries, see, e.g., Songyang et al., Cell 72:767-778 (1993)); 3) antibodies (e.g., polyclonal, monoclonal, humanized, anti-idiotypic, chimeric, and single chain antibodies as well as Fab, F(ab′)2, Fab expression library fragments, and epitope-binding fragments of antibodies); and 4) small organic and inorganic molecules (e.g., molecules obtained from combinatorial and natural product libraries).


One candidate compound is a soluble fragment of the variant protein that competes for ligand binding. Other candidate compounds include mutant proteins or appropriate fragments containing mutations that affect variant protein function and thus compete for ligand. Accordingly, a fragment that competes for ligand, for example with a higher affinity, or a fragment that binds ligand but does not allow release, is encompassed by the invention.


The invention further includes other end point assays to identify compounds that modulate (stimulate or inhibit) variant protein activity. The assays typically involve an assay of events in the signal transduction pathway that indicate protein activity. Thus, the expression of genes that are up or down-regulated in response to the variant protein dependent signal cascade can be assayed. In one embodiment, the regulatory region of such genes can be operably linked to a marker that is easily detectable, such as luciferase. Alternatively, phosphorylation of the variant protein, or a variant protein target, could also be measured. Any of the biological or biochemical functions mediated by the variant protein can be used as an endpoint assay. These include all of the biochemical or biological events described herein, in the references cited herein, incorporated by reference for these endpoint assay targets, and other functions known to those of ordinary skill in the art.


Binding and/or activating compounds can also be screened by using chimeric variant proteins in which an amino terminal extracellular domain or parts thereof, an entire transmembrane domain or subregions, and/or the carboxyl terminal intracellular domain or parts thereof, can be replaced by heterologous domains or subregions. For example, a substrate-binding region can be used that interacts with a different substrate than that which is normally recognized by a variant protein. Accordingly, a different set of signal transduction components is available as an end-point assay for activation. This allows for assays to be performed in other than the specific host cell from which the variant protein is derived.


The variant proteins are also useful in competition binding assays in methods designed to discover compounds that interact with the variant protein. Thus, a compound can be exposed to a variant protein under conditions that allow the compound to bind or to otherwise interact with the variant protein. A binding partner, such as ligand, that normally interacts with the variant protein is also added to the mixture. If the test compound interacts with the variant protein or its binding partner, it decreases the amount of complex formed or activity from the variant protein. This type of assay is particularly useful in screening for compounds that interact with specific regions of the variant protein. Hodgson, Bio/technology, 10(9), 973-80 (September 1992).


To perform cell-free drug screening assays, it is sometimes desirable to immobilize either the variant protein or a fragment thereof, or its target molecule, to facilitate separation of complexes from uncomplexed forms of one or both of the proteins, as well as to accommodate automation of the assay. Any method for immobilizing proteins on matrices can be used in drug screening assays. In one embodiment, a fusion protein containing an added domain allows the protein to be bound to a matrix. For example, glutathione-S-transferase/125I fusion proteins can be adsorbed onto glutathione sepharose beads (Sigma Chemical, St. Louis, Mo.) or glutathione derivatized microtitre plates, which are then combined with the cell lysates (e.g., 35S-labeled) and a candidate compound, such as a drug candidate, and the mixture incubated under conditions conducive to complex formation (e.g., at physiological conditions for salt and pH). Following incubation, the beads can be washed to remove any unbound label, and the matrix immobilized and radiolabel determined directly, or in the supernatant after the complexes are dissociated. Alternatively, the complexes can be dissociated from the matrix, separated by SDS-PAGE, and the level of bound material found in the bead fraction quantitated from the gel using standard electrophoretic techniques.


Either the variant protein or its target molecule can be immobilized utilizing conjugation of biotin and streptavidin. Alternatively, antibodies reactive with the variant protein but which do not interfere with binding of the variant protein to its target molecule can be derivatized to the wells of the plate, and the variant protein trapped in the wells by antibody conjugation. Preparations of the target molecule and a candidate compound are incubated in the variant protein-presenting wells and the amount of complex trapped in the well can be quantitated. Methods for detecting such complexes, in addition to those described above for the GST-immobilized complexes, include immunodetection of complexes using antibodies reactive with the protein target molecule, or which are reactive with variant protein and compete with the target molecule, and enzyme-linked assays that rely on detecting an enzymatic activity associated with the target molecule.


Modulators of variant protein activity identified according to these drug screening assays can be used to treat a subject with a disorder mediated by the protein pathway, such as CVD. These methods of treatment typically include the steps of administering the modulators of protein activity in a pharmaceutical composition to a subject in need of such treatment.


The variant proteins, or fragments thereof, disclosed herein can themselves be directly used to treat a disorder characterized by an absence of, inappropriate, or unwanted expression or activity of the variant protein. Accordingly, methods for treatment include the use of a variant protein disclosed herein or fragments thereof.


In yet another aspect of the invention, variant proteins can be used as “bait proteins” in a two-hybrid assay or three-hybrid assay to identify other proteins that bind to or interact with the variant protein and are involved in variant protein activity. See, e.g., U.S. Pat. No. 5,283,317; Zervos et al., Cell 72:223-232 (1993); Madura et al., J Biol Chem 268:12046-12054 (1993); Bartel et al., Biotechniques 14:920-924 (1993); Iwabuchi et al., Oncogene 8:1693-1696 (1993); and Brent, WO 94/10300. Such variant protein-binding proteins are also likely to be involved in the propagation of signals by the variant proteins or variant protein targets as, for example, elements of a protein-mediated signaling pathway. Alternatively, such variant protein-binding proteins are inhibitors of the variant protein.


The two-hybrid system is based on the modular nature of most transcription factors, which typically consist of separable DNA-binding and activation domains. Briefly, the assay typically utilizes two different DNA constructs. In one construct, the gene that codes for a variant protein is fused to a gene encoding the DNA binding domain of a known transcription factor (e.g., GAL-4). In the other construct, a DNA sequence, from a library of DNA sequences, that encodes an unidentified protein (“prey” or “sample”) is fused to a gene that codes for the activation domain of the known transcription factor. If the “bait” and the “prey” proteins are able to interact, in vivo, forming a variant protein-dependent complex, the DNA-binding and activation domains of the transcription factor are brought into close proximity. This proximity allows transcription of a reporter gene (e.g., LacZ) that is operably linked to a transcriptional regulatory site responsive to the transcription factor. Expression of the reporter gene can be detected, and cell colonies containing the functional transcription factor can be isolated and used to obtain the cloned gene that encodes the protein that interacts with the variant protein.


Antibodies Directed to Variant Proteins


The present invention also provides antibodies that selectively bind to the variant proteins disclosed herein and fragments thereof. Such antibodies may be used to quantitatively or qualitatively detect the variant proteins of the present invention. As used herein, an antibody selectively binds a target variant protein when it binds the variant protein and does not significantly bind to non-variant proteins, i.e., the antibody does not significantly bind to normal, wild-type, or art-known proteins that do not contain a variant amino acid sequence due to one or more SNPs of the present invention (variant amino acid sequences may be due to, for example, nonsynonymous cSNPs, nonsense SNPs that create a stop codon, thereby causing a truncation of a polypeptide or SNPs that cause read-through mutations resulting in an extension of a polypeptide).


As used herein, an antibody is defined in terms consistent with that recognized in the art: they are multi-subunit proteins produced by an organism in response to an antigen challenge. The antibodies of the present invention include both monoclonal antibodies and polyclonal antibodies, as well as antigen-reactive proteolytic fragments of such antibodies, such as Fab, F(ab)′2, and Fv fragments. In addition, an antibody of the present invention further includes any of a variety of engineered antigen-binding molecules such as a chimeric antibody (U.S. Pat. Nos. 4,816,567 and 4,816,397; Morrison et al., Proc Natl Acad Sci USA 81:6851 (1984); Neuberger et al., Nature 312:604 (1984)), a humanized antibody (U.S. Pat. Nos. 5,693,762; 5,585,089 and 5,565,332), a single-chain Fv (U.S. Pat. No. 4,946,778; Ward et al., Nature 334:544 (1989)), a bispecific antibody with two binding specificities (Segal et al., J Immunol Methods 248:1 (2001); Carter, J Immunol Methods 248:7 (2001)), a diabody, a triabody, and a tetrabody (Todorovska et al., J Immunol Methods 248:47 (2001)), as well as a Fab conjugate (dimer or trimer), and a minibody.


Many methods are known in the art for generating and/or identifying antibodies to a given target antigen. Harlow, Antibodies, Cold Spring Harbor Press, N.Y. (1989). In general, an isolated peptide (e.g., a variant protein of the present invention) is used as an immunogen and is administered to a mammalian organism, such as a rat, rabbit, hamster or mouse. Either a full-length protein, an antigenic peptide fragment (e.g., a peptide fragment containing a region that varies between a variant protein and a corresponding wild-type protein), or a fusion protein can be used. A protein used as an immunogen may be naturally-occurring, synthetic or recombinantly produced, and may be administered in combination with an adjuvant, including but not limited to, Freund's (complete and incomplete), mineral gels such as aluminum hydroxide, surface active substance such as lysolecithin, pluronic polyols, polyanions, peptides, oil emulsions, keyhole limpet hemocyanin, dinitrophenol, and the like.


Monoclonal antibodies can be produced by hybridoma technology, which immortalizes cells secreting a specific monoclonal antibody. Kohler and Milstein, Nature 256:495 (1975). The immortalized cell lines can be created in vitro by fusing two different cell types, typically lymphocytes, and tumor cells. The hybridoma cells may be cultivated in vitro or in vivo. Additionally, fully human antibodies can be generated by transgenic animals. He et al., J Immunol 169:595 (2002). Fd phage and Fd phagemid technologies may be used to generate and select recombinant antibodies in vitro. Hoogenboom and Chames, Immunol Today 21:371 (2000); Liu et al., J Mol Biol 315:1063 (2002). The complementarity-determining regions of an antibody can be identified, and synthetic peptides corresponding to such regions may be used to mediate antigen binding. U.S. Pat. No. 5,637,677.


Antibodies are preferably prepared against regions or discrete fragments of a variant protein containing a variant amino acid sequence as compared to the corresponding wild-type protein (e.g., a region of a variant protein that includes an amino acid encoded by a nonsynonymous cSNP, a region affected by truncation caused by a nonsense SNP that creates a stop codon, or a region resulting from the destruction of a stop codon due to read-through mutation caused by a SNP). Furthermore, preferred regions will include those involved in function/activity and/or protein/binding partner interaction. Such fragments can be selected on a physical property, such as fragments corresponding to regions that are located on the surface of the protein, e.g., hydrophilic regions, or can be selected based on sequence uniqueness, or based on the position of the variant amino acid residue(s) encoded by the SNPs provided by the present invention. An antigenic fragment will typically comprise at least about 8-10 contiguous amino acid residues in which at least one of the amino acid residues is an amino acid affected by a SNP disclosed herein. The antigenic peptide can comprise, however, at least 12, 14, 16, 20, 25, 50, 100 (or any other number in-between) or more amino acid residues, provided that at least one amino acid is affected by a SNP disclosed herein.


Detection of an antibody of the present invention can be facilitated by coupling (i.e., physically linking) the antibody or an antigen-reactive fragment thereof to a detectable substance. Detectable substances include, but are not limited to, various enzymes, prosthetic groups, fluorescent materials, luminescent materials, bioluminescent materials, and radioactive materials. Examples of suitable enzymes include horseradish peroxidase, alkaline phosphatase, β-galactosidase, or acetylcholinesterase; examples of suitable prosthetic group complexes include streptavidin/biotin and avidin/biotin; examples of suitable fluorescent materials include umbelliferone, fluorescein, fluorescein isothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansyl chloride or phycoerythrin; an example of a luminescent material includes luminol; examples of bioluminescent materials include luciferase, luciferin, and aequorin, and examples of suitable radioactive material include 125I, 131I, 35S or 3H.


Antibodies, particularly the use of antibodies as therapeutic agents, are reviewed in: Morgan, “Antibody therapy for Alzheimer's disease,” Expert Rev Vaccines (1):53-9 (February 2003); Ross et al., “Anticancer antibodies,” Am J Clin Pathol 119(4):472-85 (April 2003); Goldenberg, “Advancing role of radiolabeled antibodies in the therapy of cancer,” Cancer Immunol Immunother 52(5):281-96 (May 2003); Epub Mar. 11, 2003; Ross et al., “Antibody-based therapeutics in oncology,” Expert Rev Anticancer Ther 3(1):107-21 (February 2003); Cao et al., “Bispecific antibody conjugates in therapeutics,” Adv Drug Deliv Rev 55(2):171-97 (February 2003); von Mehren et al., “Monoclonal antibody therapy for cancer,” Annu Rev Med 54:343-69 (2003); Epub Dec. 3, 2001; Hudson et al., “Engineered antibodies,” Nat Med 9(1):129-34 (January 2003); Brekke et al., “Therapeutic antibodies for human diseases at the dawn of the twenty-first century,” Nat Rev Drug Discov 2(1):52-62 (January 2003); Erratum in: Nat Rev Drug Discov 2(3):240 (March 2003); Houdebine, “Antibody manufacture in transgenic animals and comparisons with other systems,” Curr Opin Biotechnol 13(6):625-9 (December 2002); Andreakos et al., “Monoclonal antibodies in immune and inflammatory diseases,” Curr Opin Biotechnol 13(6):615-20 (December 2002); Kellermann et al., “Antibody discovery: the use of transgenic mice to generate human monoclonal antibodies for therapeutics,” Curr Opin Biotechnol 13(6):593-7 (December 2002); Pini et al., “Phage display and colony filter screening for high-throughput selection of antibody libraries,” Comb Chem High Throughput Screen 5(7):503-10 (November 2002); Batra et al., “Pharmacokinetics and biodistribution of genetically engineered antibodies,” Curr Opin Biotechnol 13(6):603-8 (December 2002); and Tangri et al., “Rationally engineered proteins or antibodies with absent or reduced immunogenicity,” Curr Med Chem 9(24):2191-9 (December 2002).


Uses of Antibodies


Antibodies can be used to isolate the variant proteins of the present invention from a natural cell source or from recombinant host cells by standard techniques, such as affinity chromatography or immunoprecipitation. In addition, antibodies are useful for detecting the presence of a variant protein of the present invention in cells or tissues to determine the pattern of expression of the variant protein among various tissues in an organism and over the course of normal development or disease progression. Further, antibodies can be used to detect variant protein in situ, in vitro, in a bodily fluid, or in a cell lysate or supernatant in order to evaluate the amount and pattern of expression. Also, antibodies can be used to assess abnormal tissue distribution, abnormal expression during development, or expression in an abnormal condition, such as in CVD, or during statin treatment. Additionally, antibody detection of circulating fragments of the full-length variant protein can be used to identify turnover.


Antibodies to the variant proteins of the present invention are also useful in pharmacogenomic analysis. Thus, antibodies against variant proteins encoded by alternative SNP alleles can be used to identify individuals that require modified treatment modalities.


Further, antibodies can be used to assess expression of the variant protein in disease states such as in active stages of the disease or in an individual with a predisposition to a disease related to the protein's function, such as CVD, or during the course of a treatment regime, such as during statin treatment. Antibodies specific for a variant protein encoded by a SNP-containing nucleic acid molecule of the present invention can be used to assay for the presence of the variant protein, such as to determine an individual's response to statin treatment (particularly for reducing their risk for CVD, particularly CHD, such as MI, or stroke) or to diagnose CVD or predisposition/susceptibility to CVD, as indicated by the presence of the variant protein.


Antibodies are also useful as diagnostic tools for evaluating the variant proteins in conjunction with analysis by electrophoretic mobility, isoelectric point, tryptic peptide digest, and other physical assays well known in the art.


Antibodies are also useful for tissue typing. Thus, where a specific variant protein has been correlated with expression in a specific tissue, antibodies that are specific for this protein can be used to identify a tissue type.


Antibodies can also be used to assess aberrant subcellular localization of a variant protein in cells in various tissues. The diagnostic uses can be applied, not only in genetic testing, but also in monitoring a treatment modality. Accordingly, where treatment is ultimately aimed at correcting the expression level or the presence of variant protein or aberrant tissue distribution or developmental expression of a variant protein, antibodies directed against the variant protein or relevant fragments can be used to monitor therapeutic efficacy.


The antibodies are also useful for inhibiting variant protein function, for example, by blocking the binding of a variant protein to a binding partner. These uses can also be applied in a therapeutic context in which treatment involves inhibiting a variant protein's function. An antibody can be used, for example, to block or competitively inhibit binding, thus modulating (agonizing or antagonizing) the activity of a variant protein. Antibodies can be prepared against specific variant protein fragments containing sites required for function or against an intact variant protein that is associated with a cell or cell membrane. For in vivo administration, an antibody may be linked with an additional therapeutic payload such as a radionuclide, an enzyme, an immunogenic epitope, or a cytotoxic agent. Suitable cytotoxic agents include, but are not limited to, bacterial toxin such as diphtheria, and plant toxin such as ricin. The in vivo half-life of an antibody or a fragment thereof may be lengthened by pegylation through conjugation to polyethylene glycol. Leong et al., Cytokine 16:106 (2001).


The invention also encompasses kits for using antibodies, such as kits for detecting the presence of a variant protein in a test sample. An exemplary kit can comprise antibodies such as a labeled or labelable antibody and a compound or agent for detecting variant proteins in a biological sample; means for determining the amount, or presence/absence of variant protein in the sample; means for comparing the amount of variant protein in the sample with a standard; and instructions for use.


Vectors and Host Cells


The present invention also provides vectors containing the SNP-containing nucleic acid molecules described herein. The term “vector” refers to a vehicle, preferably a nucleic acid molecule, which can transport a SNP-containing nucleic acid molecule. When the vector is a nucleic acid molecule, the SNP-containing nucleic acid molecule can be covalently linked to the vector nucleic acid. Such vectors include, but are not limited to, a plasmid, single or double stranded phage, a single or double stranded RNA or DNA viral vector, or artificial chromosome, such as a BAC, PAC, YAC, or MAC.


A vector can be maintained in a host cell as an extrachromosomal element where it replicates and produces additional copies of the SNP-containing nucleic acid molecules. Alternatively, the vector may integrate into the host cell genome and produce additional copies of the SNP-containing nucleic acid molecules when the host cell replicates.


The invention provides vectors for the maintenance (cloning vectors) or vectors for expression (expression vectors) of the SNP-containing nucleic acid molecules. The vectors can function in prokaryotic or eukaryotic cells or in both (shuttle vectors).


Expression vectors typically contain cis-acting regulatory regions that are operably linked in the vector to the SNP-containing nucleic acid molecules such that transcription of the SNP-containing nucleic acid molecules is allowed in a host cell. The SNP-containing nucleic acid molecules can also be introduced into the host cell with a separate nucleic acid molecule capable of affecting transcription. Thus, the second nucleic acid molecule may provide a trans-acting factor interacting with the cis-regulatory control region to allow transcription of the SNP-containing nucleic acid molecules from the vector. Alternatively, a trans-acting factor may be supplied by the host cell. Finally, a trans-acting factor can be produced from the vector itself. It is understood, however, that in some embodiments, transcription and/or translation of the nucleic acid molecules can occur in a cell-free system.


The regulatory sequences to which the SNP-containing nucleic acid molecules described herein can be operably linked include promoters for directing mRNA transcription. These include, but are not limited to, the left promoter from bacteriophage λ, the lac, TRP, and TAC promoters from E. coli, the early and late promoters from SV40, the CMV immediate early promoter, the adenovirus early and late promoters, and retrovirus long-terminal repeats.


In addition to control regions that promote transcription, expression vectors may also include regions that modulate transcription, such as repressor binding sites and enhancers. Examples include the SV40 enhancer, the cytomegalovirus immediate early enhancer, polyoma enhancer, adenovirus enhancers, and retrovirus LTR enhancers.


In addition to containing sites for transcription initiation and control, expression vectors can also contain sequences necessary for transcription termination and, in the transcribed region, a ribosome-binding site for translation. Other regulatory control elements for expression include initiation and termination codons as well as polyadenylation signals. A person of ordinary skill in the art would be aware of the numerous regulatory sequences that are useful in expression vectors. See, e.g., Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory Press, N.Y. (2000).


A variety of expression vectors can be used to express a SNP-containing nucleic acid molecule. Such vectors include chromosomal, episomal, and virus-derived vectors, for example, vectors derived from bacterial plasmids, from bacteriophage, from yeast episomes, from yeast chromosomal elements, including yeast artificial chromosomes, from viruses such as baculoviruses, papovaviruses such as SV40, Vaccinia viruses, adenoviruses, poxviruses, pseudorabies viruses, and retroviruses. Vectors can also be derived from combinations of these sources such as those derived from plasmid and bacteriophage genetic elements, e.g., cosmids and phagemids. Appropriate cloning and expression vectors for prokaryotic and eukaryotic hosts are described in Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory Press, N.Y. (2000).


The regulatory sequence in a vector may provide constitutive expression in one or more host cells (e.g., tissue specific expression) or may provide for inducible expression in one or more cell types such as by temperature, nutrient additive, or exogenous factor, e.g., a hormone or other ligand. A variety of vectors that provide constitutive or inducible expression of a nucleic acid sequence in prokaryotic and eukaryotic host cells are well known to those of ordinary skill in the art.


A SNP-containing nucleic acid molecule can be inserted into the vector by methodology well-known in the art. Generally, the SNP-containing nucleic acid molecule that will ultimately be expressed is joined to an expression vector by cleaving the SNP-containing nucleic acid molecule and the expression vector with one or more restriction enzymes and then ligating the fragments together. Procedures for restriction enzyme digestion and ligation are well known to those of ordinary skill in the art.


The vector containing the appropriate nucleic acid molecule can be introduced into an appropriate host cell for propagation or expression using well-known techniques. Bacterial host cells include, but are not limited to, Escherichia coli, Streptomyces spp., and Salmonella typhimurium. Eukaryotic host cells include, but are not limited to, yeast, insect cells such as Drosophila spp., animal cells such as COS and CHO cells, and plant cells.


As described herein, it may be desirable to express the variant peptide as a fusion protein. Accordingly, the invention provides fusion vectors that allow for the production of the variant peptides. Fusion vectors can, for example, increase the expression of a recombinant protein, increase the solubility of the recombinant protein, and aid in the purification of the protein by acting, for example, as a ligand for affinity purification. A proteolytic cleavage site may be introduced at the junction of the fusion moiety so that the desired variant peptide can ultimately be separated from the fusion moiety. Proteolytic enzymes suitable for such use include, but are not limited to, factor Xa, thrombin, and enterokinase. Typical fusion expression vectors include pGEX (Smith et al., Gene 67:31-40 (1988)), pMAL (New England Biolabs, Beverly, Mass.) and pRIT5 (Pharmacia, Piscataway, N.J.) which fuse glutathione S-transferase (GST), maltose E binding protein, or protein A, respectively, to the target recombinant protein. Examples of suitable inducible non-fusion E. coli expression vectors include pTrc (Amann et al., Gene 69:301-315 (1988)) and pET 11d (Studier et al., Gene Expression Technology: Methods in Enzymology 185:60-89 (1990)).


Recombinant protein expression can be maximized in a bacterial host by providing a genetic background wherein the host cell has an impaired capacity to proteolytically cleave the recombinant protein (S. Gottesman, Gene Expression Technology: Methods in Enzymology 185:119-128, Academic Press, Calif. (1990)). Alternatively, the sequence of the SNP-containing nucleic acid molecule of interest can be altered to provide preferential codon usage for a specific host cell, for example, E. coli. Wada et al., Nucleic Acids Res 20:2111-2118 (1992).


The SNP-containing nucleic acid molecules can also be expressed by expression vectors that are operative in yeast. Examples of vectors for expression in yeast (e.g., S. cerevisiae) include pYepSec1 (Baldari et al., EMBO J 6:229-234 (1987)), pMFa (Kurjan et al., Cell 30:933-943 (1982)), pJRY88 (Schultz et al., Gene 54:113-123 (1987)), and pYES2 (Invitrogen Corporation, San Diego, Calif.).


The SNP-containing nucleic acid molecules can also be expressed in insect cells using, for example, baculovirus expression vectors. Baculovirus vectors available for expression of proteins in cultured insect cells (e.g., Sf 9 cells) include the pAc series (Smith et al., Mol Cell Biol 3:2156-2165 (1983)) and the pVL series (Lucklow et al., Virology 170:31-39 (1989)).


In certain embodiments of the invention, the SNP-containing nucleic acid molecules described herein are expressed in mammalian cells using mammalian expression vectors. Examples of mammalian expression vectors include pCDM8 (B. Seed, Nature 329:840(1987)) and pMT2PC (Kaufman et al., EMBO J 6:187-195 (1987)).


The invention also encompasses vectors in which the SNP-containing nucleic acid molecules described herein are cloned into the vector in reverse orientation, but operably linked to a regulatory sequence that permits transcription of antisense RNA. Thus, an antisense transcript can be produced to the SNP-containing nucleic acid sequences described herein, including both coding and non-coding regions. Expression of this antisense RNA is subject to each of the parameters described above in relation to expression of the sense RNA (regulatory sequences, constitutive or inducible expression, tissue-specific expression).


The invention also relates to recombinant host cells containing the vectors described herein. Host cells therefore include, for example, prokaryotic cells, lower eukaryotic cells such as yeast, other eukaryotic cells such as insect cells, and higher eukaryotic cells such as mammalian cells.


The recombinant host cells can be prepared by introducing the vector constructs described herein into the cells by techniques readily available to persons of ordinary skill in the art. These include, but are not limited to, calcium phosphate transfection, DEAE-dextran-mediated transfection, cationic lipid-mediated transfection, electroporation, transduction, infection, lipofection, and other techniques such as those described in Sambrook and Russell, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory, Cold Spring Harbor Laboratory Press, N.Y. (2000).


Host cells can contain more than one vector. Thus, different SNP-containing nucleotide sequences can be introduced in different vectors into the same cell. Similarly, the SNP-containing nucleic acid molecules can be introduced either alone or with other nucleic acid molecules that are not related to the SNP-containing nucleic acid molecules, such as those providing trans-acting factors for expression vectors. When more than one vector is introduced into a cell, the vectors can be introduced independently, co-introduced, or joined to the nucleic acid molecule vector.


In the case of bacteriophage and viral vectors, these can be introduced into cells as packaged or encapsulated virus by standard procedures for infection and transduction. Viral vectors can be replication-competent or replication-defective. In the case in which viral replication is defective, replication can occur in host cells that provide functions that complement the defects.


Vectors generally include selectable markers that enable the selection of the subpopulation of cells that contain the recombinant vector constructs. The marker can be inserted in the same vector that contains the SNP-containing nucleic acid molecules described herein or may be in a separate vector. Markers include, for example, tetracycline or ampicillin-resistance genes for prokaryotic host cells, and dihydrofolate reductase or neomycin resistance genes for eukaryotic host cells. However, any marker that provides selection for a phenotypic trait can be effective.


While the mature variant proteins can be produced in bacteria, yeast, mammalian cells, and other cells under the control of the appropriate regulatory sequences, cell-free transcription and translation systems can also be used to produce these variant proteins using RNA derived from the DNA constructs described herein.


Where secretion of the variant protein is desired, which is difficult to achieve with multi-transmembrane domain containing proteins such as G-protein-coupled receptors (GPCRs), appropriate secretion signals can be incorporated into the vector. The signal sequence can be endogenous to the peptides or heterologous to these peptides.


Where the variant protein is not secreted into the medium, the protein can be isolated from the host cell by standard disruption procedures, including freeze/thaw, sonication, mechanical disruption, use of lysing agents, and the like. The variant protein can then be recovered and purified by well-known purification methods including, for example, ammonium sulfate precipitation, acid extraction, anion or cationic exchange chromatography, phosphocellulose chromatography, hydrophobic-interaction chromatography, affinity chromatography, hydroxylapatite chromatography, lectin chromatography, or high performance liquid chromatography.


It is also understood that, depending upon the host cell in which recombinant production of the variant proteins described herein occurs, they can have various glycosylation patterns, or may be non-glycosylated, as when produced in bacteria. In addition, the variant proteins may include an initial modified methionine in some cases as a result of a host-mediated process.


For further information regarding vectors and host cells, see Current Protocols in Molecular Biology, John Wiley & Sons, N.Y.


Uses of Vectors and Host Cells, and Transgenic Animals


Recombinant host cells that express the variant proteins described herein have a variety of uses. For example, the cells are useful for producing a variant protein that can be further purified into a preparation of desired amounts of the variant protein or fragments thereof. Thus, host cells containing expression vectors are useful for variant protein production.


Host cells are also useful for conducting cell-based assays involving the variant protein or variant protein fragments, such as those described above as well as other formats known in the art. Thus, a recombinant host cell expressing a variant protein is useful for assaying compounds that stimulate or inhibit variant protein function. Such an ability of a compound to modulate variant protein function may not be apparent from assays of the compound on the native/wild-type protein, or from cell-free assays of the compound. Recombinant host cells are also useful for assaying functional alterations in the variant proteins as compared with a known function.


Genetically-engineered host cells can be further used to produce non-human transgenic animals. A transgenic animal is preferably a non-human mammal, for example, a rodent, such as a rat or mouse, in which one or more of the cells of the animal include a transgene. A transgene is exogenous DNA containing a SNP of the present invention which is integrated into the genome of a cell from which a transgenic animal develops and which remains in the genome of the mature animal in one or more of its cell types or tissues. Such animals are useful for studying the function of a variant protein in vivo, and identifying and evaluating modulators of variant protein activity. Other examples of transgenic animals include, but are not limited to, non-human primates, sheep, dogs, cows, goats, chickens, and amphibians. Transgenic non-human mammals such as cows and goats can be used to produce variant proteins which can be secreted in the animal's milk and then recovered.


A transgenic animal can be produced by introducing a SNP-containing nucleic acid molecule into the male pronuclei of a fertilized oocyte, e.g., by microinjection or retroviral infection, and allowing the oocyte to develop in a pseudopregnant female foster animal. Any nucleic acid molecules that contain one or more SNPs of the present invention can potentially be introduced as a transgene into the genome of a non-human animal.


Any of the regulatory or other sequences useful in expression vectors can form part of the transgenic sequence. This includes intronic sequences and polyadenylation signals, if not already included. A tissue-specific regulatory sequence(s) can be operably linked to the transgene to direct expression of the variant protein in particular cells or tissues.


Methods for generating transgenic animals via embryo manipulation and microinjection, particularly animals such as mice, have become conventional in the art and are described, for example, in U.S. Pat. Nos. 4,736,866 and 4,870,009, both by Leder et al.; U.S. Pat. No. 4,873,191 by Wagner et al., and in B. Hogan, Manipulating the Mouse Embryo, Cold Spring Harbor Laboratory Press, N.Y. (1986). Similar methods are used for production of other transgenic animals. A transgenic founder animal can be identified based upon the presence of the transgene in its genome and/or expression of transgenic mRNA in tissues or cells of the animals. A transgenic founder animal can then be used to breed additional animals carrying the transgene. Moreover, transgenic animals carrying a transgene can further be bred to other transgenic animals carrying other transgenes. A transgenic animal also includes a non-human animal in which the entire animal or tissues in the animal have been produced using the homologously recombinant host cells described herein.


In another embodiment, transgenic non-human animals can be produced which contain selected systems that allow for regulated expression of the transgene. One example of such a system is the cre/loxP recombinase system of bacteriophage P1. Lakso et al., PNAS 89:6232-6236 (1992). Another example of a recombinase system is the FLP recombinase system of S. cerevisiae. O'Gorman et al., Science 251:1351-1355 (1991). If a cre/loxP recombinase system is used to regulate expression of the transgene, animals containing transgenes encoding both the Cre recombinase and a selected protein are generally needed. Such animals can be provided through the construction of “double” transgenic animals, e.g., by mating two transgenic animals, one containing a transgene encoding a selected variant protein and the other containing a transgene encoding a recombinase.


Clones of the non-human transgenic animals described herein can also be produced according to the methods described, for example, in I. Wilmut et al., Nature 385:810-813 (1997) and PCT International Publication Nos. WO 97/07668 and WO 97/07669. In brief, a cell (e.g., a somatic cell) from the transgenic animal can be isolated and induced to exit the growth cycle and enter Go phase. The quiescent cell can then be fused, e.g., through the use of electrical pulses, to an enucleated oocyte from an animal of the same species from which the quiescent cell is isolated. The reconstructed oocyte is then cultured such that it develops to morula or blastocyst and then transferred to pseudopregnant female foster animal. The offspring born of this female foster animal will be a clone of the animal from which the cell (e.g., a somatic cell) is isolated.


Transgenic animals containing recombinant cells that express the variant proteins described herein are useful for conducting the assays described herein in an in vivo context. Accordingly, the various physiological factors that are present in vivo and that could influence ligand or substrate binding, variant protein activation, signal transduction, or other processes or interactions, may not be evident from in vitro cell-free or cell-based assays. Thus, non-human transgenic animals of the present invention may be used to assay in vivo variant protein function as well as the activities of a therapeutic agent or compound that modulates variant protein function/activity or expression. Such animals are also suitable for assessing the effects of null mutations (i.e., mutations that substantially or completely eliminate one or more variant protein functions).


For further information regarding transgenic animals, see Houdebine, “Antibody manufacture in transgenic animals and comparisons with other systems,” Curr Opin Biotechnol 13(6):625-9 (December 2002); Petters et al., “Transgenic animals as models for human disease,” Transgenic Res 9(4-5):347-51, discussion 345-6 (2000); Wolf et al., “Use of transgenic animals in understanding molecular mechanisms of toxicity,” J Pharm Pharmacol 50(6):567-74 (June 1998); Echelard, “Recombinant protein production in transgenic animals,” Curr Opin Biotechnol 7(5):536-40 (October 1996); Houdebine, “Transgenic animal bioreactors,” Transgenic Res 9(4-5):305-20 (2000); Pirity et al., “Embryonic stem cells, creating transgenic animals,” Methods Cell Biol 57:279-93 (1998); and Robl et al., “Artificial chromosome vectors and expression of complex proteins in transgenic animals,” Theriogenology 59(1):107-13 (January 2003).


EXAMPLES

The following examples are offered to illustrate, but not limit, the claimed invention.


Example 1
SNPs Associated with Statin Response in CARE, WOSCOPS, and PROVE IT-TIMI 22

Overview


In the study described here in Example 1, cohort and case-only study designs were used to identify SNPs associated with response to statin treatment. The entire cohort (individuals with and without incident CHD or CVD events) or cases only (only individuals with an incident CHD or CVD event) were analyzed in sample sets from the CARE, WOSCOPS, and PROVE IT. Specifically, analyses were carried out using these three sample sets to identify SNPs associated with a reduction in the risk of CHD or CVD (CVD includes CHD and stroke), the results of which are provided in Tables 4-7 and Tables 9-18 (Tables 9-18 provide additional genotyped SNPs as well as imputed SNPs).


Tables 4-7 provide results of analyses of statin response for either CHD or CVD reduction, in three genetic models (dominant, recessive, and additive). Tables 4-7 provide SNPs that had a synergy index (odds ratio) with P value lower than 10−4 in a meta-analysis of CARE and WOSCOPS combined (Table 4-5) or in a meta-analysis of CARE, WOSCOPS, and PROVE-IT combined (Table 6-7), in any genetic model in either the CHD or CVD endpoint. Tables 4-5 provide meta-analyses of CARE and WOSCOPS combined, as well as logistic regression analysis of each sample set individually. Tables 6-7 provide meta-analyses of CARE, WOSCOPS, and PROVE-IT combined, as well as logistic regression analysis of each sample set individually.


Tables 5 and 7 provide analyses of certain LD SNPs in CARE and WOSCOPS (Table 5) and in CARE, WOSCOPS, and PROVE-IT (Table 7). For some SNPs, case-only data was available for a first SNP while cohort data was available for a SNP in LD with the first SNP (LD SNP), which occurred when a working kPCR assay could not be made for the first SNP. For these SNPs, the data for case-only analysis and the available data for the cohort is reported. The meta-analysis was performed with the cohort data when available. These SNPs are listed in Tables 5 and 7, with the two SNPs in LD listed one below the other, and the degree of LD (r2) between each of these pairs of SNPs is provided in Table 8.


CARE, WOSCOPS, and PROVE IT-TIMI 22 Sample Sets


The CARE (“Cholesterol and Recurrent Events”) and WOSCOPS (“West of Scotland Coronary Prevention Study”) studies were prospective trials that assessed the effect of pravastatin (40 mg/day) on the prevention of MI and CHD. CARE was a secondary prevention trial and WOSCOPS was a primary prevention trial. The PROVE IT-TIMI 22 (“Pravastatin or Atorvastatin Evaluation and Infection Therapy: Thrombolysis in Myocardial Infarction 22”; which is interchangeably referred to herein as “PROVE-IT”) trial evaluated the effectiveness of intensive therapy with high-dose atorvastatin (80 mg/day) versus moderate therapy with standard-dose pravastatin (40 mg/day, which was the dose used in the CARE and WOSCOPS trials) in preventing death or cardiovascular events in patients with a recent acute coronary syndrome.


These trials and the sample sets from these trials (such as the inclusion criteria for participants) are described in the following references. Those portions of each of the following references that pertain to the CARE, WOSCOPS, and PROVE-IT trials and sample sets are hereby incorporated by reference. CARE is described in Sacks et al., “Cholesterol and Recurrent Events Trial Investigators. The effect of pravastatin on coronary events after myocardial infarction in patients with average cholesterol levels”, N Engl J Med 1996; 335:1001-9, and WOSCOPS is described in Shepherd et al., “West of Scotland Coronary Prevention Study Group. Prevention of coronary heart disease with pravastatin in men with hypercholesterolemia”, N Engl J Med 1995; 333:1301-7. PROVE-IT is described in Iakoubova et al., Polymorphism in KIF6 gene and benefit from statins after acute coronary syndromes: results from the PROVE IT-TIMI 22 study”, J Am Coll Cardiol. 2008 Jan. 29; 51(4):449-55 and Cannon et al., “Intensive versus moderate lipid lowering with statins after acute coronary syndromes”, N Engl J Med 2004; 350:1495-504.


Endpoints


The endpoint definitions used in these analyses of CARE, WOSCOPS, and PROVE-IT (the results of which are provided in Tables 4-7) were as follows. The CHD endpoint was defined in the analyses herein of CARE as a composite endpoint of fatal CHD, definite non-fatal MI, or revascularization, and was defined in the analyses herein of WOSCOPS as a composite endpoint of death from CHD, nonfatal MI, or revascularization. In both the CARE and WOSCOPS analyses herein, the CVD endpoint was defined as a composite endpoint of CHD or stroke. The analyses herein of PROVE-IT analyzed the primary endpoint of PROVE-IT, which was a composite endpoint of revascularization (if performed at least 30 days after randomization), unstable angina requiring hospitalization, MI, all causes of death, or stroke. Thus, there was only one endpoint for PROVE-IT (the composite primary endpoint of the original PROVE-IT study, which includes some stroke cases), and this endpoint was used in the meta-analysis for both CHD and CVD provided in Tables 6-7. With respect to stroke, in the analyses herein of CARE and PROVE-IT, stroke was defined as stroke or transient ischemic attack (TIA), and in the analyses herein of WOSCOPS, stroke was defined as fatal or non-fatal stroke. Revascularization, which can include percutaneous transluminal coronary angioplasty (PTCA), stent placement, and coronary artery bypass graft (CABG), are medical interventions that indicate the presence of CHD.


Study Designs


Cohort and case-only study designs were used to identify SNPs associated with response to statin treatment. The entire cohort (individuals with and without incident CHD or CVD events; identified as “cohort” in the “Source” column of Tables 4-7) or only individuals with an incident CHD or CVD event (identified as “CaseOnly” in the “Source” column of Tables 4-7) were analyzed in sample sets from the CARE, WOSCOPS, and PROVE-IT trials to test whether the reduction of CHD/CVD events by statin therapy (for CARE and WOSCOPS studies), or by high dose atorvastatin therapy (for the PROVE IT study), differed according to genotype (a treatment by SNP interaction) for each SNP evaluated in the study.


For each SNP, a logistic regression model having treatment status as the dependent variable and SNP as the independent predictor variable was performed, with terms for age, sex and race included in the model as covariates. The anti-log of the regression coefficient corresponding to the SNP is an estimate of the synergy index (SI) (Davis et al., “Imputing gene-treatment interactions when the genotype distribution is unknown using case-only and putative placebo analyses—a new method for the Genetics of Hypertension Associated Treatment (GenHAT) study”, Statistics in Medicine 23: (2004), pages 2413-2427). The SI is a ratio of odds ratios: for example in the CARE and WOSCOPS studies, the SI represents the factor by which the odds-ratio of statin treatment, compared with placebo, among major homozygous individuals is multiplied by in order to obtain the odds-ratio of treatment vs. placebo among heterozygous individuals; and multiplied by a second time to obtain the odds-ratio of treatment vs. placebo in minor homozygous individuals. The case-only study design results in a valid estimate of the SI under the assumption that genotype and treatment are independent in the population. In a randomized clinical trial, genotype and treatment are independent by design. The p-value for the regression coefficient corresponding to the SNP results from a test of the null hypothesis that the regression coefficient is equal to zero (SI is equal to one) and thus small p-values indicate the SI is unlikely equal to one and that the effect of treatment likely differs by genotype.


The logistic regression models were performed separately for each of CARE, WOSCOPS, and PROVE-IT in order to obtain study-specific results. A meta-analysis was then used to estimate the combined evidence for interaction when considering either the CARE and WOSCOPS studies (Tables 4-5), or all three studies (CARE, WOSCOPS, and PROVE-IT) (Tables 6-7). The meta-analysis used the inverse variance method (Rothman et al., 1998; Modern Epidemiology, 2nd edition, Lippincott Williams & Wilkins, Philadelphia, Pa., pages 660-661) to calculate the combined SI using a weighted average of the effects of the individual studies with weights equal to the inverse variance from each study.


The logistic regression and meta-analyses were performed using PLINK version 1.07 (Purcell et al. (2007), “PLINK: A tool set for whole-genome association and population-based linkage analyses”, Am. J. Hum. Genet. 81, 559-575).


Regarding case-only study designs specifically, further information about these study designs is provided in Piegorsch et al., “Non-hierarchical logistic models and case-only designs for assessing susceptibility in population-based case-control studies”, Statistics in Medicine 13 (1994) (pages 153-162); Khoury et al., “Nontraditional Epidemiologic Approaches in the Analysis of Gene-Environment Interaction: Case-Control Studies with No Controls!”, American Journal of Epidemiology 144:3 (1996) (pages 207-213); Pierce et al., “Case-only genome-wide interaction study of disease risk, prognosis and treatment”, Genet Epidemiol. 2010 January; 34(1):7-15; Begg et al., “Statistical analysis of molecular epidemiology studies employing case-series”, Cancer Epidemiology Biomarkers and Prevention 3 (1994) pp 173-175; Yang et al., “Sample Size Requirements in Case-Only Designs to Detect Gene-Environment Interaction”, American Journal of Epidemiology 146:9 (1997) pp 713-720; Albert et al., “Limitations of the Case-only Design for Identifying Gene-Environment Interactions”, American Journal of Epidemiology 154:8 (2001) pp 687-693; and Wang et al., “Population Stratification Bias in the Case-Only Study for Gene-Environment Interactions”, American Journal of Epidemiology 168:2 (2008) pp 197-201, each of which is incorporated herein by reference in its entirety. Further information about genome-wide association studies is provided in Wellcome Trust Case Control Consortium, “Genome-wide association study of 14,000 cases of seven common diseases and 3,000 shared controls”, Nature. 2007 Jun. 7; 447(7145):661-78 and Ikram et al., “Genomewide association studies of stroke”, N Engl J Med. 2009 Apr. 23; 360(17):1718-28.


Identification of Additional Statin Response-Associated SNPs by Imputation and Genotyping


Additional genotyped and imputed SNPs were identified as being associated with statin response in the CARE, WOSCOPS, and PROVE-IT sample sets, and these additional SNPs are provided in Tables 9-18. The association of certain of these SNPs with statin response was identified by genotyping, whereas the association of certain other SNPs with statin response was identified by imputation. Imputation involves imputing the allele/genotype present at a SNP for each individual in the sample set (CARE, WOSCOPS, and PROVE-IT) rather than directly genotyping the SNP in a sample from the individual. Thus, Tables 9-18 include SNPs identified by imputation as well as SNPs identified by genotyping, and the column labeled “Source” in Tables 9-18 indicates whether each SNP was genotyped or imputed (all of the SNPs provided in Tables 4-7 were identified by genotyping).


Specifically, Tables 9-18 provide SNPs for which the p-value for a random effect was lower than 10−4 for either the meta-analysis of CARE and WOSCOPS combined or the meta-analysis of CARE, WOSCOPS, and PROVE-IT combined, for either the CHD or CVD endpoint, and for any genetic model (dominant, recessive, additive, or genotypic). Association interaction between statin response and either the CHD or CVD phenotype was performed. SNPs were either imputed or genotyped.


Imputation was carried out using the BEAGLE genetic analysis program to analyze genotyping data from the HapMap project (The International HapMap Consortium, NCBI, NLM, NIH). Imputation and the BEAGLE program (including the modeling algorithm that BEAGLE utilizes) are described in the following references: Browning, “Missing data imputation and haplotype phase inference for genome-wide association studies”, Hum Genet (2008) 124:439-450 (which reviews imputation and BEAGLE); B L Browning and S R Browning (2009) “A unified approach to genotype imputation and haplotype phase inference for large data sets of trios and unrelated individuals”. Am J Hum Genet 84:210-223 (which describes BEAGLE's methods for imputing ungenotyped markers and phasing parent-offspring trios); S R Browning and B L Browning (2007) “Rapid and accurate haplotype phasing and missing data inference for whole genome association studies using localized haplotype clustering”. Am J Hum Genet 81:1084-1097 (which describes BEAGLE's methods for inferring haplotype phase or sporadic missing data in unrelated individuals); B L Browning and S R Browning (2007) “Efficient multilocus association mapping for whole genome association studies using localized haplotype clustering”. Genet Epidemiol 31:365-375 (which describes BEAGLE's methods for association testing); S R Browning (2006) “Multilocus association mapping using variable-length Markov chains”. Am J Hum Genet 78:903-13 (which describes BEAGLE's haplotype frequency model); and B L Browning and S R Browning (2008) “Haplotypic analysis of Wellcome Trust Case Control Consortium data”. Human Genetics 123:273-280 (which describes an example in which BEAGLE was used to analyze a large genome-wide association study). Each of these references related to imputation and the BEAGLE program is incorporated herein by reference in its entirety.


Example 2
Polymorphism rs11556924 in the ZC3HC1 Gene is Associated with Differential CHD Risk Reduction by Statin Therapy in CARE and WOSCOPS

A case-only study design was used to test whether the reduction of CHD events by statin therapy (for CARE and WOSCOPS studies) differed according to genotype (a treatment by SNP interaction) for each SNP evaluated in the study.


Herein in Example 2, SNPs previously reported to be associated with coronary artery disease (Schunkert et al., “Large-scale association analysis identifies 13 new susceptibility loci for coronary artery disease”, Nat Genet. 2011 Mar. 6; and Peden et al., “A genome-wide association study in Europeans and South Asians identifies five new loci for coronary artery disease”, Nat Genet. 2011 Mar. 6) were analyzed using the same methodology as described above in Example 1 in order to determine whether any of these SNP are associated with differential CHD risk reduction by statin therapy in a genome wide association study conducted among cases of CARE and WOSCOPS.


It was determined from this analysis that SNP rs11556924 (hCV31283062) in the ZC3HC1 gene is associated with differential reduction of CHD risk by pravastatin therapy in both CARE and WOSCOPS (see Table 19).


Example 3
SNPs Around Chromosomal Locations 9p21 and 12p13 (NINJ2 and B4GALNT3 Gene Region) Associated with Stroke Statin Response and/or Stroke Risk

Example 3 relates to genetic polymorphisms that are associated with stroke risk and/or stroke statin response (reduction of stroke risk by statin treatment) (Tables 20-21) and CHD statin response (Table 22).


Table 20 provides SNPs associated with stroke risk and/or stroke statin response in the CARE sample set. For example, SNPs rs10757278 and rs1333049 at chromosomal location 9p21 were associated with a reduction of stroke events by statin treatment in CARE, particularly for heterozygotes (see Table 20). Furthermore, SNPs rs12425791 and rs11833579 at chromosomal location 12p13 near the NINJ2 gene were associated with stroke risk in the placebo arm of CARE (see Table 20). SNPs rs12425791 and rs11833579 were also associated with stroke statin response in that the homozygous and heterozygous carriers of either of these SNPs (i.e., carriers of the ‘A’ allele for either rs12425791 or rs11833579) had a greater reduction in stroke events with statin treatment compared with noncarriers (see Table 20). Consistent with the CARE trial, the stroke endpoint in the analysis for which the results are provided in Tables 20-21 included stroke as well as transient ischemic attack (TIA).


Fine-mapping at the chromosome 12p13 locus was carried out by selecting 77 tagging SNPs from a 400 kb region of the chromosome 12p13 locus which covered the NINJ2 gene and other genes, genotyping these 77 SNPs, and further imputing the genotypes of approximately 250 additional SNPs in this region, for individuals in the CARE study. Analyzing these fine-mapping SNPs for association with stroke risk in the placebo arm of CARE and for stroke statin response in CARE identified SNP rs873134 in the B4GALNT3 gene in the chromosome 12p13 region near NINJ2 (see Table 21).


Table 22 provides results of an analysis of CHD statin response in CARE. Table 22 shows that SNP rs873134 is associated with response to statin treatment for reducing the risk of CHD (as well as for reducing the risk of stroke, as shown in Table 21). Specifically, Table 22 shows that SNP rs873134 is associated with a reduced occurrence of recurrent MI in individuals in the CARE study who were treated with statins. Thus, SNP rs873134 is an example of a SNP that is associated with statin response for reducing risk for both stroke and CHD. In the analysis for which the results are provided in Table 22, the endpoint was recurrent MI, and the analysis was adjusted for age, gender, hypertension, diabetes, base LDL and HDL, and whether an individual was a current smoker.


Example 4
LD SNPs Associated with Statin Response and CVD

Another investigation was conducted to identify additional SNPs that are in high linkage disequilibrium (LD) with certain “interrogated SNPs” that have been found to be associated with response to statin treatment (particularly for reducing the risk of CVD, especially CHD such as MI). The “interrogated SNPs” were those SNPs provided in Tables 4-22 (the interrogated SNPs are shown in columns 1-2 of Table 3, which indicates the hCV and rs identification numbers of each interrogated SNP), and the LD SNPs which were identified as being in high LD are provided in Table 3 (in the columns labeled “LD SNP”, which indicate the hCV and rs identification numbers of each LD SNP).


Specifically, Table 3 provides LD SNPs from the HapMap database (NCBI, NLM, NIH) that have linkage disequilibrium r2 values of at least 0.9 (the threshold r2 value, which may also be designated as rT2) with an interrogated SNP. Each of these LD SNPs from the HapMap database is within 500 kb of its respective interrogated SNP, and the r2 values are calculated based on genotypes of HapMap Caucasian subjects. If an interrogated SNP is not in the HapMap database, then there will not be any LD SNPs listed in Table 3 for that interrogated SNP.


As an example in Table 3, the interrogated SNP rs688358 (hCV1056543) was calculated to be in LD with rs675163 (hCV1056544) at an r2 value of 1 (which is above the threshold r2 value of 0.9), thus establishing the latter SNP as a marker associated with statin response as well.


In this example, the threshold r2 value was set at 0.9. However, the threshold r2 value can be set at other values such that one of ordinary skill in the art would consider that any two SNPs having an r2 value greater than or equal to the threshold r2 value would be in sufficient LD with each other such that either SNP is useful for the same utilities, such as determining an individual's response to statin treatment. For example, in various embodiments, the threshold r2 value used to classify SNPs as being in sufficient LD with an interrogated SNP (such that these LD SNPs can be used for the same utilities as the interrogated SNP, for example) can be set at, for example, 0.7, 0.75, 0.8, 0.85, 0.95, 0.96, 0.97, 0.98, 0.99, 1, etc. (or any other threshold r2 value in-between these values). Threshold r2 values may be utilized with or without considering power or other calculations.


Sequences, SNP information, and associated gene/transcript/protein information for each of the LD SNPs listed in Table 3 is provided in Tables 1-2. Thus, for any LD SNP listed in Table 3, sequence and allele information (or other information) can be found by searching Tables 1-2 using the hCV or rs identification number of the LD SNP of interest.


All publications and patents cited in this specification are herein incorporated by reference in their entirety. Modifications and variations of the described compositions, methods and systems of the invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific preferred embodiments and certain working examples, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the above-described modes for carrying out the invention that are obvious to those skilled in the field of molecular biology, genetics and related fields are intended to be within the scope of the following claims.














TABLE 3





Interrogated SNP
Interrogated






(hCV #)
SNP (rs #)
LD SNP (hCV #)
LD SNP (rs #)
Threshold r2
r2




















hCV1056543
rs688358
hCV1056544
rs675163
0.9
1


hCV1056543
rs688358
hCV32014853
rs11221097
0.9
1


hCV1056543
rs688358
hCV767324
rs687047
0.9
1


hCV1056544
rs675163
hCV1056543
rs688358
0.9
1


hCV1056544
rs675163
hCV32014843
rs11221075
0.9
1


hCV1056544
rs675163
hCV32014853
rs11221097
0.9
1


hCV1056544
rs675163
hCV767324
rs687047
0.9
1


hCV11435810
rs7808536
hCV11435811
rs2057903
0.9
1


hCV11435810
rs7808536
hCV16010888
rs2402516
0.9
0.9445


hCV11435810
rs7808536
hCV16151622
rs2896295
0.9
1


hCV11435810
rs7808536
hCV2580015
rs6973461
0.9
1


hCV11435810
rs7808536
hCV26499740
rs1344081
0.9
0.9396


hCV11435810
rs7808536
hCV29630277
rs7799541
0.9
1


hCV11435810
rs7808536
hCV29720798
rs10228725
0.9
1


hCV11435810
rs7808536
hCV29738883
rs10237648
0.9
1


hCV11435810
rs7808536
hCV29865261
rs10226287
0.9
1


hCV11435810
rs7808536
hCV30243451
rs10270624
0.9
1


hCV11435810
rs7808536
hCV30441808
rs10487413
0.9
0.9485


hCV11435810
rs7808536
hCV31281599
rs13438543
0.9
1


hCV11544885
rs1536506
hCV16243612
rs2478888
0.9
0.963


hCV11544885
rs1536506
hCV16243614
rs2478885
0.9
0.9587


hCV11544885
rs1536506
hCV16252195
rs2504709
0.9
1


hCV11544885
rs1536506
hCV16252196
rs2504710
0.9
1


hCV11544885
rs1536506
hCV2005097
rs2478886
0.9
0.9622


hCV11544885
rs1536506
hCV2005121
rs2504708
0.9
1


hCV11544885
rs1536506
hCV2005126
rs1536507
0.9
1


hCV11544885
rs1536506
hCV2005128
rs2504705
0.9
1


hCV11544885
rs1536506
hCV2005129
rs2478872
0.9
1


hCV11544885
rs1536506
hCV2005135
rs2504702
0.9
0.9615


hCV11544885
rs1536506
hCV2005136
rs1998950
0.9
0.9273


hCV11544885
rs1536506
hCV27016744
rs2478874
0.9
0.9625


hCV11544885
rs1536506
hCV8768604
rs1327283
0.9
0.9447


hCV11544885
rs1536506
hCV8768614
rs1342619
0.9
0.9637


hCV11544885
rs1536506
hCV992360
rs748514
0.9
0.9269


hCV1166098
rs4660234
hCV1166103
rs12407412
0.9
1


hCV1166098
rs4660234
hCV1166105
rs11576627
0.9
1


hCV1166098
rs4660234
hCV30202184
rs6685920
0.9
1


hCV1166103
rs12407412
hCV1166098
rs4660234
0.9
1


hCV1166103
rs12407412
hCV1166105
rs11576627
0.9
1


hCV1166103
rs12407412
hCV30202184
rs6685920
0.9
1


hCV1166105
rs11576627
hCV1166098
rs4660234
0.9
1


hCV1166105
rs11576627
hCV1166103
rs12407412
0.9
1


hCV1166105
rs11576627
hCV30202184
rs6685920
0.9
1


hCV11675665
rs2574
hCV11226242
rs2280210
0.9
1


hCV11675665
rs2574
hCV11675666
rs2575
0.9
0.9636


hCV11675665
rs2574
hCV245252
rs9835936
0.9
0.9636


hCV11675665
rs2574
hCV474806
rs11927308
0.9
1


hCV11686367
rs7955901
hCV11686374
rs7957932
0.9
0.9161


hCV11686367
rs7955901
hCV171102
rs7313973
0.9
0.9568


hCV11686367
rs7955901
hCV240133
rs4760895
0.9
0.9644


hCV11686367
rs7955901
hCV240134
rs7138300
0.9
0.9432


hCV11686367
rs7955901
hCV2745807
rs2063591
0.9
0.9303


hCV11686367
rs7955901
hCV2745815
rs1512991
0.9
1


hCV11686367
rs7955901
hCV2745822
rs1913201
0.9
0.9432


hCV11686367
rs7955901
hCV2745828
rs10879240
0.9
0.9274


hCV11686367
rs7955901
hCV27952502
rs4760894
0.9
0.9644


hCV11686367
rs7955901
hCV27952503
rs4760785
0.9
0.9644


hCV11686367
rs7955901
hCV29120310
rs7298255
0.9
0.9442


hCV11686367
rs7955901
hCV31190748
rs7959965
0.9
0.9442


hCV11686367
rs7955901
hCV31190777
rs10784891
0.9
1


hCV11686367
rs7955901
hDV72015086
rs7956274
0.9
1


hCV11819777
rs13172910
hCV26478734
rs11956952
0.9
1


hCV11819777
rs13172910
hCV31237558
rs6898857
0.9
1


hCV11819780
rs12153185
hCV11819782
rs12719415
0.9
1


hCV11819780
rs12153185
hCV2575318
rs7711358
0.9
0.9232


hCV11819780
rs12153185
hCV2575336
rs2418541
0.9
0.9232


hCV11819780
rs12153185
hCV2575340
rs11242020
0.9
0.9232


hCV11819780
rs12153185
hCV26478744
rs2016194
0.9
1


hCV11819780
rs12153185
hCV26478745
rs2108426
0.9
1


hCV11819780
rs12153185
hCV26478747
rs2190598
0.9
1


hCV11819780
rs12153185
hCV26478763
rs2418542
0.9
0.9232


hCV11819780
rs12153185
hCV27996154
rs4836502
0.9
1


hCV11819780
rs12153185
hCV2961244
rs2418548
0.9
1


hCV11819780
rs12153185
hCV2961250
rs4836507
0.9
1


hCV11819780
rs12153185
hCV2961252
rs10067895
0.9
1


hCV11819780
rs12153185
hCV2961253
rs2190600
0.9
1


hCV11819780
rs12153185
hCV2961259
rs11242023
0.9
0.9571


hCV11819780
rs12153185
hCV2961260
rs11242022
0.9
0.9785


hCV11819780
rs12153185
hCV2961261
rs11242021
0.9
1


hCV11819780
rs12153185
hCV2961267
rs1476714
0.9
1


hCV11819780
rs12153185
hCV2961268
rs2108425
0.9
1


hCV11819780
rs12153185
hCV2961269
rs2158958
0.9
1


hCV11819780
rs12153185
hCV2961270
rs9327555
0.9
1


hCV11819780
rs12153185
hCV2961278
rs7446891
0.9
1


hCV11819780
rs12153185
hCV2961280
rs10520072
0.9
1


hCV11819780
rs12153185
hCV2961282
rs917295
0.9
1


hCV11819780
rs12153185
hCV2961284
rs10054055
0.9
0.9573


hCV11819780
rs12153185
hCV2961296
rs10051148
0.9
0.9608


hCV11819780
rs12153185
hCV2961297
rs2158961
0.9
0.9616


hCV11819780
rs12153185
hCV2961306
rs264129
0.9
0.9358


hCV11819780
rs12153185
hCV30621656
rs10478919
0.9
0.9232


hCV11819780
rs12153185
hCV31237567
rs11749272
0.9
0.9232


hCV11819780
rs12153185
hCV346713
rs1990023
0.9
0.9358


hCV11819780
rs12153185
hCV546489
rs264122
0.9
0.9573


hCV11819780
rs12153185
hCV8932829
rs1116596
0.9
0.9232


hCV11819782
rs12719415
hCV11819780
rs12153185
0.9
1


hCV11819782
rs12719415
hCV2575318
rs7711358
0.9
0.927


hCV11819782
rs12719415
hCV2575336
rs2418541
0.9
0.927


hCV11819782
rs12719415
hCV2575340
rs11242020
0.9
0.927


hCV11819782
rs12719415
hCV26478744
rs2016194
0.9
0.9198


hCV11819782
rs12719415
hCV26478745
rs2108426
0.9
0.9135


hCV11819782
rs12719415
hCV26478747
rs2190598
0.9
1


hCV11819782
rs12719415
hCV26478763
rs2418542
0.9
0.927


hCV11819782
rs12719415
hCV27996154
rs4836502
0.9
1


hCV11819782
rs12719415
hCV2961244
rs2418548
0.9
1


hCV11819782
rs12719415
hCV2961250
rs4836507
0.9
1


hCV11819782
rs12719415
hCV2961252
rs10067895
0.9
1


hCV11819782
rs12719415
hCV2961253
rs2190600
0.9
1


hCV11819782
rs12719415
hCV2961259
rs11242023
0.9
0.9621


hCV11819782
rs12719415
hCV2961260
rs11242022
0.9
1


hCV11819782
rs12719415
hCV2961261
rs11242021
0.9
1


hCV11819782
rs12719415
hCV2961267
rs1476714
0.9
1


hCV11819782
rs12719415
hCV2961268
rs2108425
0.9
1


hCV11819782
rs12719415
hCV2961269
rs2158958
0.9
1


hCV11819782
rs12719415
hCV2961270
rs9327555
0.9
1


hCV11819782
rs12719415
hCV2961278
rs7446891
0.9
1


hCV11819782
rs12719415
hCV2961280
rs10520072
0.9
1


hCV11819782
rs12719415
hCV2961282
rs917295
0.9
1


hCV11819782
rs12719415
hCV2961284
rs10054055
0.9
0.9616


hCV11819782
rs12719415
hCV2961296
rs10051148
0.9
0.9623


hCV11819782
rs12719415
hCV2961297
rs2158961
0.9
0.9634


hCV11819782
rs12719415
hCV2961306
rs264129
0.9
0.9232


hCV11819782
rs12719415
hCV30621656
rs10478919
0.9
0.927


hCV11819782
rs12719415
hCV31237567
rs11749272
0.9
0.927


hCV11819782
rs12719415
hCV346713
rs1990023
0.9
0.9232


hCV11819782
rs12719415
hCV546489
rs264122
0.9
0.9616


hCV11819782
rs12719415
hCV8932829
rs1116596
0.9
0.927


hCV1311177
rs1868616
hCV26853900
rs17718789
0.9
0.9408


hCV1319507
rs16938626
hCV1319514
rs2383903
0.9
1


hCV1319507
rs16938626
hCV1319518
rs13265054
0.9
0.9055


hCV1319514
rs2383903
hCV1319507
rs16938626
0.9
1


hCV1319516
rs12678600
hCV1319518
rs13265054
0.9
1


hCV1319516
rs12678600
hCV31080080
rs12679254
0.9
1


hCV1319518
rs13265054
hCV1319507
rs16938626
0.9
0.9055


hCV1319518
rs13265054
hCV1319516
rs12678600
0.9
1


hCV1319518
rs13265054
hCV31080080
rs12679254
0.9
1


hCV1329037
rs9295154
hCV29673016
rs9458285
0.9
1


hCV1329037
rs9295154
hCV30231903
rs9458302
0.9
1


hCV1329037
rs9295154
hCV31883369
rs9458310
0.9
0.9236


hCV1558085
rs11656608
hCV11625525
rs7222186
0.9
1


hCV1558085
rs11656608
hCV11625528
rs9911847
0.9
0.9144


hCV1558085
rs11656608
hCV11625529
rs9911867
0.9
0.9079


hCV1558085
rs11656608
hCV1558080
rs9914580
0.9
1


hCV1558085
rs11656608
hCV1558083
rs9916432
0.9
0.9144


hCV1558085
rs11656608
hCV1558084
rs880718
0.9
0.9137


hCV1558085
rs11656608
hCV29293441
rs8066502
0.9
1


hCV1558085
rs11656608
hCV29979212
rs8068714
0.9
1


hCV1558085
rs11656608
hCV29997278
rs9906737
0.9
1


hCV1558085
rs11656608
hCV7459667
rs937890
0.9
0.9144


hCV16126066
rs2110564
hCV2676440
rs6722640
0.9
1


hCV16126066
rs2110564
hCV27872026
rs4851531
0.9
0.9638


hCV16126066
rs2110564
hCV349805
rs4851529
0.9
0.9329


hCV16126066
rs2110564
hCV8905894
rs974950
0.9
1


hCV1631038
rs9487284
hCV11632712
rs9481031
0.9
0.9098


hCV1631038
rs9487284
hCV11638660
rs6917496
0.9
0.9098


hCV1631038
rs9487284
hCV11638661
rs6937788
0.9
0.9098


hCV1631038
rs9487284
hCV1631013
rs17614034
0.9
0.9098


hCV1631038
rs9487284
hCV1631015
rs9481026
0.9
0.9098


hCV1631038
rs9487284
hCV1631022
rs9481029
0.9
0.9098


hCV1631038
rs9487284
hCV1631034
rs7776217
0.9
0.9098


hCV1631038
rs9487284
hCV1631035
rs7758270
0.9
0.9098


hCV1631038
rs9487284
hCV1631067
rs9481038
0.9
0.9098


hCV1631038
rs9487284
hCV8703496
rs1564077
0.9
0.9098


hCV1787026
rs475420
hCV1787039
rs538521
0.9
1


hCV1787026
rs475420
hCV1787042
rs657929
0.9
0.9081


hCV1973764
rs1866386
hCV1973774
rs1483301
0.9
0.9505


hCV1973764
rs1866386
hCV1973785
rs2930049
0.9
0.9732


hCV2053088
rs1155875
hCV2053097
rs4259369
0.9
0.961


hCV2053088
rs1155875
hCV2053101
rs7795792
0.9
0.9608


hCV2053088
rs1155875
hCV2053104
rs2163339
0.9
0.961


hCV2053088
rs1155875
hCV2053105
rs2195672
0.9
0.9604


hCV2053088
rs1155875
hCV30565702
rs10237019
0.9
0.963


hCV2053097
rs4259369
hCV2053088
rs1155875
0.9
0.961


hCV2053097
rs4259369
hCV2053101
rs7795792
0.9
1


hCV2053097
rs4259369
hCV2053104
rs2163339
0.9
1


hCV2053097
rs4259369
hCV2053105
rs2195672
0.9
1


hCV2053097
rs4259369
hCV30565702
rs10237019
0.9
1


hCV2053101
rs7795792
hCV2053088
rs1155875
0.9
0.9608


hCV2053101
rs7795792
hCV2053097
rs4259369
0.9
1


hCV2053101
rs7795792
hCV2053104
rs2163339
0.9
1


hCV2053101
rs7795792
hCV2053105
rs2195672
0.9
1


hCV2053101
rs7795792
hCV30565702
rs10237019
0.9
1


hCV2209126
rs208026
hCV11706604
rs208035
0.9
0.9176


hCV2209126
rs208026
hCV11706608
rs373886
0.9
0.9466


hCV2209126
rs208026
hCV16233239
rs2237852
0.9
0.9176


hCV2209126
rs208026
hCV16233240
rs2237853
0.9
0.9176


hCV2209126
rs208026
hCV2442004
rs208030
0.9
0.9176


hCV2209194
rs399485
hCV2209191
rs447024
0.9
0.9164


hCV2209194
rs399485
hCV2209197
rs7508
0.9
0.9573


hCV2209197
rs7508
hCV2209194
rs399485
0.9
0.9573


hCV240133
rs4760895
hCV11686367
rs7955901
0.9
0.9644


hCV240133
rs4760895
hCV171102
rs7313973
0.9
0.9603


hCV240133
rs4760895
hCV240134
rs7138300
0.9
1


hCV240133
rs4760895
hCV2745815
rs1512991
0.9
0.9668


hCV240133
rs4760895
hCV2745822
rs1913201
0.9
1


hCV240133
rs4760895
hCV2745828
rs10879240
0.9
0.9664


hCV240133
rs4760895
hCV27952502
rs4760894
0.9
1


hCV240133
rs4760895
hCV27952503
rs4760785
0.9
1


hCV240133
rs4760895
hCV29120310
rs7298255
0.9
0.9644


hCV240133
rs4760895
hCV31190748
rs7959965
0.9
0.9644


hCV240133
rs4760895
hCV31190777
rs10784891
0.9
0.962


hCV240133
rs4760895
hDV72015086
rs7956274
0.9
0.9649


hCV240134
rs7138300
hCV11686367
rs7955901
0.9
0.9432


hCV240134
rs7138300
hCV171102
rs7313973
0.9
0.9568


hCV240134
rs7138300
hCV240133
rs4760895
0.9
1


hCV240134
rs7138300
hCV2745815
rs1512991
0.9
0.9644


hCV240134
rs7138300
hCV2745822
rs1913201
0.9
1


hCV240134
rs7138300
hCV2745828
rs10879240
0.9
0.9639


hCV240134
rs7138300
hCV27952502
rs4760894
0.9
1


hCV240134
rs7138300
hCV27952503
rs4760785
0.9
1


hCV240134
rs7138300
hCV31190777
rs10784891
0.9
0.9588


hCV240134
rs7138300
hDV72015086
rs7956274
0.9
0.9622


hCV2442103
rs373983
hCV2209192
rs383499
0.9
0.9297


hCV2529198
rs742827
hCV2529202
rs6040667
0.9
0.9624


hCV2529198
rs742827
hCV2529211
rs17189710
0.9
0.9596


hCV2529198
rs742827
hCV2529224
rs2327412
0.9
0.9596


hCV2529198
rs742827
hCV2529230
rs4444612
0.9
0.9596


hCV2529198
rs742827
hCV2529231
rs4315598
0.9
0.9596


hCV2529198
rs742827
hCV2529239
rs6040638
0.9
0.9596


hCV2529198
rs742827
hCV2529241
rs6134243
0.9
0.9624


hCV2529198
rs742827
hCV2529246
rs6040619
0.9
0.9596


hCV2529198
rs742827
hCV27367681
rs2876227
0.9
1


hCV2529198
rs742827
hCV27367708
rs1009748
0.9
0.9596


hCV2529198
rs742827
hCV29840965
rs6040644
0.9
0.9596


hCV2529198
rs742827
hCV30057061
rs6033138
0.9
0.9624


hCV2529198
rs742827
hCV30093270
rs6040625
0.9
0.9624


hCV2529198
rs742827
hCV30129243
rs6040636
0.9
0.9624


hCV2529198
rs742827
hCV30218977
rs6040633
0.9
0.9624


hCV2529198
rs742827
hCV30417550
rs6040634
0.9
0.9624


hCV2529198
rs742827
hCV30453433
rs6131208
0.9
0.9167


hCV2529198
rs742827
hCV32274419
rs13038146
0.9
0.9624


hCV2529198
rs742827
hCV330228
rs6040668
0.9
0.9624


hCV2529202
rs6040667
hCV2529198
rs742827
0.9
0.9624


hCV2529202
rs6040667
hCV2529211
rs17189710
0.9
1


hCV2529202
rs6040667
hCV2529224
rs2327412
0.9
1


hCV2529202
rs6040667
hCV2529230
rs4444612
0.9
1


hCV2529202
rs6040667
hCV2529231
rs4315598
0.9
1


hCV2529202
rs6040667
hCV2529239
rs6040638
0.9
1


hCV2529202
rs6040667
hCV2529241
rs6134243
0.9
1


hCV2529202
rs6040667
hCV2529246
rs6040619
0.9
1


hCV2529202
rs6040667
hCV27367681
rs2876227
0.9
0.9649


hCV2529202
rs6040667
hCV27367708
rs1009748
0.9
1


hCV2529202
rs6040667
hCV29840965
rs6040644
0.9
1


hCV2529202
rs6040667
hCV30057061
rs6033138
0.9
1


hCV2529202
rs6040667
hCV30093270
rs6040625
0.9
1


hCV2529202
rs6040667
hCV30129243
rs6040636
0.9
1


hCV2529202
rs6040667
hCV30218977
rs6040633
0.9
1


hCV2529202
rs6040667
hCV30417550
rs6040634
0.9
1


hCV2529202
rs6040667
hCV30453433
rs6131208
0.9
0.9585


hCV2529202
rs6040667
hCV30615489
rs6040630
0.9
0.9294


hCV2529202
rs6040667
hCV32274419
rs13038146
0.9
1


hCV2529202
rs6040667
hCV330228
rs6040668
0.9
1


hCV2529211
rs17189710
hCV2529198
rs742827
0.9
0.9596


hCV2529211
rs17189710
hCV2529202
rs6040667
0.9
1


hCV2529211
rs17189710
hCV2529224
rs2327412
0.9
1


hCV2529211
rs17189710
hCV2529230
rs4444612
0.9
1


hCV2529211
rs17189710
hCV2529231
rs4315598
0.9
1


hCV2529211
rs17189710
hCV2529239
rs6040638
0.9
1


hCV2529211
rs17189710
hCV2529241
rs6134243
0.9
1


hCV2529211
rs17189710
hCV2529246
rs6040619
0.9
1


hCV2529211
rs17189710
hCV27367681
rs2876227
0.9
0.9616


hCV2529211
rs17189710
hCV27367708
rs1009748
0.9
1


hCV2529211
rs17189710
hCV29840965
rs6040644
0.9
1


hCV2529211
rs17189710
hCV30057061
rs6033138
0.9
1


hCV2529211
rs17189710
hCV30093270
rs6040625
0.9
1


hCV2529211
rs17189710
hCV30129243
rs6040636
0.9
1


hCV2529211
rs17189710
hCV30218977
rs6040633
0.9
1


hCV2529211
rs17189710
hCV30417550
rs6040634
0.9
1


hCV2529211
rs17189710
hCV30453433
rs6131208
0.9
0.9565


hCV2529211
rs17189710
hCV30615489
rs6040630
0.9
0.9225


hCV2529211
rs17189710
hCV32274419
rs13038146
0.9
1


hCV2529211
rs17189710
hCV330228
rs6040668
0.9
1


hCV2529224
rs2327412
hCV2529198
rs742827
0.9
0.9596


hCV2529224
rs2327412
hCV2529202
rs6040667
0.9
1


hCV2529224
rs2327412
hCV2529211
rs17189710
0.9
1


hCV2529224
rs2327412
hCV2529230
rs4444612
0.9
1


hCV2529224
rs2327412
hCV2529231
rs4315598
0.9
1


hCV2529224
rs2327412
hCV2529239
rs6040638
0.9
1


hCV2529224
rs2327412
hCV2529241
rs6134243
0.9
1


hCV2529224
rs2327412
hCV2529246
rs6040619
0.9
1


hCV2529224
rs2327412
hCV27367681
rs2876227
0.9
0.9616


hCV2529224
rs2327412
hCV27367708
rs1009748
0.9
1


hCV2529224
rs2327412
hCV29840965
rs6040644
0.9
1


hCV2529224
rs2327412
hCV30057061
rs6033138
0.9
1


hCV2529224
rs2327412
hCV30093270
rs6040625
0.9
1


hCV2529224
rs2327412
hCV30129243
rs6040636
0.9
1


hCV2529224
rs2327412
hCV30218977
rs6040633
0.9
1


hCV2529224
rs2327412
hCV30417550
rs6040634
0.9
1


hCV2529224
rs2327412
hCV30453433
rs6131208
0.9
0.9565


hCV2529224
rs2327412
hCV30615489
rs6040630
0.9
0.9225


hCV2529224
rs2327412
hCV32274419
rs13038146
0.9
1


hCV2529224
rs2327412
hCV330228
rs6040668
0.9
1


hCV2529230
rs4444612
hCV2529198
rs742827
0.9
0.9596


hCV2529230
rs4444612
hCV2529202
rs6040667
0.9
1


hCV2529230
rs4444612
hCV2529211
rs17189710
0.9
1


hCV2529230
rs4444612
hCV2529224
rs2327412
0.9
1


hCV2529230
rs4444612
hCV2529231
rs4315598
0.9
1


hCV2529230
rs4444612
hCV2529239
rs6040638
0.9
1


hCV2529230
rs4444612
hCV2529241
rs6134243
0.9
1


hCV2529230
rs4444612
hCV2529246
rs6040619
0.9
1


hCV2529230
rs4444612
hCV27367681
rs2876227
0.9
0.9616


hCV2529230
rs4444612
hCV27367708
rs1009748
0.9
1


hCV2529230
rs4444612
hCV29840965
rs6040644
0.9
1


hCV2529230
rs4444612
hCV30057061
rs6033138
0.9
1


hCV2529230
rs4444612
hCV30093270
rs6040625
0.9
1


hCV2529230
rs4444612
hCV30129243
rs6040636
0.9
1


hCV2529230
rs4444612
hCV30218977
rs6040633
0.9
1


hCV2529230
rs4444612
hCV30417550
rs6040634
0.9
1


hCV2529230
rs4444612
hCV30453433
rs6131208
0.9
0.9565


hCV2529230
rs4444612
hCV30615489
rs6040630
0.9
0.9225


hCV2529230
rs4444612
hCV32274419
rs13038146
0.9
1


hCV2529230
rs4444612
hCV330228
rs6040668
0.9
1


hCV2529231
rs4315598
hCV2529198
rs742827
0.9
0.9596


hCV2529231
rs4315598
hCV2529202
rs6040667
0.9
1


hCV2529231
rs4315598
hCV2529211
rs17189710
0.9
1


hCV2529231
rs4315598
hCV2529224
rs2327412
0.9
1


hCV2529231
rs4315598
hCV2529230
rs4444612
0.9
1


hCV2529231
rs4315598
hCV2529239
rs6040638
0.9
1


hCV2529231
rs4315598
hCV2529241
rs6134243
0.9
1


hCV2529231
rs4315598
hCV2529246
rs6040619
0.9
1


hCV2529231
rs4315598
hCV27367681
rs2876227
0.9
0.9616


hCV2529231
rs4315598
hCV27367708
rs1009748
0.9
1


hCV2529231
rs4315598
hCV29840965
rs6040644
0.9
1


hCV2529231
rs4315598
hCV30057061
rs6033138
0.9
1


hCV2529231
rs4315598
hCV30093270
rs6040625
0.9
1


hCV2529231
rs4315598
hCV30129243
rs6040636
0.9
1


hCV2529231
rs4315598
hCV30218977
rs6040633
0.9
1


hCV2529231
rs4315598
hCV30417550
rs6040634
0.9
1


hCV2529231
rs4315598
hCV30453433
rs6131208
0.9
0.9565


hCV2529231
rs4315598
hCV30615489
rs6040630
0.9
0.9225


hCV2529231
rs4315598
hCV32274419
rs13038146
0.9
1


hCV2529231
rs4315598
hCV330228
rs6040668
0.9
1


hCV2529239
rs6040638
hCV2529198
rs742827
0.9
0.9596


hCV2529239
rs6040638
hCV2529202
rs6040667
0.9
1


hCV2529239
rs6040638
hCV2529211
rs17189710
0.9
1


hCV2529239
rs6040638
hCV2529224
rs2327412
0.9
1


hCV2529239
rs6040638
hCV2529230
rs4444612
0.9
1


hCV2529239
rs6040638
hCV2529231
rs4315598
0.9
1


hCV2529239
rs6040638
hCV2529241
rs6134243
0.9
1


hCV2529239
rs6040638
hCV2529246
rs6040619
0.9
1


hCV2529239
rs6040638
hCV27367681
rs2876227
0.9
0.9616


hCV2529239
rs6040638
hCV27367708
rs1009748
0.9
1


hCV2529239
rs6040638
hCV29840965
rs6040644
0.9
1


hCV2529239
rs6040638
hCV30057061
rs6033138
0.9
1


hCV2529239
rs6040638
hCV30093270
rs6040625
0.9
1


hCV2529239
rs6040638
hCV30129243
rs6040636
0.9
1


hCV2529239
rs6040638
hCV30218977
rs6040633
0.9
1


hCV2529239
rs6040638
hCV30417550
rs6040634
0.9
1


hCV2529239
rs6040638
hCV30453433
rs6131208
0.9
0.9565


hCV2529239
rs6040638
hCV30615489
rs6040630
0.9
0.9225


hCV2529239
rs6040638
hCV32274419
rs13038146
0.9
1


hCV2529239
rs6040638
hCV330228
rs6040668
0.9
1


hCV2529241
rs6134243
hCV2529198
rs742827
0.9
0.9624


hCV2529241
rs6134243
hCV2529202
rs6040667
0.9
1


hCV2529241
rs6134243
hCV2529211
rs17189710
0.9
1


hCV2529241
rs6134243
hCV2529224
rs2327412
0.9
1


hCV2529241
rs6134243
hCV2529230
rs4444612
0.9
1


hCV2529241
rs6134243
hCV2529231
rs4315598
0.9
1


hCV2529241
rs6134243
hCV2529239
rs6040638
0.9
1


hCV2529241
rs6134243
hCV2529246
rs6040619
0.9
1


hCV2529241
rs6134243
hCV27367681
rs2876227
0.9
0.9649


hCV2529241
rs6134243
hCV27367708
rs1009748
0.9
1


hCV2529241
rs6134243
hCV29840965
rs6040644
0.9
1


hCV2529241
rs6134243
hCV30057061
rs6033138
0.9
1


hCV2529241
rs6134243
hCV30093270
rs6040625
0.9
1


hCV2529241
rs6134243
hCV30129243
rs6040636
0.9
1


hCV2529241
rs6134243
hCV30218977
rs6040633
0.9
1


hCV2529241
rs6134243
hCV30417550
rs6040634
0.9
1


hCV2529241
rs6134243
hCV30453433
rs6131208
0.9
0.9585


hCV2529241
rs6134243
hCV30615489
rs6040630
0.9
0.9294


hCV2529241
rs6134243
hCV32274419
rs13038146
0.9
1


hCV2529241
rs6134243
hCV330228
rs6040668
0.9
1


hCV2529246
rs6040619
hCV2529198
rs742827
0.9
0.9596


hCV2529246
rs6040619
hCV2529202
rs6040667
0.9
1


hCV2529246
rs6040619
hCV2529211
rs17189710
0.9
1


hCV2529246
rs6040619
hCV2529224
rs2327412
0.9
1


hCV2529246
rs6040619
hCV2529230
rs4444612
0.9
1


hCV2529246
rs6040619
hCV2529231
rs4315598
0.9
1


hCV2529246
rs6040619
hCV2529239
rs6040638
0.9
1


hCV2529246
rs6040619
hCV2529241
rs6134243
0.9
1


hCV2529246
rs6040619
hCV27367681
rs2876227
0.9
0.9616


hCV2529246
rs6040619
hCV27367708
rs1009748
0.9
1


hCV2529246
rs6040619
hCV29840965
rs6040644
0.9
1


hCV2529246
rs6040619
hCV30057061
rs6033138
0.9
1


hCV2529246
rs6040619
hCV30093270
rs6040625
0.9
1


hCV2529246
rs6040619
hCV30129243
rs6040636
0.9
1


hCV2529246
rs6040619
hCV30218977
rs6040633
0.9
1


hCV2529246
rs6040619
hCV30417550
rs6040634
0.9
1


hCV2529246
rs6040619
hCV30453433
rs6131208
0.9
0.9565


hCV2529246
rs6040619
hCV30615489
rs6040630
0.9
0.9225


hCV2529246
rs6040619
hCV32274419
rs13038146
0.9
1


hCV2529246
rs6040619
hCV330228
rs6040668
0.9
1


hCV25609987
rs10817479
hCV32121729
rs12235345
0.9
1


hCV2575318
rs7711358
hCV11819780
rs12153185
0.9
0.9232


hCV2575318
rs7711358
hCV11819782
rs12719415
0.9
0.927


hCV2575318
rs7711358
hCV2575336
rs2418541
0.9
1


hCV2575318
rs7711358
hCV2575340
rs11242020
0.9
1


hCV2575318
rs7711358
hCV26478747
rs2190598
0.9
0.9239


hCV2575318
rs7711358
hCV26478763
rs2418542
0.9
1


hCV2575318
rs7711358
hCV27996154
rs4836502
0.9
0.927


hCV2575318
rs7711358
hCV2961244
rs2418548
0.9
0.9232


hCV2575318
rs7711358
hCV2961250
rs4836507
0.9
0.927


hCV2575318
rs7711358
hCV2961252
rs10067895
0.9
0.927


hCV2575318
rs7711358
hCV2961253
rs2190600
0.9
0.927


hCV2575318
rs7711358
hCV2961260
rs11242022
0.9
0.9232


hCV2575318
rs7711358
hCV2961261
rs11242021
0.9
0.9255


hCV2575318
rs7711358
hCV2961267
rs1476714
0.9
0.9607


hCV2575318
rs7711358
hCV2961268
rs2108425
0.9
0.927


hCV2575318
rs7711358
hCV2961269
rs2158958
0.9
0.927


hCV2575318
rs7711358
hCV2961270
rs9327555
0.9
0.927


hCV2575318
rs7711358
hCV2961278
rs7446891
0.9
0.927


hCV2575318
rs7711358
hCV2961280
rs10520072
0.9
0.927


hCV2575318
rs7711358
hCV2961282
rs917295
0.9
0.927


hCV2575318
rs7711358
hCV2961284
rs10054055
0.9
0.9616


hCV2575318
rs7711358
hCV2961296
rs10051148
0.9
0.9623


hCV2575318
rs7711358
hCV2961297
rs2158961
0.9
0.9634


hCV2575318
rs7711358
hCV2961306
rs264129
0.9
0.9232


hCV2575318
rs7711358
hCV30621656
rs10478919
0.9
1


hCV2575318
rs7711358
hCV31237567
rs11749272
0.9
1


hCV2575318
rs7711358
hCV346713
rs1990023
0.9
1


hCV2575318
rs7711358
hCV546489
rs264122
0.9
0.9616


hCV2575318
rs7711358
hCV8932829
rs1116596
0.9
1


hCV2575336
rs2418541
hCV11819780
rs12153185
0.9
0.9232


hCV2575336
rs2418541
hCV11819782
rs12719415
0.9
0.927


hCV2575336
rs2418541
hCV2575318
rs7711358
0.9
1


hCV2575336
rs2418541
hCV2575340
rs11242020
0.9
1


hCV2575336
rs2418541
hCV26478747
rs2190598
0.9
0.9239


hCV2575336
rs2418541
hCV26478763
rs2418542
0.9
1


hCV2575336
rs2418541
hCV27996154
rs4836502
0.9
0.927


hCV2575336
rs2418541
hCV2961244
rs2418548
0.9
0.9232


hCV2575336
rs2418541
hCV2961250
rs4836507
0.9
0.927


hCV2575336
rs2418541
hCV2961252
rs10067895
0.9
0.927


hCV2575336
rs2418541
hCV2961253
rs2190600
0.9
0.927


hCV2575336
rs2418541
hCV2961260
rs11242022
0.9
0.9232


hCV2575336
rs2418541
hCV2961261
rs11242021
0.9
0.9255


hCV2575336
rs2418541
hCV2961267
rs1476714
0.9
0.9607


hCV2575336
rs2418541
hCV2961268
rs2108425
0.9
0.927


hCV2575336
rs2418541
hCV2961269
rs2158958
0.9
0.927


hCV2575336
rs2418541
hCV2961270
rs9327555
0.9
0.927


hCV2575336
rs2418541
hCV2961278
rs7446891
0.9
0.927


hCV2575336
rs2418541
hCV2961280
rs10520072
0.9
0.927


hCV2575336
rs2418541
hCV2961282
rs917295
0.9
0.927


hCV2575336
rs2418541
hCV2961284
rs10054055
0.9
0.9616


hCV2575336
rs2418541
hCV2961296
rs10051148
0.9
0.9623


hCV2575336
rs2418541
hCV2961297
rs2158961
0.9
0.9634


hCV2575336
rs2418541
hCV2961306
rs264129
0.9
0.9232


hCV2575336
rs2418541
hCV30621656
rs10478919
0.9
1


hCV2575336
rs2418541
hCV31237567
rs11749272
0.9
1


hCV2575336
rs2418541
hCV346713
rs1990023
0.9
1


hCV2575336
rs2418541
hCV546489
rs264122
0.9
0.9616


hCV2575336
rs2418541
hCV8932829
rs1116596
0.9
1


hCV2575340
rs11242020
hCV11819780
rs12153185
0.9
0.9232


hCV2575340
rs11242020
hCV11819782
rs12719415
0.9
0.927


hCV2575340
rs11242020
hCV2575318
rs7711358
0.9
1


hCV2575340
rs11242020
hCV2575336
rs2418541
0.9
1


hCV2575340
rs11242020
hCV26478747
rs2190598
0.9
0.9239


hCV2575340
rs11242020
hCV26478763
rs2418542
0.9
1


hCV2575340
rs11242020
hCV27996154
rs4836502
0.9
0.927


hCV2575340
rs11242020
hCV2961244
rs2418548
0.9
0.9232


hCV2575340
rs11242020
hCV2961250
rs4836507
0.9
0.927


hCV2575340
rs11242020
hCV2961252
rs10067895
0.9
0.927


hCV2575340
rs11242020
hCV2961253
rs2190600
0.9
0.927


hCV2575340
rs11242020
hCV2961260
rs11242022
0.9
0.9232


hCV2575340
rs11242020
hCV2961261
rs11242021
0.9
0.9255


hCV2575340
rs11242020
hCV2961267
rs1476714
0.9
0.9607


hCV2575340
rs11242020
hCV2961268
rs2108425
0.9
0.927


hCV2575340
rs11242020
hCV2961269
rs2158958
0.9
0.927


hCV2575340
rs11242020
hCV2961270
rs9327555
0.9
0.927


hCV2575340
rs11242020
hCV2961278
rs7446891
0.9
0.927


hCV2575340
rs11242020
hCV2961280
rs10520072
0.9
0.927


hCV2575340
rs11242020
hCV2961282
rs917295
0.9
0.927


hCV2575340
rs11242020
hCV2961284
rs10054055
0.9
0.9616


hCV2575340
rs11242020
hCV2961296
rs10051148
0.9
0.9623


hCV2575340
rs11242020
hCV2961297
rs2158961
0.9
0.9634


hCV2575340
rs11242020
hCV2961306
rs264129
0.9
0.9232


hCV2575340
rs11242020
hCV30621656
rs10478919
0.9
1


hCV2575340
rs11242020
hCV31237567
rs11749272
0.9
1


hCV2575340
rs11242020
hCV346713
rs1990023
0.9
1


hCV2575340
rs11242020
hCV546489
rs264122
0.9
0.9616


hCV2575340
rs11242020
hCV8932829
rs1116596
0.9
1


hCV26478734
rs11956952
hCV11819777
rs13172910
0.9
1


hCV26478734
rs11956952
hCV31237558
rs6898857
0.9
1


hCV26478744
rs2016194
hCV11819780
rs12153185
0.9
1


hCV26478744
rs2016194
hCV11819782
rs12719415
0.9
0.9198


hCV26478744
rs2016194
hCV26478745
rs2108426
0.9
1


hCV26478744
rs2016194
hCV26478747
rs2190598
0.9
0.916


hCV26478744
rs2016194
hCV27996154
rs4836502
0.9
0.9198


hCV26478744
rs2016194
hCV2961244
rs2418548
0.9
1


hCV26478744
rs2016194
hCV2961250
rs4836507
0.9
0.9198


hCV26478744
rs2016194
hCV2961252
rs10067895
0.9
0.9198


hCV26478744
rs2016194
hCV2961253
rs2190600
0.9
0.9198


hCV26478744
rs2016194
hCV2961259
rs11242023
0.9
0.9587


hCV26478744
rs2016194
hCV2961260
rs11242022
0.9
1


hCV26478744
rs2016194
hCV2961261
rs11242021
0.9
0.9198


hCV26478744
rs2016194
hCV2961267
rs1476714
0.9
0.9152


hCV26478744
rs2016194
hCV2961268
rs2108425
0.9
0.9198


hCV26478744
rs2016194
hCV2961269
rs2158958
0.9
0.9198


hCV26478744
rs2016194
hCV2961270
rs9327555
0.9
0.9198


hCV26478744
rs2016194
hCV2961278
rs7446891
0.9
0.9198


hCV26478744
rs2016194
hCV2961280
rs10520072
0.9
0.9198


hCV26478744
rs2016194
hCV2961282
rs917295
0.9
0.9197


hCV26478744
rs2016194
hCV2961284
rs10054055
0.9
0.9581


hCV26478744
rs2016194
hCV2961296
rs10051148
0.9
0.9589


hCV26478744
rs2016194
hCV2961306
rs264129
0.9
0.9162


hCV26478744
rs2016194
hCV346713
rs1990023
0.9
0.9162


hCV26478744
rs2016194
hCV546489
rs264122
0.9
0.9581


hCV26478745
rs2108426
hCV11819780
rs12153185
0.9
1


hCV26478745
rs2108426
hCV11819782
rs12719415
0.9
0.9135


hCV26478745
rs2108426
hCV26478744
rs2016194
0.9
1


hCV26478745
rs2108426
hCV26478747
rs2190598
0.9
0.9092


hCV26478745
rs2108426
hCV27996154
rs4836502
0.9
0.9135


hCV26478745
rs2108426
hCV2961244
rs2418548
0.9
1


hCV26478745
rs2108426
hCV2961250
rs4836507
0.9
0.9135


hCV26478745
rs2108426
hCV2961252
rs10067895
0.9
0.9135


hCV26478745
rs2108426
hCV2961253
rs2190600
0.9
0.9135


hCV26478745
rs2108426
hCV2961259
rs11242023
0.9
0.9557


hCV26478745
rs2108426
hCV2961260
rs11242022
0.9
1


hCV26478745
rs2108426
hCV2961261
rs11242021
0.9
0.9135


hCV26478745
rs2108426
hCV2961267
rs1476714
0.9
0.9081


hCV26478745
rs2108426
hCV2961268
rs2108425
0.9
0.9135


hCV26478745
rs2108426
hCV2961269
rs2158958
0.9
0.9135


hCV26478745
rs2108426
hCV2961270
rs9327555
0.9
0.9135


hCV26478745
rs2108426
hCV2961278
rs7446891
0.9
0.9135


hCV26478745
rs2108426
hCV2961280
rs10520072
0.9
0.9135


hCV26478745
rs2108426
hCV2961282
rs917295
0.9
0.9134


hCV26478745
rs2108426
hCV2961284
rs10054055
0.9
1


hCV26478745
rs2108426
hCV2961296
rs10051148
0.9
1


hCV26478745
rs2108426
hCV2961297
rs2158961
0.9
0.9135


hCV26478745
rs2108426
hCV2961306
rs264129
0.9
0.9557


hCV26478745
rs2108426
hCV346713
rs1990023
0.9
0.9557


hCV26478745
rs2108426
hCV546489
rs264122
0.9
1


hCV26478747
rs2190598
hCV11819780
rs12153185
0.9
1


hCV26478747
rs2190598
hCV11819782
rs12719415
0.9
1


hCV26478747
rs2190598
hCV2575318
rs7711358
0.9
0.9239


hCV26478747
rs2190598
hCV2575336
rs2418541
0.9
0.9239


hCV26478747
rs2190598
hCV2575340
rs11242020
0.9
0.9239


hCV26478747
rs2190598
hCV26478744
rs2016194
0.9
0.916


hCV26478747
rs2190598
hCV26478745
rs2108426
0.9
0.9092


hCV26478747
rs2190598
hCV26478763
rs2418542
0.9
0.9239


hCV26478747
rs2190598
hCV27996154
rs4836502
0.9
1


hCV26478747
rs2190598
hCV2961244
rs2418548
0.9
1


hCV26478747
rs2190598
hCV2961250
rs4836507
0.9
1


hCV26478747
rs2190598
hCV2961252
rs10067895
0.9
1


hCV26478747
rs2190598
hCV2961253
rs2190600
0.9
1


hCV26478747
rs2190598
hCV2961259
rs11242023
0.9
0.9604


hCV26478747
rs2190598
hCV2961260
rs11242022
0.9
1


hCV26478747
rs2190598
hCV2961261
rs11242021
0.9
1


hCV26478747
rs2190598
hCV2961267
rs1476714
0.9
1


hCV26478747
rs2190598
hCV2961268
rs2108425
0.9
1


hCV26478747
rs2190598
hCV2961269
rs2158958
0.9
1


hCV26478747
rs2190598
hCV2961270
rs9327555
0.9
1


hCV26478747
rs2190598
hCV2961278
rs7446891
0.9
1


hCV26478747
rs2190598
hCV2961280
rs10520072
0.9
1


hCV26478747
rs2190598
hCV2961282
rs917295
0.9
1


hCV26478747
rs2190598
hCV2961284
rs10054055
0.9
0.96


hCV26478747
rs2190598
hCV2961296
rs10051148
0.9
0.9615


hCV26478747
rs2190598
hCV2961297
rs2158961
0.9
0.9619


hCV26478747
rs2190598
hCV2961306
rs264129
0.9
0.9198


hCV26478747
rs2190598
hCV30621656
rs10478919
0.9
0.9239


hCV26478747
rs2190598
hCV31237567
rs11749272
0.9
0.9239


hCV26478747
rs2190598
hCV346713
rs1990023
0.9
0.9199


hCV26478747
rs2190598
hCV546489
rs264122
0.9
0.96


hCV26478747
rs2190598
hCV8932829
rs1116596
0.9
0.9239


hCV26478748
rs2190597
hCV2575337
rs2214640
0.9
0.9282


hCV26478748
rs2190597
hCV2575344
rs10064779
0.9
0.9339


hCV26478748
rs2190597
hCV29134277
rs6595948
0.9
0.9669


hCV26478748
rs2190597
hCV2961229
rs12654296
0.9
0.9664


hCV26478748
rs2190597
hCV2961235
rs6869219
0.9
1


hCV26478748
rs2190597
hCV2961239
rs6868888
0.9
1


hCV26478748
rs2190597
hCV2961241
rs2108427
0.9
0.9037


hCV26478748
rs2190597
hCV2961251
rs1157409
0.9
1


hCV26478748
rs2190597
hCV31237552
rs6889557
0.9
0.9652


hCV26478748
rs2190597
hCV546493
rs264126
0.9
0.9328


hCV26478748
rs2190597
hCV8932783
rs1473132
0.9
1


hCV26478763
rs2418542
hCV11819780
rs12153185
0.9
0.9232


hCV26478763
rs2418542
hCV11819782
rs12719415
0.9
0.927


hCV26478763
rs2418542
hCV2575318
rs7711358
0.9
1


hCV26478763
rs2418542
hCV2575336
rs2418541
0.9
1


hCV26478763
rs2418542
hCV2575340
rs11242020
0.9
1


hCV26478763
rs2418542
hCV26478747
rs2190598
0.9
0.9239


hCV26478763
rs2418542
hCV27996154
rs4836502
0.9
0.927


hCV26478763
rs2418542
hCV2961244
rs2418548
0.9
0.9232


hCV26478763
rs2418542
hCV2961250
rs4836507
0.9
0.927


hCV26478763
rs2418542
hCV2961252
rs10067895
0.9
0.927


hCV26478763
rs2418542
hCV2961253
rs2190600
0.9
0.927


hCV26478763
rs2418542
hCV2961260
rs11242022
0.9
0.9232


hCV26478763
rs2418542
hCV2961261
rs11242021
0.9
0.9255


hCV26478763
rs2418542
hCV2961267
rs1476714
0.9
0.9607


hCV26478763
rs2418542
hCV2961268
rs2108425
0.9
0.927


hCV26478763
rs2418542
hCV2961269
rs2158958
0.9
0.927


hCV26478763
rs2418542
hCV2961270
rs9327555
0.9
0.927


hCV26478763
rs2418542
hCV2961278
rs7446891
0.9
0.927


hCV26478763
rs2418542
hCV2961280
rs10520072
0.9
0.927


hCV26478763
rs2418542
hCV2961282
rs917295
0.9
0.927


hCV26478763
rs2418542
hCV2961284
rs10054055
0.9
0.9616


hCV26478763
rs2418542
hCV2961296
rs10051148
0.9
0.9623


hCV26478763
rs2418542
hCV2961297
rs2158961
0.9
0.9634


hCV26478763
rs2418542
hCV2961306
rs264129
0.9
0.9232


hCV26478763
rs2418542
hCV30621656
rs10478919
0.9
1


hCV26478763
rs2418542
hCV31237567
rs11749272
0.9
1


hCV26478763
rs2418542
hCV346713
rs1990023
0.9
1


hCV26478763
rs2418542
hCV546489
rs264122
0.9
0.9616


hCV26478763
rs2418542
hCV8932829
rs1116596
0.9
1


hCV26499740
rs1344081
hCV11435810
rs7808536
0.9
0.9396


hCV26499740
rs1344081
hCV11435811
rs2057903
0.9
0.9396


hCV26499740
rs1344081
hCV16010888
rs2402516
0.9
1


hCV26499740
rs1344081
hCV16151622
rs2896295
0.9
0.9396


hCV26499740
rs1344081
hCV2580015
rs6973461
0.9
0.9388


hCV26499740
rs1344081
hCV29630277
rs7799541
0.9
0.9703


hCV26499740
rs1344081
hCV29720798
rs10228725
0.9
0.9396


hCV26499740
rs1344081
hCV29738883
rs10237648
0.9
0.9401


hCV26499740
rs1344081
hCV29865261
rs10226287
0.9
0.9396


hCV26499740
rs1344081
hCV30243451
rs10270624
0.9
0.9401


hCV26499740
rs1344081
hCV30441808
rs10487413
0.9
1


hCV26499740
rs1344081
hCV31281599
rs13438543
0.9
1


hCV2676440
rs6722640
hCV16126066
rs2110564
0.9
1


hCV2676440
rs6722640
hCV27872026
rs4851531
0.9
0.9638


hCV2676440
rs6722640
hCV349805
rs4851529
0.9
0.9329


hCV2676440
rs6722640
hCV8905894
rs974950
0.9
1


hCV26771384
rs10865197
hCV26135665
rs4390811
0.9
0.96


hCV26771384
rs10865197
hCV26771389
rs10183431
0.9
1


hCV26771384
rs10865197
hCV27875215
rs4346434
0.9
0.922


hCV26771384
rs10865197
hCV27933339
rs4586678
0.9
1


hCV26771384
rs10865197
hCV29229284
rs6741066
0.9
0.9591


hCV26771384
rs10865197
hCV30817981
rs6723119
0.9
0.96


hCV26771384
rs10865197
hCV375079
rs9309112
0.9
0.92


hCV26771384
rs10865197
hCV375083
rs10206724
0.9
1


hCV26771384
rs10865197
hCV375090
rs4450660
0.9
1


hCV26771384
rs10865197
hCV514334
rs6544721
0.9
0.961


hCV26771389
rs10183431
hCV26135665
rs4390811
0.9
0.96


hCV26771389
rs10183431
hCV26771384
rs10865197
0.9
1


hCV26771389
rs10183431
hCV27875215
rs4346434
0.9
0.922


hCV26771389
rs10183431
hCV27933339
rs4586678
0.9
1


hCV26771389
rs10183431
hCV29229284
rs6741066
0.9
0.9591


hCV26771389
rs10183431
hCV30817981
rs6723119
0.9
0.96


hCV26771389
rs10183431
hCV375079
rs9309112
0.9
0.92


hCV26771389
rs10183431
hCV375083
rs10206724
0.9
1


hCV26771389
rs10183431
hCV375090
rs4450660
0.9
1


hCV26771389
rs10183431
hCV514334
rs6544721
0.9
0.961


hCV26830134
rs2993156
hCV26830128
rs10814709
0.9
1


hCV26830134
rs2993156
hDV68926946
rs10814708
0.9
0.9583


hCV26881087
rs4472926
hCV29268001
rs7939893
0.9
0.9787


hCV2690291
rs2270588
hCV2690292
rs2270589
0.9
0.9243


hCV2690291
rs2270588
hCV8873448
rs3844207
0.9
1


hCV2690292
rs2270589
hCV2690291
rs2270588
0.9
0.9243


hCV2690292
rs2270589
hCV8873448
rs3844207
0.9
0.9298


hCV2690365
rs11178583
hCV11686277
rs3763978
0.9
0.9654


hCV2690365
rs11178583
hCV11686292
rs1051334
0.9
0.9627


hCV2690365
rs11178583
hCV15957961
rs2270586
0.9
0.9627


hCV2690365
rs11178583
hCV26441048
rs3851610
0.9
0.9654


hCV2690365
rs11178583
hCV26441140
rs9325191
0.9
1


hCV2690365
rs11178583
hCV2690286
rs2270584
0.9
0.9622


hCV2690365
rs11178583
hCV2690333
rs11178602
0.9
1


hCV2690365
rs11178583
hCV2690348
rs11178594
0.9
1


hCV2690365
rs11178583
hCV2690350
rs2132242
0.9
1


hCV2690365
rs11178583
hCV2690354
rs11178589
0.9
1


hCV2690365
rs11178583
hCV2690362
rs10879249
0.9
1


hCV2690365
rs11178583
hCV2690375
rs1567740
0.9
1


hCV2690365
rs11178583
hCV2690377
rs10879245
0.9
1


hCV2690365
rs11178583
hCV2690378
rs11178579
0.9
1


hCV2690365
rs11178583
hCV2690379
rs10879242
0.9
1


hCV2690365
rs11178583
hCV2690380
rs10506623
0.9
1


hCV2690365
rs11178583
hCV2690388
rs2132241
0.9
1


hCV2690365
rs11178583
hCV29593612
rs10506626
0.9
0.9627


hCV2690365
rs11178583
hCV31190567
rs7311994
0.9
1


hCV2690365
rs11178583
hCV31190598
rs12818936
0.9
1


hCV2690365
rs11178583
hCV31190625
rs11178648
0.9
0.9627


hCV2690365
rs11178583
hCV31190877
rs12831292
0.9
0.9654


hCV2690365
rs11178583
hCV8375364
rs966583
0.9
1


hCV2690365
rs11178583
hCV8871988
rs1495375
0.9
1


hCV2690365
rs11178583
hCV8871989
rs1512989
0.9
1


hCV2690365
rs11178583
hCV8871990
rs1512988
0.9
1


hCV2690365
rs11178583
hCV8873466
rs1051344
0.9
1


hCV2690365
rs11178583
hCV8873472
rs1355373
0.9
1


hCV2690377
rs10879245
hCV11412791
rs1874313
0.9
1


hCV2690377
rs10879245
hCV11686277
rs3763978
0.9
0.9573


hCV2690377
rs10879245
hCV11686292
rs1051334
0.9
0.9557


hCV2690377
rs10879245
hCV15957961
rs2270586
0.9
0.9557


hCV2690377
rs10879245
hCV26441048
rs3851610
0.9
0.9573


hCV2690377
rs10879245
hCV26441140
rs9325191
0.9
1


hCV2690377
rs10879245
hCV2690286
rs2270584
0.9
0.9552


hCV2690377
rs10879245
hCV2690333
rs11178602
0.9
1


hCV2690377
rs10879245
hCV2690348
rs11178594
0.9
1


hCV2690377
rs10879245
hCV2690350
rs2132242
0.9
1


hCV2690377
rs10879245
hCV2690354
rs11178589
0.9
1


hCV2690377
rs10879245
hCV2690362
rs10879249
0.9
1


hCV2690377
rs10879245
hCV2690365
rs11178583
0.9
1


hCV2690377
rs10879245
hCV2690375
rs1567740
0.9
1


hCV2690377
rs10879245
hCV2690378
rs11178579
0.9
1


hCV2690377
rs10879245
hCV2690379
rs10879242
0.9
1


hCV2690377
rs10879245
hCV2690380
rs10506623
0.9
1


hCV2690377
rs10879245
hCV2690388
rs2132241
0.9
1


hCV2690377
rs10879245
hCV29593612
rs10506626
0.9
0.9557


hCV2690377
rs10879245
hCV31190567
rs7311994
0.9
1


hCV2690377
rs10879245
hCV31190598
rs12818936
0.9
1


hCV2690377
rs10879245
hCV31190625
rs11178648
0.9
0.9557


hCV2690377
rs10879245
hCV31190877
rs12831292
0.9
1


hCV2690377
rs10879245
hCV8375364
rs966583
0.9
1


hCV2690377
rs10879245
hCV8871988
rs1495375
0.9
1


hCV2690377
rs10879245
hCV8871989
rs1512989
0.9
1


hCV2690377
rs10879245
hCV8871990
rs1512988
0.9
1


hCV2690377
rs10879245
hCV8873466
rs1051344
0.9
1


hCV2690377
rs10879245
hCV8873472
rs1355373
0.9
1


hCV2690378
rs11178579
hCV11412791
rs1874313
0.9
1


hCV2690378
rs11178579
hCV11686277
rs3763978
0.9
1


hCV2690378
rs11178579
hCV11686292
rs1051334
0.9
1


hCV2690378
rs11178579
hCV15957961
rs2270586
0.9
1


hCV2690378
rs11178579
hCV26441048
rs3851610
0.9
1


hCV2690378
rs11178579
hCV26441140
rs9325191
0.9
1


hCV2690378
rs11178579
hCV2690286
rs2270584
0.9
1


hCV2690378
rs11178579
hCV2690333
rs11178602
0.9
1


hCV2690378
rs11178579
hCV2690348
rs11178594
0.9
1


hCV2690378
rs11178579
hCV2690350
rs2132242
0.9
1


hCV2690378
rs11178579
hCV2690354
rs11178589
0.9
1


hCV2690378
rs11178579
hCV2690362
rs10879249
0.9
1


hCV2690378
rs11178579
hCV2690365
rs11178583
0.9
1


hCV2690378
rs11178579
hCV2690375
rs1567740
0.9
1


hCV2690378
rs11178579
hCV2690377
rs10879245
0.9
1


hCV2690378
rs11178579
hCV2690379
rs10879242
0.9
1


hCV2690378
rs11178579
hCV2690380
rs10506623
0.9
1


hCV2690378
rs11178579
hCV2690388
rs2132241
0.9
1


hCV2690378
rs11178579
hCV27530498
rs3942254
0.9
0.9577


hCV2690378
rs11178579
hCV29593612
rs10506626
0.9
1


hCV2690378
rs11178579
hCV31190567
rs7311994
0.9
1


hCV2690378
rs11178579
hCV31190598
rs12818936
0.9
1


hCV2690378
rs11178579
hCV31190625
rs11178648
0.9
1


hCV2690378
rs11178579
hCV31190877
rs12831292
0.9
0.9609


hCV2690378
rs11178579
hCV8375364
rs966583
0.9
1


hCV2690378
rs11178579
hCV8871988
rs1495375
0.9
1


hCV2690378
rs11178579
hCV8871989
rs1512989
0.9
1


hCV2690378
rs11178579
hCV8871990
rs1512988
0.9
1


hCV2690378
rs11178579
hCV8873466
rs1051344
0.9
1


hCV2690378
rs11178579
hCV8873472
rs1355373
0.9
1


hCV2690379
rs10879242
hCV11686277
rs3763978
0.9
0.9645


hCV2690379
rs10879242
hCV11686292
rs1051334
0.9
0.9627


hCV2690379
rs10879242
hCV15957961
rs2270586
0.9
0.9627


hCV2690379
rs10879242
hCV26441048
rs3851610
0.9
0.9645


hCV2690379
rs10879242
hCV26441140
rs9325191
0.9
1


hCV2690379
rs10879242
hCV2690286
rs2270584
0.9
0.9622


hCV2690379
rs10879242
hCV2690333
rs11178602
0.9
1


hCV2690379
rs10879242
hCV2690348
rs11178594
0.9
1


hCV2690379
rs10879242
hCV2690350
rs2132242
0.9
1


hCV2690379
rs10879242
hCV2690354
rs11178589
0.9
1


hCV2690379
rs10879242
hCV2690362
rs10879249
0.9
1


hCV2690379
rs10879242
hCV2690365
rs11178583
0.9
1


hCV2690379
rs10879242
hCV2690375
rs1567740
0.9
1


hCV2690379
rs10879242
hCV2690377
rs10879245
0.9
1


hCV2690379
rs10879242
hCV2690378
rs11178579
0.9
1


hCV2690379
rs10879242
hCV2690380
rs10506623
0.9
1


hCV2690379
rs10879242
hCV2690388
rs2132241
0.9
1


hCV2690379
rs10879242
hCV29593612
rs10506626
0.9
0.9627


hCV2690379
rs10879242
hCV31190567
rs7311994
0.9
1


hCV2690379
rs10879242
hCV31190598
rs12818936
0.9
1


hCV2690379
rs10879242
hCV31190625
rs11178648
0.9
0.9627


hCV2690379
rs10879242
hCV31190877
rs12831292
0.9
0.9645


hCV2690379
rs10879242
hCV8375364
rs966583
0.9
1


hCV2690379
rs10879242
hCV8871988
rs1495375
0.9
1


hCV2690379
rs10879242
hCV8871989
rs1512989
0.9
1


hCV2690379
rs10879242
hCV8871990
rs1512988
0.9
1


hCV2690379
rs10879242
hCV8873466
rs1051344
0.9
1


hCV2690379
rs10879242
hCV8873472
rs1355373
0.9
1


hCV27084860
rs10758326
hCV29338383
rs7847621
0.9
0.9273


hCV27084860
rs10758326
hCV31931605
rs7022281
0.9
0.9004


hCV27084860
rs10758326
hCV31931609
rs10738948
0.9
0.9637


hCV27344887
rs4038018
hCV27344902
rs4463950
0.9
1


hCV27344887
rs4038018
hCV28025299
rs4771960
0.9
0.9616


hCV27344887
rs4038018
hCV32256712
rs9556694
0.9
0.9599


hCV27367681
rs2876227
hCV2529198
rs742827
0.9
1


hCV27367681
rs2876227
hCV2529202
rs6040667
0.9
0.9649


hCV27367681
rs2876227
hCV2529211
rs17189710
0.9
0.9616


hCV27367681
rs2876227
hCV2529224
rs2327412
0.9
0.9616


hCV27367681
rs2876227
hCV2529230
rs4444612
0.9
0.9616


hCV27367681
rs2876227
hCV2529231
rs4315598
0.9
0.9616


hCV27367681
rs2876227
hCV2529239
rs6040638
0.9
0.9616


hCV27367681
rs2876227
hCV2529241
rs6134243
0.9
0.9649


hCV27367681
rs2876227
hCV2529246
rs6040619
0.9
0.9616


hCV27367681
rs2876227
hCV27367708
rs1009748
0.9
0.9616


hCV27367681
rs2876227
hCV29840965
rs6040644
0.9
0.9616


hCV27367681
rs2876227
hCV30057061
rs6033138
0.9
0.9649


hCV27367681
rs2876227
hCV30093270
rs6040625
0.9
0.9649


hCV27367681
rs2876227
hCV30129243
rs6040636
0.9
0.9649


hCV27367681
rs2876227
hCV30218977
rs6040633
0.9
0.9649


hCV27367681
rs2876227
hCV30417550
rs6040634
0.9
0.9649


hCV27367681
rs2876227
hCV30453433
rs6131208
0.9
0.9193


hCV27367681
rs2876227
hCV32274419
rs13038146
0.9
0.9649


hCV27367681
rs2876227
hCV330228
rs6040668
0.9
0.9649


hCV27367708
rs1009748
hCV2529198
rs742827
0.9
0.9596


hCV27367708
rs1009748
hCV2529202
rs6040667
0.9
1


hCV27367708
rs1009748
hCV2529211
rs17189710
0.9
1


hCV27367708
rs1009748
hCV2529224
rs2327412
0.9
1


hCV27367708
rs1009748
hCV2529230
rs4444612
0.9
1


hCV27367708
rs1009748
hCV2529231
rs4315598
0.9
1


hCV27367708
rs1009748
hCV2529239
rs6040638
0.9
1


hCV27367708
rs1009748
hCV2529241
rs6134243
0.9
1


hCV27367708
rs1009748
hCV2529246
rs6040619
0.9
1


hCV27367708
rs1009748
hCV27367681
rs2876227
0.9
0.9616


hCV27367708
rs1009748
hCV29840965
rs6040644
0.9
1


hCV27367708
rs1009748
hCV30057061
rs6033138
0.9
1


hCV27367708
rs1009748
hCV30093270
rs6040625
0.9
1


hCV27367708
rs1009748
hCV30129243
rs6040636
0.9
1


hCV27367708
rs1009748
hCV30218977
rs6040633
0.9
1


hCV27367708
rs1009748
hCV30417550
rs6040634
0.9
1


hCV27367708
rs1009748
hCV30453433
rs6131208
0.9
0.9565


hCV27367708
rs1009748
hCV30615489
rs6040630
0.9
0.9225


hCV27367708
rs1009748
hCV32274419
rs13038146
0.9
1


hCV27367708
rs1009748
hCV330228
rs6040668
0.9
1


hCV2745822
rs1913201
hCV11686367
rs7955901
0.9
0.9432


hCV2745822
rs1913201
hCV171102
rs7313973
0.9
0.9568


hCV2745822
rs1913201
hCV240133
rs4760895
0.9
1


hCV2745822
rs1913201
hCV240134
rs7138300
0.9
1


hCV2745822
rs1913201
hCV2745815
rs1512991
0.9
0.9644


hCV2745822
rs1913201
hCV2745828
rs10879240
0.9
0.9639


hCV2745822
rs1913201
hCV27952502
rs4760894
0.9
1


hCV2745822
rs1913201
hCV27952503
rs4760785
0.9
1


hCV2745822
rs1913201
hCV31190777
rs10784891
0.9
0.9588


hCV2745822
rs1913201
hDV72015086
rs7956274
0.9
0.9622


hCV2745828
rs10879240
hCV11686367
rs7955901
0.9
0.9274


hCV2745828
rs10879240
hCV171102
rs7313973
0.9
0.9208


hCV2745828
rs10879240
hCV240133
rs4760895
0.9
0.9664


hCV2745828
rs10879240
hCV240134
rs7138300
0.9
0.9639


hCV2745828
rs10879240
hCV2745815
rs1512991
0.9
0.9324


hCV2745828
rs10879240
hCV2745822
rs1913201
0.9
0.9639


hCV2745828
rs10879240
hCV27952502
rs4760894
0.9
0.9664


hCV2745828
rs10879240
hCV27952503
rs4760785
0.9
0.9664


hCV2745828
rs10879240
hCV29120310
rs7298255
0.9
0.9274


hCV2745828
rs10879240
hCV31190748
rs7959965
0.9
0.9274


hCV2745828
rs10879240
hCV31190777
rs10784891
0.9
0.9235


hCV2745828
rs10879240
hDV72015086
rs7956274
0.9
0.9285


hCV27872026
rs4851531
hCV16126066
rs2110564
0.9
0.9638


hCV27872026
rs4851531
hCV2676440
rs6722640
0.9
0.9638


hCV27872026
rs4851531
hCV349805
rs4851529
0.9
0.9646


hCV27872026
rs4851531
hCV8905894
rs974950
0.9
0.9812


hCV27894109
rs4879931
hCV29338373
rs7035913
0.9
1


hCV27894109
rs4879931
hDV70921009
rs17204908
0.9
1


hCV27933339
rs4586678
hCV26135665
rs4390811
0.9
0.96


hCV27933339
rs4586678
hCV26771384
rs10865197
0.9
1


hCV27933339
rs4586678
hCV26771389
rs10183431
0.9
1


hCV27933339
rs4586678
hCV27875215
rs4346434
0.9
0.922


hCV27933339
rs4586678
hCV29229284
rs6741066
0.9
0.9591


hCV27933339
rs4586678
hCV30817981
rs6723119
0.9
0.96


hCV27933339
rs4586678
hCV375079
rs9309112
0.9
0.92


hCV27933339
rs4586678
hCV375083
rs10206724
0.9
1


hCV27933339
rs4586678
hCV375090
rs4450660
0.9
1


hCV27933339
rs4586678
hCV514334
rs6544721
0.9
0.961


hCV27952502
rs4760894
hCV11686367
rs7955901
0.9
0.9644


hCV27952502
rs4760894
hCV171102
rs7313973
0.9
0.9603


hCV27952502
rs4760894
hCV240133
rs4760895
0.9
1


hCV27952502
rs4760894
hCV240134
rs7138300
0.9
1


hCV27952502
rs4760894
hCV2745815
rs1512991
0.9
0.9668


hCV27952502
rs4760894
hCV2745822
rs1913201
0.9
1


hCV27952502
rs4760894
hCV2745828
rs10879240
0.9
0.9664


hCV27952502
rs4760894
hCV27952503
rs4760785
0.9
1


hCV27952502
rs4760894
hCV29120310
rs7298255
0.9
0.9644


hCV27952502
rs4760894
hCV31190748
rs7959965
0.9
0.9644


hCV27952502
rs4760894
hCV31190777
rs10784891
0.9
0.962


hCV27952502
rs4760894
hDV72015086
rs7956274
0.9
0.9649


hCV27952503
rs4760785
hCV11686367
rs7955901
0.9
0.9644


hCV27952503
rs4760785
hCV171102
rs7313973
0.9
0.9603


hCV27952503
rs4760785
hCV240133
rs4760895
0.9
1


hCV27952503
rs4760785
hCV240134
rs7138300
0.9
1


hCV27952503
rs4760785
hCV2745815
rs1512991
0.9
0.9668


hCV27952503
rs4760785
hCV2745822
rs1913201
0.9
1


hCV27952503
rs4760785
hCV2745828
rs10879240
0.9
0.9664


hCV27952503
rs4760785
hCV27952502
rs4760894
0.9
1


hCV27952503
rs4760785
hCV29120310
rs7298255
0.9
0.9644


hCV27952503
rs4760785
hCV31190748
rs7959965
0.9
0.9644


hCV27952503
rs4760785
hCV31190777
rs10784891
0.9
0.962


hCV27952503
rs4760785
hDV72015086
rs7956274
0.9
0.9649


hCV27974149
rs4964416
hCV29121666
rs6539231
0.9
0.9266


hCV27996154
rs4836502
hCV11819780
rs12153185
0.9
1


hCV27996154
rs4836502
hCV11819782
rs12719415
0.9
1


hCV27996154
rs4836502
hCV2575318
rs7711358
0.9
0.927


hCV27996154
rs4836502
hCV2575336
rs2418541
0.9
0.927


hCV27996154
rs4836502
hCV2575340
rs11242020
0.9
0.927


hCV27996154
rs4836502
hCV26478744
rs2016194
0.9
0.9198


hCV27996154
rs4836502
hCV26478745
rs2108426
0.9
0.9135


hCV27996154
rs4836502
hCV26478747
rs2190598
0.9
1


hCV27996154
rs4836502
hCV26478763
rs2418542
0.9
0.927


hCV27996154
rs4836502
hCV2961244
rs2418548
0.9
1


hCV27996154
rs4836502
hCV2961250
rs4836507
0.9
1


hCV27996154
rs4836502
hCV2961252
rs10067895
0.9
1


hCV27996154
rs4836502
hCV2961253
rs2190600
0.9
1


hCV27996154
rs4836502
hCV2961259
rs11242023
0.9
0.9621


hCV27996154
rs4836502
hCV2961260
rs11242022
0.9
1


hCV27996154
rs4836502
hCV2961261
rs11242021
0.9
1


hCV27996154
rs4836502
hCV2961267
rs1476714
0.9
1


hCV27996154
rs4836502
hCV2961268
rs2108425
0.9
1


hCV27996154
rs4836502
hCV2961269
rs2158958
0.9
1


hCV27996154
rs4836502
hCV2961270
rs9327555
0.9
1


hCV27996154
rs4836502
hCV2961278
rs7446891
0.9
1


hCV27996154
rs4836502
hCV2961280
rs10520072
0.9
1


hCV27996154
rs4836502
hCV2961282
rs917295
0.9
1


hCV27996154
rs4836502
hCV2961284
rs10054055
0.9
0.9616


hCV27996154
rs4836502
hCV2961296
rs10051148
0.9
0.9623


hCV27996154
rs4836502
hCV2961297
rs2158961
0.9
0.9634


hCV27996154
rs4836502
hCV2961306
rs264129
0.9
0.9232


hCV27996154
rs4836502
hCV30621656
rs10478919
0.9
0.927


hCV27996154
rs4836502
hCV31237567
rs11749272
0.9
0.927


hCV27996154
rs4836502
hCV346713
rs1990023
0.9
0.9232


hCV27996154
rs4836502
hCV546489
rs264122
0.9
0.9616


hCV27996154
rs4836502
hCV8932829
rs1116596
0.9
0.927


hCV2881200
rs2052428
hCV2881217
rs10735411
0.9
0.9234


hCV2881200
rs2052428
hCV31198182
rs10778446
0.9
0.9234


hCV29012564
rs7338174
hCV29012561
rs7333988
0.9
0.9184


hCV29120310
rs7298255
hCV11686367
rs7955901
0.9
0.9442


hCV29120310
rs7298255
hCV11686374
rs7957932
0.9
0.9161


hCV29120310
rs7298255
hCV171102
rs7313973
0.9
0.9568


hCV29120310
rs7298255
hCV240133
rs4760895
0.9
0.9644


hCV29120310
rs7298255
hCV2745805
rs7132840
0.9
0.9268


hCV29120310
rs7298255
hCV2745807
rs2063591
0.9
0.9303


hCV29120310
rs7298255
hCV2745815
rs1512991
0.9
1


hCV29120310
rs7298255
hCV2745828
rs10879240
0.9
0.9274


hCV29120310
rs7298255
hCV27952502
rs4760894
0.9
0.9644


hCV29120310
rs7298255
hCV27952503
rs4760785
0.9
0.9644


hCV29120310
rs7298255
hCV31190748
rs7959965
0.9
1


hCV29120310
rs7298255
hCV31190777
rs10784891
0.9
1


hCV29120310
rs7298255
hDV72015086
rs7956274
0.9
1


hCV29121666
rs6539231
hCV27974149
rs4964416
0.9
0.9266


hCV29121666
rs6539231
hCV2881196
rs878612
0.9
0.9637


hCV29121666
rs6539231
hCV29121664
rs7970318
0.9
0.9078


hCV29121666
rs6539231
hCV29121665
rs6539230
0.9
0.9078


hCV29268001
rs7939893
hCV26881087
rs4472926
0.9
0.9787


hCV2961244
rs2418548
hCV11819780
rs12153185
0.9
1


hCV2961244
rs2418548
hCV11819782
rs12719415
0.9
1


hCV2961244
rs2418548
hCV2575318
rs7711358
0.9
0.9232


hCV2961244
rs2418548
hCV2575336
rs2418541
0.9
0.9232


hCV2961244
rs2418548
hCV2575340
rs11242020
0.9
0.9232


hCV2961244
rs2418548
hCV26478744
rs2016194
0.9
1


hCV2961244
rs2418548
hCV26478745
rs2108426
0.9
1


hCV2961244
rs2418548
hCV26478747
rs2190598
0.9
1


hCV2961244
rs2418548
hCV26478763
rs2418542
0.9
0.9232


hCV2961244
rs2418548
hCV27996154
rs4836502
0.9
1


hCV2961244
rs2418548
hCV2961250
rs4836507
0.9
1


hCV2961244
rs2418548
hCV2961252
rs10067895
0.9
1


hCV2961244
rs2418548
hCV2961253
rs2190600
0.9
1


hCV2961244
rs2418548
hCV2961259
rs11242023
0.9
0.9571


hCV2961244
rs2418548
hCV2961260
rs11242022
0.9
0.9785


hCV2961244
rs2418548
hCV2961261
rs11242021
0.9
1


hCV2961244
rs2418548
hCV2961267
rs1476714
0.9
1


hCV2961244
rs2418548
hCV2961268
rs2108425
0.9
1


hCV2961244
rs2418548
hCV2961269
rs2158958
0.9
1


hCV2961244
rs2418548
hCV2961270
rs9327555
0.9
1


hCV2961244
rs2418548
hCV2961278
rs7446891
0.9
1


hCV2961244
rs2418548
hCV2961280
rs10520072
0.9
1


hCV2961244
rs2418548
hCV2961282
rs917295
0.9
1


hCV2961244
rs2418548
hCV2961284
rs10054055
0.9
0.9573


hCV2961244
rs2418548
hCV2961296
rs10051148
0.9
0.9608


hCV2961244
rs2418548
hCV2961297
rs2158961
0.9
0.9616


hCV2961244
rs2418548
hCV2961306
rs264129
0.9
0.9358


hCV2961244
rs2418548
hCV30621656
rs10478919
0.9
0.9232


hCV2961244
rs2418548
hCV31237567
rs11749272
0.9
0.9232


hCV2961244
rs2418548
hCV346713
rs1990023
0.9
0.9358


hCV2961244
rs2418548
hCV546489
rs264122
0.9
0.9573


hCV2961244
rs2418548
hCV8932829
rs1116596
0.9
0.9232


hCV2961250
rs4836507
hCV11819780
rs12153185
0.9
1


hCV2961250
rs4836507
hCV11819782
rs12719415
0.9
1


hCV2961250
rs4836507
hCV2575318
rs7711358
0.9
0.927


hCV2961250
rs4836507
hCV2575336
rs2418541
0.9
0.927


hCV2961250
rs4836507
hCV2575340
rs11242020
0.9
0.927


hCV2961250
rs4836507
hCV26478744
rs2016194
0.9
0.9198


hCV2961250
rs4836507
hCV26478745
rs2108426
0.9
0.9135


hCV2961250
rs4836507
hCV26478747
rs2190598
0.9
1


hCV2961250
rs4836507
hCV26478763
rs2418542
0.9
0.927


hCV2961250
rs4836507
hCV27996154
rs4836502
0.9
1


hCV2961250
rs4836507
hCV2961244
rs2418548
0.9
1


hCV2961250
rs4836507
hCV2961252
rs10067895
0.9
1


hCV2961250
rs4836507
hCV2961253
rs2190600
0.9
1


hCV2961250
rs4836507
hCV2961259
rs11242023
0.9
0.9621


hCV2961250
rs4836507
hCV2961260
rs11242022
0.9
1


hCV2961250
rs4836507
hCV2961261
rs11242021
0.9
1


hCV2961250
rs4836507
hCV2961267
rs1476714
0.9
1


hCV2961250
rs4836507
hCV2961268
rs2108425
0.9
1


hCV2961250
rs4836507
hCV2961269
rs2158958
0.9
1


hCV2961250
rs4836507
hCV2961270
rs9327555
0.9
1


hCV2961250
rs4836507
hCV2961278
rs7446891
0.9
1


hCV2961250
rs4836507
hCV2961280
rs10520072
0.9
1


hCV2961250
rs4836507
hCV2961282
rs917295
0.9
1


hCV2961250
rs4836507
hCV2961284
rs10054055
0.9
0.9616


hCV2961250
rs4836507
hCV2961296
rs10051148
0.9
0.9623


hCV2961250
rs4836507
hCV2961297
rs2158961
0.9
0.9634


hCV2961250
rs4836507
hCV2961306
rs264129
0.9
0.9232


hCV2961250
rs4836507
hCV30621656
rs10478919
0.9
0.927


hCV2961250
rs4836507
hCV31237567
rs11749272
0.9
0.927


hCV2961250
rs4836507
hCV346713
rs1990023
0.9
0.9232


hCV2961250
rs4836507
hCV546489
rs264122
0.9
0.9616


hCV2961250
rs4836507
hCV8932829
rs1116596
0.9
0.927


hCV2961252
rs10067895
hCV11819780
rs12153185
0.9
1


hCV2961252
rs10067895
hCV11819782
rs12719415
0.9
1


hCV2961252
rs10067895
hCV2575318
rs7711358
0.9
0.927


hCV2961252
rs10067895
hCV2575336
rs2418541
0.9
0.927


hCV2961252
rs10067895
hCV2575340
rs11242020
0.9
0.927


hCV2961252
rs10067895
hCV26478744
rs2016194
0.9
0.9198


hCV2961252
rs10067895
hCV26478745
rs2108426
0.9
0.9135


hCV2961252
rs10067895
hCV26478747
rs2190598
0.9
1


hCV2961252
rs10067895
hCV26478763
rs2418542
0.9
0.927


hCV2961252
rs10067895
hCV27996154
rs4836502
0.9
1


hCV2961252
rs10067895
hCV2961244
rs2418548
0.9
1


hCV2961252
rs10067895
hCV2961250
rs4836507
0.9
1


hCV2961252
rs10067895
hCV2961253
rs2190600
0.9
1


hCV2961252
rs10067895
hCV2961259
rs11242023
0.9
0.9621


hCV2961252
rs10067895
hCV2961260
rs11242022
0.9
1


hCV2961252
rs10067895
hCV2961261
rs11242021
0.9
1


hCV2961252
rs10067895
hCV2961267
rs1476714
0.9
1


hCV2961252
rs10067895
hCV2961268
rs2108425
0.9
1


hCV2961252
rs10067895
hCV2961269
rs2158958
0.9
1


hCV2961252
rs10067895
hCV2961270
rs9327555
0.9
1


hCV2961252
rs10067895
hCV2961278
rs7446891
0.9
1


hCV2961252
rs10067895
hCV2961280
rs10520072
0.9
1


hCV2961252
rs10067895
hCV2961282
rs917295
0.9
1


hCV2961252
rs10067895
hCV2961284
rs10054055
0.9
0.9616


hCV2961252
rs10067895
hCV2961296
rs10051148
0.9
0.9623


hCV2961252
rs10067895
hCV2961297
rs2158961
0.9
0.9634


hCV2961252
rs10067895
hCV2961306
rs264129
0.9
0.9232


hCV2961252
rs10067895
hCV30621656
rs10478919
0.9
0.927


hCV2961252
rs10067895
hCV31237567
rs11749272
0.9
0.927


hCV2961252
rs10067895
hCV346713
rs1990023
0.9
0.9232


hCV2961252
rs10067895
hCV546489
rs264122
0.9
0.9616


hCV2961252
rs10067895
hCV8932829
rs1116596
0.9
0.927


hCV2961253
rs2190600
hCV11819780
rs12153185
0.9
1


hCV2961253
rs2190600
hCV11819782
rs12719415
0.9
1


hCV2961253
rs2190600
hCV2575318
rs7711358
0.9
0.927


hCV2961253
rs2190600
hCV2575336
rs2418541
0.9
0.927


hCV2961253
rs2190600
hCV2575340
rs11242020
0.9
0.927


hCV2961253
rs2190600
hCV26478744
rs2016194
0.9
0.9198


hCV2961253
rs2190600
hCV26478745
rs2108426
0.9
0.9135


hCV2961253
rs2190600
hCV26478747
rs2190598
0.9
1


hCV2961253
rs2190600
hCV26478763
rs2418542
0.9
0.927


hCV2961253
rs2190600
hCV27996154
rs4836502
0.9
1


hCV2961253
rs2190600
hCV2961244
rs2418548
0.9
1


hCV2961253
rs2190600
hCV2961250
rs4836507
0.9
1


hCV2961253
rs2190600
hCV2961252
rs10067895
0.9
1


hCV2961253
rs2190600
hCV2961259
rs11242023
0.9
0.9621


hCV2961253
rs2190600
hCV2961260
rs11242022
0.9
1


hCV2961253
rs2190600
hCV2961261
rs11242021
0.9
1


hCV2961253
rs2190600
hCV2961267
rs1476714
0.9
1


hCV2961253
rs2190600
hCV2961268
rs2108425
0.9
1


hCV2961253
rs2190600
hCV2961269
rs2158958
0.9
1


hCV2961253
rs2190600
hCV2961270
rs9327555
0.9
1


hCV2961253
rs2190600
hCV2961278
rs7446891
0.9
1


hCV2961253
rs2190600
hCV2961280
rs10520072
0.9
1


hCV2961253
rs2190600
hCV2961282
rs917295
0.9
1


hCV2961253
rs2190600
hCV2961284
rs10054055
0.9
0.9616


hCV2961253
rs2190600
hCV2961296
rs10051148
0.9
0.9623


hCV2961253
rs2190600
hCV2961297
rs2158961
0.9
0.9634


hCV2961253
rs2190600
hCV2961306
rs264129
0.9
0.9232


hCV2961253
rs2190600
hCV30621656
rs10478919
0.9
0.927


hCV2961253
rs2190600
hCV31237567
rs11749272
0.9
0.927


hCV2961253
rs2190600
hCV346713
rs1990023
0.9
0.9232


hCV2961253
rs2190600
hCV546489
rs264122
0.9
0.9616


hCV2961253
rs2190600
hCV8932829
rs1116596
0.9
0.927


hCV2961259
rs11242023
hCV11819780
rs12153185
0.9
0.9571


hCV2961259
rs11242023
hCV11819782
rs12719415
0.9
0.9621


hCV2961259
rs11242023
hCV26478744
rs2016194
0.9
0.9587


hCV2961259
rs11242023
hCV26478745
rs2108426
0.9
0.9557


hCV2961259
rs11242023
hCV26478747
rs2190598
0.9
0.9604


hCV2961259
rs11242023
hCV27996154
rs4836502
0.9
0.9621


hCV2961259
rs11242023
hCV2961244
rs2418548
0.9
0.9571


hCV2961259
rs11242023
hCV2961250
rs4836507
0.9
0.9621


hCV2961259
rs11242023
hCV2961252
rs10067895
0.9
0.9621


hCV2961259
rs11242023
hCV2961253
rs2190600
0.9
0.9621


hCV2961259
rs11242023
hCV2961260
rs11242022
0.9
0.9785


hCV2961259
rs11242023
hCV2961261
rs11242021
0.9
0.9613


hCV2961259
rs11242023
hCV2961267
rs1476714
0.9
0.9592


hCV2961259
rs11242023
hCV2961268
rs2108425
0.9
0.9621


hCV2961259
rs11242023
hCV2961269
rs2158958
0.9
0.9621


hCV2961259
rs11242023
hCV2961270
rs9327555
0.9
0.9621


hCV2961259
rs11242023
hCV2961278
rs7446891
0.9
0.9621


hCV2961259
rs11242023
hCV2961280
rs10520072
0.9
0.9621


hCV2961259
rs11242023
hCV2961282
rs917295
0.9
0.9621


hCV2961259
rs11242023
hCV2961284
rs10054055
0.9
0.9573


hCV2961259
rs11242023
hCV2961296
rs10051148
0.9
0.9236


hCV2961259
rs11242023
hCV2961297
rs2158961
0.9
0.9252


hCV2961259
rs11242023
hCV2961306
rs264129
0.9
0.9358


hCV2961259
rs11242023
hCV346713
rs1990023
0.9
0.9358


hCV2961259
rs11242023
hCV546489
rs264122
0.9
0.9573


hCV2961260
rs11242022
hCV11819780
rs12153185
0.9
0.9785


hCV2961260
rs11242022
hCV11819782
rs12719415
0.9
1


hCV2961260
rs11242022
hCV2575318
rs7711358
0.9
0.9232


hCV2961260
rs11242022
hCV2575336
rs2418541
0.9
0.9232


hCV2961260
rs11242022
hCV2575340
rs11242020
0.9
0.9232


hCV2961260
rs11242022
hCV26478744
rs2016194
0.9
1


hCV2961260
rs11242022
hCV26478745
rs2108426
0.9
1


hCV2961260
rs11242022
hCV26478747
rs2190598
0.9
1


hCV2961260
rs11242022
hCV26478763
rs2418542
0.9
0.9232


hCV2961260
rs11242022
hCV27996154
rs4836502
0.9
1


hCV2961260
rs11242022
hCV2961244
rs2418548
0.9
0.9785


hCV2961260
rs11242022
hCV2961250
rs4836507
0.9
1


hCV2961260
rs11242022
hCV2961252
rs10067895
0.9
1


hCV2961260
rs11242022
hCV2961253
rs2190600
0.9
1


hCV2961260
rs11242022
hCV2961259
rs11242023
0.9
0.9785


hCV2961260
rs11242022
hCV2961261
rs11242021
0.9
1


hCV2961260
rs11242022
hCV2961267
rs1476714
0.9
1


hCV2961260
rs11242022
hCV2961268
rs2108425
0.9
1


hCV2961260
rs11242022
hCV2961269
rs2158958
0.9
1


hCV2961260
rs11242022
hCV2961270
rs9327555
0.9
1


hCV2961260
rs11242022
hCV2961278
rs7446891
0.9
1


hCV2961260
rs11242022
hCV2961280
rs10520072
0.9
1


hCV2961260
rs11242022
hCV2961282
rs917295
0.9
1


hCV2961260
rs11242022
hCV2961284
rs10054055
0.9
0.9783


hCV2961260
rs11242022
hCV2961296
rs10051148
0.9
0.9608


hCV2961260
rs11242022
hCV2961297
rs2158961
0.9
0.9616


hCV2961260
rs11242022
hCV2961306
rs264129
0.9
0.9567


hCV2961260
rs11242022
hCV30621656
rs10478919
0.9
0.9232


hCV2961260
rs11242022
hCV31237567
rs11749272
0.9
0.9232


hCV2961260
rs11242022
hCV346713
rs1990023
0.9
0.9567


hCV2961260
rs11242022
hCV546489
rs264122
0.9
0.9783


hCV2961260
rs11242022
hCV8932829
rs1116596
0.9
0.9232


hCV2961261
rs11242021
hCV11819780
rs12153185
0.9
1


hCV2961261
rs11242021
hCV11819782
rs12719415
0.9
1


hCV2961261
rs11242021
hCV2575318
rs7711358
0.9
0.9255


hCV2961261
rs11242021
hCV2575336
rs2418541
0.9
0.9255


hCV2961261
rs11242021
hCV2575340
rs11242020
0.9
0.9255


hCV2961261
rs11242021
hCV26478744
rs2016194
0.9
0.9198


hCV2961261
rs11242021
hCV26478745
rs2108426
0.9
0.9135


hCV2961261
rs11242021
hCV26478747
rs2190598
0.9
1


hCV2961261
rs11242021
hCV26478763
rs2418542
0.9
0.9255


hCV2961261
rs11242021
hCV27996154
rs4836502
0.9
1


hCV2961261
rs11242021
hCV2961244
rs2418548
0.9
1


hCV2961261
rs11242021
hCV2961250
rs4836507
0.9
1


hCV2961261
rs11242021
hCV2961252
rs10067895
0.9
1


hCV2961261
rs11242021
hCV2961253
rs2190600
0.9
1


hCV2961261
rs11242021
hCV2961259
rs11242023
0.9
0.9613


hCV2961261
rs11242021
hCV2961260
rs11242022
0.9
1


hCV2961261
rs11242021
hCV2961267
rs1476714
0.9
1


hCV2961261
rs11242021
hCV2961268
rs2108425
0.9
1


hCV2961261
rs11242021
hCV2961269
rs2158958
0.9
1


hCV2961261
rs11242021
hCV2961270
rs9327555
0.9
1


hCV2961261
rs11242021
hCV2961278
rs7446891
0.9
1


hCV2961261
rs11242021
hCV2961280
rs10520072
0.9
1


hCV2961261
rs11242021
hCV2961282
rs917295
0.9
1


hCV2961261
rs11242021
hCV2961284
rs10054055
0.9
0.9608


hCV2961261
rs11242021
hCV2961296
rs10051148
0.9
0.9615


hCV2961261
rs11242021
hCV2961297
rs2158961
0.9
0.9627


hCV2961261
rs11242021
hCV2961306
rs264129
0.9
0.9216


hCV2961261
rs11242021
hCV30621656
rs10478919
0.9
0.9255


hCV2961261
rs11242021
hCV31237567
rs11749272
0.9
0.9255


hCV2961261
rs11242021
hCV346713
rs1990023
0.9
0.9216


hCV2961261
rs11242021
hCV546489
rs264122
0.9
0.9608


hCV2961261
rs11242021
hCV8932829
rs1116596
0.9
0.9255


hCV2961267
rs1476714
hCV11819780
rs12153185
0.9
1


hCV2961267
rs1476714
hCV11819782
rs12719415
0.9
1


hCV2961267
rs1476714
hCV2575318
rs7711358
0.9
0.9607


hCV2961267
rs1476714
hCV2575336
rs2418541
0.9
0.9607


hCV2961267
rs1476714
hCV2575340
rs11242020
0.9
0.9607


hCV2961267
rs1476714
hCV26478744
rs2016194
0.9
0.9152


hCV2961267
rs1476714
hCV26478745
rs2108426
0.9
0.9081


hCV2961267
rs1476714
hCV26478747
rs2190598
0.9
1


hCV2961267
rs1476714
hCV26478763
rs2418542
0.9
0.9607


hCV2961267
rs1476714
hCV27996154
rs4836502
0.9
1


hCV2961267
rs1476714
hCV2961244
rs2418548
0.9
1


hCV2961267
rs1476714
hCV2961250
rs4836507
0.9
1


hCV2961267
rs1476714
hCV2961252
rs10067895
0.9
1


hCV2961267
rs1476714
hCV2961253
rs2190600
0.9
1


hCV2961267
rs1476714
hCV2961259
rs11242023
0.9
0.9592


hCV2961267
rs1476714
hCV2961260
rs11242022
0.9
1


hCV2961267
rs1476714
hCV2961261
rs11242021
0.9
1


hCV2961267
rs1476714
hCV2961268
rs2108425
0.9
1


hCV2961267
rs1476714
hCV2961269
rs2158958
0.9
1


hCV2961267
rs1476714
hCV2961270
rs9327555
0.9
1


hCV2961267
rs1476714
hCV2961278
rs7446891
0.9
1


hCV2961267
rs1476714
hCV2961280
rs10520072
0.9
1


hCV2961267
rs1476714
hCV2961282
rs917295
0.9
1


hCV2961267
rs1476714
hCV2961284
rs10054055
0.9
0.9587


hCV2961267
rs1476714
hCV2961296
rs10051148
0.9
0.9595


hCV2961267
rs1476714
hCV2961297
rs2158961
0.9
0.9607


hCV2961267
rs1476714
hCV2961306
rs264129
0.9
0.9172


hCV2961267
rs1476714
hCV30621656
rs10478919
0.9
0.9607


hCV2961267
rs1476714
hCV31237567
rs11749272
0.9
0.9607


hCV2961267
rs1476714
hCV346713
rs1990023
0.9
0.9587


hCV2961267
rs1476714
hCV546489
rs264122
0.9
0.9587


hCV2961267
rs1476714
hCV8932829
rs1116596
0.9
0.9607


hCV2961268
rs2108425
hCV11819780
rs12153185
0.9
1


hCV2961268
rs2108425
hCV11819782
rs12719415
0.9
1


hCV2961268
rs2108425
hCV2575318
rs7711358
0.9
0.927


hCV2961268
rs2108425
hCV2575336
rs2418541
0.9
0.927


hCV2961268
rs2108425
hCV2575340
rs11242020
0.9
0.927


hCV2961268
rs2108425
hCV26478744
rs2016194
0.9
0.9198


hCV2961268
rs2108425
hCV26478745
rs2108426
0.9
0.9135


hCV2961268
rs2108425
hCV26478747
rs2190598
0.9
1


hCV2961268
rs2108425
hCV26478763
rs2418542
0.9
0.927


hCV2961268
rs2108425
hCV27996154
rs4836502
0.9
1


hCV2961268
rs2108425
hCV2961244
rs2418548
0.9
1


hCV2961268
rs2108425
hCV2961250
rs4836507
0.9
1


hCV2961268
rs2108425
hCV2961252
rs10067895
0.9
1


hCV2961268
rs2108425
hCV2961253
rs2190600
0.9
1


hCV2961268
rs2108425
hCV2961259
rs11242023
0.9
0.9621


hCV2961268
rs2108425
hCV2961260
rs11242022
0.9
1


hCV2961268
rs2108425
hCV2961261
rs11242021
0.9
1


hCV2961268
rs2108425
hCV2961267
rs1476714
0.9
1


hCV2961268
rs2108425
hCV2961269
rs2158958
0.9
1


hCV2961268
rs2108425
hCV2961270
rs9327555
0.9
1


hCV2961268
rs2108425
hCV2961278
rs7446891
0.9
1


hCV2961268
rs2108425
hCV2961280
rs10520072
0.9
1


hCV2961268
rs2108425
hCV2961282
rs917295
0.9
1


hCV2961268
rs2108425
hCV2961284
rs10054055
0.9
0.9616


hCV2961268
rs2108425
hCV2961296
rs10051148
0.9
0.9623


hCV2961268
rs2108425
hCV2961297
rs2158961
0.9
0.9634


hCV2961268
rs2108425
hCV2961306
rs264129
0.9
0.9232


hCV2961268
rs2108425
hCV30621656
rs10478919
0.9
0.927


hCV2961268
rs2108425
hCV31237567
rs11749272
0.9
0.927


hCV2961268
rs2108425
hCV346713
rs1990023
0.9
0.9232


hCV2961268
rs2108425
hCV546489
rs264122
0.9
0.9616


hCV2961268
rs2108425
hCV8932829
rs1116596
0.9
0.927


hCV2961269
rs2158958
hCV11819780
rs12153185
0.9
1


hCV2961269
rs2158958
hCV11819782
rs12719415
0.9
1


hCV2961269
rs2158958
hCV2575318
rs7711358
0.9
0.927


hCV2961269
rs2158958
hCV2575336
rs2418541
0.9
0.927


hCV2961269
rs2158958
hCV2575340
rs11242020
0.9
0.927


hCV2961269
rs2158958
hCV26478744
rs2016194
0.9
0.9198


hCV2961269
rs2158958
hCV26478745
rs2108426
0.9
0.9135


hCV2961269
rs2158958
hCV26478747
rs2190598
0.9
1


hCV2961269
rs2158958
hCV26478763
rs2418542
0.9
0.927


hCV2961269
rs2158958
hCV27996154
rs4836502
0.9
1


hCV2961269
rs2158958
hCV2961244
rs2418548
0.9
1


hCV2961269
rs2158958
hCV2961250
rs4836507
0.9
1


hCV2961269
rs2158958
hCV2961252
rs10067895
0.9
1


hCV2961269
rs2158958
hCV2961253
rs2190600
0.9
1


hCV2961269
rs2158958
hCV2961259
rs11242023
0.9
0.9621


hCV2961269
rs2158958
hCV2961260
rs11242022
0.9
1


hCV2961269
rs2158958
hCV2961261
rs11242021
0.9
1


hCV2961269
rs2158958
hCV2961267
rs1476714
0.9
1


hCV2961269
rs2158958
hCV2961268
rs2108425
0.9
1


hCV2961269
rs2158958
hCV2961270
rs9327555
0.9
1


hCV2961269
rs2158958
hCV2961278
rs7446891
0.9
1


hCV2961269
rs2158958
hCV2961280
rs10520072
0.9
1


hCV2961269
rs2158958
hCV2961282
rs917295
0.9
1


hCV2961269
rs2158958
hCV2961284
rs10054055
0.9
0.9616


hCV2961269
rs2158958
hCV2961296
rs10051148
0.9
0.9623


hCV2961269
rs2158958
hCV2961297
rs2158961
0.9
0.9634


hCV2961269
rs2158958
hCV2961306
rs264129
0.9
0.9232


hCV2961269
rs2158958
hCV30621656
rs10478919
0.9
0.927


hCV2961269
rs2158958
hCV31237567
rs11749272
0.9
0.927


hCV2961269
rs2158958
hCV346713
rs1990023
0.9
0.9232


hCV2961269
rs2158958
hCV546489
rs264122
0.9
0.9616


hCV2961269
rs2158958
hCV8932829
rs1116596
0.9
0.927


hCV2961270
rs9327555
hCV11819780
rs12153185
0.9
1


hCV2961270
rs9327555
hCV11819782
rs12719415
0.9
1


hCV2961270
rs9327555
hCV2575318
rs7711358
0.9
0.927


hCV2961270
rs9327555
hCV2575336
rs2418541
0.9
0.927


hCV2961270
rs9327555
hCV2575340
rs11242020
0.9
0.927


hCV2961270
rs9327555
hCV26478744
rs2016194
0.9
0.9198


hCV2961270
rs9327555
hCV26478745
rs2108426
0.9
0.9135


hCV2961270
rs9327555
hCV26478747
rs2190598
0.9
1


hCV2961270
rs9327555
hCV26478763
rs2418542
0.9
0.927


hCV2961270
rs9327555
hCV27996154
rs4836502
0.9
1


hCV2961270
rs9327555
hCV2961244
rs2418548
0.9
1


hCV2961270
rs9327555
hCV2961250
rs4836507
0.9
1


hCV2961270
rs9327555
hCV2961252
rs10067895
0.9
1


hCV2961270
rs9327555
hCV2961253
rs2190600
0.9
1


hCV2961270
rs9327555
hCV2961259
rs11242023
0.9
0.9621


hCV2961270
rs9327555
hCV2961260
rs11242022
0.9
1


hCV2961270
rs9327555
hCV2961261
rs11242021
0.9
1


hCV2961270
rs9327555
hCV2961267
rs1476714
0.9
1


hCV2961270
rs9327555
hCV2961268
rs2108425
0.9
1


hCV2961270
rs9327555
hCV2961269
rs2158958
0.9
1


hCV2961270
rs9327555
hCV2961278
rs7446891
0.9
1


hCV2961270
rs9327555
hCV2961280
rs10520072
0.9
1


hCV2961270
rs9327555
hCV2961282
rs917295
0.9
1


hCV2961270
rs9327555
hCV2961284
rs10054055
0.9
0.9616


hCV2961270
rs9327555
hCV2961296
rs10051148
0.9
0.9623


hCV2961270
rs9327555
hCV2961297
rs2158961
0.9
0.9634


hCV2961270
rs9327555
hCV2961306
rs264129
0.9
0.9232


hCV2961270
rs9327555
hCV30621656
rs10478919
0.9
0.927


hCV2961270
rs9327555
hCV31237567
rs11749272
0.9
0.927


hCV2961270
rs9327555
hCV346713
rs1990023
0.9
0.9232


hCV2961270
rs9327555
hCV546489
rs264122
0.9
0.9616


hCV2961270
rs9327555
hCV8932829
rs1116596
0.9
0.927


hCV2961278
rs7446891
hCV11819780
rs12153185
0.9
1


hCV2961278
rs7446891
hCV11819782
rs12719415
0.9
1


hCV2961278
rs7446891
hCV2575318
rs7711358
0.9
0.927


hCV2961278
rs7446891
hCV2575336
rs2418541
0.9
0.927


hCV2961278
rs7446891
hCV2575340
rs11242020
0.9
0.927


hCV2961278
rs7446891
hCV26478744
rs2016194
0.9
0.9198


hCV2961278
rs7446891
hCV26478745
rs2108426
0.9
0.9135


hCV2961278
rs7446891
hCV26478747
rs2190598
0.9
1


hCV2961278
rs7446891
hCV26478763
rs2418542
0.9
0.927


hCV2961278
rs7446891
hCV27996154
rs4836502
0.9
1


hCV2961278
rs7446891
hCV2961244
rs2418548
0.9
1


hCV2961278
rs7446891
hCV2961250
rs4836507
0.9
1


hCV2961278
rs7446891
hCV2961252
rs10067895
0.9
1


hCV2961278
rs7446891
hCV2961253
rs2190600
0.9
1


hCV2961278
rs7446891
hCV2961259
rs11242023
0.9
0.9621


hCV2961278
rs7446891
hCV2961260
rs11242022
0.9
1


hCV2961278
rs7446891
hCV2961261
rs11242021
0.9
1


hCV2961278
rs7446891
hCV2961267
rs1476714
0.9
1


hCV2961278
rs7446891
hCV2961268
rs2108425
0.9
1


hCV2961278
rs7446891
hCV2961269
rs2158958
0.9
1


hCV2961278
rs7446891
hCV2961270
rs9327555
0.9
1


hCV2961278
rs7446891
hCV2961280
rs10520072
0.9
1


hCV2961278
rs7446891
hCV2961282
rs917295
0.9
1


hCV2961278
rs7446891
hCV2961284
rs10054055
0.9
0.9616


hCV2961278
rs7446891
hCV2961296
rs10051148
0.9
0.9623


hCV2961278
rs7446891
hCV2961297
rs2158961
0.9
0.9634


hCV2961278
rs7446891
hCV2961306
rs264129
0.9
0.9232


hCV2961278
rs7446891
hCV30621656
rs10478919
0.9
0.927


hCV2961278
rs7446891
hCV31237567
rs11749272
0.9
0.927


hCV2961278
rs7446891
hCV346713
rs1990023
0.9
0.9232


hCV2961278
rs7446891
hCV546489
rs264122
0.9
0.9616


hCV2961278
rs7446891
hCV8932829
rs1116596
0.9
0.927


hCV2961280
rs10520072
hCV11819780
rs12153185
0.9
1


hCV2961280
rs10520072
hCV11819782
rs12719415
0.9
1


hCV2961280
rs10520072
hCV2575318
rs7711358
0.9
0.927


hCV2961280
rs10520072
hCV2575336
rs2418541
0.9
0.927


hCV2961280
rs10520072
hCV2575340
rs11242020
0.9
0.927


hCV2961280
rs10520072
hCV26478744
rs2016194
0.9
0.9198


hCV2961280
rs10520072
hCV26478745
rs2108426
0.9
0.9135


hCV2961280
rs10520072
hCV26478747
rs2190598
0.9
1


hCV2961280
rs10520072
hCV26478763
rs2418542
0.9
0.927


hCV2961280
rs10520072
hCV27996154
rs4836502
0.9
1


hCV2961280
rs10520072
hCV2961244
rs2418548
0.9
1


hCV2961280
rs10520072
hCV2961250
rs4836507
0.9
1


hCV2961280
rs10520072
hCV2961252
rs10067895
0.9
1


hCV2961280
rs10520072
hCV2961253
rs2190600
0.9
1


hCV2961280
rs10520072
hCV2961259
rs11242023
0.9
0.9621


hCV2961280
rs10520072
hCV2961260
rs11242022
0.9
1


hCV2961280
rs10520072
hCV2961261
rs11242021
0.9
1


hCV2961280
rs10520072
hCV2961267
rs1476714
0.9
1


hCV2961280
rs10520072
hCV2961268
rs2108425
0.9
1


hCV2961280
rs10520072
hCV2961269
rs2158958
0.9
1


hCV2961280
rs10520072
hCV2961270
rs9327555
0.9
1


hCV2961280
rs10520072
hCV2961278
rs7446891
0.9
1


hCV2961280
rs10520072
hCV2961282
rs917295
0.9
1


hCV2961280
rs10520072
hCV2961284
rs10054055
0.9
0.9616


hCV2961280
rs10520072
hCV2961296
rs10051148
0.9
0.9623


hCV2961280
rs10520072
hCV2961297
rs2158961
0.9
0.9634


hCV2961280
rs10520072
hCV2961306
rs264129
0.9
0.9232


hCV2961280
rs10520072
hCV30621656
rs10478919
0.9
0.927


hCV2961280
rs10520072
hCV31237567
rs11749272
0.9
0.927


hCV2961280
rs10520072
hCV346713
rs1990023
0.9
0.9232


hCV2961280
rs10520072
hCV546489
rs264122
0.9
0.9616


hCV2961280
rs10520072
hCV8932829
rs1116596
0.9
0.927


hCV2961282
rs917295
hCV11819780
rs12153185
0.9
1


hCV2961282
rs917295
hCV11819782
rs12719415
0.9
1


hCV2961282
rs917295
hCV2575318
rs7711358
0.9
0.927


hCV2961282
rs917295
hCV2575336
rs2418541
0.9
0.927


hCV2961282
rs917295
hCV2575340
rs11242020
0.9
0.927


hCV2961282
rs917295
hCV26478744
rs2016194
0.9
0.9197


hCV2961282
rs917295
hCV26478745
rs2108426
0.9
0.9134


hCV2961282
rs917295
hCV26478747
rs2190598
0.9
1


hCV2961282
rs917295
hCV26478763
rs2418542
0.9
0.927


hCV2961282
rs917295
hCV27996154
rs4836502
0.9
1


hCV2961282
rs917295
hCV2961244
rs2418548
0.9
1


hCV2961282
rs917295
hCV2961250
rs4836507
0.9
1


hCV2961282
rs917295
hCV2961252
rs10067895
0.9
1


hCV2961282
rs917295
hCV2961253
rs2190600
0.9
1


hCV2961282
rs917295
hCV2961259
rs11242023
0.9
0.9621


hCV2961282
rs917295
hCV2961260
rs11242022
0.9
1


hCV2961282
rs917295
hCV2961261
rs11242021
0.9
1


hCV2961282
rs917295
hCV2961267
rs1476714
0.9
1


hCV2961282
rs917295
hCV2961268
rs2108425
0.9
1


hCV2961282
rs917295
hCV2961269
rs2158958
0.9
1


hCV2961282
rs917295
hCV2961270
rs9327555
0.9
1


hCV2961282
rs917295
hCV2961278
rs7446891
0.9
1


hCV2961282
rs917295
hCV2961280
rs10520072
0.9
1


hCV2961282
rs917295
hCV2961284
rs10054055
0.9
0.9616


hCV2961282
rs917295
hCV2961296
rs10051148
0.9
0.9623


hCV2961282
rs917295
hCV2961297
rs2158961
0.9
0.9634


hCV2961282
rs917295
hCV2961306
rs264129
0.9
0.9232


hCV2961282
rs917295
hCV30621656
rs10478919
0.9
0.927


hCV2961282
rs917295
hCV31237567
rs11749272
0.9
0.927


hCV2961282
rs917295
hCV346713
rs1990023
0.9
0.9232


hCV2961282
rs917295
hCV546489
rs264122
0.9
0.9616


hCV2961282
rs917295
hCV8932829
rs1116596
0.9
0.927


hCV2961284
rs10054055
hCV11819780
rs12153185
0.9
0.9573


hCV2961284
rs10054055
hCV11819782
rs12719415
0.9
0.9616


hCV2961284
rs10054055
hCV2575318
rs7711358
0.9
0.9616


hCV2961284
rs10054055
hCV2575336
rs2418541
0.9
0.9616


hCV2961284
rs10054055
hCV2575340
rs11242020
0.9
0.9616


hCV2961284
rs10054055
hCV26478744
rs2016194
0.9
0.9581


hCV2961284
rs10054055
hCV26478745
rs2108426
0.9
1


hCV2961284
rs10054055
hCV26478747
rs2190598
0.9
0.96


hCV2961284
rs10054055
hCV26478763
rs2418542
0.9
0.9616


hCV2961284
rs10054055
hCV27996154
rs4836502
0.9
0.9616


hCV2961284
rs10054055
hCV2961244
rs2418548
0.9
0.9573


hCV2961284
rs10054055
hCV2961250
rs4836507
0.9
0.9616


hCV2961284
rs10054055
hCV2961252
rs10067895
0.9
0.9616


hCV2961284
rs10054055
hCV2961253
rs2190600
0.9
0.9616


hCV2961284
rs10054055
hCV2961259
rs11242023
0.9
0.9573


hCV2961284
rs10054055
hCV2961260
rs11242022
0.9
0.9783


hCV2961284
rs10054055
hCV2961261
rs11242021
0.9
0.9608


hCV2961284
rs10054055
hCV2961267
rs1476714
0.9
0.9587


hCV2961284
rs10054055
hCV2961268
rs2108425
0.9
0.9616


hCV2961284
rs10054055
hCV2961269
rs2158958
0.9
0.9616


hCV2961284
rs10054055
hCV2961270
rs9327555
0.9
0.9616


hCV2961284
rs10054055
hCV2961278
rs7446891
0.9
0.9616


hCV2961284
rs10054055
hCV2961280
rs10520072
0.9
0.9616


hCV2961284
rs10054055
hCV2961282
rs917295
0.9
0.9616


hCV2961284
rs10054055
hCV2961296
rs10051148
0.9
1


hCV2961284
rs10054055
hCV2961297
rs2158961
0.9
1


hCV2961284
rs10054055
hCV2961306
rs264129
0.9
0.9783


hCV2961284
rs10054055
hCV29666186
rs6871041
0.9
0.9189


hCV2961284
rs10054055
hCV30621656
rs10478919
0.9
0.9616


hCV2961284
rs10054055
hCV31237567
rs11749272
0.9
0.9616


hCV2961284
rs10054055
hCV346713
rs1990023
0.9
0.9783


hCV2961284
rs10054055
hCV546489
rs264122
0.9
1


hCV2961284
rs10054055
hCV8932829
rs1116596
0.9
0.9616


hCV2961296
rs10051148
hCV11819780
rs12153185
0.9
0.9608


hCV2961296
rs10051148
hCV11819782
rs12719415
0.9
0.9623


hCV2961296
rs10051148
hCV2575318
rs7711358
0.9
0.9623


hCV2961296
rs10051148
hCV2575336
rs2418541
0.9
0.9623


hCV2961296
rs10051148
hCV2575340
rs11242020
0.9
0.9623


hCV2961296
rs10051148
hCV26478744
rs2016194
0.9
0.9589


hCV2961296
rs10051148
hCV26478745
rs2108426
0.9
1


hCV2961296
rs10051148
hCV26478747
rs2190598
0.9
0.9615


hCV2961296
rs10051148
hCV26478763
rs2418542
0.9
0.9623


hCV2961296
rs10051148
hCV27996154
rs4836502
0.9
0.9623


hCV2961296
rs10051148
hCV2961244
rs2418548
0.9
0.9608


hCV2961296
rs10051148
hCV2961250
rs4836507
0.9
0.9623


hCV2961296
rs10051148
hCV2961252
rs10067895
0.9
0.9623


hCV2961296
rs10051148
hCV2961253
rs2190600
0.9
0.9623


hCV2961296
rs10051148
hCV2961259
rs11242023
0.9
0.9236


hCV2961296
rs10051148
hCV2961260
rs11242022
0.9
0.9608


hCV2961296
rs10051148
hCV2961261
rs11242021
0.9
0.9615


hCV2961296
rs10051148
hCV2961267
rs1476714
0.9
0.9595


hCV2961296
rs10051148
hCV2961268
rs2108425
0.9
0.9623


hCV2961296
rs10051148
hCV2961269
rs2158958
0.9
0.9623


hCV2961296
rs10051148
hCV2961270
rs9327555
0.9
0.9623


hCV2961296
rs10051148
hCV2961278
rs7446891
0.9
0.9623


hCV2961296
rs10051148
hCV2961280
rs10520072
0.9
0.9623


hCV2961296
rs10051148
hCV2961282
rs917295
0.9
0.9623


hCV2961296
rs10051148
hCV2961284
rs10054055
0.9
1


hCV2961296
rs10051148
hCV2961297
rs2158961
0.9
1


hCV2961296
rs10051148
hCV2961306
rs264129
0.9
0.9608


hCV2961296
rs10051148
hCV29666186
rs6871041
0.9
0.9202


hCV2961296
rs10051148
hCV30621656
rs10478919
0.9
0.9623


hCV2961296
rs10051148
hCV31237567
rs11749272
0.9
0.9623


hCV2961296
rs10051148
hCV346713
rs1990023
0.9
0.9608


hCV2961296
rs10051148
hCV546489
rs264122
0.9
1


hCV2961296
rs10051148
hCV8932829
rs1116596
0.9
0.9623


hCV2961297
rs2158961
hCV11819780
rs12153185
0.9
0.9616


hCV2961297
rs2158961
hCV11819782
rs12719415
0.9
0.9634


hCV2961297
rs2158961
hCV2575318
rs7711358
0.9
0.9634


hCV2961297
rs2158961
hCV2575336
rs2418541
0.9
0.9634


hCV2961297
rs2158961
hCV2575340
rs11242020
0.9
0.9634


hCV2961297
rs2158961
hCV26478745
rs2108426
0.9
0.9135


hCV2961297
rs2158961
hCV26478747
rs2190598
0.9
0.9619


hCV2961297
rs2158961
hCV26478763
rs2418542
0.9
0.9634


hCV2961297
rs2158961
hCV27996154
rs4836502
0.9
0.9634


hCV2961297
rs2158961
hCV2961244
rs2418548
0.9
0.9616


hCV2961297
rs2158961
hCV2961250
rs4836507
0.9
0.9634


hCV2961297
rs2158961
hCV2961252
rs10067895
0.9
0.9634


hCV2961297
rs2158961
hCV2961253
rs2190600
0.9
0.9634


hCV2961297
rs2158961
hCV2961259
rs11242023
0.9
0.9252


hCV2961297
rs2158961
hCV2961260
rs11242022
0.9
0.9616


hCV2961297
rs2158961
hCV2961261
rs11242021
0.9
0.9627


hCV2961297
rs2158961
hCV2961267
rs1476714
0.9
0.9607


hCV2961297
rs2158961
hCV2961268
rs2108425
0.9
0.9634


hCV2961297
rs2158961
hCV2961269
rs2158958
0.9
0.9634


hCV2961297
rs2158961
hCV2961270
rs9327555
0.9
0.9634


hCV2961297
rs2158961
hCV2961278
rs7446891
0.9
0.9634


hCV2961297
rs2158961
hCV2961280
rs10520072
0.9
0.9634


hCV2961297
rs2158961
hCV2961282
rs917295
0.9
0.9634


hCV2961297
rs2158961
hCV2961284
rs10054055
0.9
1


hCV2961297
rs2158961
hCV2961296
rs10051148
0.9
1


hCV2961297
rs2158961
hCV2961306
rs264129
0.9
0.9616


hCV2961297
rs2158961
hCV29666186
rs6871041
0.9
0.9226


hCV2961297
rs2158961
hCV30621656
rs10478919
0.9
0.9634


hCV2961297
rs2158961
hCV31237567
rs11749272
0.9
0.9634


hCV2961297
rs2158961
hCV346713
rs1990023
0.9
0.9616


hCV2961297
rs2158961
hCV546489
rs264122
0.9
1


hCV2961297
rs2158961
hCV8932829
rs1116596
0.9
0.9634


hCV2961306
rs264129
hCV11819780
rs12153185
0.9
0.9358


hCV2961306
rs264129
hCV11819782
rs12719415
0.9
0.9232


hCV2961306
rs264129
hCV2575318
rs7711358
0.9
0.9232


hCV2961306
rs264129
hCV2575336
rs2418541
0.9
0.9232


hCV2961306
rs264129
hCV2575340
rs11242020
0.9
0.9232


hCV2961306
rs264129
hCV26478744
rs2016194
0.9
0.9162


hCV2961306
rs264129
hCV26478745
rs2108426
0.9
0.9557


hCV2961306
rs264129
hCV26478747
rs2190598
0.9
0.9198


hCV2961306
rs264129
hCV26478763
rs2418542
0.9
0.9232


hCV2961306
rs264129
hCV27996154
rs4836502
0.9
0.9232


hCV2961306
rs264129
hCV2961244
rs2418548
0.9
0.9358


hCV2961306
rs264129
hCV2961250
rs4836507
0.9
0.9232


hCV2961306
rs264129
hCV2961252
rs10067895
0.9
0.9232


hCV2961306
rs264129
hCV2961253
rs2190600
0.9
0.9232


hCV2961306
rs264129
hCV2961259
rs11242023
0.9
0.9358


hCV2961306
rs264129
hCV2961260
rs11242022
0.9
0.9567


hCV2961306
rs264129
hCV2961261
rs11242021
0.9
0.9216


hCV2961306
rs264129
hCV2961267
rs1476714
0.9
0.9172


hCV2961306
rs264129
hCV2961268
rs2108425
0.9
0.9232


hCV2961306
rs264129
hCV2961269
rs2158958
0.9
0.9232


hCV2961306
rs264129
hCV2961270
rs9327555
0.9
0.9232


hCV2961306
rs264129
hCV2961278
rs7446891
0.9
0.9232


hCV2961306
rs264129
hCV2961280
rs10520072
0.9
0.9232


hCV2961306
rs264129
hCV2961282
rs917295
0.9
0.9232


hCV2961306
rs264129
hCV2961284
rs10054055
0.9
0.9783


hCV2961306
rs264129
hCV2961296
rs10051148
0.9
0.9608


hCV2961306
rs264129
hCV2961297
rs2158961
0.9
0.9616


hCV2961306
rs264129
hCV30621656
rs10478919
0.9
0.9232


hCV2961306
rs264129
hCV31237567
rs11749272
0.9
0.9232


hCV2961306
rs264129
hCV346713
rs1990023
0.9
0.9567


hCV2961306
rs264129
hCV546489
rs264122
0.9
0.9783


hCV2961306
rs264129
hCV8932829
rs1116596
0.9
0.9232


hCV29666186
rs6871041
hCV2961284
rs10054055
0.9
0.9189


hCV29666186
rs6871041
hCV2961296
rs10051148
0.9
0.9202


hCV29666186
rs6871041
hCV2961297
rs2158961
0.9
0.9226


hCV29666186
rs6871041
hCV546489
rs264122
0.9
0.9189


hCV29840965
rs6040644
hCV2529198
rs742827
0.9
0.9596


hCV29840965
rs6040644
hCV2529202
rs6040667
0.9
1


hCV29840965
rs6040644
hCV2529211
rs17189710
0.9
1


hCV29840965
rs6040644
hCV2529224
rs2327412
0.9
1


hCV29840965
rs6040644
hCV2529230
rs4444612
0.9
1


hCV29840965
rs6040644
hCV2529231
rs4315598
0.9
1


hCV29840965
rs6040644
hCV2529239
rs6040638
0.9
1


hCV29840965
rs6040644
hCV2529241
rs6134243
0.9
1


hCV29840965
rs6040644
hCV2529246
rs6040619
0.9
1


hCV29840965
rs6040644
hCV27367681
rs2876227
0.9
0.9616


hCV29840965
rs6040644
hCV27367708
rs1009748
0.9
1


hCV29840965
rs6040644
hCV30057061
rs6033138
0.9
1


hCV29840965
rs6040644
hCV30093270
rs6040625
0.9
1


hCV29840965
rs6040644
hCV30129243
rs6040636
0.9
1


hCV29840965
rs6040644
hCV30218977
rs6040633
0.9
1


hCV29840965
rs6040644
hCV30417550
rs6040634
0.9
1


hCV29840965
rs6040644
hCV30453433
rs6131208
0.9
0.9565


hCV29840965
rs6040644
hCV30615489
rs6040630
0.9
0.9225


hCV29840965
rs6040644
hCV32274419
rs13038146
0.9
1


hCV29840965
rs6040644
hCV330228
rs6040668
0.9
1


hCV29997278
rs9906737
hCV11625525
rs7222186
0.9
1


hCV29997278
rs9906737
hCV1558080
rs9914580
0.9
1


hCV29997278
rs9906737
hCV1558085
rs11656608
0.9
1


hCV29997278
rs9906737
hCV29293441
rs8066502
0.9
1


hCV29997278
rs9906737
hCV29979212
rs8068714
0.9
1


hCV30057061
rs6033138
hCV2529198
rs742827
0.9
0.9624


hCV30057061
rs6033138
hCV2529202
rs6040667
0.9
1


hCV30057061
rs6033138
hCV2529211
rs17189710
0.9
1


hCV30057061
rs6033138
hCV2529224
rs2327412
0.9
1


hCV30057061
rs6033138
hCV2529230
rs4444612
0.9
1


hCV30057061
rs6033138
hCV2529231
rs4315598
0.9
1


hCV30057061
rs6033138
hCV2529239
rs6040638
0.9
1


hCV30057061
rs6033138
hCV2529241
rs6134243
0.9
1


hCV30057061
rs6033138
hCV2529246
rs6040619
0.9
1


hCV30057061
rs6033138
hCV27367681
rs2876227
0.9
0.9649


hCV30057061
rs6033138
hCV27367708
rs1009748
0.9
1


hCV30057061
rs6033138
hCV29840965
rs6040644
0.9
1


hCV30057061
rs6033138
hCV30093270
rs6040625
0.9
1


hCV30057061
rs6033138
hCV30129243
rs6040636
0.9
1


hCV30057061
rs6033138
hCV30218977
rs6040633
0.9
1


hCV30057061
rs6033138
hCV30417550
rs6040634
0.9
1


hCV30057061
rs6033138
hCV30453433
rs6131208
0.9
0.9585


hCV30057061
rs6033138
hCV30615489
rs6040630
0.9
0.9294


hCV30057061
rs6033138
hCV32274419
rs13038146
0.9
1


hCV30057061
rs6033138
hCV330228
rs6040668
0.9
1


hCV30093270
rs6040625
hCV2529198
rs742827
0.9
0.9624


hCV30093270
rs6040625
hCV2529202
rs6040667
0.9
1


hCV30093270
rs6040625
hCV2529211
rs17189710
0.9
1


hCV30093270
rs6040625
hCV2529224
rs2327412
0.9
1


hCV30093270
rs6040625
hCV2529230
rs4444612
0.9
1


hCV30093270
rs6040625
hCV2529231
rs4315598
0.9
1


hCV30093270
rs6040625
hCV2529239
rs6040638
0.9
1


hCV30093270
rs6040625
hCV2529241
rs6134243
0.9
1


hCV30093270
rs6040625
hCV2529246
rs6040619
0.9
1


hCV30093270
rs6040625
hCV27367681
rs2876227
0.9
0.9649


hCV30093270
rs6040625
hCV27367708
rs1009748
0.9
1


hCV30093270
rs6040625
hCV29840965
rs6040644
0.9
1


hCV30093270
rs6040625
hCV30057061
rs6033138
0.9
1


hCV30093270
rs6040625
hCV30129243
rs6040636
0.9
1


hCV30093270
rs6040625
hCV30218977
rs6040633
0.9
1


hCV30093270
rs6040625
hCV30417550
rs6040634
0.9
1


hCV30093270
rs6040625
hCV30453433
rs6131208
0.9
0.9585


hCV30093270
rs6040625
hCV30615489
rs6040630
0.9
0.9294


hCV30093270
rs6040625
hCV32274419
rs13038146
0.9
1


hCV30093270
rs6040625
hCV330228
rs6040668
0.9
1


hCV30129243
rs6040636
hCV2529198
rs742827
0.9
0.9624


hCV30129243
rs6040636
hCV2529202
rs6040667
0.9
1


hCV30129243
rs6040636
hCV2529211
rs17189710
0.9
1


hCV30129243
rs6040636
hCV2529224
rs2327412
0.9
1


hCV30129243
rs6040636
hCV2529230
rs4444612
0.9
1


hCV30129243
rs6040636
hCV2529231
rs4315598
0.9
1


hCV30129243
rs6040636
hCV2529239
rs6040638
0.9
1


hCV30129243
rs6040636
hCV2529241
rs6134243
0.9
1


hCV30129243
rs6040636
hCV2529246
rs6040619
0.9
1


hCV30129243
rs6040636
hCV27367681
rs2876227
0.9
0.9649


hCV30129243
rs6040636
hCV27367708
rs1009748
0.9
1


hCV30129243
rs6040636
hCV29840965
rs6040644
0.9
1


hCV30129243
rs6040636
hCV30057061
rs6033138
0.9
1


hCV30129243
rs6040636
hCV30093270
rs6040625
0.9
1


hCV30129243
rs6040636
hCV30218977
rs6040633
0.9
1


hCV30129243
rs6040636
hCV30417550
rs6040634
0.9
1


hCV30129243
rs6040636
hCV30453433
rs6131208
0.9
0.9585


hCV30129243
rs6040636
hCV30615489
rs6040630
0.9
0.9294


hCV30129243
rs6040636
hCV32274419
rs13038146
0.9
1


hCV30129243
rs6040636
hCV330228
rs6040668
0.9
1


hCV30202184
rs6685920
hCV1166098
rs4660234
0.9
1


hCV30202184
rs6685920
hCV1166103
rs12407412
0.9
1


hCV30202184
rs6685920
hCV1166105
rs11576627
0.9
1


hCV30218977
rs6040633
hCV2529198
rs742827
0.9
0.9624


hCV30218977
rs6040633
hCV2529202
rs6040667
0.9
1


hCV30218977
rs6040633
hCV2529211
rs17189710
0.9
1


hCV30218977
rs6040633
hCV2529224
rs2327412
0.9
1


hCV30218977
rs6040633
hCV2529230
rs4444612
0.9
1


hCV30218977
rs6040633
hCV2529231
rs4315598
0.9
1


hCV30218977
rs6040633
hCV2529239
rs6040638
0.9
1


hCV30218977
rs6040633
hCV2529241
rs6134243
0.9
1


hCV30218977
rs6040633
hCV2529246
rs6040619
0.9
1


hCV30218977
rs6040633
hCV27367681
rs2876227
0.9
0.9649


hCV30218977
rs6040633
hCV27367708
rs1009748
0.9
1


hCV30218977
rs6040633
hCV29840965
rs6040644
0.9
1


hCV30218977
rs6040633
hCV30057061
rs6033138
0.9
1


hCV30218977
rs6040633
hCV30093270
rs6040625
0.9
1


hCV30218977
rs6040633
hCV30129243
rs6040636
0.9
1


hCV30218977
rs6040633
hCV30417550
rs6040634
0.9
1


hCV30218977
rs6040633
hCV30453433
rs6131208
0.9
0.9585


hCV30218977
rs6040633
hCV30615489
rs6040630
0.9
0.9294


hCV30218977
rs6040633
hCV32274419
rs13038146
0.9
1


hCV30218977
rs6040633
hCV330228
rs6040668
0.9
1


hCV3023182
rs2648694
hCV1408878
rs17194378
0.9
1


hCV3023182
rs2648694
hCV16274605
rs2653496
0.9
0.9203


hCV3023182
rs2648694
hCV1871425
rs7610808
0.9
0.9234


hCV3023182
rs2648694
hCV1871428
rs10049421
0.9
0.9616


hCV3023182
rs2648694
hCV1871433
rs9310741
0.9
0.9382


hCV3023182
rs2648694
hCV26850538
rs2648687
0.9
0.9392


hCV3023182
rs2648694
hCV26850540
rs2616575
0.9
0.9392


hCV3023182
rs2648694
hCV29941790
rs9852630
0.9
0.9203


hCV3023182
rs2648694
hCV3095156
rs2616569
0.9
0.9011


hCV3023182
rs2648694
hCV3095166
rs2616571
0.9
0.9613


hCV30243451
rs10270624
hCV11435810
rs7808536
0.9
1


hCV30243451
rs10270624
hCV11435811
rs2057903
0.9
1


hCV30243451
rs10270624
hCV16010888
rs2402516
0.9
0.9338


hCV30243451
rs10270624
hCV16151622
rs2896295
0.9
1


hCV30243451
rs10270624
hCV2580015
rs6973461
0.9
1


hCV30243451
rs10270624
hCV26499740
rs1344081
0.9
0.9401


hCV30243451
rs10270624
hCV29630277
rs7799541
0.9
0.9714


hCV30243451
rs10270624
hCV29720798
rs10228725
0.9
1


hCV30243451
rs10270624
hCV29738883
rs10237648
0.9
1


hCV30243451
rs10270624
hCV29865261
rs10226287
0.9
1


hCV30243451
rs10270624
hCV30441808
rs10487413
0.9
0.9396


hCV30243451
rs10270624
hCV31281599
rs13438543
0.9
1


hCV30332546
rs9346951
hCV30080541
rs9346948
0.9
1


hCV30332546
rs9346951
hCV3125579
rs10945874
0.9
0.9549


hCV30417550
rs6040634
hCV2529198
rs742827
0.9
0.9624


hCV30417550
rs6040634
hCV2529202
rs6040667
0.9
1


hCV30417550
rs6040634
hCV2529211
rs17189710
0.9
1


hCV30417550
rs6040634
hCV2529224
rs2327412
0.9
1


hCV30417550
rs6040634
hCV2529230
rs4444612
0.9
1


hCV30417550
rs6040634
hCV2529231
rs4315598
0.9
1


hCV30417550
rs6040634
hCV2529239
rs6040638
0.9
1


hCV30417550
rs6040634
hCV2529241
rs6134243
0.9
1


hCV30417550
rs6040634
hCV2529246
rs6040619
0.9
1


hCV30417550
rs6040634
hCV27367681
rs2876227
0.9
0.9649


hCV30417550
rs6040634
hCV27367708
rs1009748
0.9
1


hCV30417550
rs6040634
hCV29840965
rs6040644
0.9
1


hCV30417550
rs6040634
hCV30057061
rs6033138
0.9
1


hCV30417550
rs6040634
hCV30093270
rs6040625
0.9
1


hCV30417550
rs6040634
hCV30129243
rs6040636
0.9
1


hCV30417550
rs6040634
hCV30218977
rs6040633
0.9
1


hCV30417550
rs6040634
hCV30453433
rs6131208
0.9
0.9585


hCV30417550
rs6040634
hCV30615489
rs6040630
0.9
0.9294


hCV30417550
rs6040634
hCV32274419
rs13038146
0.9
1


hCV30417550
rs6040634
hCV330228
rs6040668
0.9
1


hCV30453433
rs6131208
hCV2529198
rs742827
0.9
0.9167


hCV30453433
rs6131208
hCV2529202
rs6040667
0.9
0.9585


hCV30453433
rs6131208
hCV2529210
rs6131206
0.9
0.9129


hCV30453433
rs6131208
hCV2529211
rs17189710
0.9
0.9565


hCV30453433
rs6131208
hCV2529224
rs2327412
0.9
0.9565


hCV30453433
rs6131208
hCV2529230
rs4444612
0.9
0.9565


hCV30453433
rs6131208
hCV2529231
rs4315598
0.9
0.9565


hCV30453433
rs6131208
hCV2529239
rs6040638
0.9
0.9565


hCV30453433
rs6131208
hCV2529241
rs6134243
0.9
0.9585


hCV30453433
rs6131208
hCV2529246
rs6040619
0.9
0.9565


hCV30453433
rs6131208
hCV27367681
rs2876227
0.9
0.9193


hCV30453433
rs6131208
hCV27367708
rs1009748
0.9
0.9565


hCV30453433
rs6131208
hCV29840965
rs6040644
0.9
0.9565


hCV30453433
rs6131208
hCV30057061
rs6033138
0.9
0.9585


hCV30453433
rs6131208
hCV30093270
rs6040625
0.9
0.9585


hCV30453433
rs6131208
hCV30129243
rs6040636
0.9
0.9585


hCV30453433
rs6131208
hCV30218977
rs6040633
0.9
0.9585


hCV30453433
rs6131208
hCV30417550
rs6040634
0.9
0.9585


hCV30453433
rs6131208
hCV32274419
rs13038146
0.9
0.9585


hCV30453433
rs6131208
hCV330228
rs6040668
0.9
0.9585


hCV30615489
rs6040630
hCV2529202
rs6040667
0.9
0.9294


hCV30615489
rs6040630
hCV2529211
rs17189710
0.9
0.9225


hCV30615489
rs6040630
hCV2529224
rs2327412
0.9
0.9225


hCV30615489
rs6040630
hCV2529230
rs4444612
0.9
0.9225


hCV30615489
rs6040630
hCV2529231
rs4315598
0.9
0.9225


hCV30615489
rs6040630
hCV2529239
rs6040638
0.9
0.9225


hCV30615489
rs6040630
hCV2529241
rs6134243
0.9
0.9294


hCV30615489
rs6040630
hCV2529246
rs6040619
0.9
0.9225


hCV30615489
rs6040630
hCV27367708
rs1009748
0.9
0.9225


hCV30615489
rs6040630
hCV29840965
rs6040644
0.9
0.9225


hCV30615489
rs6040630
hCV30057061
rs6033138
0.9
0.9294


hCV30615489
rs6040630
hCV30093270
rs6040625
0.9
0.9294


hCV30615489
rs6040630
hCV30129243
rs6040636
0.9
0.9294


hCV30615489
rs6040630
hCV30218977
rs6040633
0.9
0.9294


hCV30615489
rs6040630
hCV30417550
rs6040634
0.9
0.9294


hCV30615489
rs6040630
hCV32274419
rs13038146
0.9
0.9294


hCV30615489
rs6040630
hCV330228
rs6040668
0.9
0.9294


hCV30621656
rs10478919
hCV11819780
rs12153185
0.9
0.9232


hCV30621656
rs10478919
hCV11819782
rs12719415
0.9
0.927


hCV30621656
rs10478919
hCV2575318
rs7711358
0.9
1


hCV30621656
rs10478919
hCV2575336
rs2418541
0.9
1


hCV30621656
rs10478919
hCV2575340
rs11242020
0.9
1


hCV30621656
rs10478919
hCV26478747
rs2190598
0.9
0.9239


hCV30621656
rs10478919
hCV26478763
rs2418542
0.9
1


hCV30621656
rs10478919
hCV27996154
rs4836502
0.9
0.927


hCV30621656
rs10478919
hCV2961244
rs2418548
0.9
0.9232


hCV30621656
rs10478919
hCV2961250
rs4836507
0.9
0.927


hCV30621656
rs10478919
hCV2961252
rs10067895
0.9
0.927


hCV30621656
rs10478919
hCV2961253
rs2190600
0.9
0.927


hCV30621656
rs10478919
hCV2961260
rs11242022
0.9
0.9232


hCV30621656
rs10478919
hCV2961261
rs11242021
0.9
0.9255


hCV30621656
rs10478919
hCV2961267
rs1476714
0.9
0.9607


hCV30621656
rs10478919
hCV2961268
rs2108425
0.9
0.927


hCV30621656
rs10478919
hCV2961269
rs2158958
0.9
0.927


hCV30621656
rs10478919
hCV2961270
rs9327555
0.9
0.927


hCV30621656
rs10478919
hCV2961278
rs7446891
0.9
0.927


hCV30621656
rs10478919
hCV2961280
rs10520072
0.9
0.927


hCV30621656
rs10478919
hCV2961282
rs917295
0.9
0.927


hCV30621656
rs10478919
hCV2961284
rs10054055
0.9
0.9616


hCV30621656
rs10478919
hCV2961296
rs10051148
0.9
0.9623


hCV30621656
rs10478919
hCV2961297
rs2158961
0.9
0.9634


hCV30621656
rs10478919
hCV2961306
rs264129
0.9
0.9232


hCV30621656
rs10478919
hCV31237567
rs11749272
0.9
1


hCV30621656
rs10478919
hCV346713
rs1990023
0.9
1


hCV30621656
rs10478919
hCV546489
rs264122
0.9
0.9616


hCV30621656
rs10478919
hCV8932829
rs1116596
0.9
1


hCV30935888
rs13089860
hCV11226226
rs4234592
0.9
1


hCV30935888
rs13089860
hCV1712351
rs2280209
0.9
0.9621


hCV30935888
rs13089860
hCV29037733
rs6444109
0.9
1


hCV30935888
rs13089860
hCV29037738
rs7627157
0.9
1


hCV30935888
rs13089860
hCV29735597
rs9826842
0.9
0.9051


hCV30935888
rs13089860
hCV29771757
rs4234591
0.9
1


hCV31080080
rs12679254
hCV1319516
rs12678600
0.9
1


hCV31080080
rs12679254
hCV1319518
rs13265054
0.9
1


hCV31190748
rs7959965
hCV11686367
rs7955901
0.9
0.9442


hCV31190748
rs7959965
hCV11686374
rs7957932
0.9
0.9161


hCV31190748
rs7959965
hCV171102
rs7313973
0.9
0.9568


hCV31190748
rs7959965
hCV240133
rs4760895
0.9
0.9644


hCV31190748
rs7959965
hCV2745805
rs7132840
0.9
0.9268


hCV31190748
rs7959965
hCV2745807
rs2063591
0.9
0.9303


hCV31190748
rs7959965
hCV2745815
rs1512991
0.9
1


hCV31190748
rs7959965
hCV2745828
rs10879240
0.9
0.9274


hCV31190748
rs7959965
hCV27952502
rs4760894
0.9
0.9644


hCV31190748
rs7959965
hCV27952503
rs4760785
0.9
0.9644


hCV31190748
rs7959965
hCV29120310
rs7298255
0.9
1


hCV31190748
rs7959965
hCV31190777
rs10784891
0.9
1


hCV31190748
rs7959965
hDV72015086
rs7956274
0.9
1


hCV31190777
rs10784891
hCV11686367
rs7955901
0.9
1


hCV31190777
rs10784891
hCV11686374
rs7957932
0.9
0.9572


hCV31190777
rs10784891
hCV171102
rs7313973
0.9
0.9553


hCV31190777
rs10784891
hCV240133
rs4760895
0.9
0.962


hCV31190777
rs10784891
hCV240134
rs7138300
0.9
0.9588


hCV31190777
rs10784891
hCV2745797
rs1877527
0.9
0.9555


hCV31190777
rs10784891
hCV2745800
rs11178531
0.9
1


hCV31190777
rs10784891
hCV2745805
rs7132840
0.9
1


hCV31190777
rs10784891
hCV2745807
rs2063591
0.9
0.962


hCV31190777
rs10784891
hCV2745815
rs1512991
0.9
1


hCV31190777
rs10784891
hCV2745822
rs1913201
0.9
0.9588


hCV31190777
rs10784891
hCV2745828
rs10879240
0.9
0.9235


hCV31190777
rs10784891
hCV27952502
rs4760894
0.9
0.962


hCV31190777
rs10784891
hCV27952503
rs4760785
0.9
0.962


hCV31190777
rs10784891
hCV29120310
rs7298255
0.9
1


hCV31190777
rs10784891
hCV31190748
rs7959965
0.9
1


hCV31190777
rs10784891
hDV72015086
rs7956274
0.9
1


hCV31237567
rs11749272
hCV11819780
rs12153185
0.9
0.9232


hCV31237567
rs11749272
hCV11819782
rs12719415
0.9
0.927


hCV31237567
rs11749272
hCV2575318
rs7711358
0.9
1


hCV31237567
rs11749272
hCV2575336
rs2418541
0.9
1


hCV31237567
rs11749272
hCV2575340
rs11242020
0.9
1


hCV31237567
rs11749272
hCV26478747
rs2190598
0.9
0.9239


hCV31237567
rs11749272
hCV26478763
rs2418542
0.9
1


hCV31237567
rs11749272
hCV27996154
rs4836502
0.9
0.927


hCV31237567
rs11749272
hCV2961244
rs2418548
0.9
0.9232


hCV31237567
rs11749272
hCV2961250
rs4836507
0.9
0.927


hCV31237567
rs11749272
hCV2961252
rs10067895
0.9
0.927


hCV31237567
rs11749272
hCV2961253
rs2190600
0.9
0.927


hCV31237567
rs11749272
hCV2961260
rs11242022
0.9
0.9232


hCV31237567
rs11749272
hCV2961261
rs11242021
0.9
0.9255


hCV31237567
rs11749272
hCV2961267
rs1476714
0.9
0.9607


hCV31237567
rs11749272
hCV2961268
rs2108425
0.9
0.927


hCV31237567
rs11749272
hCV2961269
rs2158958
0.9
0.927


hCV31237567
rs11749272
hCV2961270
rs9327555
0.9
0.927


hCV31237567
rs11749272
hCV2961278
rs7446891
0.9
0.927


hCV31237567
rs11749272
hCV2961280
rs10520072
0.9
0.927


hCV31237567
rs11749272
hCV2961282
rs917295
0.9
0.927


hCV31237567
rs11749272
hCV2961284
rs10054055
0.9
0.9616


hCV31237567
rs11749272
hCV2961296
rs10051148
0.9
0.9623


hCV31237567
rs11749272
hCV2961297
rs2158961
0.9
0.9634


hCV31237567
rs11749272
hCV2961306
rs264129
0.9
0.9232


hCV31237567
rs11749272
hCV30621656
rs10478919
0.9
1


hCV31237567
rs11749272
hCV346713
rs1990023
0.9
1


hCV31237567
rs11749272
hCV546489
rs264122
0.9
0.9616


hCV31237567
rs11749272
hCV8932829
rs1116596
0.9
1


hCV3125579
rs10945874
hCV30080541
rs9346948
0.9
1


hCV3125579
rs10945874
hCV30332546
rs9346951
0.9
0.9549


hCV31587413
rs6746182
hCV31587414
rs6746170
0.9
1


hCV31587413
rs6746182
hCV31587415
rs6544728
0.9
1


hCV31587413
rs6746182
hCV31587430
rs11124962
0.9
0.9489


hCV31587414
rs6746170
hCV31587413
rs6746182
0.9
1


hCV31587414
rs6746170
hCV31587415
rs6544728
0.9
1


hCV31587414
rs6746170
hCV31587430
rs11124962
0.9
0.9489


hCV31587415
rs6544728
hCV25642662
rs10190161
0.9
0.9224


hCV31587415
rs6544728
hCV31587413
rs6746182
0.9
1


hCV31587415
rs6544728
hCV31587414
rs6746170
0.9
1


hCV31587415
rs6544728
hCV31587430
rs11124962
0.9
0.9602


hCV31587430
rs11124962
hCV31587413
rs6746182
0.9
0.9489


hCV31587430
rs11124962
hCV31587414
rs6746170
0.9
0.9489


hCV31587430
rs11124962
hCV31587415
rs6544728
0.9
0.9602


hCV3172867
rs316720
hCV989588
rs669684
0.9
0.9626


hCV3172867
rs316720
hCV989658
rs647645
0.9
0.9631


hCV31931605
rs7022281
hCV27084860
rs10758326
0.9
0.9004


hCV31931605
rs7022281
hCV31931609
rs10738948
0.9
0.9289


hCV31931609
rs10738948
hCV27084860
rs10758326
0.9
0.9637


hCV31931609
rs10738948
hCV31931605
rs7022281
0.9
0.9289


hCV32014843
rs11221075
hCV1056544
rs675163
0.9
1


hCV32014843
rs11221075
hCV32014853
rs11221097
0.9
1


hCV32014843
rs11221075
hCV767324
rs687047
0.9
1


hCV32274419
rs13038146
hCV2529198
rs742827
0.9
0.9624


hCV32274419
rs13038146
hCV2529202
rs6040667
0.9
1


hCV32274419
rs13038146
hCV2529211
rs17189710
0.9
1


hCV32274419
rs13038146
hCV2529224
rs2327412
0.9
1


hCV32274419
rs13038146
hCV2529230
rs4444612
0.9
1


hCV32274419
rs13038146
hCV2529231
rs4315598
0.9
1


hCV32274419
rs13038146
hCV2529239
rs6040638
0.9
1


hCV32274419
rs13038146
hCV2529241
rs6134243
0.9
1


hCV32274419
rs13038146
hCV2529246
rs6040619
0.9
1


hCV32274419
rs13038146
hCV27367681
rs2876227
0.9
0.9649


hCV32274419
rs13038146
hCV27367708
rs1009748
0.9
1


hCV32274419
rs13038146
hCV29840965
rs6040644
0.9
1


hCV32274419
rs13038146
hCV30057061
rs6033138
0.9
1


hCV32274419
rs13038146
hCV30093270
rs6040625
0.9
1


hCV32274419
rs13038146
hCV30129243
rs6040636
0.9
1


hCV32274419
rs13038146
hCV30218977
rs6040633
0.9
1


hCV32274419
rs13038146
hCV30417550
rs6040634
0.9
1


hCV32274419
rs13038146
hCV30453433
rs6131208
0.9
0.9585


hCV32274419
rs13038146
hCV30615489
rs6040630
0.9
0.9294


hCV32274419
rs13038146
hCV330228
rs6040668
0.9
1


hCV330228
rs6040668
hCV2529198
rs742827
0.9
0.9624


hCV330228
rs6040668
hCV2529202
rs6040667
0.9
1


hCV330228
rs6040668
hCV2529211
rs17189710
0.9
1


hCV330228
rs6040668
hCV2529224
rs2327412
0.9
1


hCV330228
rs6040668
hCV2529230
rs4444612
0.9
1


hCV330228
rs6040668
hCV2529231
rs4315598
0.9
1


hCV330228
rs6040668
hCV2529239
rs6040638
0.9
1


hCV330228
rs6040668
hCV2529241
rs6134243
0.9
1


hCV330228
rs6040668
hCV2529246
rs6040619
0.9
1


hCV330228
rs6040668
hCV27367681
rs2876227
0.9
0.9649


hCV330228
rs6040668
hCV27367708
rs1009748
0.9
1


hCV330228
rs6040668
hCV29840965
rs6040644
0.9
1


hCV330228
rs6040668
hCV30057061
rs6033138
0.9
1


hCV330228
rs6040668
hCV30093270
rs6040625
0.9
1


hCV330228
rs6040668
hCV30129243
rs6040636
0.9
1


hCV330228
rs6040668
hCV30218977
rs6040633
0.9
1


hCV330228
rs6040668
hCV30417550
rs6040634
0.9
1


hCV330228
rs6040668
hCV30453433
rs6131208
0.9
0.9585


hCV330228
rs6040668
hCV30615489
rs6040630
0.9
0.9294


hCV330228
rs6040668
hCV32274419
rs13038146
0.9
1


hCV346713
rs1990023
hCV11819780
rs12153185
0.9
0.9358


hCV346713
rs1990023
hCV11819782
rs12719415
0.9
0.9232


hCV346713
rs1990023
hCV2575318
rs7711358
0.9
1


hCV346713
rs1990023
hCV2575336
rs2418541
0.9
1


hCV346713
rs1990023
hCV2575340
rs11242020
0.9
1


hCV346713
rs1990023
hCV26478744
rs2016194
0.9
0.9162


hCV346713
rs1990023
hCV26478745
rs2108426
0.9
0.9557


hCV346713
rs1990023
hCV26478747
rs2190598
0.9
0.9199


hCV346713
rs1990023
hCV26478763
rs2418542
0.9
1


hCV346713
rs1990023
hCV27996154
rs4836502
0.9
0.9232


hCV346713
rs1990023
hCV2961244
rs2418548
0.9
0.9358


hCV346713
rs1990023
hCV2961250
rs4836507
0.9
0.9232


hCV346713
rs1990023
hCV2961252
rs10067895
0.9
0.9232


hCV346713
rs1990023
hCV2961253
rs2190600
0.9
0.9232


hCV346713
rs1990023
hCV2961259
rs11242023
0.9
0.9358


hCV346713
rs1990023
hCV2961260
rs11242022
0.9
0.9567


hCV346713
rs1990023
hCV2961261
rs11242021
0.9
0.9216


hCV346713
rs1990023
hCV2961267
rs1476714
0.9
0.9587


hCV346713
rs1990023
hCV2961268
rs2108425
0.9
0.9232


hCV346713
rs1990023
hCV2961269
rs2158958
0.9
0.9232


hCV346713
rs1990023
hCV2961270
rs9327555
0.9
0.9232


hCV346713
rs1990023
hCV2961278
rs7446891
0.9
0.9232


hCV346713
rs1990023
hCV2961280
rs10520072
0.9
0.9232


hCV346713
rs1990023
hCV2961282
rs917295
0.9
0.9232


hCV346713
rs1990023
hCV2961284
rs10054055
0.9
0.9783


hCV346713
rs1990023
hCV2961296
rs10051148
0.9
0.9608


hCV346713
rs1990023
hCV2961297
rs2158961
0.9
0.9616


hCV346713
rs1990023
hCV2961306
rs264129
0.9
0.9567


hCV346713
rs1990023
hCV30621656
rs10478919
0.9
1


hCV346713
rs1990023
hCV31237567
rs11749272
0.9
1


hCV346713
rs1990023
hCV546489
rs264122
0.9
0.9783


hCV346713
rs1990023
hCV8932829
rs1116596
0.9
1


hCV349805
rs4851529
hCV16126066
rs2110564
0.9
0.9329


hCV349805
rs4851529
hCV2676440
rs6722640
0.9
0.9329


hCV349805
rs4851529
hCV27872026
rs4851531
0.9
0.9646


hCV349805
rs4851529
hCV8905894
rs974950
0.9
0.9303


hCV364260
rs2505039
hCV29557190
rs9487275
0.9
0.9632


hCV364260
rs2505039
hCV35209
rs4329143
0.9
0.9615


hCV364260
rs2505039
hCV364258
rs2505038
0.9
0.9806


hCV364260
rs2505039
hCV364261
rs7749240
0.9
0.9639


hCV375090
rs4450660
hCV26135665
rs4390811
0.9
0.96


hCV375090
rs4450660
hCV26771384
rs10865197
0.9
1


hCV375090
rs4450660
hCV26771389
rs10183431
0.9
1


hCV375090
rs4450660
hCV27875215
rs4346434
0.9
0.922


hCV375090
rs4450660
hCV27933339
rs4586678
0.9
1


hCV375090
rs4450660
hCV29229284
rs6741066
0.9
0.9591


hCV375090
rs4450660
hCV30817981
rs6723119
0.9
0.96


hCV375090
rs4450660
hCV375079
rs9309112
0.9
0.92


hCV375090
rs4450660
hCV375083
rs10206724
0.9
1


hCV375090
rs4450660
hCV514334
rs6544721
0.9
0.961


hCV443083
rs6742894
hCV48381
rs6743092
0.9
1


hCV443083
rs6742894
hCV48382
rs12465349
0.9
1


hCV48381
rs6743092
hCV443083
rs6742894
0.9
1


hCV48381
rs6743092
hCV48382
rs12465349
0.9
1


hCV514334
rs6544721
hCV25642662
rs10190161
0.9
0.9211


hCV514334
rs6544721
hCV26135665
rs4390811
0.9
0.9201


hCV514334
rs6544721
hCV26771384
rs10865197
0.9
0.961


hCV514334
rs6544721
hCV26771389
rs10183431
0.9
0.961


hCV514334
rs6544721
hCV27933339
rs4586678
0.9
0.961


hCV514334
rs6544721
hCV29229284
rs6741066
0.9
0.9183


hCV514334
rs6544721
hCV30817981
rs6723119
0.9
1


hCV514334
rs6544721
hCV375083
rs10206724
0.9
0.96


hCV514334
rs6544721
hCV375090
rs4450660
0.9
0.961


hCV546489
rs264122
hCV11819780
rs12153185
0.9
0.9573


hCV546489
rs264122
hCV11819782
rs12719415
0.9
0.9616


hCV546489
rs264122
hCV2575318
rs7711358
0.9
0.9616


hCV546489
rs264122
hCV2575336
rs2418541
0.9
0.9616


hCV546489
rs264122
hCV2575340
rs11242020
0.9
0.9616


hCV546489
rs264122
hCV26478744
rs2016194
0.9
0.9581


hCV546489
rs264122
hCV26478745
rs2108426
0.9
1


hCV546489
rs264122
hCV26478747
rs2190598
0.9
0.96


hCV546489
rs264122
hCV26478763
rs2418542
0.9
0.9616


hCV546489
rs264122
hCV27996154
rs4836502
0.9
0.9616


hCV546489
rs264122
hCV2961244
rs2418548
0.9
0.9573


hCV546489
rs264122
hCV2961250
rs4836507
0.9
0.9616


hCV546489
rs264122
hCV2961252
rs10067895
0.9
0.9616


hCV546489
rs264122
hCV2961253
rs2190600
0.9
0.9616


hCV546489
rs264122
hCV2961259
rs11242023
0.9
0.9573


hCV546489
rs264122
hCV2961260
rs11242022
0.9
0.9783


hCV546489
rs264122
hCV2961261
rs11242021
0.9
0.9608


hCV546489
rs264122
hCV2961267
rs1476714
0.9
0.9587


hCV546489
rs264122
hCV2961268
rs2108425
0.9
0.9616


hCV546489
rs264122
hCV2961269
rs2158958
0.9
0.9616


hCV546489
rs264122
hCV2961270
rs9327555
0.9
0.9616


hCV546489
rs264122
hCV2961278
rs7446891
0.9
0.9616


hCV546489
rs264122
hCV2961280
rs10520072
0.9
0.9616


hCV546489
rs264122
hCV2961282
rs917295
0.9
0.9616


hCV546489
rs264122
hCV2961284
rs10054055
0.9
1


hCV546489
rs264122
hCV2961296
rs10051148
0.9
1


hCV546489
rs264122
hCV2961297
rs2158961
0.9
1


hCV546489
rs264122
hCV2961306
rs264129
0.9
0.9783


hCV546489
rs264122
hCV29666186
rs6871041
0.9
0.9189


hCV546489
rs264122
hCV30621656
rs10478919
0.9
0.9616


hCV546489
rs264122
hCV31237567
rs11749272
0.9
0.9616


hCV546489
rs264122
hCV346713
rs1990023
0.9
0.9783


hCV546489
rs264122
hCV8932829
rs1116596
0.9
0.9616


hCV546493
rs264126
hCV2575337
rs2214640
0.9
1


hCV546493
rs264126
hCV2575344
rs10064779
0.9
0.9328


hCV546493
rs264126
hCV26478748
rs2190597
0.9
0.9328


hCV546493
rs264126
hCV29134277
rs6595948
0.9
0.9001


hCV546493
rs264126
hCV2961235
rs6869219
0.9
0.9255


hCV546493
rs264126
hCV2961239
rs6868888
0.9
0.9282


hCV546493
rs264126
hCV2961251
rs1157409
0.9
0.9328


hCV546493
rs264126
hCV8932783
rs1473132
0.9
0.9328


hCV767324
rs687047
hCV1056543
rs688358
0.9
1


hCV767324
rs687047
hCV1056544
rs675163
0.9
1


hCV767324
rs687047
hCV32014843
rs11221075
0.9
1


hCV767324
rs687047
hCV32014853
rs11221097
0.9
1


hCV8351640
rs842796
hCV9110432
rs12025826
0.9
0.9273


hCV8375036
rs9960
hCV1166092
rs12406279
0.9
1


hCV8375036
rs9960
hCV1166096
rs12406643
0.9
1


hCV8375036
rs9960
hDV70946874
rs17386162
0.9
1


hCV8375364
rs966583
hCV26441140
rs9325191
0.9
1


hCV8375364
rs966583
hCV2690333
rs11178602
0.9
1


hCV8375364
rs966583
hCV2690348
rs11178594
0.9
1


hCV8375364
rs966583
hCV2690350
rs2132242
0.9
1


hCV8375364
rs966583
hCV2690354
rs11178589
0.9
1


hCV8375364
rs966583
hCV2690362
rs10879249
0.9
1


hCV8375364
rs966583
hCV2690365
rs11178583
0.9
1


hCV8375364
rs966583
hCV2690375
rs1567740
0.9
1


hCV8375364
rs966583
hCV2690377
rs10879245
0.9
1


hCV8375364
rs966583
hCV2690378
rs11178579
0.9
1


hCV8375364
rs966583
hCV2690379
rs10879242
0.9
1


hCV8375364
rs966583
hCV2690380
rs10506623
0.9
1


hCV8375364
rs966583
hCV2690388
rs2132241
0.9
1


hCV8375364
rs966583
hCV31190567
rs7311994
0.9
1


hCV8375364
rs966583
hCV31190598
rs12818936
0.9
1


hCV8375364
rs966583
hCV8871988
rs1495375
0.9
1


hCV8375364
rs966583
hCV8871989
rs1512989
0.9
1


hCV8375364
rs966583
hCV8871990
rs1512988
0.9
1


hCV8375364
rs966583
hCV8873466
rs1051344
0.9
1


hCV8375364
rs966583
hCV8873472
rs1355373
0.9
1


hCV8719512
rs4773
hCV8719513
rs1266483
0.9
0.9781


hCV8719512
rs4773
hCV8719628
rs1266489
0.9
1


hCV8719628
rs1266489
hCV12100073
rs871078
0.9
0.9543


hCV8719628
rs1266489
hCV27008723
rs2677744
0.9
0.955


hCV8719628
rs1266489
hCV2979204
rs734252
0.9
1


hCV8719628
rs1266489
hCV8718176
rs1550636
0.9
0.955


hCV8719628
rs1266489
hCV8719512
rs4773
0.9
1


hCV8719628
rs1266489
hCV8719513
rs1266483
0.9
1


hCV8793528
rs9857
hCV1973774
rs1483301
0.9
1


hCV8873448
rs3844207
hCV2690291
rs2270588
0.9
1


hCV8873448
rs3844207
hCV2690292
rs2270589
0.9
0.9298


hCV8905894
rs974950
hCV16126066
rs2110564
0.9
1


hCV8905894
rs974950
hCV2676440
rs6722640
0.9
1


hCV8905894
rs974950
hCV27872026
rs4851531
0.9
0.9812


hCV8905894
rs974950
hCV349805
rs4851529
0.9
0.9303


hCV8932829
rs1116596
hCV11819780
rs12153185
0.9
0.9232


hCV8932829
rs1116596
hCV11819782
rs12719415
0.9
0.927


hCV8932829
rs1116596
hCV2575318
rs7711358
0.9
1


hCV8932829
rs1116596
hCV2575336
rs2418541
0.9
1


hCV8932829
rs1116596
hCV2575340
rs11242020
0.9
1


hCV8932829
rs1116596
hCV26478747
rs2190598
0.9
0.9239


hCV8932829
rs1116596
hCV26478763
rs2418542
0.9
1


hCV8932829
rs1116596
hCV27996154
rs4836502
0.9
0.927


hCV8932829
rs1116596
hCV2961244
rs2418548
0.9
0.9232


hCV8932829
rs1116596
hCV2961250
rs4836507
0.9
0.927


hCV8932829
rs1116596
hCV2961252
rs10067895
0.9
0.927


hCV8932829
rs1116596
hCV2961253
rs2190600
0.9
0.927


hCV8932829
rs1116596
hCV2961260
rs11242022
0.9
0.9232


hCV8932829
rs1116596
hCV2961261
rs11242021
0.9
0.9255


hCV8932829
rs1116596
hCV2961267
rs1476714
0.9
0.9607


hCV8932829
rs1116596
hCV2961268
rs2108425
0.9
0.927


hCV8932829
rs1116596
hCV2961269
rs2158958
0.9
0.927


hCV8932829
rs1116596
hCV2961270
rs9327555
0.9
0.927


hCV8932829
rs1116596
hCV2961278
rs7446891
0.9
0.927


hCV8932829
rs1116596
hCV2961280
rs10520072
0.9
0.927


hCV8932829
rs1116596
hCV2961282
rs917295
0.9
0.927


hCV8932829
rs1116596
hCV2961284
rs10054055
0.9
0.9616


hCV8932829
rs1116596
hCV2961296
rs10051148
0.9
0.9623


hCV8932829
rs1116596
hCV2961297
rs2158961
0.9
0.9634


hCV8932829
rs1116596
hCV2961306
rs264129
0.9
0.9232


hCV8932829
rs1116596
hCV30621656
rs10478919
0.9
1


hCV8932829
rs1116596
hCV31237567
rs11749272
0.9
1


hCV8932829
rs1116596
hCV346713
rs1990023
0.9
1


hCV8932829
rs1116596
hCV546489
rs264122
0.9
0.9616


hCV9110432
rs12025826
hCV8351640
rs842796
0.9
0.9273


hCV940416
rs498657
hCV3125582
rs2243708
0.9
1


hDV70820190
rs17035071
hDV70820183
rs17035064
0.9
1


hDV70820190
rs17035071
hDV70820188
rs17035069
0.9
1


hDV70936275
rs17310169
hDV70936277
rs17310176
0.9
1


hDV70936277
rs17310176
hDV70936275
rs17310169
0.9
1


hDV70985165
rs17662322
hDV70995198
rs17718867
0.9
1


hDV70995198
rs17718867
hDV70985165
rs17662322
0.9
1


hDV72015086
rs7956274
hCV11686367
rs7955901
0.9
1


hDV72015086
rs7956274
hCV171102
rs7313973
0.9
0.9584


hDV72015086
rs7956274
hCV240133
rs4760895
0.9
0.9649


hDV72015086
rs7956274
hCV240134
rs7138300
0.9
0.9622


hDV72015086
rs7956274
hCV2745800
rs11178531
0.9
0.9261


hDV72015086
rs7956274
hCV2745805
rs7132840
0.9
0.9261


hDV72015086
rs7956274
hCV2745815
rs1512991
0.9
1


hDV72015086
rs7956274
hCV2745822
rs1913201
0.9
0.9622


hDV72015086
rs7956274
hCV2745828
rs10879240
0.9
0.9285


hDV72015086
rs7956274
hCV27952502
rs4760894
0.9
0.9649


hDV72015086
rs7956274
hCV27952503
rs4760785
0.9
0.9649


hDV72015086
rs7956274
hCV29120310
rs7298255
0.9
1


hDV72015086
rs7956274
hCV31190748
rs7959965
0.9
1


hDV72015086
rs7956274
hCV31190777
rs10784891
0.9
1


hDV76981734
rs4251569
hCV27943699
rs4238087
0.9
1






































TABLE 4








al-
























lele
al-



































A1
lele
Meta-analysis
CARE
WOSCOPS
































(non-
A2

OR
OR
P
Prava
Placebo

OR
OR


Prava
Placebo

OR
OR


Mod-
End-


Marker
ref)
(ref)
OR
L95
U95
value
Count
Count
OR
L95
U95
P value
Source
Count
Count
OR
L95
U95
P value
Source
el
point
































rs2157673
G
A
1.50
1.26
1.78
5.54E−
50/156/151
28/189/
1.47
1.18
1.82
5.43E−04
Case-
24/85/75
19/93/135
1.56
1.16
2.09
2.99E−03
Caseonly
add
CVD








06

227




only











rs12155847
G
A
1.66
1.32
2.09
1.80E−
47/174/136
45/173/226
1.69
1.27
2.24
3.58E−04
Case-
18/90/76
19/99/129
1.61
1.09
2.37
1.71E−02
Caseonly
dom
CVD








05






only











rs9292827
A
G
0.34
0.20
0.56
3.46E−
1/14/342
1/47/395
0.37
0.20
0.67
1.08E−03
Case-
2/3/179
1/22/224
0.27
0.10
0.73
9.50E−03
Caseonly
dom
CVD








05






only











rs2695026
A
G
0.67
0.55
0.81
3.85E−
18/116/221
43/164/236
0.70
0.55
0.88
2.23E−03
Case-
5/52/124
16/92/137
0.61
0.43
0.86
4.67E−03
Caseonly
add
CVD








05






only











rs205279
A
G
1.81
1.36
2.41
4.59E−
5/78/274
2/61/381
1.94
1.36
2.76
2.54E−04
Case-
0/43/141
0/39/208
1.60
0.99
2.60
5.76E−02
Caseonly
add
CVD








05






only











rs17706237
G
A
1.69
1.31
2.19
5.77E−
13/111/176
13/94/275
1.80
1.31
2.49
3.42E−04
Case-
7/61/91
9/65/150
1.52
1.00
2.31
5.28E−02
CaseOnly
dom
CHD








05






Only











rs10120126
G
A
0.51
0.37
0.71
5.98E−
4/43/253
11/87/284
0.53
0.36
0.78
1.55E−03
Case-
3/16/139
5/44/175
0.48
0.27
0.86
1.30E−02
CaseOnly
dom
CHD








05






Only











rs1948
A
G
1.66
1.29
2.13
6.47E−
40/134/126
38/146/198
1.52
1.12
2.07
7.49E−03
Case-
19/88/52
27/88/109
1.96
1.29
3.00
1.83E−03
CaseOnly
dom
CHD








05






Only











rs10088505
A
G
1.61
1.27
2.03
6.58E−
38/180/139
51/177/215
1.52
1.14
2.03
4.28E−03
Case-
24/87/70
23/93/127
1.78
1.20
2.63
4.27E−03
Caseonly
dom
CVD








05






only











rs354342
A
G
0.67
0.55
0.82
6.82E−
17/115/225
37/171/236
0.70
0.55
0.89
3.07E−03
Case-
5/51/128
15/90/142
0.62
0.44
0.87
6.35E−03
Caseonly
add
CVD








05






only











rs1035618
A
C
1.42
1.19
1.68
6.96E−
45/169/140
39/181/219
1.38
1.12
1.71
2.98E−03
Case-
31/86/66
23/111/
1.48
1.11
1.98
7.61E−03
Caseonly
add
CVD








05






only

111









rs238272
A
G
1.45
1.21
1.74
7.57E−
35/139/126
28/149/205
1.44
1.14
1.82
2.44E−03
Case-
32/64/63
22/94/108
1.46
1.09
1.96
1.07E−02
CaseOnly
add
CHD








05






Only











rs10849442
A
G
0.57
0.43
0.75
8.56E−
57/207/93
112/220/
0.56
0.39
0.80
1.36E−03
Case-
37/100/
73/100/74
0.59
0.37
0.93
2.26E−02
Caseonly
rec
CVD








05

112




only
46










rs2376764
A
G
0.56
0.41
0.74
8.56E−
55/185/117
103/220/
0.61
0.42
0.88
8.65E−03
Case-
30/99/55
71/117/58
0.48
0.29
0.77
2.46E−03
Caseonly
rec
CVD








05

121




only











rs2273816
A
G
1.61
1.27
2.05
8.70E−
9/87/204
5/81/296
1.56
1.15
2.12
4.66E−03
Case-
10/46/103
5/49/170
1.69
1.16
2.47
6.17E−03
CaseOnly
add
CHD








05






Only











rs2941528
A
G
0.67
0.54
0.82
1.79E−
13/111/176
29/162/191
0.72
0.56
0.93
1.31E−02
Case-
12/50/96
21/112/91
0.58
0.41
0.81
1.38E−03
CaseOnly
add
CHD








04






Only











rs1615197
G
A
1.80
1.25
2.60
1.71E−
56/146/98
61/158/163
1.54
1.12
2.11
7.76E−03
Case-
38/81/40
28/98/98
2.25
1.44
3.52
3.75E−04
CaseOnly
dom
CHD








03






Only











rs1349282
A
G
0.55
0.44
0.69
3.97E−
254/731/
290/709/
0.55
0.41
0.74
1.05E−04
cohort
459/1274/
469/1271/
0.55
0.38
0.79
1.10E−03
cohort
dom
CVD








07
509
472





924
918









rs4986146
A
G
0.63
0.53
0.76
4.36E−
109/579/807
89/562/818
0.62
0.49
0.77
2.63E−05
cohort
175/1031/
181/1039/
0.66
0.50
0.88
4.63E−03
cohort
add
CVD








07







1436
1427









rs3213616
A
G
0.62
0.51
0.76
2.68E−
74/479/933
75/465/920
0.62
0.49
0.80
1.60E−04
cohort
77/807/
79/852/
0.62
0.45
0.87
5.26E−03
cohort
add
CVD








06







1767
1727









rs2008165
G
A
0.59
0.47
0.73
2.77E−
650/115/728
676/99/695
0.57
0.43
0.76
1.06E−04
cohort
1301/6/
1261/4/
0.62
0.43
0.89
9.37E−03
cohort
add
CHD








06







1343
1393









rs10500736
G
A
0.57
0.45
0.72
2.82E−
254/1214/
130/603/
0.61
0.45
0.83
1.62E−03
cohort
230/1135/
256/1109/
0.52
0.36
0.75
4.18E−04
cohort
dom
CHD








06
1417
700





1290
1296









rs7705993
G
A
1.48
1.24
1.76
9.34E−
370/724/
333/755/
1.50
1.21
1.85
1.98E−04
cohort
44/77/38
38/117/69
1.44
1.07
1.94
1.57E−02
CaseOnly
add
CHD








06
401
382
















rs12556591
G
A
0.59
0.47
0.75
1.04E−
625/114/
665/95/
0.57
0.43
0.75
7.93E−05
cohort
66/0/93
115/0/109
0.66
0.44
1.00
4.88E−02
CaseOnly
add
CHD








05
755
710
















rs2534752
G
A
1.65
1.32
2.07
1.17E−
63/485/947
51/467/951
1.60
1.19
2.15
1.67E−03
cohort
112/890/
129/915/
1.74
1.22
2.47
2.10E−03
cohort
dom
CVD








05







1649
1613









rs4830819
G
A
0.60
0.48
0.75
1.36E−
641/113/
673/97/699
0.57
0.43
0.76
8.61E−05
cohort
66/0/93
115/0/109
0.66
0.44
1.00
4.88E−02
CaseOnly
add
CHD








05
740

















rs10189905
C
A
0.52
0.39
0.70
1.52E−
12/256/
13/281/
0.50
0.34
0.73
3.92E−04
cohort
15/496/
30/434/
0.56
0.36
0.88
1.21E−02
cohort
add
CHD








05
1227
1177





2143
2195









rs316720
G
A
0.71
0.61
0.83
2.28E−
223/758/
265/690/
0.67
0.55
0.82
1.19E−04
cohort
531/1320/
540/1301/
0.78
0.61
1.00
4.57E−02
cohort
add
CVD








05
514
516





796
814









rs3998860
A
G
0.61
0.49
0.77
2.29E−
129/851/
75/416/941
0.58
0.44
0.76
7.97E−05
cohort
3/44/112
6/80/138
0.70
0.47
1.05
8.17E−02
CaseOnly
add
CHD








05
1903

















rs3732788
G
A
0.51
0.38
0.70
2.57E−
16/212/
14/275/
0.56
0.38
0.81
2.46E−03
cohort
0/21/138
3/53/168
0.44
0.26
0.75
2.64E−03
CaseOnly
add
CHD








05
1267
1180
















rs669684
G
A
0.72
0.62
0.84
2.85E−
260/758/
309/690/
0.69
0.56
0.84
2.75E−04
cohort
633/1333/
626/1318/
0.77
0.60
0.97
3.00E−02
cohort
add
CVD








05
476
472





689
715









rs2418412
G
A
1.94
1.42
2.65
3.05E−
270/722/
272/703/
2.20
1.48
3.25
8.63E−05
cohort
450/1353/
454/1264/
1.58
0.96
2.62
7.27E−02
cohort
rec
CHD








05
502
494





847
942









rs13279522
G
A
0.62
0.50
0.78
3.67E−
51/391/
51/438/981
0.62
0.47
0.83
1.13E−03
cohort
73/693/
57/696/
0.63
0.44
0.90
1.12E−02
cohort
add
CHD








05
1053






1889
1911









rs7193741
A
C
2.04
1.45
2.86
3.91E−
233/716/
212/700/
2.16
1.39
3.36
6.33E−04
cohort
368/1263/
372/1225/
1.87
1.10
3.18
2.01E−02
cohort
rec
CHD








05
546
559





1022
1064









rs151806
G
A
0.63
0.50
0.78
4.01E−
78/545/871
75/578/
0.60
0.45
0.80
4.38E−04
cohort
142/909/
124/918/
0.67
0.47
0.96
2.92E−02
cohort
dom
CVD








05

816





1597
1611









rs9446187
A
G
1.96
1.42
2.72
4.36E−
19/268/
16/238/
1.92
1.28
2.87
1.53E−03
cohort
11/338/
8/305/
2.05
1.19
3.53
9.61E−03
cohort
dom
CHD








05
1208
1217





2307
2347









rs2793086
C
A
0.65
0.53
0.80
4.71E−
53/498/944
55/441/975
0.61
0.47
0.80
2.19E−04
cohort
3/56/125
11/85/151
0.72
0.50
1.02
6.63E−02
Caseonly
add
CVD








05


















rs17076974
A
G
1.40
1.19
1.65
5.58E−
361/727/
323/756/
1.46
1.18
1.81
4.91E−04
cohort
594/1320/
578/1344/
1.32
1.02
1.71
3.48E−02
cohort
add
CHD








05
405
392





729
726









rs4924215
A
G
1.65
1.29
2.11
5.58E−
215/1214/
106/594/
1.77
1.30
2.39
2.41E−04
cohort
12/67/80
19/71/134
1.46
0.97
2.21
6.97E−02
CaseOnly
dom
CHD








05
1535
769
















rs1884897
A
G
2.07
1.45
2.95
5.65E−
214/702/
192/687/
2.24
1.45
3.46
2.93E−04
cohort
26/73/60
22/116/86
1.78
0.97
3.29
6.31E−02
CaseOnly
rec
CHD








05
578
591
















rs610118
G
A
0.49
0.34
0.69
5.81E−
24/201/
15/201/
0.43
0.28
0.66
1.35E−04
cohort
1/18/165
1/37/209
0.62
0.34
1.12
1.10E−01
Caseonly
dom
CVD








05
1269
1253
















rs7179134
A
G
3.52
1.90
6.52
6.11E−
67/464/
64/466/941
3.54
1.54
8.15
2.91E−03
cohort
102/858/
109/872/
3.50
1.40
8.72
7.28E−03
cohort
rec
CVD








05
964






1693
1674









rs4993917
A
C
0.60
0.47
0.77
6.48E−
322/746/
320/722/
0.57
0.42
0.77
3.33E−04
cohort
37/89/58
52/136/59
0.67
0.43
1.03
6.44E−02
Caseonly
dom
CVD








05
427
429
















rs7671659
A
G
1.60
1.27
2.02
6.68E−
59/427/
58/430/983
1.72
1.28
2.32
3.19E−04
cohort
81/726/
59/733/
1.43
0.99
2.07
5.96E−02
cohort
dom
CVD








05
1009






1845
1863









rs10889215
A
G
1.63
1.28
2.06
6.72E−
35/297/
30/280/
1.50
1.13
1.99
5.01E−03
cohort
30/407/
21/395/
1.95
1.27
3.00
2.22E−03
cohort
add
CVD








05
1162
1158





2217
2247









rs9487284
A
G
0.64
0.52
0.80
6.85E−
212/634/
163/669/
0.61
0.46
0.80
4.52E−04
cohort
293/1216/
335/1259/
0.70
0.50
0.99
4.62E−02
cohort
dom
CVD








05
648
637





1142
1063









rs7742508
A
G
2.08
1.45
2.99
6.86E−
13/205/
6/192/1272
2.19
1.37
3.49
9.74E−04
cohort
0/296/
0/257/
1.93
1.09
3.43
2.42E−02
cohort
dom
CVD








05
1277






2357
2401









rs2492367
A
G
0.61
0.47
0.78
7.23E−
16/325/
17/307/
0.56
0.40
0.77
4.19E−04
cohort
44/578/
42/585/
0.68
0.46
1.00
4.80E−02
cohort
add
CVD








05
1153
1146





2033
2033









rs10429616
G
A
1.85
1.36
2.50
7.30E−
276/736/
282/699/
2.07
1.41
3.04
2.21E−04
cohort
481/1361/
479/1282/
1.54
0.94
2.51
8.52E−02
cohort
rec
CHD








05
481
488





815
901









rs2069542
A
G
1.62
1.28
2.05
7.35E−
103/802/
44/398/
1.67
1.26
2.22
3.45E−04
cohort
1/49/109
1/51/172
1.49
0.96
2.32
7.85E−02
CaseOnly
add
CHD








05
2061
1029
















rs10155047
A
G
0.55
0.41
0.74
7.66E−
18/215/
15/273/
0.59
0.40
0.85
5.11E−03
cohort
18/437/
30/467/
0.50
0.31
0.80
4.45E−03
cohort
add
CHD








05
1262
1183





2201
2163









rs4626316
A
G
0.35
0.21
0.59
8.00E−
10/94/
13/98/
0.34
0.18
0.64
7.09E−04
cohort
3/118/
3/111/
0.38
0.15
0.97
4.23E−02
cohort
dom
CVD








05
1388
1358





2537
2547









rs17138705
A
G
0.59
0.45
0.77
8.17E−
25/336/
36/343/
0.54
0.39
0.74
1.78E−04
cohort
0/32/127
6/51/167
0.70
0.44
1.11
1.28E−01
CaseOnly
add
CHD








05
1134
1092
















rs10494924
C
A
0.64
0.51
0.80
9.70E−
143/606/
141/639/
0.61
0.46
0.81
6.69E−04
cohort
19/65/
22/115/
0.68
0.46
1.00
5.11E−02
Caseonly
dom
CVD








05
744
690





100
110









rs33910446
A
G
2.24
1.49
3.36
1.02E−
128/573/
107/558/
2.24
1.34
3.75
1.99E−03
cohort
24/74/85
16/113/
2.23
1.14
4.34
1.87E−02
Caseonly
rec
CVD








04
791
804






118









rs1051344
G
C
0.64
0.51
0.80
1.07E−
262/694/
253/734/
0.64
0.48
0.86
2.62E−03
cohort
431/1243/
416/1234/
0.64
0.45
0.92
1.47E−02
cohort
dom
CVD








04
537
484





981
1008









rs10444402
G
A
0.69
0.57
0.83
1.16E−
74/522/
102/500/
0.71
0.57
0.89
3.33E−03
cohort
7/62/115
18/103/
0.65
0.47
0.91
1.12E−02
Caseonly
add
CVD








04
899
868






126









rs7612715
A
G
0.50
0.35
0.71
1.21E−
18/161/
8/160/1303
0.47
0.30
0.73
9.43E−04
cohort
6/242/
12/257/
0.55
0.31
0.99
4.49E−02
cohort
add
CVD








04
1316






2408
2393









rs4243071
G
A
0.43
0.28
0.66
1.22E−
274/1165/
143/535/
0.44
0.26
0.76
2.80E−03
cohort
11/76/97
32/91/124
0.41
0.20
0.85
1.56E−02
Caseonly
rec
CVD








04
1527
793
















rs624460
A
G
0.73
0.63
0.86
1.24E−
208/651/
216/667/
0.73
0.60
0.90
2.54E−03
cohort
350/1250/
389/1245/
0.74
0.57
0.95
1.78E−02
cohort
add
CVD








04
635
588





1054
1022









rs4866354
G
A
0.35
0.20
0.59
1.25E−
0/102/1392
0/107/1363
0.36
0.19
0.67
1.19E−03
cohort
0/4/180
0/16/231
0.31
0.10
0.94
3.92E−02
Caseonly
dom
CVD








04


















rs945020
A
G
0.65
0.52
0.81
1.33E−
390/1333/
203/669/
0.61
0.45
0.81
6.95E−04
cohort
385/1221/
395/1260/
0.72
0.51
1.01
5.77E−02
cohort
dom
CVD








04
1162
561





1049
1003









rs9859901
A
C
0.52
0.38
0.73
1.37E−
17/214/1264
16/270/1185
0.59
0.41
0.86
5.91E−03
cohort
0/20/139
3/53/168
0.41
0.24
0.72
1.59E−03
CaseOnly
add
CHD








04


















rs7629632
G
A
1.62
1.26
2.07
1.38E−
171/687/637
169/638/664
1.56
1.15
2.12
4.23E−03
cohort
15/83/60
22/87/115
1.72
1.13
2.60
1.10E−02
CaseOnly
dom
CHD








04


















rs17740227
G
A
1.70
1.29
2.23
1.45E−
21/306/1166
21/295/1155
1.80
1.28
2.53
6.94E−04
cohort
0/48/136
2/45/200
1.53
0.96
2.42
7.13E−02
Caseonly
dom
CVD








04


















rs2263920
G
A
0.46
0.31
0.69
1.45E−
197/704/593
207/668/596
0.49
0.30
0.79
3.40E−03
cohort
11/71/77
36/100/88
0.41
0.20
0.84
1.42E−02
CaseOnly
rec
CHD








04


















rs1538185
A
G
1.60
1.26
2.05
1.51E−
69/499/927
52/432/987
1.75
1.28
2.41
5.47E−04
cohort
101/868/
109/864/
1.41
0.96
2.07
7.60E−02
cohort
dom
CHD








04







1686
1680









rs2843171
A
G
0.64
0.51
0.81
1.54E−
103/585/806
124/584/761
0.67
0.50
0.88
4.44E−03
cohort
15/58/111
20/109/
0.61
0.41
0.89
1.16E−02
Caseonly
dom
CVD








04








118









rs4726711
G
A
0.71
0.59
0.85
1.61E−
217/674/604
197/712/562
0.75
0.60
0.94
1.19E−02
cohort
15/62/82
33/109/82
0.62
0.45
0.85
2.88E−03
CaseOnly
add
CHD








04


















rs2263901
G
A
1.48
1.21
1.81
1.63E−
84/533/876
61/508/899
1.43
1.11
1.84
5.41E−03
cohort
11/62/86
10/62/152
1.57
1.12
2.21
9.90E−03
CaseOnly
add
CHD








04


















rs5021480
A
C
1.78
1.32
2.40
1.67E−
544/1410/
254/697/481
1.72
1.18
2.52
4.85E−03
cohort
45/77/62
37/106/
1.87
1.15
3.04
1.21E−02
Caseonly
rec
CVD








04
929







104









rs1877986
A
G
0.62
0.48
0.80
1.73E−
569/1391/
283/699/451
0.57
0.41
0.78
5.70E−04
cohort
494/1321/
518/1314/
0.71
0.48
1.05
8.37E−02
cohort
dom
CHD








04
924






831
820









rs11610993
G
A
0.43
0.28
0.67
1.76E−
6/131/1358
3/140/1328
0.41
0.25
0.69
7.19E−04
cohort
0/8/176
0/20/227
0.49
0.21
1.14
9.82E−02
Caseonly
dom
CVD








04


















rs1864924
G
A
1.40
1.17
1.67
1.78E−
210/620/664
192/652/627
1.42
1.15
1.77
1.40E−03
cohort
28/68/63
19/106/99
1.36
1.00
1.84
4.79E−02
CaseOnly
add
CHD








04


















rs17347854
G
A
0.61
0.48
0.79
1.79E−
40/356/1099
38/404/1028
0.61
0.44
0.84
2.13E−03
cohort
3/41/140
13/70/164
0.62
0.41
0.96
3.17E−02
Caseonly
dom
CVD








04


















rs13137776
G
A
0.70
0.58
0.84
1.83E−
148/636/711
158/661/652
0.74
0.59
0.94
1.18E−02
cohort
11/47/101
27/86/111
0.62
0.45
0.86
3.72E−03
CaseOnly
add
CHD








04


















rs3759607
G
A
1.96
1.38
2.78
1.90E−
4/209/1281
4/165/1302
2.10
1.35
3.28
1.06E−03
cohort
0/29/130
2/24/198
1.73
0.97
3.09
6.18E−02
CaseOnly
dom
CHD








04


















rs9896077
G
A
0.66
0.53
0.82
2.07E−
209/677/608
196/699/576
0.63
0.47
0.83
1.35E−03
cohort
353/1151/
406/1253/
0.71
0.50
1.00
5.20E−02
cohort
dom
CVD








04







1146
996









rs10935907
G
A
1.59
1.24
2.03
2.12E−
112/544/838
80/535/856
1.65
1.21
2.23
1.37E−03
cohort
5/74/80
17/72/135
1.49
0.99
2.25
5.72E−02
CaseOnly
dom
CHD








04


















rs7625204
A
G
1.45
1.19
1.77
2.24E−
119/980/
52/488/931
1.51
1.16
1.96
2.11E−03
cohort
131/897/
118/925/
1.38
1.02
1.87
3.67E−02
cohort
add
CHD








04
1866






1628
1616









rs13431868
A
G
1.59
1.24
2.03
2.24E−
82/554/857
71/538/860
1.70
1.25
2.31
7.44E−04
cohort
8/68/83
10/77/137
1.42
0.94
2.14
9.94E−02
CaseOnly
dom
CHD








04


















rs2231496
G
A
0.72
0.60
0.86
2.27E−
133/622/740
140/618/713
0.74
0.60
0.92
6.39E−03
cohort
8/73/103
26/107/
0.67
0.49
0.91
1.13E−02
Caseonly
add
CVD








04








114









rs1705244
G
A
0.60
0.46
0.79
2.28E−
650/1518/
307/782/382
0.65
0.46
0.91
1.20E−02
cohort
37/65/57
52/123/49
0.52
0.33
0.82
5.01E−03
CaseOnly
dom
CHD








04
798

















rs2274473
G
A
0.55
0.40
0.75
2.28E−
27/264/1202
26/297/1147
0.58
0.39
0.85
5.84E−03
cohort
2/17/140
3/46/175
0.48
0.27
0.85
1.21E−02
CaseOnly
dom
CHD








04


















rs5750116
G
A
1.55
1.23
1.97
2.28E−
139/685/671
129/641/701
1.63
1.20
2.22
1.69E−03
cohort
296/1113/
232/1174/
1.45
1.01
2.09
4.63E−02
cohort
dom
CHD








04







1245
1254









rs912366
G
A
1.66
1.27
2.18
2.29E−
31/393/1071
21/357/1093
1.60
1.14
2.24
6.82E−03
cohort
6/50/103
7/45/172
1.79
1.14
2.81
1.13E−02
CaseOnly
dom
CHD








04


















rs1544214
A
G
1.38
1.16
1.64
2.36E−
461/1344/
212/678/543
1.40
1.13
1.74
2.38E−03
cohort
42/66/51
37/102/85
1.35
1.02
1.78
3.72E−02
CaseOnly
add
CHD








04
1080

















rs1861326
A
G
0.64
0.51
0.82
2.44E−
226/692/577
238/710/521
0.63
0.47
0.85
1.90E−03
cohort
28/84/72
32/141/74
0.67
0.45
1.00
4.96E−02
Caseonly
dom
CVD








04


















rs2265346
C
A
0.54
0.39
0.75
2.59E−
20/249/1226
20/287/1164
0.60
0.40
0.90
1.27E−02
cohort
2/15/141
3/46/173
0.42
0.23
0.76
4.46E−03
CaseOnly
dom
CHD








04


















rs7521242
A
G
0.72
0.61
0.86
2.77E−
630/1424/
326/707/398
0.71
0.57
0.88
2.19E−03
cohort
31/80/48
59/114/51
0.74
0.55
1.00
4.85E−02
CaseOnly
add
CHD








04
829

















rs10305439
A
C
0.62
0.48
0.80
2.78E−
245/729/521
269/745/457
0.62
0.45
0.85
2.76E−03
cohort
30/71/58
37/125/60
0.63
0.40
0.98
3.91E−02
CaseOnly
dom
CHD








04


















rs1167245
A
G
0.62
0.47
0.80
2.79E−
350/728/417
369/693/408
0.68
0.50
0.92
1.29E−02
cohort
45/78/61
63/134/50
0.51
0.33
0.79
2.73E−03
Caseonly
dom
CVD








04


















rs2495295
G
A
0.66
0.52
0.82
2.89E−
136/608/751
143/629/697
0.65
0.49
0.87
3.00E−03
cohort
19/63/102
22/114/
0.66
0.45
0.98
3.73E−02
Caseonly
dom
CVD








04








111









rs312929
G
A
0.75
0.64
0.87
2.96E−
202/704/589
224/698/549
0.72
0.59
0.88
1.71E−03
cohort
350/1243/
406/1240/
0.79
0.61
1.01
6.04E−02
cohort
add
CVD








04







1054
1014









rs969356
G
A
0.63
0.49
0.81
3.10E−
207/675/612
192/716/561
0.69
0.51
0.94
2.00E−02
cohort
15/62/82
31/110/83
0.54
0.36
0.82
3.60E−03
CaseOnly
dom
CHD








04


















rs5017584
A
G
1.74
1.29
2.36
3.25E−
279/720/496
245/694/531
1.61
1.10
2.37
1.46E−02
cohort
45/76/63
35/108/
1.98
1.21
3.24
6.65E−03
Caseonly
rec
CVD








04








104









rs6491586
G
A
1.65
1.26
2.18
3.26E−
28/377/1090
21/336/1114
1.59
1.13
2.24
8.26E−03
cohort
6/48/105
6/44/174
1.78
1.13
2.80
1.37E−02
CaseOnly
dom
CHD








04


















rs842796
A
G
1.59
1.23
2.05
3.30E−
248/697/550
219/684/568
1.72
1.26
2.37
7.49E−04
cohort
22/80/57
39/88/97
1.38
0.91
2.10
1.35E−01
CaseOnly
dom
CHD








04


















rs4869033
G
A
0.36
0.21
0.63
3.53E−
244/1142/
135/569/767
0.31
0.16
0.63
1.20E−03
cohort
7/81/96
18/106/
0.47
0.19
1.15
9.76E−02
Caseonly
rec
CVD








04
1580







123









rs10973013
A
G
0.55
0.40
0.77
3.59E−
21/256/1218
21/297/1153
0.59
0.40
0.88
9.32E−03
cohort
2/17/140
3/46/174
0.48
0.27
0.85
1.16E−02
CaseOnly
dom
CHD








04


















rs886469
G
A
0.64
0.50
0.82
3.96E−
199/671/625
184/708/579
0.70
0.51
0.95
2.12E−02
cohort
15/62/82
29/111/84
0.55
0.36
0.83
4.53E−03
CaseOnly
dom
CHD








04


















rs11076320
C
A
0.65
0.52
0.83
4.01E−
233/691/568
249/708/512
0.64
0.48
0.86
2.64E−03
cohort
28/85/71
31/141/73
0.68
0.45
1.02
6.00E−02
Caseonly
dom
CVD








04


















rs2145540
A
G
0.56
0.40
0.77
4.02E−
18/247/1230
14/282/1175
0.51
0.35
0.75
5.69E−04
cohort
1/18/165
2/32/213
0.70
0.38
1.27
2.37E−01
Caseonly
dom
CVD








04


















rs6505669
G
A
1.58
1.22
2.03
4.18E−
59/496/940
52/463/956
1.70
1.24
2.34
9.67E−04
cohort
10/59/90
9/71/144
1.37
0.90
2.09
1.36E−01
CaseOnly
dom
CHD








04


















rs9375683
G
A
1.49
1.19
1.87
4.39E−
86/527/882
67/465/939
1.63
1.22
2.18
8.91E−04
cohort
128/942/
132/928/
1.31
0.92
1.86
1.36E−01
cohort
dom
CVD








04







1584
1601









rs10814422
G
A
0.57
0.42
0.78
4.75E−
28/284/1182
30/309/1130
0.64
0.44
0.92
1.72E−02
cohort
2/18/139
3/50/170
0.46
0.26
0.80
6.31E−03
CaseOnly
dom
CHD








04


















rs72746987
A
G
0.40
0.24
0.67
4.89E−
3/96/1396
4/139/1328
0.43
0.24
0.80
7.44E−03
cohort
2/4/178
1/21/225
0.34
0.14
0.86
2.29E−02
Caseonly
dom
CVD








04


















rs13318232
G
A
0.52
0.36
0.75
5.01E−
17/212/1266
18/264/1189
0.60
0.40
0.90
1.34E−02
cohort
0/20/139
3/54/167
0.40
0.23
0.71
1.55E−03
CaseOnly
dom
CHD








04


















rs2268650
A
G
0.66
0.53
0.84
5.28E−
190/697/608
215/695/560
0.64
0.48
0.85
2.27E−03
cohort
29/83/72
31/138/78
0.71
0.47
1.06
9.15E−02
Caseonly
dom
CVD








04


















rs4682522
C
A
0.55
0.39
0.77
5.52E−
29/417/2519
18/224/1229
0.59
0.39
0.90
1.55E−02
cohort
0/21/138
1/51/172
0.49
0.28
0.85
1.17E−02
CaseOnly
dom
CHD








04


















rs3798544
A
G
1.57
1.21
2.03
5.87E−
32/400/1062
42/342/1087
1.47
1.08
2.02
1.55E−02
cohort
1/55/128
2/46/199
1.78
1.14
2.79
1.12E−02
Caseonly
dom
CVD








04


















rs6080603
A
C
0.62
0.47
0.81
5.91E−
93/835/2038
46/443/982
0.59
0.42
0.83
2.06E−03
cohort
4/32/123
7/61/156
0.68
0.43
1.09
1.11E−01
CaseOnly
dom
CHD








04


















rs10517923
A
G
1.61
1.23
2.12
5.93E−
352/720/422
311/730/429
1.62
1.16
2.26
4.84E−03
cohort
47/86/49
44/131/71
1.60
1.00
2.55
4.93E−02
Caseonly
rec
CVD








04


















rs2104506
A
C
0.71
0.59
0.87
5.99E−
114/593/788
106/608/757
0.75
0.59
0.96
2.07E−02
cohort
15/47/97
23/104/97
0.65
0.47
0.90
8.45E−03
CaseOnly
add
CHD








04


















rs2023650
A
G
0.71
0.59
0.87
6.11E−
81/533/878
98/523/846
0.76
0.60
0.96
2.20E−02
cohort
5/53/126
16/91/139
0.62
0.44
0.87
5.84E−03
Caseonly
add
CVD








04


















rs8051893
A
G
0.67
0.53
0.84
6.22E−
424/1374/
216/699/555
0.69
0.52
0.92
1.05E−02
cohort
20/81/83
34/128/85
0.63
0.43
0.93
2.13E−02
Caseonly
dom
CVD








04
1167

















rs8109631
A
G
1.53
1.20
1.96
6.35E−
119/625/749
109/573/789
1.53
1.13
2.07
6.36E−03
cohort
17/73/69
19/85/120
1.54
1.02
2.32
4.00E−02
CaseOnly
dom
CHD








04


















rs331555
A
C
0.74
0.62
0.88
6.42E−
245/1285/
141/632/695
0.72
0.58
0.89
2.91E−03
cohort
12/83/89
31/108/
0.77
0.57
1.04
8.69E−02
Caseonly
add
CVD








04
1432







108









rs1343563
C
A
0.60
0.45
0.81
6.82E−
22/273/1199
23/301/1145
0.61
0.43
0.88
6.99E−03
cohort
1/20/138
3/46/175
0.58
0.34
0.97
3.81E−02
CaseOnly
add
CHD








04


















rs11082492
A
C
1.55
1.20
2.00
6.99E−
31/369/1095
27/347/1095
1.46
1.07
1.99
1.65E−02
cohort
4/42/113
1/42/181
1.76
1.13
2.74
1.28E−02
CaseOnly
add
CHD








04


















rs17546598
A
G
1.71
1.25
2.33
7.18E−
22/465/2471
10/210/1247
1.57
1.08
2.28
1.91E−02
cohort
1/34/149
0/25/222
2.07
1.19
3.61
1.02E−02
Caseonly
dom
CVD








04


















rs1382787
G
A
1.35
1.13
1.61
7.52E−
558/1447/
288/679/504
1.37
1.10
1.69
4.46E−03
cohort
36/85/38
40/113/71
1.32
0.98
1.78
6.95E−02
CaseOnly
add
CHD








04
961

















rs6075209
A
G
0.64
0.50
0.83
7.71E−
499/1425/
275/687/509
0.63
0.46
0.86
3.35E−03
cohort
26/75/58
40/123/61
0.68
0.44
1.07
9.33E−02
CaseOnly
dom
CHD








04
1042

















rs11925875
A
G
0.66
0.52
0.84
7.79E−
271/707/516
304/700/467
0.72
0.53
0.97
3.13E−02
cohort
26/83/75
48/129/70
0.57
0.38
0.85
6.05E−03
Caseonly
dom
CVD








04


















rs13314266
G
A
0.51
0.35
0.76
8.20E−
9/185/1301
11/228/1231
0.60
0.40
0.91
1.49E−02
cohort
0/18/141
3/49/172
0.40
0.23
0.71
1.61E−03
CaseOnly
add
CHD








04


















rs3000490
G
A
1.38
1.14
1.66
8.36E−
248/1186/
118/575/778
1.45
1.15
1.83
1.71E−03
cohort
15/72/72
16/91/117
1.25
0.91
1.72
1.72E−01
CaseOnly
add
CHD








04
1532

















rs4289236
A
G
1.41
1.15
1.72
8.44E−
68/450/975
74/406/990
1.37
1.08
1.75
1.04E−02
cohort
8/61/115
4/67/176
1.49
1.04
2.13
3.03E−02
Caseonly
add
CVD








04


















rs2060411
A
G
1.39
1.15
1.69
8.75E−
228/1159/
97/568/806
1.37
1.07
1.74
1.10E−02
cohort
17/71/71
12/95/117
1.44
1.03
2.00
3.07E−02
CaseOnly
add
CHD








04
1579

















rs4643388
G
A
1.34
1.12
1.59
9.82E−
166/639/690
123/628/720
1.32
1.07
1.62
1.06E−02
cohort
20/80/84
16/98/133
1.38
1.02
1.86
3.61E−02
Caseonly
add
CVD








04


















rs9436636
A
G
1.35
1.13
1.61
1.02E−
446/1361/
200/680/554
1.34
1.08
1.67
8.75E−03
cohort
27/81/51
28/102/93
1.36
1.00
1.83
4.76E−02
CaseOnly
add
CHD








03
1079

















rs7327364
A
G
0.68
0.53
0.85
1.05E−
249/686/560
218/746/507
0.69
0.52
0.93
1.30E−02
cohort
29/81/74
37/136/74
0.64
0.43
0.96
3.08E−02
Caseonly
dom
CVD








03


















rs2626130
G
A
1.32
1.11
1.55
1.17E−
471/1436/
220/698/515
1.29
1.05
1.58
1.61E−02
cohort
37/89/58
30/122/95
1.37
1.04
1.82
2.74E−02
Caseonly
add
CVD








03
978

















rs4611134
A
G
1.55
1.19
2.01
1.20E−
388/723/377
322/721/419
1.54
1.11
2.14
1.05E−02
cohort
55/79/50
55/119/73
1.56
1.01
2.43
4.71E−02
Caseonly
rec
CVD








03


















rs17716275
A
G
2.03
1.32
3.13
1.32E−
7/286/2593
3/128/1303
1.91
1.11
3.29
2.01E−02
cohort
1/20/138
0/14/210
2.26
1.11
4.62
2.45E−02
CaseOnly
dom
CHD








03


















rs7094941
G
A
0.74
0.62
0.89
1.36E−
160/670/665
188/640/643
0.78
0.63
0.98
3.41E−02
cohort
14/64/81
27/116/81
0.66
0.48
0.91
1.06E−02
CaseOnly
add
CHD








03


















rs1076733
A
G
0.67
0.53
0.86
1.37E−
258/765/471
294/740/433
0.70
0.52
0.95
2.12E−02
cohort
34/81/69
40/139/68
0.62
0.41
0.94
2.34E−02
Caseonly
dom
CVD








03


















rs2290193
C
A
0.47
0.30
0.75
1.38E−
253/1183/
142/574/755
0.53
0.31
0.92
2.33E−02
cohort
7/80/97
26/100/
0.35
0.15
0.83
1.66E−02
Caseonly
rec
CVD








03
1529







121









rs10103297
A
G
2.03
1.31
3.13
1.46E−
9/146/1339
7/114/1348
1.84
1.12
3.04
1.64E−02
cohort
1/14/144
2/6/216
2.74
1.13
6.65
2.60E−02
CaseOnly
dom
CHD








03


















rs12657484
G
A
1.49
1.16
1.90
1.49E−
133/632/727
107/581/782
1.36
1.01
1.85
4.48E−02
cohort
18/85/56
19/95/110
1.76
1.16
2.68
8.14E−03
CaseOnly
dom
CHD








03


















rs7910196
G
A
1.47
1.16
1.87
1.59E−
42/391/1062
26/338/1106
1.36
1.01
1.82
4.11E−02
cohort
4/54/101
2/54/168
1.72
1.14
2.59
1.01E−02
CaseOnly
add
CHD








03


















rs7767024
A
G
1.42
1.14
1.77
1.78E−
37/388/1070
45/361/1065
1.32
1.01
1.72
4.01E−02
cohort
2/61/121
4/50/193
1.69
1.13
2.51
1.05E−02
CaseOnly
add
CHD








03


















rs1474396
A
C
1.46
1.15
1.86
1.87E−
277/717/501
272/684/515
1.35
1.00
1.81
4.91E−02
cohort
32/100/52
31/118/98
1.37
1.14
2.62
9.39E−03
Caseonly
dom
CVD








03


















rs1182878
A
G
0.78
0.66
0.91
1.97E−
314/718/462
319/711/440
0.79
0.65
0.96
1.81E−02
cohort
41/80/63
57/137/53
0.75
0.57
0.99
4.36E−02
Caseonly
add
CVD








03


















rs2483641
A
G
0.59
0.43
0.83
2.06E−
14/230/1250
16/279/1174
0.65
0.43
0.97
3.34E−02
cohort
2/17/140
3/44/177
0.50
0.28
0.89
1.93E−02
CaseOnly
dom
CHD








03


















rs453625
A
G
0.62
0.46
0.85
2.44E−
18/236/1240
19/288/1164
0.66
0.46
0.95
2.70E−02
cohort
1/17/141
2/43/179
0.54
0.31
0.95
3.10E−02
CaseOnly
add
CHD








03


















rs7497613
A
G
0.55
0.37
0.81
2.66E−
649/1470/
331/720/382
0.65
0.46
0.91
1.17E−02
cohort
29/102/53
74/125/48
0.43
0.26
0.70
6.18E−04
Caseonly
rec
CVD








03
765

















rs2129571
A
G
0.53
0.34
0.80
2.81E−
17/215/1263
14/269/1186
0.62
0.43
0.90
1.22E−02
cohort
0/19/140
3/52/169
0.40
0.23
0.70
1.30E−03
CaseOnly
add
CHD








03


















rs16861467
G
A
0.49
0.31
0.78
2.93E−
15/205/1275
12/258/1201
0.60
0.41
0.87
7.69E−03
cohort
0/18/141
3/53/168
0.37
0.21
0.65
5.20E−04
CaseOnly
add
CHD








03


















rs10088524
G
A
1.57
1.17
2.11
3.00E−
14/255/1226
10/212/1249
1.46
1.00
2.11
4.73E−02
cohort
1/41/142
3/32/212
1.80
1.09
2.96
2.13E−02
Caseonly
dom
CVD








03


















rs10875941
G
A
0.63
0.45
0.89
9.49E−
118/582/795
141/581/748
0.73
0.54
0.99
4.41E−02
cohort
2/55/101
20/97/107
0.51
0.34
0.78
1.71E−03
CaseOnly
dom
CHD








03


















rs7616936
C
A
1.77
1.15
2.72
9.52E−
26/335/1133
24/279/1166
1.47
1.01
2.14
4.46E−02
cohort
0/42/117
2/28/194
2.30
1.36
3.88
1.83E−03
CaseOnly
dom
CHD








03


















rs6911817
A
G
2.85
1.25
6.50
1.28E−
2/80/1413
2/58/1411
2.15
1.08
4.25
2.83E−02
cohort
0/12/172
0/3/244
5.32
1.47
19.19
1.08E−02
Caseonly
add
CVD








02


















rs9658127
A
G
2.79
1.15
6.77
2.36E−
2/83/1409
2/60/1409
2.03
1.05
3.93
3.58E−02
cohort
0/12/172
0/3/244
5.32
1.47
19.19
1.08E−02
Caseonly
add
CVD








02























TABLE 5










Meta-analysis


































allele




P


































A1
allele



value
CARE
WOSCOPS
































(non-
A2

OR
OR
(ran-
Prava
Placebo

OR
OR


Prava
Placebo

OR
OR


Mod-
End-


Marker
ref)
(ref)
OR
L95
U95
dom)
Count
Count
OR
L95
U95
P value
Source
Count
Count
OR
L95
U95
P value
Source
el
point





rs11124322
A
G
0.64
0.50
0.82
3.92E−
292/733/469
322/733/416
0.70
0.51
0.95
2.18E−02
cohort







dom
CVD








04


















rs10193722
C
A




71/167/119
100/238/106
0.62
0.46
0.85
3.11E−03
Caseonly
32/81/71
50/133/
0.55
0.36
0.83
4.27E−03
Case-
dom
CVD

















64




only




rs1051344
C
G
0.64
0.51
0.80
1.07E−04
262/694/537
253/734/484
0.64
0.48
0.86
2.62E−03
cohort
431/1243/
416/1234/
0.64
0.45
0.92
1.47E−02
cohort
dom
CVD
















981
1008









rs1051334
C
A




52/149/156
73/230/140
0.58
0.44
0.78
3.23E−04
Caseonly
19/85/80
41/132/
0.58
0.39
0.86
7.16E−03
Case-
dom
CVD


rs2030057
T
C
0.60
0.47
0.75
1.18E−05
47/425/964
61/410/959
0.56
0.42
0.75
7.88E−05
cohort

74




only
add
CHD


rs10740308
A
C




7/79/214
28/125/229
0.61
0.47
0.81
5.28E−04
Caseonly
3/41/115
6/79/
0.66
0.44
0.99
4.49E−02
Case-
add
CHD


rs10831416
G
A
1.73
1.24
2.42
1.26E−03
253/707/534
233/665/573
1.61
1.08
2.42
2.09E−02
cohort

139




only
rec
CHD


rs10831415
G
A




62/144/94
50/179/153
1.77
1.17
2.67
7.05E−03
Caseonly
30/89/40
23/118/
2.02
1.12
3.63
1.97E−02
Case-
rec
CHD


rs4657668
G
A
1.34
1.14
1.58
4.33E−04
255/675/522
213/689/532
1.32
1.08
1.61
7.53E−03
cohort

83




only
add
CVD


rs1229430
G
A




77/170/110
59/212/173
1.39
1.13
1.70
1.57E−03
Caseonly
33/87/64
31/105/
1.38
1.05
1.82
2.11E−02
Case-
add
CVD


rs6497117
C
T
0.52
0.38
0.70
2.59E−05
308/744/395
328/721/382
0.58
0.40
0.85
5.29E−03
cohort

111




only
rec
CHD


rs12914132
A
G




52/159/89
97/179/106
0.60
0.41
0.87
7.98E−03
Caseonly
26/89/44
68/114/
0.42
0.25
0.70
9.73E−04
Case-
rec
CHD


rs1529806
G
A
1.42
1.17
1.73
3.89E−04
130/570/752
94/561/779
1.43
1.12
1.82
4.17E−03
cohort

40




only
add
CHD


rs 1594887
G
A




30/126/143
19/134/229
1.56
1.22
2.00
3.71E−04
Caseonly
17/72/70
13/95/
1.42
1.02
1.97
3.63E−02
Case-
add
CHD


rs3732788
C
T
0.48
0.32
0.71
2.39E−04
16/212/1267
14/275/1180
0.56
0.38
0.81
2.46E−03
cohort

116




only
add
CHD


rs16861476
C
A




1/35/263
5/83/294
0.47
0.31
0.71
2.92E−04
Caseonly
0/18/141
3/53/168
0.37
0.21
0.65
5.20E−04
Case-
add
CHD


rs1773549
C
T
1.45
1.18
1.78
3.68E−04
95/544/812
81/527/826
1.49
1.17
1.91
1.44E−03
cohort






only
add
CHD


rs 1737478
A
G




29/125/146
20/130/232
1.54
1.20
1.96
6.39E−04
Caseonly
6/62/91
8/66/150
1.36
0.94
1.95
9.86E−02
Case-
add
CHD


rs1560901
A
G
1.41
1.16
1.71
5.74E−04
125/573/753
94/551/789
1.41
1.10
1.80
5.75E−03
cohort






only
add
CHD


rs2196180
A
G




28/126/146
19/132/231
1.53
1.20
1.96
7.53E−04
Caseonly
17/71/71
13/94/
1.41
1.02
1.95
3.97E−02
Case-
add
CHD


rs231355
G
C
1.38
1.16
1.64
2.11E−04
357/708/387
325/704/403
1.30
1.05
1.61
1.65E−02
cohort

117




only
add
CHD


rs231358
G
A




82/159/59
78/196/108
1.39
1.11
1.74
4.61E−03
Caseonly
58/70/31
53/103/
1.54
1.16
2.04
2.94E−03
Case-
add
CHD


rs10875941
C
T
0.64
0.47
0.88
5.81E−03
118/582/795
141/581/748
0.73
0.54
0.99
4.41E−02
cohort

68




only
dom
CHD


rs2335451
A
C




21/111/168
44/157/181
0.70
0.51
0.95
2.33E−02
Caseonly
3/55/101
20/96/
0.53
0.35
0.80
2.80E−03
Case-
dom
CHD


rs9834251
G
T
1.75
1.29
2.38
3.12E−04
291/722/482
247/700/524
1.64
1.11
2.41
1.22E−02
cohort

108




only
rec
CVD


rs2358931
G
A




66/175/114
47/235/159
1.94
1.29
2.92
1.45E−03
Caseonly
44/73/63
35/109/
1.96
1.19
3.21
8.02E−03
Case-
rec
CVD


rs4765531
A
C
0.67
0.54
0.81
6.11E−05
91/566/795
113/564/757
0.70
0.55
0.90
5.60E−03
cohort

100




only
add
CHD


rs2593270
A
G




13/111/176
33/162/187
0.69
0.53
0.88
3.56E−03
Caseonly
7/52/100
28/84/
0.61
0.44
0.84
2.90E−03
Case-
add
CHD


rs4765531
A
C
0.66
0.54
0.81
4.85E−05
91/566/795
113/564/757
0.70
0.55
0.90
5.60E−03
cohort

112




only
add
CHD


rs2656824
A
G




12/111/177
31/157/194
0.71
0.55
0.92
8.72E−03
Caseonly
7/51/101
28/84/
0.60
0.43
0.83
2.14E−03
Case-
add
CHD


rs302290
C
T
1.56
1.24
1.97
1.65E−04
102/571/775
113/529/790
1.46
1.10
1.94
9.55E−03
cohort

112




only
dom
CVD


rs302296
G
A




28/144/183
31/140/273
1.54
1.15
2.05
3.34E−03
Caseonly
7/76/101
12/68/
1.79
1.20
2.66
4.39E−03
Case-
dom
CVD


rs3806005
A
C
2.25
1.58
3.21
8.04E−06
10/239/1203
9/207/1218
2.03
1.32
3.11
1.26E−03
cohort

167




only
dom
CHD


rs3793048
A
C




3/68/228
6/47/328
2.21
1.44
3.41
3.17E−04
Caseonly
1/29/129
2/15/207
2.83
1.50
5.36
1.36E−03
Case-
dom
CHD


rs1560901
A
G
1.40
1.16
1.71
6.32E−04
125/573/753
94/551/789
1.41
1.10
1.80
5.75E−03
cohort






only
add
CHD


rs3861810
G
A




28/127/145
19/132/231
1.54
1.20
1.97
5.90E−04
Caseonly
17/72/70
14/94/
1.40
1.01
1.93
4.41E−02
Case-
add
CHD


rs7179134
A
G
3.72
2.01
6.89
2.88E−05
102/858/
109/872/
3.50
1.40
8.72
7.28E−03
cohort

116




only
rec
CVD









1693
1674
















rs4128766
A
G




65/454/933
68/457/909
3.92
1.70
9.02
1.31E−03
cohort
15/62/
7/86/154
3.18
1.27
8.01
1.40E−02
Case-
rec
CVD


rs2148575
A
G
0.35
0.20
0.59
1.24E−04
7/96/1392
12/97/1362
0.36
0.19
0.67
1.17E−03
cohort
107





only
dom
CVD


rs4242084
A
C




0/12/345
4/38/402
0.26
0.12
0.55
4.34E−04
Caseonly
0/4/180
0/16/231
0.31
0.10
0.94
3.92E−02
Case-
dom
CVD


rs5756670
G
A
1.75
1.33
2.29
5.75E−05
320/688/443
294/689/451
1.82
1.29
2.56
6.67E−04
cohort






only
dom
CHD


rs4328731
A
C




66/165/69
72/177/133
1.77
1.26
2.51
1.15E−03
Caseonly
27/88/44
43/97/84
1.64
1.05
2.56
2.96E−02
Case-
dom
CHD


rs7094941
G
A
0.74
0.61
0.89
1.16E−03
160/670/665
188/640/643
0.78
0.63
0.98
3.41E−02
cohort






only
add
CHD


rs4980176
C
A




26/131/143
54/177/151
0.75
0.59
0.95
1.67E−02
Caseonly
13/64/81
26/117/81
0.64
0.47
0.89
8.15E−03
Case-
add
CHD


rs1851830
A
G
1.73
1.24
2.42
1.29E−03
218/673/560
175/648/611
1.70
1.12
2.60
1.36E−02
cohort






only
rec
CVD


rs6550706
A
G




60/168/129
42/210/192
1.91
1.25
2.93
2.76E−03
Caseonly
34/79/71
28/94/124
1.78
1.03
3.06
3.84E−02
Case-
rec
CVD


rs10275879
T
A
0.50
0.36
0.71
8.02E−05
349/746/400
363/746/362
0.44
0.30
0.65
3.29E−05
cohort






only
rec
CHD


rs6950121
A
C




44/168/88
105/188/89
0.44
0.29
0.66
6.20E−05
Caseonly
27/83/49
55/99/70
0.63
0.38
1.05
7.68E−02
Case-
rec
CHD


rs7765440
T
C
2.00
1.49
2.68
4.37E−06
11/210/1229
16/215/1203
1.82
1.26
2.62
1.28E−03
cohort






only
add
CHD


rs7751843
A
G




5/59/236
3/52/327
1.69
1.16
2.46
6.03E−03
Caseonly
2/41/115
1/28/194
2.38
1.44
3.93
7.17E−04
Case-
add
CHD


rs2030057
T
C
0.60
0.47
0.75
1.18E−05
47/425/964
61/410/959
0.56
0.42
0.75
7.88E−05
cohort






only
add
CHD


rs7901888
A
C




6/80/214
27/124/231
0.62
0.47
0.82
6.91E−04
Caseonly
3/41/115
6/79/139
0.66
0.44
0.99
4.49E−02
Case-
add
CHD


rs3998860
A
G
0.61
0.49
0.77
2.29E−05
129/851/1903
75/416/941
0.58
0.44
0.76
7.97E−05
cohort






only
add
CHD


rs7913568
G
A




6/79/215
31/121/228
0.57
0.43
0.76
9.24E−05
Caseonly
3/44/112
6/80/138
0.70
0.47
1.05
8.17E−02
Case-
add
CHD


rs6931627
G
A
0.74
0.63
0.87
3.01 E−04
237/758/500
279/720/472
0.75
0.61
0.92
5.65E−03
cohort






only
add
CVD


rs9467561
A
C




54/164/139
95/221/128
0.71
0.58
0.87
9.73E−04
Caseonly
23/94/67
55/119/73
0.72
0.54
0.95
1.92E−02
Case-
add
CVD


rs912366
G
A
1.61
1.23
2.11
6.04E−04
31/393/1071
21/357/1093
1.60
1.14
2.24
6.82E−03
cohort






only
dom
CHD


rs9554735
A
G




5/95/200
7/78/297
1.77
1.26
2.49
1.09E−03
Caseonly
6/46/107
6/45/173
1.64
1.04
2.58
3.48E−02
Case-
dom
CHD






















only





















TABLE 6








al-

Meta-analysis

























lele
al-



P

























A1
dele



value
CARE
WOSCOPS























(non-
A2

OR
OR
(ran-
Prava
Placebo

OR
OR
P

Prava
Placebo


Marker
ref)
(ref)
OR
L95
U95
dom)
Count
Count
OR
L95
U95
value
Source
Count
Count





rs1312-
A
G
1.65
1.30
2.08
3.28E−
7/89/204
8/76/298
1.69
1.19
2.39
3.07E−
case-
4/48/107
2/44/178


9010





05





03
only




rs4242-
A
C
1.93
1.41
2.64
3.42E−
51/156/
33/215/
2.12
1.33
3.38
1.64E−
case-
21/76/87
20/109/


281





05
149
196



03
only

118


rs6474-
A
G
1.54
1.25
1.90
5.17E−
17/120/
27/108/
1.55
1.14
2.12
5.78E−
case-
14/62/83
8/66/150


228





05
163
247



03
only




rs4240-
A
G
0.61
0.48
0.77
5.59E−
66/181/
115/215/
0.63
0.45
0.89
8.21E−
case-
32/99/53
65/118/


808





05
110
114



03
only

64


rs1312-
A
G
0.65
0.52
0.80
6.32E−
6/89/262
13/146/
0.64
0.47
0.87
4.55E−
case-
5/53/126
9/82/156


6170





05

285



03
only




rs7916-
G
A
2.09
1.45
2.99
6.46E−
43/136/
25/184/
2.33
1.39
3.92
1.37E−
case-
18/75/90
15/98/


629





05
176
235



03
only

130


rs1172-
A
C
0.64
0.51
0.80
6.95E−
11/85/
21/140/
0.65
0.48
0.89
7.62E−
case-
2/34/148
7/65/175


1179





05
261
283



03
only




rs2993-
A
G
0.66
0.54
0.81
7.06E−
9/96/252
29/157/
0.57
0.42
0.77
2.36E−
case-
8/58/118
14/92/


156





05

257



04
only

141


rs1077-
A
G
0.65
0.53
0.81
8.25E−
48/125/
56/196/
0.72
0.53
0.99
4.35E−
case-
25/64/70
37/119/


4580





05
127
130



02
only

68


rs1688-
G
A
1.56
1.25
1.94
8.49E−
17/95/
15/85/282
1.71
1.23
2.38
1.34E−
case-
7/49/103
6/52/166


5715





05
188




03
only




rs4870-
A
G
1.86
1.36
2.53
8.51E−
51/156/
35/213/
2.01
1.27
3.19
2.98E−
case-
21/75/87
20/109/


109





05
148
194



03
only

118


rs1768-
A
C
0.69
0.58
0.83
9.66E−
7/96/254
18/155/
0.65
0.50
0.85
1.46E−
case-
5/50/129
10/86/


8430





05

271



03
only

151


rs7332-
A
G
2.06
1.43
2.96
9.98E−
35/147/
26/195/
1.83
1.07
3.13
2.75E−
case-
22/69/93
15/103/


076





05
174
223



02
only

129


rs694-
G
A
0.55
0.41
0.75
1.26E−
38/157/
72/175/
0.61
0.40
0.95
2.89E−
case-
20/76/63
43/103/


780





04
105
135



02
only

78


rs483-
A
G
0.68
0.56
0.83
1.30E−
27/138/
51/193/
0.72
0.54
0.95
1.94E−
case-
17/78/89
25/128/


6745





04
192
200



02
only

94


rs701-
A
G
1.50
1.22
1.86
1.44E−
18/122/
19/130/
1.34
0.98
1.82
6.27E−
case-
13/75/71
13/75/


8577





04
160
233



02
only

136


rs1158-
A
G
0.62
0.48
0.79
1.46E−
5/64/
11/107/
0.67
0.47
0.94
2.23E−
case-
5/22/157
1/50/196


5647





04
288
326



02
only




rs442-
A
G
0.66
0.54
0.82
1.51E−
17/87/
20/140/
0.73
0.53
1.00
5.30E−
case-
11/49/99
16/91/


0312





04
196
222



02
only

117


rs744-
G
A
1.52
1.21
1.91
2.61E−
13/79/
13/79/290
1.42
1.01
1.99
4.61E−
case-
7/53/99
3/57/164


9527





04
208




02
only




rs783-
A
G
1.52
1.21
1.91
2.75E−
47/177/
62/196/
1.45
1.04
2.04
3.10E−
case-
29/86/44
46/91/87


9562





04
76
124



02
only




rs265-
A
G
0.29
0.15
0.57
3.05E−
6/120/
20/114/
0.38
0.15
0.97
4.34E−
case-
2/46/111
14/71/


5222





04
174
248



02
only

139


rs261-
G
A
1.57
1.23
2.00
3.23E−
10/73/
9/75/298
1.43
1.00
2.05
4.98E−
case-
3/35/121
1/40/


6548





04
217




02
only

183


rs1049-
G
A
0.71
0.59
0.86
3.37E−
10/90/
20/134/
0.75
0.57
0.99
3.91E−
case-
4/46/109
8/88/128


7883





04
200
228



02
only




rs699-
A
G
3.99
1.83
8.72
5.20E−
13/89/
6/126/250
2.76
1.02
7.46
4.55E−
case-
7/44/108
1/64/159


8016





04
198




02
only




rs1114-
A
G
1.88
1.32
2.70
5.49E−
37/133/
27/182/
1.74
1.03
2.95
3.92E−
case-
17/76/91
10/124/


8285





04
187
235



02
only

113


rs730-
G
A
2.22
1.62
3.04
5.97E−
201/674/
171/681/
2.50
1.57
4.00
1.26E−
cohort
27/74/58
23/115/


5949





07
620
619



04


86


rs26-
A
G
0.62
0.51
0.76
2.80E−
183/654/
200/642/
0.54
0.40
0.73
7.41E−
cohort
273/
279/


4122





06
658
629



05

1142/
1125/
















1235
1251


rs100-
A
G
1.37
1.19
1.57
6.63E−
214/663/
176/665/
1.35
1.10
1.65
3.95E−
cohort
400/
384/


9748





06
617
629



03

1202/
1214/
















1054
1064


rs133-
A
G
1.60
1.30
1.96
6.96E−
306/1284/
152/631/
1.87
1.38
2.54
5.89E−
cohort
19/67/73
19/87/


6400





06
1371
686



05


118


rs210-
A
G
0.63
0.51
0.77
7.94E−
181/652/
201/643/
0.55
0.40
0.74
1.10E−
cohort
17/56/83
24/106/


8425





06
661
624



04


92


rs232-
G
A
1.37
1.19
1.57
1.10E−
215/665/
183/664/
1.34
1.10
1.64
4.19E−
cohort
30/86/68
31/96/


7412





05
615
623



03


120


rs1700-
A
G
1.56
1.28
1.91
1.16E−
89/477/
61/487/
1.63
1.22
2.17
1.00E−
cohort
8/70/105
6/71/


2013





05
929
923



03


170


rs101-
G
A
1.72
1.35
2.20
1.49E−
18/281/
22/266/
1.63
1.14
2.33
7.11E−
cohort
1/36/147
3/29/215


5199





05
1196
1183



03





rs707-
C
A
1.54
1.27
1.87
1.49E−
282/1256/
136/621/
1.68
1.26
2.23
3.59E−
cohort
19/81/84
23/90/


8016





05
1343
675



04


134


rs658-
A
G
1.53
1.26
1.86
1.66E−
281/1256/
136/618/
1.68
1.26
2.23
3.56E−
cohort
19/81/84
23/90/


5412





05
1347
678



04


134


rs19-
G
A
1.67
1.32
2.11
1.91E−
340/768/
326/759/
1.58
1.09
2.30
1.68E−
cohort
613/
588/


8476





05
384
385



02

1353/
1343/
















665
710


rs2648-
A
G
1.98
1.44
2.72
2.42E−
172/636/
156/625/
2.00
1.25
3.19
3.71E−
cohort
28/75/81
18/125/


694





05
683
686



03


104


rs1094-
A
G
1.58
1.28
1.96
2.89E−
19/277/
23/270/
1.72
1.25
2.36
8.43E−
cohort
2/42/140
3/45/198


5874





05
1197
1178



04





rs1190-
A
C
0.67
0.56
0.81
3.38E−
176/666/
170/666/
0.61
0.46
0.81
5.65E−
cohort
285/
285/


706





05
653
635



04

1100/
1176/
















1252
1190


rs3763-
G
C
0.75
0.66
0.86
3.75E−
259/676/
243/723/
0.76
0.62
0.92
6.03E−
cohort
417/
411/


978





05
559
503



03

1255/
1224/
















984
1024


rs1113-
G
A
0.64
0.51
0.79
3.78E−
57/646/
29/302/
0.67
0.48
0.92
1.34E−
cohort
34/563/
46/555/


8314





05
2183
1103



02

2059
2057


rs1310-
C
A
0.65
0.53
0.80
4.01E−
104/895/
52/452/
0.67
0.49
0.90
8.24E−
cohort
8/52/124
12/85/


7334





05
1967
967



03


150


rs668-
A
G
1.60
1.28
2.01
4.01E−
18/382/
17/347/
1.83
1.32
2.54
2.93E−
cohort
7/45/132
5/49/193


5920





05
1092
1104



04





rs261-
A
C
1.42
1.20
1.68
4.06E−
97/494/
95/475/
1.39
1.09
1.78
8.81E−
cohort
9/52/98
6/68/150


6552





05
904
901



03





rs211-
A
C
0.66
0.54
0.81
5.17E−
260/679/
227/753/
0.76
0.57
1.01
6.27E−
cohort
28/74/82
31/139/


0564





05
556
490



02


77


rs100-
G
A
0.66
0.54
0.81
5.34E−
66/494/
58/525/
0.76
0.57
1.01
5.90E−
cohort
10/52/
12/97/


12485





05
931
885



02

122
138


rs179-
G
A
1.75
1.33
2.29
5.98E−
241/690/
183/758/
1.69
1.10
2.61
1.71E−
cohort
473/
491/


8093





05
564
530



02

1222/
1279/
















957
890


rs478-
A
G
0.60
0.46
0.77
6.30E−
323/714/
325/743/
0.64
0.44
0.92
1.72E−
cohort
29/89/41
69/99/


7415





05
414
364



02


56


rs1173-
G
A
0.61
0.48
0.78
7.05E−
645/1484/
324/732/
0.54
0.38
0.78
8.84E−
cohort
37/100/
59/111/


4256





05
756
378



04

47
77


rs126-
A
G
0.67
0.55
0.81
7.06E−
257/656/
256/677/
0.63
0.47
0.84
1.89E−
cohort
20/73/91
32/113/


6489





05
582
538



03


102


rs238-
A
C
1.46
1.21
1.76
7.50E−
62/704/
27/322/
1.65
1.23
2.22
8.40E−
cohort
55/719/
68/672/


250





05
2117
1083



04

1881
1921


rs258-
A
G
0.72
0.61
0.85
7.53E−
57/508/
79/507/
0.69
0.54
0.87
1.62E−
cohort
7/63/114
17/102/


8350





05
928
883



03


128


rs498-
G
A
1.47
1.21
1.77
9.18E−
43/443/
46/403/
1.59
1.20
2.11
1.33E−
cohort
4/55/100
7/63/154


657





05
1007
1020



03





rs642-
C
A
0.68
0.56
0.83
9.43E−
477/1399/
237/700/
0.70
0.53
0.93
1.46E−
cohort
391/
439/


7807





05
1084
529



02

1269/
1236/
















993
983


rs61-
G
A
0.56
0.41
0.75
1.01E−
238/719/
247/673/
0.62
0.41
0.94
2.29E−
cohort
20/76/63
43/102/


9825





04
536
551



02


78


rs94-
G
A
1.85
1.36
2.52
1.02E−
193/661/
158/705/
1.86
1.18
2.95
7.99E−
cohort
21/76/86
19/108/


78241





04
640
605



03


118


rs172-
A
G
1.47
1.21
1.79
1.02E−
216/667/
169/670/
1.57
1.18
2.08
1.90E−
cohort
21/86/76
22/98/


7746





04
612
632



03


127


rs250-
A
G
0.76
0.66
0.87
1.04E−
370/670/
300/766/
0.69
0.56
0.86
7.20E−
cohort
486/
527/


5039





04
455
405



04

1334/
1350/
















834
786


rs447-
G
A
0.66
0.54
0.82
1.05E−
154/685/
177/679/
0.74
0.54
1.00
4.86E−
cohort
20/66/73
23/115/


2926





04
656
615



02


86


rs653-
A
G
0.65
0.52
0.81
1.07E−
326/757/
356/736/
0.62
0.46
0.86
3.59E−
cohort
40/88/56
52/140/


9231





04
412
379



03


55


rs795-
A
G
0.76
0.66
0.87
1.09E−
328/718/
319/766/
0.77
0.64
0.94
1.14E−
cohort
30/82/72
44/137/


9965





04
448
386



02


66


rs974-
A
G
0.67
0.55
0.82
1.13E−
259/677/
228/750/
0.77
0.57
1.03
7.47E−
cohort
28/74/82
31/139/


950





04
558
492



02


77


rs152-
A
G
0.72
0.60
0.85
1.14E−
81/566/
122/580/
0.63
0.49
0.82
4.61E−
cohort
9/60/90
23/86/


4962





04
848
767



04


115


rs1782-
A
C
0.30
0.16
0.55
1.15E−
148/947/
78/476/
0.24
0.09
0.64
4.37E−
cohort
3/60/96
13/70/


1383





04
1791
880



03


141


rs1051-
A
G
0.67
0.55
0.82
1.19E−
59/493/
57/525/
0.76
0.57
1.02
6.53E−
cohort
11/52/121
13/96/


8335





04
942
889



02


138


rs122-
A
C
1.66
1.28
2.15
1.21E−
690/1425/
339/726/
1.65
1.16
2.36
5.58E−
cohort
38/76/45
43/100/


65891





04
771
369



03


79


rs480-
A
G
2.00
1.40
2.85
1.22E−
4/144/
7/126/
2.20
1.33
3.64
2.01E−
cohort
3/19/162
1/14/232


7536





04
1346
1338



03





rs991-
A
G
0.64
0.51
0.80
1.22E−
34/363/
29/380/
0.72
0.51
1.01
5.56E−
cohort
5/36/117
6/72/146


4580





04
1098
1062



02





rs646-
A
G
0.56
0.41
0.75
1.24E−
236/723/
239/683/
0.62
0.41
0.95
2.76E−
cohort
20/75/63
43/101/78


749





04
536
548



02





rs100-
A
C
1.51
1.22
1.86
1.25E−
72/516/
67/505/
1.57
1.15
2.13
4.17E−
cohort
9/58/92
8/64/152


3322





04
907
899



03





rs466-
A
G
1.56
1.24
1.96
1.26E−
18/382/
17/347/
1.86
1.31
2.65
5.46E−
cohort
53/567/
57/576/


0234





04
1095
1105



04

2036
2031


rs403-
G
A
0.65
0.52
0.81
1.27E−
304/693/
271/747/
0.65
0.47
0.90
8.85E−
cohort
27/65/67
55/105/


8018





04
498
453



03


64


rs771-
G
A
0.68
0.56
0.83
1.32E−
137/588/
134/612/
0.69
0.52
0.91
8.96E−
cohort
7/67/110
18/106/


0039





04
769
725



03


123


rs131-
A
G
1.48
1.21
1.81
1.33E−
111/911/
43/443/
1.38
1.04
1.85
2.74E−
cohort
12/70/
9/67/171


50189





04
1941
983



02

102



rs126-
A
G
0.68
0.55
0.83
1.34E−
65/504/
60/526/
0.75
0.57
1.01
5.51E−
cohort
10/52/
13/96/


46525





04
926
885



02

122
138


rs211-
A
G
0.41
0.26
0.65
1.36E−
180/1056/
97/534/
0.43
0.23
0.83
1.18E−
cohort
6/73/105
15/84/


3334





04
1730
840



02


148


rs25-
A
G
2.19
1.46
3.27
1.37E−
0/84/1359
3/83/
2.09
1.15
3.80
1.59E−
cohort
0/13/170
0/6/241


1817





04

1341



02





rs2574
C
G
1.53
1.23
1.91
1.39E−
377/740/
338/715/
1.48
1.07
2.04
1.77E−
cohort
57/87/39
56/128/








04
378
418



02


63


rs1267-
A
G
0.68
0.56
0.83
1.40E−
146/640/
167/647/
0.65
0.49
0.87
2.98E−
cohort
14/76/94
30/117/


9254





04
709
657



03


100


rs1234-
A
G
2.10
1.43
3.09
1.47E−
138/583/
98/607/
2.35
1.30
4.27
4.90E−
cohort
180/
154/


1095





04
774
766



03

1006/
1001/
















1468
1503


rs170-
C
A
1.31
1.14
1.51
1.47E−
239/709/
219/690/
1.26
1.03
1.54
2.34E−
cohort
44/90/50
34/125/


48681





04
546
562



02


88


rs194-
A
G
0.56
0.42
0.76
1.48E−
228/724/
237/679/
0.62
0.40
0.95
2.82E−
cohort
20/75/64
43/102/


2876





04
543
554



02


79


rs265-
A
G
1.40
1.18
1.66
1.52E−
82/530/
59/504/
1.43
1.11
1.85
5.19E−
cohort
11/62/86
10/62/


7940





04
882
908



03


152


rs494-
G
A
0.57
0.42
0.76
1.54E−
237/727/
241/690/
0.63
0.42
0.96
3.08E−
cohort
19/77/62
43/104/


111





04
531
540



02


77


rs206-
G
A
0.64
0.51
0.81
1.59E−
320/753/
364/713/
0.58
0.41
0.81
1.54E−
cohort
45/94/45
79/109/


0022





04
422
393



03


59


rs733-
A
G
2.16
1.45
3.22
1.59E−
3/121/
0/101/
2.01
1.13
3.57
1.75E−
cohort
1/10/148
1/7/216


8174





04
1371
1370



02





rs120-
G
A
0.76
0.66
0.88
1.61E−
220/701/
246/692/
0.74
0.60
0.90
2.93E−
cohort
24/90/70
41/120/


48902





04
574
532



03


86


rs674-
A
G
1.49
1.21
1.83
1.63E−
99/581/
92/528/
1.52
1.12
2.06
7.63E−
cohort
6/66/87
9/62/153


6182





04
814
851



03





rs727-
A
C
0.46
0.31
0.69
1.68E−
3/109/
5/133/
0.37
0.19
0.69
1.84E−
cohort
0/10/174
1/18/228


6749





04
1378
1328



03





rs19-
G
A
1.56
1.24
1.97
1.68E−
339/773/
327/761/
1.59
1.09
2.30
1.48E−
cohort
620/
591/


8460





04
382
382



02

1368/
1353/
















663
713


rs778-
A
G
1.53
1.23
1.92
1.75E−
362/729/
343/725/
1.41
1.02
1.96
3.74E−
cohort
59/85/40
56/130/


5499





04
404
403



02


61


rs99-
C
A
0.57
0.42
0.76
1.76E−
227/724/
237/677/
0.63
0.41
0.96
3.27E−
cohort
20/75/64
43/102/


6022





04
543
555



02


79


rs722-
A
G
0.64
0.51
0.81
1.79E−
34/352/
25/379/
0.73
0.52
1.04
7.77E−
cohort
6/36/117
6/72/146


2186





04
1109
1067



02





rs19-
G
A
1.57
1.24
1.99
1.80E−
349/771/
336/765/
1.44
1.00
2.07
4.86E−
cohort
50/69/40
42/122/60


8464





04
374
369



02





rs169-
C
A
0.68
0.55
0.83
1.80E−
197/673/
205/670/
0.75
0.55
1.02
7.03E−
cohort
13/64/82
33/105/86


34059





04
625
595



02





rs156-
G
A
0.56
0.42
0.76
1.84E−
14/347/
8/175/
0.59
0.39
0.88
1.10E−
cohort
0/14/145
0/42/182


6221





04
2605
1288



02





rs812-
A
G
0.46
0.31
0.69
1.85E−
3/108/
5/133/
0.37
0.19
0.69
1.89E−
cohort
0/10/174
1/18/228


9810





04
1384
1333



03





rs134-
G
A
1.45
1.19
1.77
1.89E−
60/459/
74/439/
1.45
1.09
1.93
1.14E−
cohort
106/820/
101/844/


4081





04
976
958



02

1729
1709


rs79-
A
G
1.54
1.23
1.94
1.96E−
26/352/
21/324/
1.47
1.07
2.03
1.91E−
cohort
8/43/133
3/41/203


18692





04
1117
1126



02





rs46-
A
G
1.55
1.23
1.95
2.04E−
341/721/
302/709/
1.42
1.02
1.99
3.98E−
cohort
55/87/42
54/122/71


86740





04
433
460



02





rs128-
A
G
0.77
0.67
0.88
2.05E−
262/693/
249/739/
0.76
0.62
0.93
7.13E−
cohort
20/89/75
41/133/73


17873





04
538
481



03





rs7508
G
A
1.48
1.20
1.82
2.08E−
125/612/
120/550/
1.42
1.05
1.93
2.27E−
cohort
15/77/67
20/92/112








04
758
801



02





rs27-
A
G
0.57
0.43
0.77
2.13E−
189/670/
216/652/
0.51
0.33
0.78
2.30E−
cohort
19/94/71
40/115/92


1046





04
636
603



03





rs201-
A
G
0.64
0.51
0.81
2.15E−
21/274/
18/268/
0.67
0.47
0.95
2.57E−
cohort
2/23/133
8/47/169


1318





04
1155
1147



02





rs113-
A
G
1.48
1.20
1.83
2.29E−
59/663/
29/317/
1.64
1.23
2.18
8.11E−
cohort
2/35/147
2/43/202


6046





04
2244
1125



04





rs145-
G
A
0.69
0.57
0.84
2.29E−
43/415/
43/464/
0.63
0.47
0.84
1.89E−
cohort
4/43/112
8/81/135


0092





04
1037
962



03





rs707-
G
A
1.45
1.19
1.78
2.37E−
37/350/
32/325/
1.42
1.07
1.88
1.43E−
cohort
8/39/135
3/38/206


0244





04
1107
1114



02





rs892-
G
A
0.60
0.46
0.79
2.39E−
273/736/
279/695/
0.64
0.43
0.96
2.95E−
cohort
20/80/59
51/100/73


162





04
485
496



02





rs656-
A
G
0.65
0.52
0.82
2.41E−
42/350/
35/383/
0.76
0.56
1.04
8.26E−
cohort
2/24/133
4/54/166


3805





04
1102
1052



02





rs99-
G
A
0.65
0.52
0.82
2.42E−
35/355/
30/376/
0.71
0.50
1.01
5.44E−
cohort
6/37/116
6/72/146


06737





04
1104
1064



02





rs47-
G
A
1.63
1.25
2.12
2.49E−
20/235/
8/198/
1.79
1.24
2.59
1.75E−
cohort
0/29/155
0/29/217


5420





04
1237
1263



03





rs176-
G
A
0.51
0.36
0.73
2.61E−
156/606/
168/601/
0.58
0.36
0.94
2.65E−
cohort
13/78/93
31/116/


44708





04
732
702



02


100


rs705-
A
G
1.53
1.22
1.91
2.61E−
33/353/
30/321/
1.43
1.03
1.97
3.11E−
cohort
8/43/132
3/38/206


7780





04
1109
1119



02





rs4773
A
G
0.69
0.56
0.84
2.68E−
249/694/
250/712/
0.65
0.48
0.87
3.94E−
cohort
20/73/91
32/111/








04
552
509



03


104


rs674-
G
A
1.53
1.22
1.92
2.69E−
395/755/
335/732/
1.33
0.96
1.85
8.45E−
cohort
49/91/44
47/123/77


2894





04
343
404



02





rs104-
G
A
0.74
0.62
0.87
2.70E−
225/1125/
118/555/
0.67
0.52
0.86
1.39E−
cohort
157/975/
170/995/


5916





04
1533
760



03

1521
1496


rs643-
A
G
0.67
0.53
0.83
2.76E−
298/688/
264/756/
0.70
0.51
0.97
3.05E−
cohort
34/70/55
42/134/48


5378





04
509
451



02





rs134-
A
G
1.44
0.18
1.75
2.78E−
121/612/
118/565/
1.33
1.01
1.76
4.53E−
cohort
22/84/78
18/87/142


11119





04
762
788



02





rs153-
A
C
0.68
0.56
0.84
2.79E−
330/1271/
180/641/
0.65
0.48
0.88
5.54E−
cohort
13/54/92
21/89/114


1842





04
1365
650



03





rs9857
G
A
0.74
0.63
0.87
2.85E−
96/554/
120/608/
0.68
0.54
0.86
1.14E−
cohort
6/64/114
18/82/147








04
844
741



03





rs9960
A
G
1.47
1.19
1.80
2.88E−
54/483/
41/442/
1.55
1.15
2.08
3.88E−
cohort
10/57/117
7/63/177








04
958
987



03





rs131-
G
A
0.67
0.54
0.83
2.88E−
81/850/
39/434/
0.70
0.52
0.95
2.39E−
cohort
5/53/126
8/83/156


03899





04
1955
961



02





rs684-
G
A
0.66
0.53
0.83
2.88E−
316/740/
329/731/
0.75
0.55
1.02
6.96E−
cohort
38/90/56
65/133/49


8512





04
394
373



02





rs101-
A
C
1.36
1.15
1.61
2.95E−
64/473/
54/454/
1.31
1.02
1.67
3.21E−
cohort
11/74/99
8/76/163


81805





04
957
963



02





rs11-
C
A
1.42
1.17
1.71
3.02E−
47/455/
50/410/
1.34
1.01
1.77
4.41E−
cohort
7/52/100
5/54/165


29570





04
950
974



02





rs99-
A
C
1.77
1.30
2.41
3.07E−
349/1376/
156/710/
1.79
1.13
2.84
1.30E−
cohort
21/75/87
20/108/


86576





04
1241
605



02


117


rs13-
A
G
0.44
0.28
0.69
3.07E−
133/614/
145/609/
0.59
0.34
1.03
6.31E−
cohort
6/62/91
28/84/


52236





04
746
716



02


112


rs77-
A
G
0.65
0.52
0.82
3.13E−
20/302/
20/324/
0.69
0.50
0.97
3.13E−
cohort
0/23/136
6/43/174


70578





04
1128
1087



02





rs27-
G
A
1.58
1.23
2.03
3.14E−
326/750/
314/702/
1.57
1.07
2.30
2.05E−
cohort
517/
452/


48901





04
419
454



02

1250/
1342/
















885
868


rs115-
G
A
0.77
0.67
0.89
3.21E−
286/710/
298/652/
0.81
0.66
1.01
5.63E−
cohort
21/85/52
61/104/59


5875





04
499
521



02





rs67-
C
A
0.67
0.54
0.83
3.25E−
15/305/
25/315/
0.70
0.51
0.95
2.23E−
cohort
2/31/151
4/54/189


5163





04
1175
1131



02





rs106-
G
A
0.66
0.53
0.83
3.29E−
335/738/
342/724/
0.67
0.48
0.95
2.34E−
cohort
615/
672/


8705





04
421
405



02

1268/
1320/
















767
661


rs150-
G
A
1.50
1.20
1.88
3.45E−
26/322/
21/320/
1.36
0.99
1.87
6.03E−
cohort
2/44/113
1/48/175


5469





04
1147
1130



02





rs62-
A
G
0.70
0.57
0.85
3.56E−
107/559/
115/547/
0.77
0.58
1.03
7.39E−
cohort
16/63/
25/111/


3400





04
786
772



02

105
111


rs60-
G
A
1.47
1.19
1.82
3.60E−
128/565/
110/562/
1.72
1.30
2.28
1.37E−
cohort
18/72/94
23/87/137


40760





04
801
799



04





rs173-
A
G
0.68
0.55
0.84
3.68E−
47/422/
63/453/
0.65
0.48
0.89
6.66E−
cohort
2/54/128
4/81/162


10169





04
1025
955



03





rs762-
A
C
4.25
1.92
9.43
3.74E−
44/369/
37/324/
4.02
1.31
12.33
1.50E−
cohort
6/46/132
2/58/187


3808





04
1081
1109



02





rs77-
A
G
0.48
0.32
0.72
3.78E−
3/110/
5/129/
0.38
0.21
0.71
2.41E−
cohort
0/10/174
1/18/228


638540





04
1382
1337



03





rs58-
A
G
0.59
0.44
0.79
3.85E−
239/715/
240/683/
0.62
0.41
0.94
2.53E−
cohort
19/76/64
43/103/78


1401





04
539
548



02





rs42-
A
G
0.69
0.56
0.84
3.90E−
34/355/
29/377/
0.78
0.59
1.04
8.76E−
cohort
1/35/148
3/76/168


51580





04
1106
1065



02





rs6-
G
A
0.59
0.44
0.79
3.91E−
238/721/
242/677/
0.62
0.40
0.94
2.40E−
cohort
19/77/63
43/103/78


03940





04
534
552



02





rs13-
G
A
1.50
1.20
1.88
4.01E−
43/468/
42/389/
1.29
0.93
1.79
1.23E−
cohort
5/42/112
3/41/180


117043





04
984
1039



01





rs380-
A
G
0.48
0.32
0.72
4.10E−
3/114/
2/136/
0.39
0.20
0.76
5.25E−
cohort
0/9/150
1/23/200


0202





04
1375
1329



03





rs107-
A
G
0.76
0.65
0.88
4.18E−
202/706/
231/708/
0.82
0.65
1.02
7.21E−
cohort
19/77/63
36/118/70


38948





04
587
530



02





rs62-
A
G
0.59
0.45
0.79
4.21E−
238/724/
243/682/
0.62
0.41
0.94
2.32E−
cohort
19/76/64
43/104/77


3584





04
532
546



02





rs955-
A
G
1.49
1.20
1.87
4.24E−
27/383/
24/334/
1.70
1.21
2.39
2.28E−
cohort
44/636/
46/585/


7509





04
1084
1112



03

1977
2031


rs116 -
G
A
1.35
1.14
1.60
4.29E−
168/985/
79/486/
1.31
1.02
1.69
3.36E−
cohort
122/885/
111/846/


68038





04
1731
868



02

1648
1702


rs108-
A
C
1.29
1.12
1.49
4.62E−
697/1481/
328/745/
1.40
1.12
1.74
3.12E−
cohort
625/
604/


02865





04
705
360



03

1329/
1353/
















702
706


rs1703-
A
G
1.44
1.17
1.77
5.05E−
49/471/
57/435/
1.52
1.11
2.09
8.90E−
cohort
114/855/
112/836/


5071





04
975
979



03

1681
1709


rs14-
A
G
1.39
1.16
1.68
5.20E−
118/612/
113/587/
1.29
1.02
1.64
3.56E−
cohort
20/72/67
15/75/134


39269





04
765
770



02





rs20-
A
G
1.41
1.16
1.72
5.61E−
93/537/
96/473/
1.30
0.98
1.72
7.23E−
cohort
12/79/93
9/89/149


8025





04
861
897



02





rs126-
G
A
0.67
0.53
0.84
5.65E−
21/337/
26/366/
0.70
0.50
0.98
3.67E−
cohort
7/36/141
8/70/169


08167





04
1137
1078



02





rs13-
G
A
0.70
0.57
0.85
5.74E−
173/606/
182/638/
0.81
0.60
1.09
1.64E−
cohort
20/54/85
25/105/94


3871





04
716
651



01





rs706-
A
C
1.65
1.24
2.19
5.82E−
11/240/
9/204/
1.69
1.10
2.59
1.62E−
cohort
3/32/124
1/26/197


8975





04
1244
1258



02





rs186-
A
G
0.74
0.62
0.88
5.84E−
70/500/
93/548/
0.69
0.53
0.88
3.18E−
cohort
4/57/123
12/80/155


6386





04
925
829



03





rs158-
A
G
1.57
1.21
2.03
6.11E−
552/1477/
251/764/
1.52
1.04
2.22
3.16E−
cohort
45/72/41
41/116/66


0713





04
937
456



02





rs936-
G
A
0.70
0.57
0.86
6.61E−
93/549/
109/559/
0.73
0.54
0.99
4.56E−
cohort
11/58/90
25/92/107


671





04
852
801



02





rs373-
A
G
1.51
1.19
1.91
6.62E−
118/604/
117/568/
1.32
0.98
1.79
6.98E−
cohort
20/71/68
16/74/134


2136





04
772
786



02





rs177-
A
G
0.72
0.59
0.87
6.84E−
50/407/
46/464/
0.67
0.51
0.89
6.28E−
cohort
5/45/109
8/82/134


18867





04
1038
961



03





rs57-
G
A
1.53
1.20
1.95
7.02E−
23/261/
18/240/
1.40
0.99
1.98
5.39E−
cohort
6/38/140
2/33/212


64592





04
1211
1212



02





rs28-
G
A
1.41
1.16
1.72
7.07E−
118/563/
92/541/
1.31
0.98
1.74
6.81E−
cohort
14/84/86
14/92/141


80563





04
770
801



02





rs156-
G
A
0.78
0.68
0.90
7.07E−
279/650/
205/735/
0.73
0.58
0.90
3.95E−
cohort
402/
447/


4078





04
563
530



03

1248/
1288/
















992
915


rs108-
A
G
1.66
1.24
2.23
7.22E−
0/203/
0/157/
1.83
1.19
2.81
5.83E−
cohort
0/32/152
2/31/214


17479





04
1280
1305



03





rs47-
A
G
1.26
1.10
1.45
7.28E−
341/724/
324/705/
1.20
0.99
1.46
6.17E−
cohort
47/101/
57/112/


8859





04
430
442



02

36
78


rs101-
G
A
1.64
1.23
2.19
7.44E−
190/675/
167/704/
1.40
0.92
2.14
1.15E−
cohort
27/77/80
25/124/98


06852





04
630
599



01





rs1265-
A
G
1.43
1.16
1.75
7.50E−
105/584/
85/532/
1.48
1.09
2.00
1.21E−
cohort
17/72/70
12/89/123


9030





04
806
854



02





rs15-
A
G
1.49
1.18
1.89
7.74E−
369/716/
271/747/
1.57
1.11
2.23
1.06E−
cohort
47/79/58
48/127/72


36506





04
408
453



02





rs218-
G
A
0.70
0.57
0.86
7.76E−
467/1361/
218/711/
0.66
0.48
0.90
7.98E−
cohort
18/61/80
32/97/95


4393





04
1166
540



03





rs110-
G
A
1.47
1.17
1.84
7.81E−
42/404/
33/375/
1.26
0.90
1.75
1.75E−
cohort
4/52/103
2/48/174


77308





04
1005
1026



01





rs79-
C
G
0.71
0.58
0.87
8.35E−
225/681/
260/682/
0.69
0.51
0.92
1.04E−
cohort
28/71/84
41/104/


15250





04
589
529



02


101


rs46-
G
A
1.27
1.10
1.46
8.63E−
319/719/
266/733/
1.23
1.01
1.50
3.84E−
cohort
37/104/
36/126/


89078





04
454
469



02

43
85


rs286-
A
G
0.75
0.64
0.89
9.44E−
68/511/
79/508/
0.81
0.64
1.03
8.13E−
cohort
4/64/116
15/97/135


9680





04
872
847



02





rs122-
A
G
2.18
1.37
3.45
9.89E−
0/150/
0/62/1368
2.20
1.07
4.55
3.26E−
cohort
0/13/171
1/7/239


86877





04
2726




02





rs104-
A
G
0.24
0.08
0.70
9.13E−
0/58/1394
1/68/1365
0.43
0.20
0.92
2.98E−
cohort
0/1/183
0/13/234


60737





03





02

















WOSCOPS
PROVEIT



























OR
OR
P

Atorv
Prav

OR
OR


Mod-
End-



Marker
OR
L95
U95
value
Source
Count
Count
OR
L95
U95
P value
Source
el
point






rs1312-
1.90
1.19
3.03
6.81E−
case-
6/47/
5/51/196
1.39
0.89
2.16
1.44E−
case-
dom
CHD



9010



03
only
138




01
only





rs4242-
1.46
0.76
2.79
2.51E−
case-
37/78/
27/127/
2.08
1.20
3.60
8.70E−
case-
rec
CVD



281



01
only
76
98



03
only





rs6474-
1.83
1.21
2.79
4.63E−
case-
9/87/95
19/90/
1.32
0.90
1.93
1.52E−
case-
dom
CHD



228



03
only

143



01
only





rs4240-
0.61
0.38
0.98
4.06E−
case-
28/97/66
59/123/
0.56
0.34
0.92
2.26E−
case-
rec
CVD



808



02
only

70



02
only





rs1312-
0.78
0.52
1.17
2.36E−
case-
6/37/148
7/81/164
0.53
0.34
0.82
4.23E−
case-
dom
CVD



6170



01
only





03
only





rs7916-
1.66
0.81
3.41
1.64E−
case-
21/82/86
15/101/
2.11
1.05
4.26
3.73E−
case-
rec
CVD



629



01
only

136



02
only





rs1172-
0.60
0.38
0.95
2.87E−
case-
14/41/
12/80/
0.64
0.41
0.99
4.53E−
case-
dom
CVD



1179



02
only
136
160



02
only





rs2993-
0.76
0.51
1.13
1.73E−
case-
11/57/
23/84/
0.75
0.50
1.10
1.42E−
case-
dom
CVD



156



01
only
123
145



01
only





rs1077-
0.56
0.37
0.86
7.45E−
case-
26/85/80
40/132/
0.63
0.43
0.94
2.27E−
case-
dom
CHD



4580



03
only

80



02
only





rs1688-
1.58
1.01
2.46
4.38E−
case-
10/60/
9/67/176
1.34
0.89
2.00
1.59E−
case-
dom
CHD



5715



02
only
121




01
only





rs4870-
1.47
0.77
2.80
2.45E−
case-
37/78/76
28/124/
1.97
1.14
3.40
1.48E−
case-
rec
CVD



109



01
only

98



02
only





rs1768-
0.71
0.50
1.01
5.62E−
case-
4/51/136
10/77/
0.77
0.54
1.11
1.57E−
case-
add
CVD



8430



02
only

165



01
only





rs7332-
2.18
1.09
4.34
2.70E−
case-
23/69/99
14/100/
2.40
1.18
4.88
1.62E−
case-
rec
CVD



076



02
only

138



02
only





rs694-
0.62
0.35
1.10
1.02E−
case-
19/106/
50/108/
0.40
0.21
0.73
3.11E−
case-
rec
CHD



780



01
only
66
94



03
only





rs483-
0.65
0.44
0.97
3.26E−
case-
13/76/
25/119/
0.65
0.44
0.96
2.82E−
case-
dom
CVD



6745



02
only
102
108



02
only





rs701-
1.94
1.28
2.94
1.68E−
case-
15/79/97
18/83/
1.44
0.98
2.12
6.13E−
case-
dom
CHD



8577



03
only

151



02
only





rs1158-
0.67
0.40
1.12
1.25E−
case-
10/26/
14/61/
0.49
0.30
0.80
4.76E−
case-
dom
CVD



5647



01
only
155
177



03
only





rs442-
0.64
0.42
0.97
3.58E−
case-
8/56/127
10/106/
0.59
0.40
0.87
8.31E−
case-
dom
CHD



0312



02
only

136



03
only





rs744-
1.71
1.10
2.65
1.72E−
case-
8/61/122
8/60/184
1.53
1.01
2.30
4.28E−
case-
dom
CHD



9527



02
only





02
only





rs783-
1.63
1.05
2.53
3.07E−
case-
47/95/49
39/125/
1.54
1.01
2.34
4.35E−
case-
dom
CHD



9562



02
only

88



02
only





rs265-
0.20
0.05
0.91
3.78E−
case-
3/80/108
17/71/
0.23
0.07
0.80
2.09E−
case-
rec
CHD



5222



02
only

164



02
only





rs261-
1.37
0.83
2.26
2.18E−
case-
8/57/126
2/52/198
2.02
1.28
3.16
2.29E−
case-
dom
CHD



6548



01
only





03
only





rs1049-
0.67
0.46
0.98
4.15E−
case-
3/57/131
13/88/
0.68
0.48
0.96
2.91E−
case-
add
CHD



7883



02
only

151



02
only





rs699-
9.63
1.17
79.34
3.53E−
case-
9/61/121
2/73/177
6.19
1.27
30.09
2.39E−
case-
rec
CHD



8016



02
only





02
only





rs1114-
2.30
1.02
5.16
4.42E−
case-
27/72/92
22/101/
1.87
1.01
3.48
4.67E−
case-
rec
CVD



8285



02
only

129



02
only





rs730-
1.74
0.95
3.17
7.16E−
case-
130/459/
133/443/
2.34
1.29
4.22
4.97E−
cohort
rec
CHD



5949



02
only
419
434



03






rs26-
0.66
0.46
0.95
2.58E−
cohort
144/421/
136/459/
0.72
0.50
1.05
8.92E−
cohort
dom
CHD



4122



02

454
419



02






rs100-
1.35
1.05
1.72
1.81E−
cohort
121/455/
118/435/
1.43
1.09
1.88
1.06E−
cohort
add
CVD



9748



02

444
460



02






rs133-
1.35
0.90
2.04
1.53E−
case-
151/404/
116/431/
1.46
1.00
2.12
4.82E−
cohort
dom
CHD



6400



01
only
459
465



02






rs210-
0.62
0.41
0.94
2.45E−
case-
148/415/
138/469/
0.77
0.53
1.12
1.69E−
cohort
dom
CHD



8425



02
only
447
405



01






rs232-
1.41
1.07
1.86
1.56E−
case-
122/453/
119/431/
1.38
1.05
1.81
2.08E−
cohort
add
CVD



7412



02
only
443
463



02






rs1700-
1.66
1.11
2.48
1.28E−
case-
54/346/
57/351/
1.38
0.94
2.02
9.55E−
cohort
dom
CVD



2013



02
only
616
604



02






rs101-
1.66
0.98
2.78
5.77E−
case-
19/226/
11/200/
1.93
1.23
3.03
4.06E−
cohort
dom
CVD



5199



02
only
775
803



03






rs707-
1.44
0.98
2.12
6.19E−
case-
140/415/
112/439/
1.41
0.97
2.04
7.29E−
cohort
dom
CVD



8016



02
only
466
466



02






rs658-
1.44
0.98
2.12
6.19E−
case-
144/404/
116/433/
1.39
0.96
2.02
8.12E−
cohort
dom
CVD



5412



02
only
469
465



02






rs19-
1.61
1.06
2.46
2.63E−
cohort
65/85/41
55/132/
1.85
1.21
2.84
4.85E−
case-
rec
CHD



8476



02


65



03
only





rs2648-
2.29
1.22
4.29
9.83E−
case-
108/459/
113/452/
1.72
0.95
3.11
7.49E−
cohort
rec
CVD



694



03
only
453
451



02






rs1094-
1.24
0.81
1.91
3.19E−
case-
22/196/
20/201/
1.72
1.15
2.58
8.16E−
cohort
add
CVD



5874



01
only
799
795



03






rs1190-
0.70
0.50
0.99
4.37E−
cohort
103/476/
129/443/
0.76
0.52
1.10
1.42E−
cohort
dom
CVD



706



02

441
445



01






rs376-
0.68
0.53
0.87
2.46E−
cohort
154/448/
171/478/
0.84
0.65
1.10
2.06E−
cohort
add
CVD



3978



03

418
365



01






rs111-
0.59
0.39
0.89
1.22E−
cohort
22/228/
19/256/
0.64
0.43
0.95
2.83E−
cohort
add
CHD



38314



02

765
740



02






rs131-
0.74
0.50
1.11
1.49E−
case-
46/286/
37/293/
0.53
0.35
0.80
2.36E−
cohort
dom
CVD



07334



01
only
687
683



03






rs668-
1.40
0.90
2.18
1.35E−
case-
28/243/
19/227/
1.45
0.93
2.25
9.96E−
cohort
dom
CVD



5920



01
only
750
771



02






rs26-
1.32
0.92
1.89
1.37E−
case-
86/353/
73/362/
1.55
1.15
2.08
3.98E−
cohort
add
CHD



16552



01
only
581
581



03






rs21-
0.56
0.37
0.83
3.82E−
case-
182/476/
204/470/
0.60
0.40
0.89
1.17E−
cohort
dom
CVD



10564



03
only
360
341



02






rs100-
0.64
0.43
0.95
2.56E−
case-
61/341/
47/357/
0.54
0.36
0.79
1.78E−
cohort
dom
CVD



12485



02
only
619
613



03






rs1798-
1.63
1.03
2.59
3.71E−
cohort
187/469/
160/456/
2.00
1.17
3.42
1.13E−
cohort
rec
CHD



093



02

364
396



02






rs478-
0.52
0.31
0.85
8.69E−
case-
33/101/
64/118/
0.62
0.38
0.99
4.76E−
case-
rec
CHD



7415



03
only
57
70



02
only





rs117-
0.81
0.51
1.30
3.88E−
case-
219/511/
226/491/
0.57
0.36
0.89
1.46E−
cohort
rec
CVD



34256



01
only
278
287



02






rs126-
0.74
0.50
1.09
1.26E−
case-
169/473/
180/468/
0.67
0.45
0.98
4.00E−
cohort
dom
CVD



6489



01
only
368
364



02






rs23-
1.43
1.03
1.97
3.13E−
cohort
22/239/
22/241/
1.24
0.86
1.80
2.50E−
cohort
add
CVD



8250



02

759
752



01






rs25-
0.68
0.49
0.95
2.31E−
case-
52/340/
41/363/
0.82
0.59
1.13
2.30E−
cohort
add
CVD



88350



02
only
616
606



01






rs498-
1.18
0.81
1.72
4.00E−
case-
8/66/117
4/69/179
1.57
1.10
2.24
1.40E−
case-
add
CHD



657



01
only





02
only





rs642-
0.67
0.47
0.96
2.85E−
cohort
157/456/
179/464/
0.66
0.45
0.97
3.26E−
cohort
dom
CVD



7807



02

393
369



02






rs61-
0.61
0.34
1.09
9.80E−
case-
19/107/
50/109/
0.40
0.21
0.73
3.11E−
case-
rec
CHD



9825



02
only
65
93



03
only





rs94-
1.54
0.80
2.96
1.97E−
case-
37/78/76
27/127/
2.08
1.20
3.60
8.70E−
case-
rec
CVD



78241



01
only

98



03
only





rs172-
1.50
1.02
2.20
4.18E−
case-
154/450/
120/441/
1.30
0.89
1.90
1.68E−
cohort
dom
CVD



7746



02
only
409
449



01






rs250-
0.78
0.60
1.02
6.83E−
cohort
252/494/
254/499/
0.84
0.65
1.09
1.97E−
cohort
add
CHD



5039



02

269
258



01






rs447-
0.71
0.47
1.08
1.10E−
case-
22/63/
29/123/
0.53
0.36
0.78
1.17E−
case-
dom
CHD



2926



01
only
106
100



03
only





rs653-
0.66
0.43
1.02
5.92E−
case-
51/80/60
60/131/
0.68
0.45
1.05
7.89E−
case-
dom
CVD



9231



02
only

61



02
only





rs795-
0.75
0.57
1.00
4.97E−
case-
34/92/65
67/115/
0.74
0.57
0.97
2.87E−
case-
add
CVD



9965



02
only

70



02
only





rs974-
0.56
0.37
0.83
3.82E−
case-
179/455/
201/455/
0.64
0.43
0.94
2.37E−
cohort
dom
CVD



950



03
only
376
352



02






rs152-
0.78
0.56
1.08
1.28E−
case-
11/64/
15/105/
0.80
0.58
1.10
1.70E−
case-
add
CHD



4962



01
only
116
132



01
only





rs1782-
0.33
0.09
1.18
8.85E−
case-
5/70/116
18/89/
0.35
0.13
0.96
4.18E−
case-
rec
CHD



1383



02
only

145



02
only





rs1051-
0.65
0.44
0.97
3.35E−
case-
9/47/135
9/99/143
0.55
0.37
0.82
3.26E−
case-
dom
CVD



8335



02
only





03
only





rs122-
1.27
0.77
2.09
3.43E−
case-
53/82/56
39/127/
2.13
1.33
3.41
1.78E−
case-
rec
CHD



65891



01
only

85



03
only





rs480-
2.13
1.07
4.24
3.22E−
case-
1/16/174
1/14/237
1.53
0.74
3.16
2.50E−
case-
dom
CVD



7536



02
only





01
only





rs991-
0.67
0.42
1.05
7.85E−
case-
3/41/147
10/82/
0.51
0.33
0.78
2.05E−
case-
dom
CHD



4580



02
only

160



03
only





rs646-
0.62
0.35
1.10
9.97E−
case-
19/106/
50/108/
0.40
0.21
0.73
3.11E−
case-
rec
CHD



749



02
only
66
94



03
only





rs100-
1.52
0.99
2.32
5.29E−
case-
11/70/
5/82/
1.41
0.95
2.08
8.60E−
case-
dom
CHD



3322



02
only
110
165



02
only





rs466-
1.32
0.88
1.97
1.80E−
cohort
28/238/
20/222/
1.45
0.93
2.25
9.97E−
cohort
dom
CHD



0234



01

750
774



02






rs403-
0.55
0.36
0.85
6.49E−
case-
44/88/59
68/119/
0.76
0.50
1.17
2.11E−
case-
dom
CHD



8018



03
only

65



01
only





rs771-
0.65
0.44
0.96
3.15E−
case-
11/63/
17/102/
0.70
0.48
1.03
7.21E−
case-
dom
CVD



0039



02
only
117
133



02
only





rs131-
1.83
1.23
2.72
3.06E−
case-
7/70/114
18/65/
1.36
0.92
2.02
1.22E−
case-
dom
CVD



50189



03
only

169



01
only





rs126-
0.64
0.43
0.95
2.56E−
case-
65/338/
46/360/
0.59
0.40
0.87
7.91E−
cohort
dom
CVD



46525



02
only
616
605



03






rs211-
0.53
0.20
1.41
2.06E−
case-
7/73/111
27/92/
0.29
0.12
0.70
6.07E−
case-
rec
CVD



3334



01
only

133



03
only





rs25-
2.98
1.11
8.03
3.08E−
case-
1/22/168
0/17/235
2.02
1.06
3.86
3.35E−
case-
add
CVD



1817



02
only





02
only





rs2574
1.54
1.00
2.38
5.03E−
case-
258/474/
237/537/
1.62
1.07
2.44
2.30E−
cohort
rec
CVD







02
only
287
242



02






rs1267-
0.65
0.44
0.95
2.77E−
case-
19/77/95
26/115/
0.79
0.53
1.16
2.21E−
case-
dom
CVD



9254



02
only

111



01
only





rs1234-
2.38
1.14
4.96
2.05E−
cohort
79/404/
64/384/
1.63
0.82
3.24
1.68E−
cohort
rec
CHD



1095



02

536
565



01






rs170-
1.49
1.13
1.98
5.10E−
case-
30/91/70
30/114/
1.25
0.95
1.66
1.15E−
case-
add
CVD



48681



03
only

108



01
only





rs194-
0.62
0.35
1.10
1.02E−
case-
18/108/
48/108/
0.41
0.23
0.76
4.18E−
case-
rec
CHD



2876



01
only
65
96



03
only





rs265-
1.57
1.12
2.21
9.90E−
case-
7/75/109
12/80/
1.20
0.86
1.67
2.77E−
case-
add
CHD



7940



03
only

160



01
only





rs494-
0.59
0.33
1.06
7.90E−
case-
19/107/
49/109/
0.44
0.25
0.79
5.96E−
case-
rec
CHD



111



02
only
65
94



03
only





rs206-
0.69
0.45
1.07
9.41E−
case-
42/81/68
72/101/
0.72
0.46
1.12
1.40E−
case-
rec
CVD



0022



02
only

79



01
only





rs733-
2.01
0.79
5.14
1.44E−
case-
1/24/166
1/14/237
2.50
1.25
4.99
9.45E−
case-
dom
CHD



8174



01
only





03
only





rs120-
0.87
0.66
1.16
3.46E−
case-
20/77/94
53/90/
0.72
0.55
0.94
1.73E−
case-
add
CVD



48902



01
only

109



02
only





rs674-
1.79
1.17
2.73
6.97E−
case-
73/376/
65/375/
1.25
0.86
1.81
2.38E−
cohort
dom
CHD



6182



03
only
568
576



01






rs727-
0.68
0.31
1.52
3.50E−
case-
4/84/931
4/108/
0.45
0.22
0.90
2.45E−
cohort
dom
CVD



6749



01
only

904



02






rs19-
1.54
1.01
2.34
4.59E−
cohort
273/496/
243/509/
1.55
1.02
2.36
3.93E−
cohort
rec
CHD



8460



02

244
253



02






rs778-
1.62
1.05
2.49
2.89E−
case-
258/486/
214/516/
1.68
1.09
2.61
1.97E−
cohort
rec
CVD



5499



02
only
267
281



02






rs99-
0.62
0.35
1.10
1.02E−
case-
18/108/
48/108/
0.41
0.23
0.76
4.18E−
case-
rec
CHD



6022



01
only
65
96



03
only





rs722-
0.68
0.44
1.07
9.51E−
case-
2/40/148
9/82/161
0.50
0.32
0.77
1.48E−
case-
dom
CHD



2186



02
only





03
only





rs198-
2.04
1.27
3.29
3.35E−
case-
291/482/
263/493/
1.44
0.96
2.17
7.90E−
cohort
rec
CHD



464



03
only
231
248



02






rs169-
0.57
0.38
0.87
8.36E−
case-
119/460/
121/463/
0.65
0.45
0.95
2.65E−
cohort
dom
CHD



34059



03
only
439
430



02






rs15-
0.41
0.21
0.78
6.53E−
case-
4/99/917
3/125/
0.68
0.37
1.26
2.22E−
cohort
add
CHD



66221



03
only

887



01






rs812-
0.68
0.31
1.52
3.50E−
case-
3/84/933
5/107/
0.45
0.22
0.91
2.69E−
cohort
dom
CVD



9810



01
only

902



02






rs134-
1.58
1.10
2.26
1.25E−
cohort
8/61/122
8/68/176
1.31
0.88
1.96
1.86E−
case-
dom
CVD



4081



02






01
only





rs791-
1.76
1.11
2.79
1.59E−
case-
0/52/139
3/48/201
1.48
0.95
2.32
8.37E−
case-
dom
CVD



8692



02
only





02
only





rs468-
1.53
0.98
2.37
5.90E−
case-
53/85/53
45/141/
1.86
1.17
2.97
8.84E−
case-
rec
CVD



6740



02
only

66



03
only





rs128-
0.69
0.52
0.93
1.38E−
case-
165/458/
179/482/
0.85
0.65
1.10
2.15E−
cohort
add
CVD



17873



02
only
398
355



01






rs7508
1.39
0.92
2.10
1.17E−
case-
10/91/90
15/87/
1.65
1.13
2.43
1.03E−
case-
dom
CHD







01
only

150



02
only





rs27-
0.58
0.32
1.05
6.99E−
case-
29/89/73
50/103/
0.68
0.40
1.18
1.74E−
case-
rec
CVD



1046



02
only

99



01
only





rs201-
0.60
0.38
0.95
2.83E−
case-
1/34/156
3/64/185
0.63
0.40
0.99
4.35E−
case-
add
CHD



1318



02
only





02
only





rs113-
1.16
0.74
1.83
5.13E−
case-
5/47/139
2/50/200
1.48
0.98
2.22
6.15E−
case-
add
CVD



6046



01
only





02
only





rs145-
0.68
0.46
1.01
5.29E−
case-
6/51/134
10/79/
0.81
0.57
1.15
2.41E−
case-
add
CHD



0092



02
only

163



01
only





rs707-
1.72
1.15
2.59
8.56E−
case-
3/56/132
5/56/191
1.30
0.87
1.94
2.06E−
case-
add
CVD



0244



03
only





01
only





rs89-
0.47
0.27
0.84
9.96E−
case-
29/99/63
54/127/
0.64
0.39
1.06
8.48E−
case-
rec
CHD



2162



03
only

71



02
only





rs656-
0.59
0.37
0.94
2.75E−
case-
3/29/159
8/66/178
0.53
0.35
0.80
2.73E−
case-
add
CHD



3805



02
only





03
only





rs990-
0.70
0.45
1.10
1.23E−
case-
2/43/146
9/83/160
0.53
0.35
0.81
3.19E−
case-
dom
CHD



6737



01
only





03
only





rs475-
1.37
0.78
2.38
2.73E−
case-
2/38/151
1/36/215
1.57
0.95
2.59
7.80E−
case-
dom
CVD



420



01
only





02
only





rs176-
0.52
0.26
1.03
5.89E−
case-
7/101/83
25/122/
0.34
0.14
0.81
1.45E−
case-
rec
CVD



44708



02
only

105



02
only





rs705-
1.93
1.21
3.07
5.99E−
case-
3/53/135
7/50/195
1.41
0.91
2.18
1.24E−
case-
dom
CVD



7780



03
only





01
only





rs4773
0.77
0.52
1.13
1.79E−
case-
28/86/77
52/120/
0.68
0.45
1.01
5.68E−
case-
dom
CVD







01
only

80



02
only





rs67-
1.56
0.98
2.46
5.86E−
case-
60/81/50
50/138/
1.94
1.24
3.03
3.53E−
case-
rec
CVD



42894



02
only

64



03
only





rs104-
0.80
0.58
1.10
1.78E−
cohort
15/61/
20/103/
0.79
0.58
1.07
1.29E−
case-
add
CHD



5916



01

115
129



01
only





rs643-
0.52
0.33
0.82
4.94E−
case-
33/84/74
46/125/
0.74
0.50
1.10
1.40E−
case-
dom
CHD



5378



03
only

81



01
only





rs134-
1.83
1.24
2.69
2.34E−
case-
23/82/86
24/98/
1.32
0.89
1.94
1.69E−
case-
dom
CVD



11119



03
only

130



01
only





rs153-
0.76
0.50
1.15
1.90E−
case-
17/74/
21/123/
0.67
0.46
0.98
4.15E−
case-
dom
CHD



1842



01
only
100
108



02
only





rs9857
0.83
0.60
1.15
2.67E−
case-
12/63/
15/108/
0.78
0.57
1.07
1.18E−
case-
add
CVD







01
only
116
129



01
only





rs9960
1.41
0.94
2.13
9.91E−
case-
11/57/
8/64/180
1.37
0.92
2.06
1.25E−
case-
dom
CVD







02
only
123




01
only





rs131-
0.78
0.52
1.17
2.32E−
case-
6/37/148
7/82/163
0.53
0.34
0.81
3.72E−
case-
dom
CVD



03899



01
only





03
only





rs684-
0.55
0.35
0.86
8.50E−
case-
48/84/59
65/131/
0.64
0.41
0.98
4.02E−
case-
dom
CVD



8512



03
only

56



02
only





rs1018-
1.58
1.13
2.21
7.18E−
case-
16/60/
10/79/
1.28
0.93
1.75
1.27E−
case-
add
CVD



1805



03
only
115
163



01
only





rs112-
1.58
1.08
2.31
1.83E−
case-
10/65/
6/73/173
1.41
1.00
1.98
4.80E−
case-
add
CHD



9570



02
only
116




02
only





rs998-
1.46
0.76
2.78
2.54E−
case-
36/79/76
27/126/
2.00
1.15
3.47
1.36E−
case-
rec
CVD



6576



01
only

98



02
only





rs135-
0.27
0.11
0.66
4.24E−
case-
10/84/97
30/93/
0.39
0.18
0.84
1.60E−
case-
rec
CHD



2236



03
only

129



02
only





rs777-
0.57
0.34
0.94
2.88E−
case-
3/35/153
6/66/180
0.65
0.43
0.99
4.58E−
case-
add
CHD



0578



02
only





02
only





rs274-
1.81
1.11
2.95
1.80E−
cohort
226/504/
196/502/
1.43
0.92
2.23
1.14E−
cohort
rec
CHD



8901



02

290
318



01






rs115-
0.66
0.49
0.89
6.12E−
case-
32/84/75
58/111/
0.79
0.61
1.03
7.69E−
case-
add
CHD



5875



03
only

83



02
only





rs67-
0.71
0.46
1.11
1.32E−
case-
1/33/157
5/64/183
0.58
0.38
0.90
1.44E−
case-
add
CVD



5163



01
only





02
only





rs106-
0.74
0.49
1.11
1.45E−
cohort
44/84/
55/141/
0.58
0.38
0.89
1.23E−
case-
dom
CHD



8705



01

63
56



02
only





rs150-
1.47
0.94
2.30
9.11E−
case-
5/44/142
2/36/213
1.85
1.20
2.85
5.58E−
case-
add
CHD



5469



02
only





03
only





rs62-
0.62
0.42
0.92
1.60E−
case-
20/55/
25/100/
0.65
0.44
0.96
3.00E−
case-
dom
CVD



3400



02
only
116
127



02
only





rs60-
1.23
0.83
1.81
2.98E−
case-
21/70/99
18/84/
1.34
0.91
1.97
1.35E−
case-
dom
CVD



40760



01
only

150



01
only





rs173-
0.81
0.54
1.23
3.22E−
case-
4/43/143
9/79/164
0.61
0.40
0.92
2.01E−
case-
dom
CVD



10169



01
only





02
only





rs762-
4.22
0.83
21.33
8.20E−
case-
7/37/147
2/55/195
4.79
0.98
23.38
5.28E−
case-
rec
CVD



3808



02
only





02
only





rs77-
0.68
0.31
1.52
3.50E−
case-
6/76/935
4/106/
0.49
0.24
1.00
5.04E−
cohort
dom
CVD



638540



01
only

906



02






rs58-
0.59
0.33
1.05
7.35E−
case-
137/494/
185/471/
0.54
0.31
0.95
3.34E−
cohort
rec
CHD



1401



02
only
385
359



02






rs42-
0.55
0.35
0.85
6.68E−
case-
4/28/159
4/63/185
0.64
0.42
0.98
4.06E−
case-
add
CVD



51580



03
only





02
only





rs6-
0.59
0.33
1.05
7.35E−
case-
136/503/
182/481/
0.55
0.31
0.96
3.64E−
cohort
rec
CHD



03940



02
only
380
354



02






rs13-
1.73
1.07
2.78
2.45E−
case-
6/61/124
5/55/192
1.74
1.15
2.64
9.53E−
case-
dom
CHD



117043



02
only





03
only





rs380-
0.49
0.22
1.07
7.33E−
case-
2/67/937
1/77/922
0.59
0.29
1.20
1.43E−
cohort
add
CHD



0202



02
only





01






rs107-
0.74
0.55
1.02
6.20E−
case-
14/99/78
43/120/
0.68
0.51
0.91
9.76E−
case-
add
CHD



38948



02
only

88



03
only





rs62-
0.59
0.33
1.05
7.35E−
case-
141/482/
186/460/
0.56
0.33
0.98
4.18E−
cohort
rec
CHD



3584



02
only
390
360



02






rs955-
1.42
0.95
2.11
8.72E−
cohort
8/47/136
5/55/192
1.29
0.83
2.00
2.62E−
case-
dom
CHD



7509



02






01
only





rs116 -
1.25
0.91
1.71
1.62E−
cohort
16/82/93
15/83/
1.54
1.11
2.12
8.96E−
case-
add
CHD



68038



01


154



03
only





rs108-
1.16
0.90
1.50
2.52E−
cohort
57/88/46
49/137/
1.29
0.98
1.69
6.73E−
case-
add
CHD



02865



01


66



02
only





rs1703-
1.22
0.84
1.77
3.03E−
cohort
10/73/
8/73/171
1.60
1.07
2.37
2.06E−
case-
dom
CHD



5071



01

108




02
only





rs14-
1.74
1.27
2.39
6.20E−
case-
21/83/87
22/97/
1.27
0.94
1.72
1.25E−
case-
add
CHD



39269



04
only

133



01
only





rs20-
1.52
1.03
2.23
3.55E−
case-
8/80/102
11/78/
1.55
1.05
2.29
2.60E−
case-
dom
CVD



8025



02
only

162



02
only





rs126-
0.66
0.42
1.02
5.92E−
case-
23/209/
21/253/
0.63
0.40
0.98
4.24E−
cohort
dom
CVD



08167



02
only
785
740



02






rs13-
0.64
0.42
0.96
3.04E−
case-
19/73/99
27/124/
0.59
0.40
0.87
8.11E−
case-
dom
CHD



3871



02
only

101



03
only





rs706-
2.02
1.16
3.51
1.24E−
case-
0/33/158
1/34/216
1.32
0.78
2.22
3.05E−
case-
dom
CHD



8975



02
only





01
only





rs186-
0.81
0.57
1.14
2.23E−
case-
6/61/124
12/93/
0.77
0.55
1.08
1.32E−
case-
add
CVD



6386



01
only

147



01
only





rs158-
1.68
1.03
2.75
3.75E−
case-
39/103/
37/138/
1.55
0.94
2.56
8.88E−
case-
rec
CHD



0713



02
only
49
77



02
only





rs936-
0.70
0.46
1.06
8.80E−
case-
14/60/
21/102/
0.64
0.44
0.95
2.62E−
case-
dom
CHD



671



02
only
117
129



02
only





rs373-
1.99
1.32
3.01
1.13E−
case-
22/84/85
25/94/
1.42
0.96
2.09
8.12E−
case-
dom
CHD



2136



03
only

133



02
only





rs177-
0.74
0.51
1.08
1.18E−
case-
5/51/135
10/79/
0.77
0.54
1.10
1.57E−
case-
add
CHD



18867



01
only

163



01
only





rs57-
1.87
1.14
3.07
1.29E−
case-
3/44/144
6/41/205
1.48
0.91
2.42
1.15E−
case-
dom
CVD



64592



02
only





01
only





rs28-
1.51
1.03
2.22
3.69E−
case-
15/85/90
23/86/
1.51
1.02
2.24
3.78E−
case-
dom
CVD



80563



02
only

143



02
only





rs156-
0.79
0.61
1.03
8.02E−
case-
29/98/64
53/115/
0.86
0.66
1.14
2.98E−
case-
add
CHD



4078



02
only

84



01
only





rs108-
1.37
0.81
2.33
2.42E−
case-
2/23/166
0/20/232
1.77
0.95
3.31
7.42E−
case-
dom
CVD



17479



01
only





02
only





rs47-
1.33
1.02
1.75
3.89E−
case-
49/92/50
59/99/94
1.32
1.01
1.73
4.14E−
case-
add
CVD



8859



02
only





02
only





rs101-
1.56
0.87
2.79
1.38E−
case-
40/78/73
28/118/
2.19
1.29
3.71
3.79E−
case-
rec
CVD



06852



01
only

106



03
only





rs1265-
1.53
1.01
2.30
4.31E−
case-
10/82/99
16/92/
1.27
0.86
1.86
2.24E−
case-
dom
CHD



9030



02
only

144



01
only





rs15-
1.43
0.90
2.26
1.29E−
case-
56/80/55
56/132/
1.44
0.93
2.23
1.05E−
case-
rec
CVD



36506



01
only

64



01
only





rs218-
0.72
0.48
1.08
1.13E−
case-
30/78/83
44/116/
0.75
0.51
1.11
1.51E−
case-
dom
CHD



4393



01
only

92



01
only





rs110-
1.86
1.18
2.93
7.39E−
case-
1/63/127
4/58/190
1.55
1.02
2.36
3.98E−
case-
dom
CHD



77308



03
only





02
only





rs79-
0.81
0.55
1.19
2.83E−
case-
33/78/80
41/128/
0.66
0.44
0.99
4.43E−
case-
dom
CVD



15250



01
only

83



02
only





rs46-
1.45
1.08
1.93
1.28E−
case-
39/98/54
44/123/
1.20
0.91
1.57
2.00E−
case-
add
CVD



89078



02
only

85



01
only





rs286-
0.70
0.50
0.98
3.59E−
case-
7/72/112
21/103/
0.72
0.52
0.99
4.22E−
case-
add
CVD



9680



02
only

128



02
only





rs122-
2.30
0.93
5.69
7.06E−
case-
1/18/172
1/13/236
2.05
0.92
4.57
8.07E−
case-
dom
CVD



86877



02
only





02
only





rs104-
0.10
0.01
0.75
2.54E−
case-
0/1/190
1/11/240
0.10
0.01
0.85
3.53E−
case-
add
CVD



60737



02
only





02
only






















TABLE 7










Meta-analysis

























allele




P
























A1
allele



value
CARE
WOSCOPS























(non-
A2

OR
OR
(ran-
Prava
Placebo

OR
OR


Prava
Placebo


Marker
ref)
(ref)
OR
L95
U95
dom)
Count
Count
OR
L95
U95
P value
Source
Count
Count





rs1336-
A
G
1.56
1.28
1.89
7.06E−
306/1284/
152/631/
1.68
1.27
2.22
2.79E−
cohort




400





06
1371
686



04





rs1078-
G
A




32/172/
40/162/
1.63
1.22
2.17
8.59E−
Case-
19/81/82
22/91/132


7944






152
240



04
only




rs13103-
G
A
0.67
0.54
0.83
2.51E−
81/850/
39/434/
0.70
0.52
0.95
2.39E−
cohort




899





04
1955
961



02





rs1312-
G
A




6/91/260
13/147/
0.66
0.49
0.89
7.50E−
Case-
5/53/126
8/83/156


1569







284



03
only




rs6563-
A
G
0.64
0.50
0.82
4.51E−
42/350/
35/383/
0.76
0.56
1.04
8.26E−
cohort




805





04
1102
1052



02





rs1324-
A
G




5/68/227
9/105/
0.78
0.57
1.06
1.15E−
Case-
2/26/129
4/57/163


012







268



01
only




rs1704-
G
T
1.30
1.13
1.50
2.15E−
239/709/
219/690/
1.26
1.03
1.54
2.34E−
cohort




8681





04
546
562



02





rs1559-
G
A




55/182/
51/200/
1.34
1.09
1.65
6.39E−
Case-
48/85/51
33/127/87


557






120
193



03
only




rs7132-
T
G
0.74
0.65
0.86
3.61E−
341/693/
312/761/
0.75
0.61
0.91
4.20E−
cohort




840





05
418
361



03





rs1877-
G
A




59/177/
92/238/
0.75
0.61
0.93
7.37E−
Case-
32/83/69
46/137/64


527






121
114



03
only




rs1263-
C
A
0.61
0.45
0.81
7.53E−
235/712/
275/738/
0.54
0.34
0.86
8.70E−
cohort




5482





04
548
458



03





rs1917-
A
C




22/152/
70/194/
0.34
0.21
0.57
4.02E−
Case-
27/74/58
50/99/75


527






126
118



05
only




rs198-
G
A
1.69
1.34
2.13
1.17E−
340/768/
326/759/
1.58
1.09
2.30
1.68E−
cohort
613/1353/
588/1343/


476





05
384
385



02

665
710


rs198-
G
A




74/153/
67/214/
1.57
1.08
2.28
1.90E−
Case-
50/69/40
41/122/61


462






73
101



02
only




rs1117-
T
G
0.77
0.67
0.89
2.86E−
259/693/
245/735/
0.76
0.63
0.93
8.77E−
cohort




8579





04
542
490



03





rs213-
A
G




51/153/
74/228/
0.74
0.60
0.90
3.60E−
Case-
20/89/75
41/132/74


2241






153
142



03
only




rs384-
G
C
0.75
0.65
0.86
4.20E−
321/694/
295/766/
0.73
0.60
0.89
2.08E−
cohort




4207





05
479
409



03





rs2270-
G
A




59/165/
93/235/
0.72
0.59
0.88
1.46E−
Case-
28/87/69
45/136/66


588






133
116



03
only




rs304-
A
G
2.70
1.54
4.73
5.08E−
61/409/
48/448/
1.95
0.89
4.29
9.56E−
cohort




597





04
980
938



02





rs304-
A
G




18/101/
10/144/
2.28
1.03
5.03
4.10E−
Case-
10/55/119
4/75/168


601






238
290



02
only




rs1255-
C
A
1.32
1.12
1.56
7.32E−
314/693/
292/668/
1.22
0.98
1.50
7.15E−
cohort




3453





04
445
473



02





rs4715-
A
C




70/142/
72/174/
1.26
1.02
1.56
3.39E−
Case-
32/82/45
27/103/94


79






88
136



02
only




rs2768-
C
T
1.33
1.14
1.54
1.76E−
261/675/
241/665/
1.22
0.98
1.51
7.06E−
cohort




652





04
514
527



02





rs7873-
A
G




70/143/
73/175/
1.25
1.01
1.55
4.05E−
Case-
32/82/45
28/103/93


371






87
134



02
only




rs1117-
T
G
0.77
0.67
0.88
2.30E−
259/693/
245/735/
0.76
0.63
0.93
8.77E−
cohort




8579





04
542
490



03





rs9325-
A
C




51/154/
74/228/
0.74
0.60
0.91
4.36E−
Case-
20/89/75
41/134/72


191






152
142



03
only




rs1094-
T
C
1.59
1.28
1.97
2.76E−
19/277/
23/270/
1.72
1.25
2.36
8.43E−
cohort




5874





05
1197
1178



04





rs934-
A
G




7/76/274
4/67/373
1.56
1.12
2.15
7.68E−
Case-
2/42/140
3/45/199


6951











03
only




rs1310-
G
T
0.69
0.58
0.83
5.80E−
104/895/
52/452/
0.69
0.53
0.89
4.84E−
cohort




7334





05
1967
967



03





rs988-
G
A




6/88/263
13/146/
0.66
0.50
0.87
3.02E−
Case-
5/53/126
9/82/156


146







285



03
only















WOSCOPS
PROVEIT

























OR
OR
P

Atorv
Prav

OR
OR
P

Mod-
End-


Marker
OR
L95
U95
value
Source
Count
Count
OR
L95
U95
value
Source
el
point





rs1336-





151/404/
116/431/
1.46
1.00
2.12
4.82E−
cohort
dom
CVD


400





459
465



02





rs1078-
1.45
0.99
2.14
5.84E−
Case-
29/84/77
29/101/
1.37
0.93
2.01
1.15E−
Case-
dom
CVD


7944



02
only

122



01
only




rs13103-












dom
CVD


899
















rs1312-
0.78
0.52
1.17
2.32E−
Case-
6/38/147
7/84/161
0.52
0.34
0.80
3.10E−
Case-
dom
CVD


1569



01
only





03
only




rs6563-












add
CHD


805
















rs1324-
0.60
0.38
0.96
3.12E−
Case-
3/30/158
10/68/
0.51
0.34
0.76
1.08E−
Case-
add
CHD


012



02
only

174



03
only




rs1704-












add
CVD


8681
















rs1559-
1.53
1.16
2.02
2.89E−
Case-
32/83/76
30/114/
1.19
0.90
1.56
2.26E−
Case-
add
CVD


557



03
only

108



01
only




rs7132-












add
CVD


840
















rs1877-
0.77
0.58
1.02
6.90E−
Case-
31/93/67
64/117/
0.72
0.55
0.94
1.70E−
Case-
add
CVD


527



02
only

71



02
only




rs1263-












rec
CHD


5482
















rs1917-
0.73
0.44
1.24
2.46E−
Case-
22/98/70
48/117/
0.57
0.33
1.00
4.86E−
Case-
rec
CHD


527



01
only

87



02
only




rs198-
1.61
1.06
2.46
2.63E−
cohort







rec
CHD


476



02












rs198-
2.12
1.31
3.42
2.23E−
Case-
67/83/41
55/132/
1.92
1.26
2.94
2.58E−
Case-
rec
CHD


462



03
only

65



03
only




rs1117-





162/444/
177/462/
0.85
0.65
1.10
2.20E−
cohort
add
CVD


8579





403
365



01





rs213-
0.70
0.52
0.94
1.66E−
Case-
26/87/78
45/121/
0.79
0.60
1.04
9.47E−
Case-
add
CVD


2241



02
only

86



02
only




rs384-





190/491/
235/471/
0.78
0.60
1.01
5.47E−
cohort
add
CVD


4207





336
306



02





rs2270-
0.75
0.57
1.00
5.34E−
Case-
30/93/68
62/122/
0.70
0.53
0.92
1.07E−
Case-
add
CVD


588



02
only

68



02
only




rs304-












rec
CVD


597
















rs304-
3.93
1.20
12.87
2.38E−
Case-
13/52/
6/70/176
3.63
1.24
10.64
1.88E−
Case-
rec
CVD


601



02
only
126




02
only




rs1255-












add
CHD


3453
















rs4715-
1.62
1.20
2.19
1.84E−
Case-
48/80/63
35/132/
1.27
0.97
1.66
8.39E−
Case-
add
CHD


79



03
only

85



02
only




rs2768-












add
CHD


652
















rs7873-
1.59
1.17
2.15
2.68E−
Case-
47/82/62
35/129/
1.31
1.00
1.71
5.23E−
Case-
add
CHD


371



03
only

88



02
only




rs1117-





162/444/
177/462/
0.85
0.65
1.10
2.20E−
cohort
add
CVD


8579





403
365



01





rs9325-
0.69
0.51
0.92
1.19E−
Case-
26/86/79
45/121/
0.78
0.59
1.03
7.96E−
Case-
add
CVD


191



02
only

86



02
only




rs1094-





22/196/
20/201/
1.72
1.15
2.58
8.16E−
cohort
add
CVD


5874





799
795



03





rs934-
1.25
0.81
1.92
3.09E−
Case-
5/45/141
0/43/
1.88
1.22
2.91
4.63E−
Case-
add
CVD


6951



01
only

209



03
only




rs1310-





46/286/
37/293/
0.60
0.43
0.86
4.97E−
cohort
add
CVD


7334





687
683



03





rs988-
0.80
0.56
1.14
2.15E−
Case-
6/37/148
7/80/
0.64
0.44
0.93
2.04E−
Case-
add
CVD


146



01
only

165



02
only




















TABLE 8







Original SNP
Genotyped SNP




(rs #)
(rs #)
LD (r{circumflex over ( )}2)









rs10193722
rs11124322
1



rs1051334
rs1051344
0.9637



rs10740308
rs2030057
0.9457



rs10831415
rs10831416
1



rs1229430
rs4657668
0.9445



rs12914132
rs6497117
0.9642



rs1594887
rs1529806
1



rs16861476
rs3732788
1



rs1737478
rs1773549
1



rs2196180
rs1560901
1



rs231358
rs231355
0.9636



rs2335451
rs10875941
1



rs2358931
rs9834251
0.8864



rs2593270
rs4765531
1



rs2656824
rs4765531
1



rs302296
rs302290
1



rs3793048
rs3806005
1



rs3861810
rs1560901
1



rs4128766
rs7179134
0.951



rs4242084
rs2148575
1



rs4328731
rs5756670
1



rs4980176
rs7094941
1



rs6550706
rs1851830
1



rs6950121
rs10275879
1



rs7751843
rs7765440
1



rs7901888
rs2030057
1



rs7913568
rs3998860
0.9736



rs9467561
rs6931627
1



rs9554735
rs912366
0.9646



rs10787944
rs1336400
1



rs13121569
rs13103899
1



rs1324012
rs6563805
1



rs1559557
rs17048681
0.8814



rs1877527
rs7132840
0.9591



rs1917527
rs12635482
0.9293



rs198462
rs198476
0.9823



rs2132241
rs11178579
1



rs2270588
rs3844207
1



rs304601
rs304597
0.9732



rs471579
rs12553453
0.931



rs7873371
rs2768652
0.8956



rs9325191
rs11178579
1



rs9346951
rs10945874
0.9567



rs988146
rs13107334
0.9491





































TABLE 9



















PLA-
PRA-
PRA-
PRA-
PLA-
PLA-
PLA-




AL-








HW_
ALL-
PRAVA_
CEBO_
VA_
VA_
VA_
CEBO_
CEBO_
CEBO_




LELE
MOD-
N-






PVAL
ELE_F
ALLELE_
ALLELE_
A1_HZ_
HET_
A2_HZ_
A1_HZ_
HET_
A2_HZ_


SNP rs #
SOURCE
(A1)
EL
MISS
OR
SE
L95
U95
STAT
P
UE
REQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT



































rs198460
Genotyped
G
REC
682
1.552
0.1926
1.064
2.264
2.284
0.02238
0.02592
0.47507
0.50167
0.4542
73
155
72
66
215
101


rs603940
Genotyped
G
REC
682
0.614
0.2233
0.3962
0.9509
−2.185
0.02885
0.812
0.40469
0.38833
0.4175
38
157
105
72
175
135


rs10021016
Genotyped
G
GEN
682




7.495
0.02358
0.8438
0.26393
0.29667
0.2382
29
120
151
17
148
217


rs1003148
Imputed
C
ADD
674
0.691
0.1112
0.5556
0.8592
−3.325
0.000885
0.04475
0.40059
0.34783
0.4427
38
132
129
83
166
126


rs1003148
Imputed
C
GEN
674




11.71
0.002865
0.04475
0.40059
0.34783
0.4427
38
132
129
83
166
126


rs1003148
Imputed
C
REC
674
0.511
0.2158
0.3345
0.7794
−3.115
0.001839
0.04475
0.40059
0.34783
0.4427
38
132
129
83
166
126


rs10046799
Imputed
C
ADD
671
0.784
0.1099
0.6321
0.9726
−2.212
0.02694
0.1595
0.55365
0.52055
0.5792
82
140
70
133
173
73


rs10046799
Imputed
C
GEN
671




4.972
0.08326
0.1595
0.55365
0.52055
0.5792
82
140
70
133
173
73


rs10051148
Imputed
C
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
0.9326
0.34728
0.30833
0.378
36
113
151
45
198
138


rs10054055
Imputed
T
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
0.9326
0.34728
0.30833
0.378
36
113
151
45
198
138


rs10067895
Imputed
A
DOM
672
0.561
0.1605
0.4097
0.7686
−3.6
0.000319
0.9321
0.34598
0.3064
0.3773
36
110
151
45
193
137


rs1008705
Imputed
C
DOM
505
1.49
0.1837
1.04
2.136
2.172
0.02985
0.9137
0.28812
0.3211
0.2631
21
98
99
20
111
156


rs10105871
Imputed
C
DOM
592
1.731
0.1743
1.23
2.436
3.149
0.001636
0.2592
0.38429
0.42278
0.3544
42
135
82
52
132
149


rs10116807
Imputed
A
GEN
652




8.336
0.01548
1
0.22469
0.25087
0.2041
23
98
166
10
129
226


rs10116807
Imputed
A
REC
652
3.065
0.389
1.43
6.569
2.88
0.003983
1
0.22469
0.25087
0.2041
23
98
166
10
129
226


rs10121941
Imputed
C
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs10128638
Genotyped
G
DOM
682
0.575
0.1787
0.4054
0.8167
−3.094
0.001978
0.9389
0.49047
0.45167
0.5209
66
139
95
97
204
81


rs1012924
Imputed
G
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs1012924
Imputed
G
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs1016030
Genotyped
G
ADD
680
1.4
0.1137
1.12
1.749
2.956
0.00312
0.6897
0.40074
0.44482
0.3661
61
144
94
51
177
153


rs1016030
Genotyped
G
GEN
680




8.902
0.01167
0.6897
0.40074
0.44482
0.3661
61
144
94
51
177
153


rs1017558
Imputed
A
REC
668
1.905
0.2304
1.213
2.992
2.798
0.005138
0.4004
0.35853
0.36735
0.3516
52
112
130
39
185
150


rs10183431
Imputed
T
DOM
677
1.604
0.1584
1.176
2.188
2.983
0.002854
0.06064
0.24372
0.27534
0.2192
14
135
147
17
133
231


rs10195401
Imputed
C
DOM
671
1.633
0.1636
1.185
2.251
2.998
0.002721
0.9348
0.38227
0.41723
0.3547
45
157
94
52
162
161


rs10239416
Imputed
A
DOM
658
0.618
0.1624
0.4496
0.8497
−2.963
0.003046
0.8667
0.36702
0.32653
0.3997
34
124
136
53
185
126


rs1032188
Imputed
G
GEN
682




6.08
0.04784
1
0.30352
0.27167
0.3285
20
123
157
43
165
174


rs1032188
Imputed
G
REC
682
0.55
0.2837
0.3157
0.9599
−2.104
0.03536
1
0.30352
0.27167
0.3285
20
123
157
43
165
174


rs10468988
Imputed
G
ADD
679
1.579
0.1261
1.233
2.022
3.624
0.00029
0.6914
0.26068
0.30936
0.2224
30
125
144
18
133
229


rs10478919
Imputed
G
DOM
681
0.551
0.1595
0.4029
0.753
−3.738
0.000186
1
0.34802
0.30667
0.3806
36
112
152
46
198
137


rs10506623
Imputed
C
DOM
682
0.591
0.1642
0.4287
0.8159
−3.199
0.001378
0.8737
0.40176
0.36667
0.4293
46
128
126
65
198
119


rs10506626
Imputed
A
DOM
682
0.565
0.1629
0.4107
0.7779
−3.501
0.000463
0.9364
0.40029
0.36667
0.4267
49
122
129
61
204
117


rs10509477
Imputed
T
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs10511071
Imputed
C
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs10511072
Imputed
G
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs10511199
Imputed
C
ADD
679
1.5
0.1343
1.153
1.952
3.019
0.00254
1
0.21944
0.25671
0.1903
21
111
166
11
123
247


rs10513283
Imputed
G
GEN
680




13.78
0.001017
0.06901
0.19706
0.2408
0.1627
26
92
181
8
108
265


rs10520072
Imputed
T
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
0.9326
0.34728
0.30833
0.378
36
113
151
45
198
138


rs1065639
Imputed
C
DOM
645
1.663
0.1678
1.197
2.311
3.031
0.002438
0.3536
0.37132
0.40071
0.3485
35
156
91
48
157
158


rs10733846
Imputed
G
ADD
676
0.554
0.146
0.4165
0.7381
−4.04
5.35E−05
0.02372
0.19009
0.1388
0.2308
5
73
221
29
116
232


rs10733846
Imputed
G
DOM
676
0.557
0.1721
0.3978
0.7808
−3.398
0.000679
0.02372
0.19009
0.1388
0.2308
5
73
221
29
116
232


rs10737390
Imputed
T
DOM
678
0.561
0.161
0.4094
0.7694
−3.588
0.000333
0.4645
0.38274
0.33833
0.418
42
119
139
62
192
124


rs10749293
Imputed
G
DOM
682
1.794
0.1572
1.319
2.442
3.72
0.000199
1
0.29252
0.33167
0.2618
25
149
126
33
134
215


rs10752159
Imputed
G
DOM
676
1.431
0.1604
1.045
1.96
2.234
0.02545
1
0.21598
0.24329
0.1944
16
113
169
15
117
246


rs10753760
Imputed
T
ADD
650
1.411
0.1167
1.122
1.773
2.949
0.003192
0.6867
0.41692
0.46466
0.3801
61
141
81
49
181
137


rs10753760
Imputed
T
GEN
650




9.074
0.01071
0.6867
0.41692
0.46466
0.3801
61
141
81
49
181
137


rs10757887
Imputed
C
DOM
677
0.616
0.1602
0.4502
0.8435
−3.023
0.002503
0.8353
0.24446
0.21477
0.2678
18
92
188
21
161
197


rs10758326
Imputed
A
ADD
679
0.73
0.1149
0.5831
0.9149
−2.734
0.006266
0.7443
0.37923
0.33893
0.4108
32
138
128
68
177
136


rs10758326
Imputed
A
GEN
679




8.015
0.01818
0.7443
0.37923
0.33893
0.4108
32
138
128
68
177
136


rs10758326
Imputed
A
REC
679
0.554
0.2314
0.3523
0.8726
−2.549
0.01081
0.7443
0.37923
0.33893
0.4108
32
138
128
68
177
136


rs10762236
Genotyped
G
ADD
682
0.583
0.1422
0.4409
0.77
−3.797
0.000146
0.0221
0.19941
0.15
0.2382
7
76
217
30
122
230


rs10765769
Imputed
C
ADD
676
1.445
0.1127
1.159
1.802
3.266
0.001089
0.6368
0.42456
0.47475
0.3852
66
150
81
59
174
146


rs10765769
Imputed
C
GEN
676




10.87
0.004364
0.6368
0.42456
0.47475
0.3852
66
150
81
59
174
146


rs10784891
Imputed
C
ADD
656
0.692
0.117
0.5504
0.8705
−3.146
0.001655
0.5819
0.45503
0.40972
0.4905
49
138
101
83
195
90


rs10784891
Imputed
C
DOM
656
0.57
0.1761
0.4039
0.8053
−3.19
0.001424
0.5819
0.45503
0.40972
0.4905
49
138
101
83
195
90


rs10787923
Imputed
G
DOM
672
1.834
0.1588
1.343
2.504
3.819
0.000134
1
0.29464
0.33502
0.2627
25
149
123
33
131
211


rs10787949
Imputed
A
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs10787951
Imputed
G
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs10787983
Imputed
C
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs10788380
Imputed
C
ADD
675
1.411
0.1153
1.125
1.769
2.984
0.002844
0.2184
0.49333
0.53716
0.4591
78
162
56
78
192
109


rs10788380
Imputed
C
DOM
675
1.762
0.1889
1.217
2.552
2.999
0.002704
0.2184
0.49333
0.53716
0.4591
78
162
56
78
192
109


rs10788380
Imputed
C
GEN
675




9.862
0.007218
0.2184
0.49333
0.53716
0.4591
78
162
56
78
192
109


rs10814418
Imputed
G
DOM
680
0.533
0.2074
0.3547
0.7998
−3.037
0.002389
0.6755
0.10221
0.07383
0.1243
2
40
256
6
83
293


rs10831417
Imputed
A
ADD
674
1.436
0.1147
1.147
1.798
3.154
0.001613
0.8092
0.39688
0.44463
0.359
61
143
94
47
176
153


rs10831417
Imputed
A
GEN
674




10.39
0.005538
8.09E−01
0.39688
0.44463
0.359
61
143
94
47
176
153


rs10831422
Imputed
C
ADD
676
1.421
0.1143
1.135
1.777
3.071
0.002131
0.8726
0.39941
0.44631
0.3624
61
144
93
48
178
152


rs10831422
Imputed
C
GEN
676




9.86
0.007226
0.8726
0.39941
0.44631
0.3624
61
144
93
48
178
152


rs10862931
Imputed
C
GEN
676




12.36
0.002073
0.2988
0.33284
0.28885
0.3671
21
129
146
60
159
161


rs10865197
Imputed
C
DOM
679
1.604
0.1581
1.177
2.186
2.988
0.002806
0.04888
0.24448
0.27609
0.2199
14
136
147
17
134
231


rs10871302
Imputed
A
DOM
677
1.561
0.1787
1.099
2.215
2.49
0.01276
0.5241
0.13959
0.16498
0.1197
8
82
207
7
77
296


rs10877463
Imputed
C
DOM
681
0.735
0.1583
0.5392
1.003
−1.941
0.05228
0.1829
0.35756
0.34281
0.3691
45
115
139
50
182
150


rs10877468
Imputed
C
DOM
681
0.745
0.1584
0.5465
1.017
−1.855
0.06358
0.2438
0.35756
0.34448
0.3678
45
116
138
49
183
150


rs10879240
Imputed
C
ADD
561
0.604
0.1586
0.4424
0.824
−3.18
0.001472
1.43E−14
0.34581
0.30632
0.3782
6
143
104
21
191
96


rs10879242
Imputed
A
DOM
600
0.502
0.1832
0.3504
0.7186
−3.764
0.000167
1
0.45083
0.41098
0.4821
52
113
99
70
184
82


rs10879245
Imputed
G
DOM
600
0.502
0.1832
0.3504
0.7186
−3.764
0.000167
1
0.45083
0.41098
0.4821
52
113
99
70
184
82


rs10879249
Imputed
T
DOM
676
0.583
0.1653
0.4214
0.8058
−3.266
0.001091
0.9363
0.40385
0.36745
0.4325
46
127
125
65
197
116


rs10886452
Imputed
A
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs10886463
Imputed
C
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs10886465
Imputed
A
DOM
682
1.778
0.1589
1.302
2.427
3.622
0.000293
0.9278
0.30279
0.34
0.2736
27
150
123
36
137
209


rs10886526
Imputed
C
DOM
681
1.762
0.1577
1.293
2.4
3.591
0.000329
1
0.29589
0.33278
0.267
25
149
125
34
136
212


rs10902437
Imputed
G
ADD
658
1.415
0.1115
1.137
1.761
3.113
0.001853
0.03266
0.38754
0.43857
0.3466
61
135
97
51
151
163


rs10941126
Imputed
G
ADD
682
0.187
0.4378
0.0793
0.441
−3.83
0.000128
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs10941126
Imputed
G
DOM
682
0.19
0.451
0.0786
0.4606
−3.679
0.000234
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs10947871
Imputed
A
DOM
682
1.569
0.1754
1.112
2.213
2.567
0.01026
0.1579
0.14223
0.16667
0.123
5
90
205
4
86
292


rs10972978
Imputed
G
DOM
658
0.518
0.2117
0.3418
0.7839
−3.11
0.001873
0.6698
0.10258
0.07292
0.1257
2
38
248
6
81
283


rs10973012
Imputed
A
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs10974028
Genotyped
G
ADD
682
0.605
0.1547
0.4467
0.8194
−3.247
0.001165
0.3256
0.16349
0.125
0.1937
9
57
234
13
122
247


rs10974028
Genotyped
G
DOM
682
0.516
0.1777
0.3642
0.7308
−3.725
0.000196
0.3256
0.16349
0.125
0.1937
9
57
234
13
122
247


rs11021302
Imputed
A
ADD
681
1.413
0.1142
1.13
1.768
3.029
0.002455
0.873
0.39794
0.44333
0.3622
61
144
95
48
180
153


rs11021302
Imputed
A
GEN
681




9.725
0.007733
0.873
0.39794
0.44333
0.3622
61
144
95
48
180
153


rs11099644
Imputed
G
REC
668
1.905
0.2304
1.213
2.992
2.798
0.005138
0.4004
0.35853
0.36735
0.3516
52
112
130
39
185
150


rs11138315
Imputed
G
ADD
646
0.682
0.1861
0.4732
0.9815
−2.06
0.03937
0.2275
0.11068
0.09123
0.126
3
46
236
8
75
278


rs11149802
Imputed
T
DOM
677
1.561
0.1787
1.099
2.215
2.49
0.01276
0.5241
0.13959
0.16498
0.1197
8
82
207
7
77
296


rs1116596
Imputed
T
DOM
681
0.551
0.1595
0.4029
0.753
−3.738
0.000186
1
0.34802
0.30667
0.3806
36
112
152
46
198
137


rs11178531
Imputed
A
ADD
678
0.722
0.1139
0.5774
0.9022
−2.863
0.004194
0.7006
0.47788
0.43624
0.5105
60
140
98
92
204
84


rs11178531
Imputed
A
DOM
678
0.557
0.1766
0.3942
0.7879
−3.31
0.000934
0.7006
0.47788
0.43624
0.5105
60
140
98
92
204
84


rs11178575
Imputed
C
GEN
679




9.118
0.01047
0.5966
0.31885
0.35067
0.294
44
121
133
28
168
185


rs11178575
Imputed
C
REC
679
2.174
0.2571
1.313
3.598
3.019
0.002532
0.5966
0.31885
0.35067
0.294
44
121
133
28
168
185


rs11178577
Imputed
T
GEN
680




9.117
0.01048
0.6589
0.31912
0.35067
0.2945
44
121
133
28
169
185


rs11178577
Imputed
T
REC
680
2.173
0.2571
1.313
3.597
3.019
0.002537
0.6589
0.31912
0.35067
0.2945
44
121
133
28
169
185


rs11178583
Imputed
A
DOM
665
0.567
0.1672
0.4082
0.7862
−3.399
0.000677
1
0.40827
0.37113
0.4372
46
124
121
65
197
112


rs11178589
Imputed
T
DOM
678
0.593
0.1662
0.4283
0.8217
−3.142
0.001679
1
0.41593
0.3796
0.4446
48
131
120
69
199
111


rs11178594
Imputed
C
DOM
680
0.579
0.1651
0.4187
0.7999
−3.312
0.000926
0.9365
0.40294
0.36745
0.4306
46
127
125
65
199
118


rs11178602
Imputed
T
DOM
680
0.57
0.165
0.4126
0.788
−3.404
0.000665
0.8735
0.40221
0.36577
0.4306
46
126
126
65
199
118


rs11178648
Imputed
T
DOM
680
0.564
0.1631
0.4095
0.7761
−3.514
0.000442
0.8107
0.40074
0.36622
0.4278
49
121
129
62
202
117


rs11198877
Imputed
T
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs11198942
Imputed
T
DOM
680
1.797
0.1579
1.319
2.449
3.712
0.000206
1
0.29706
0.33612
0.2664
26
149
124
34
135
212


rs11221075
Imputed
A
ADD
674
0.628
0.1738
0.4466
0.8827
−2.678
0.007404
0.4847
0.12685
0.09966
0.1481
1
57
238
12
88
278


rs11242020
Imputed
T
DOM
682
0.548
0.1595
0.4011
0.7494
−3.769
0.000164
0.9329
0.34824
0.30667
0.3809
36
112
152
46
199
137


rs11242021
Imputed
T
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs11242022
Imputed
T
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs11242023
Imputed
T
DOM
682
0.564
0.1596
0.4123
0.7707
−3.592
0.000328
1
0.34531
0.30667
0.3757
36
112
152
45
197
140


rs1149350
Imputed
A
DOM
680
1.537
0.1609
1.121
2.106
2.672
0.007551
0.1324
0.21029
0.23913
0.1877
11
121
167
12
119
250


rs1150143
Imputed
G
DOM
658
1.631
0.1628
1.186
2.245
3.007
0.002639
0.1849
0.32827
0.35366
0.3086
23
157
107
40
149
182


rs11576627
Imputed
T
ADD
682
1.785
0.1742
1.268
2.511
3.325
0.000885
0.05306
0.12463
0.15833
0.0982
3
89
208
2
71
309


rs11576627
Imputed
T
DOM
682
1.844
0.1815
1.292
2.632
3.373
0.000744
0.05306
0.12463
0.15833
0.0982
3
89
208
2
71
309


rs11602189
Imputed
A
DOM
677
0.604
0.1575
0.4435
0.8223
−3.203
0.001362
0.5429
0.32939
0.2862
0.3632
29
112
156
48
180
152


rs11605163
Imputed
A
DOM
679
2.068
0.229
1.32
3.239
3.173
0.001509
0.7687
0.07143
0.09532
0.0526
2
53
244
2
36
342


rs11615214
Imputed
G
ADD
660
0.645
0.1143
0.5156
0.807
−3.837
0.000125
0.02544
0.37652
0.31507
0.4253
31
122
139
76
161
131


rs11615214
Imputed
G
GEN
660




15.05
0.000541
0.02544
0.37652
0.31507
0.4253
31
122
139
76
161
131


rs11642394
Imputed
C
DOM
677
1.561
0.1787
1.099
2.215
2.49
0.01276
0.5241
0.13959
0.16498
0.1197
8
82
207
7
77
296


rs11644943
Imputed
A
ADD
655
1.327
0.1361
1.017
1.733
2.081
0.03739
0.6522
0.22214
0.24829
0.2011
21
103
168
9
128
226


rs11656608
Imputed
T
DOM
681
0.649
0.1794
0.4567
0.9228
−2.408
0.01605
1
0.14317
0.12375
0.1584
8
58
233
6
109
267


rs11661309
Imputed
A
ADD
676
0.626
0.1446
0.4718
0.8317
−3.234
0.00122
0.6206
0.19231
0.15152
0.2243
7
76
214
20
130
229


rs11661309
Imputed
A
DOM
676
0.601
0.1674
0.4325
0.8338
−3.046
0.002323
0.6206
0.19231
0.15152
0.2243
7
76
214
20
130
229


rs11666131
Imputed
A
ADD
675
1.512
0.136
1.158
1.974
3.04
0.002366
0.4389
0.22444
0.26102
0.1961
20
114
161
10
129
241


rs11743355
Imputed
C
ADD
650
0.164
0.4716
0.0652
0.4139
−3.83
0.000128
0.05102
0.03692
0.01394
0.0551
0
8
279
3
34
326


rs11743355
Imputed
C
DOM
650
0.166
0.4861
0.064
0.4303
−3.695
0.00022
0.05102
0.03692
0.01394
0.0551
0
8
279
3
34
326


rs11746806
Imputed
T
ADD
682
0.217
0.4129
0.0965
0.4867
−3.704
0.000213
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs11746806
Imputed
T
DOM
682
0.223
0.4255
0.0967
0.5123
−3.532
0.000412
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs11746959
Imputed
T
ADD
682
0.187
0.4378
0.0793
0.441
−3.83
0.000128
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs11746959
Imputed
T
DOM
682
0.19
0.451
0.0786
0.4606
−3.679
0.000234
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs11749272
Imputed
T
DOM
679
0.552
0.16
0.4036
0.7559
−3.709
0.000208
1
0.34831
0.30705
0.3806
36
111
151
46
198
137


rs11901899
Imputed
A
DOM
668
1.459
0.1585
1.069
1.99
2.382
0.0172
1
0.26422
0.29223
0.2419
22
129
145
24
132
216


rs11926319
Imputed
G
ADD
675
0.479
0.2053
0.3205
0.7167
−3.583
0.00034
0.8261
0.09778
0.06397
0.1243
1
36
260
6
82
290


rs11926319
Imputed
G
DOM
675
0.466
0.2155
0.3052
0.7104
−3.546
0.000391
0.8261
0.09778
0.06397
0.1243
1
36
260
6
82
290


rs11956952
Imputed
C
DOM
671
0.633
0.1593
0.4632
0.8648
−2.872
0.00408
0.7761
0.28465
0.24662
0.3147
21
104
171
35
166
174


rs12025826
Imputed
G
DOM
664
1.73
0.166
1.249
2.395
3.3
0.000968
0.05275
0.40286
0.45313
0.3644
61
139
88
59
156
161


rs1204522
Imputed
C
GEN
676




11.67
0.002917
0.87
0.37796
0.33054
0.4153
27
143
128
68
178
132


rs1204524
Imputed
A
GEN
678




11.89
0.002625
0.8065
0.37832
0.33054
0.4158
27
143
128
68
180
132


rs12153185
Imputed
T
DOM
672
0.561
0.1605
0.4097
0.7686
−3.6
0.000319
0.9321
0.34598
0.3064
0.3773
36
110
151
45
193
137


rs12182651
Imputed
T
ADD
678
2.104
0.213
1.386
3.194
3.492
0.000479
0.6166
0.08481
0.11371
0.062
3
62
234
3
41
335


rs12182651
Imputed
T
DOM
678
2.304
0.2264
1.478
3.592
3.687
0.000227
0.6166
0.08481
0.11371
0.062
3
62
234
3
41
335


rs12193568
Imputed
G
DOM
565
1.551
0.1819
1.086
2.215
2.413
0.01581
0.3148
0.17788
0.20751
0.1538
8
89
156
6
84
222


rs12264914
Imputed
C
DOM
361
0.591
0.2158
0.3873
0.9024
−2.436
0.01486
0.08135
0.34349
0.29063
0.3856
17
59
84
33
89
79


rs12307767
Imputed
C
DOM
661
0.729
0.1608
0.532
0.9993
−1.964
0.04953
0.2737
0.36157
0.34589
0.374
44
114
134
49
178
142


rs1232298
Imputed
G
REC
658
1.65
0.2751
0.9623
2.829
1.82
0.06874
0.2441
0.31839
0.32118
0.3162
33
119
136
27
180
163


rs12407412
Imputed
C
ADD
682
1.785
0.1742
1.268
2.511
3.325
0.000885
0.05306
0.12463
0.15833
0.0982
3
89
208
2
71
309


rs12407412
Imputed
C
DOM
682
1.844
0.1815
1.292
2.632
3.373
0.000744
0.05306
0.12463
0.15833
0.0982
3
89
208
2
71
309


rs12420184
Imputed
G
DOM
681
0.542
0.1789
0.3816
0.7695
−3.424
0.000617
0.4694
0.15639
0.125
0.1811
9
57
234
10
118
253


rs12422750
Imputed
A
DOM
679
0.756
0.1585
0.5538
1.031
−1.769
0.07688
0.1821
0.35935
0.34564
0.3701
45
116
137
51
180
150


rs12446951
Imputed
A
ADD
520
2.018
0.2623
1.207
3.375
2.678
0.007409
0.4988
0.06923
0.09389
0.0498
1
41
187
0
29
262


rs12446951
Imputed
A
DOM
520
2.001
0.2641
1.192
3.358
2.626
0.008639
0.4988
0.06923
0.09389
0.0498
1
41
187
0
29
262


rs12457400
Imputed
G
DOM
680
0.553
0.201
0.3727
0.8196
−2.95
0.003178
0.6917
0.10882
0.08361
0.1286
4
42
253
5
88
288


rs1247340
Imputed
C
DOM
680
1.537
0.1609
1.121
2.106
2.672
0.007551
0.1324
0.21029
0.23913
0.1877
11
121
167
12
119
250


rs1247341
Imputed
C
DOM
680
1.537
0.1609
1.121
2.106
2.672
0.007551
0.1324
0.21029
0.23913
0.1877
11
121
167
12
119
250


rs12521291
Imputed
G
ADD
673
0.684
0.1186
0.5424
0.8634
−3.198
0.001382
0.4434
0.34398
0.30034
0.3787
28
123
147
56
172
147


rs12526849
Imputed
T
ADD
656
1.462
0.113
1.172
1.825
3.364
0.000769
0.2246
0.40473
0.45819
0.3631
63
137
87
52
164
153


rs12526849
Imputed
T
GEN
656




11.33
0.003474
0.2246
0.40473
0.45819
0.3631
63
137
87
52
164
153


rs12543110
Imputed
G
DOM
681
1.542
0.1596
1.127
2.108
2.712
0.006696
0.106
0.23128
0.25585
0.212
17
119
163
27
108
247


rs12678600
Imputed
A
DOM
675
0.617
0.1585
0.4524
0.8419
−3.046
0.002319
0.7936
0.32889
0.28859
0.3607
27
118
153
44
184
149


rs12719415
Imputed
T
DOM
673
0.546
0.1604
0.3989
0.748
−3.771
0.000163
0.548
0.34027
0.29522
0.375
31
111
151
43
199
138


rs12831292
Imputed
G
DOM
678
0.574
0.1652
0.4153
0.7936
−3.359
0.000782
0.9364
0.40339
0.367
0.4318
46
126
125
65
199
117


rs12923993
Imputed
C
DOM
677
1.561
0.1787
1.099
2.215
2.49
0.01276
0.5241
0.13959
0.16498
0.1197
8
82
207
7
77
296


rs12936964
Imputed
T
DOM
673
1.718
0.1622
1.25
2.362
3.338
0.000844
0.6161
0.35958
0.40372
0.3249
45
149
102
45
155
177


rs12960663
Imputed
G
ADD
672
0.639
0.1447
0.4809
0.8478
−3.101
0.001927
0.5336
0.19122
0.15203
0.2221
7
76
213
20
127
229


rs13038146
Imputed
C
ADD
681
1.338
0.1141
1.07
1.674
2.554
0.01063
0.2789
0.3583
0.39667
0.3281
54
130
116
40
170
171


rs13038146
Imputed
C
GEN
681




7.872
0.01953
0.2789
0.3583
0.39667
0.3281
54
130
116
40
170
171


rs13134222
Imputed
A
GEN
597




9.274
0.009687
0.917
0.26884
0.23408
0.297
10
105
152
32
132
166


rs13172910
Imputed
A
DOM
675
0.633
0.159
0.4637
0.8646
−2.875
0.004042
0.7779
0.28667
0.25
0.3156
22
105
171
35
168
174


rs13194907
Imputed
A
ADD
682
2.264
0.2373
1.422
3.606
3.444
0.000573
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs13194907
Imputed
A
DOM
682
2.432
0.2521
1.484
3.986
3.525
0.000423
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs13195745
Imputed
A
ADD
682
2.264
0.2373
1.422
3.606
3.444
0.000573
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs13195745
Imputed
A
DOM
682
2.432
0.2521
1.484
3.986
3.525
0.000423
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs1321432
Imputed
A
REC
681
2.324
0.2254
1.494
3.615
3.741
0.000183
0.5731
0.3884
0.44314
0.3455
60
145
94
39
186
157


rs1321457
Imputed
G
REC
665
2.293
0.2272
1.469
3.58
3.653
0.000259
0.7441
0.38872
0.44178
0.3472
59
140
93
39
181
153


rs13265054
Imputed
T
DOM
671
0.623
0.1591
0.4561
0.8511
−2.973
0.002945
0.7921
0.32489
0.28716
0.3547
27
116
153
42
182
151


rs13282131
Imputed
C
GEN
675




7.767
0.02058
0.8765
0.44889
0.48639
0.4199
72
142
80
65
190
126


rs13353526
Imputed
C
DOM
674
1.752
0.2045
1.174
2.617
2.743
0.006085
0.3687
0.09496
0.11486
0.0794
2
64
230
6
48
324


rs1336382
Imputed
T
DOM
682
1.772
0.1576
1.301
2.413
3.63
2.84E−04
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs1336383
Imputed
T
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs1336407
Imputed
T
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs1336409
Imputed
T
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs1336596
Imputed
A
DOM
682
0.565
0.1607
0.412
0.7735
−3.558
0.000374
0.9327
0.34751
0.31333
0.3743
37
114
149
46
194
142


rs1343560
Imputed
T
ADD
678
0.521
0.1923
0.3575
0.7596
−3.39
0.000699
0.3076
0.10546
0.07239
0.1312
3
37
257
7
86
288


rs1343560
Imputed
T
DOM
678
0.478
0.2098
0.3168
0.7211
−3.518
0.000435
0.3076
0.10546
0.07239
0.1312
3
37
257
7
86
288


rs1361987
Imputed
T
GEN
682




12.45
0.001975
0.9355
0.3849
0.335
0.4241
28
145
127
72
180
130


rs1386153
Imputed
T
ADD
677
0.694
0.1194
0.5493
0.8772
−3.057
0.002235
0.7936
0.32718
0.28261
0.3624
27
115
157
47
180
151


rs1386153
Imputed
T
DOM
677
0.603
0.1574
0.4431
0.8213
−3.21
0.001326
0.7936
0.32718
0.28261
0.3624
27
115
157
47
180
151


rs1394015
Imputed
C
DOM
669
1.658
0.1636
1.203
2.285
3.091
0.001993
0.4527
0.36472
0.39384
0.3422
35
160
97
49
160
168


rs1407038
Imputed
A
REC
678
2.31
0.2263
1.483
3.599
3.7
0.000215
0.8076
0.38422
0.4375
0.3429
59
141
96
39
184
159


rs1407039
Imputed
A
REC
680
2.185
0.221
1.417
3.37
3.538
4.04E−04
0.748
0.39412
0.44631
0.3534
61
144
93
42
186
154


rs1412802
Imputed
T
GEN
681




6.558
0.03767
0.785
0.30176
0.27
0.3268
17
128
155
43
163
175


rs1414865
Imputed
T
DOM
682
1.79
0.1585
1.312
2.442
3.671
0.000241
1
0.30132
0.34
0.2709
27
150
123
35
137
210


rs1414873
Imputed
A
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs1414876
Imputed
C
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs1418671
Imputed
C
REC
655
2.259
0.2305
1.437
3.549
3.534
0.000409
0.2728
0.36336
0.41493
0.3229
57
125
106
36
165
166


rs1419490
Genotyped
T
GEN
682




12.66
0.001783
0.9357
0.38416
0.33333
0.4241
28
144
128
72
180
130


rs1434507
Imputed
A
ADD
681
1.547
0.1268
1.206
1.983
3.439
0.000584
0.8411
0.25698
0.30333
0.2205
28
126
146
18
132
231


rs1434508
Imputed
T
ADD
681
1.536
0.1268
1.198
1.97
3.388
0.000705
0.9202
0.25771
0.30333
0.2218
28
126
146
18
133
230


rs1435205
Imputed
A
ADD
679
1.5
0.1343
1.153
1.952
3.019
0.00254
1
0.21944
0.25671
0.1903
21
111
166
11
123
247


rs1443928
Imputed
C
REC
672
0.59
0.1812
0.4133
0.8409
−2.917
0.003539
0.5875
0.53571
0.50169
0.5625
66
165
65
123
177
76


rs1452235
Imputed
G
GEN
682




12.53
0.001899
0.2617
0.33065
0.28667
0.3652
21
130
149
60
159
163


rs1452236
Imputed
G
GEN
681




12.63
0.001811
0.2989
0.33113
0.28667
0.3661
21
130
149
60
159
162


rs1452237
Imputed
G
GEN
682




12.53
0.001899
0.2617
0.33065
0.28667
0.3652
21
130
149
60
159
163


rs1452243
Genotyped
T
GEN
682




12.53
0.001899
0.2617
0.33065
0.28667
0.3652
21
130
149
60
159
163


rs1463768
Genotyped
G
REC
682
1.527
0.2037
1.025
2.277
2.08
0.03755
0.3847
0.40982
0.435
0.3901
63
135
102
57
184
141


rs1463769
Imputed
G
REC
682
1.561
0.2044
1.045
2.33
2.177
0.02947
0.428
0.40836
0.435
0.3874
63
135
102
56
184
142


rs1472435
Imputed
A
ADD
675
0.581
0.2266
0.3727
0.9061
−2.395
0.01663
0.3725
0.07111
0.05201
0.0862
0
31
267
5
55
317


rs1472435
Imputed
A
DOM
675
0.6
0.2382
0.376
0.9566
−2.146
0.03185
0.3725
0.07111
0.05201
0.0862
0
31
267
5
55
317


rs1476714
Imputed
A
DOM
681
0.558
0.1599
0.4076
0.7628
−3.654
0.000258
1
0.34802
0.30769
0.3796
36
112
151
46
198
138


rs1495159
Imputed
G
ADD
671
0.664
0.125
0.5195
0.8479
−3.281
0.001036
0.8591
0.31967
0.27721
0.3528
19
125
150
48
170
159


rs1495159
Imputed
G
GEN
671




11.32
0.003475
0.8591
0.31967
0.27721
0.3528
19
125
150
48
170
159


rs1495375
Imputed
A
DOM
674
0.571
0.1673
0.4111
0.7921
−3.353
0.0008
1
0.42507
0.3902
0.4524
52
127
117
70
202
106


rs1495376
Imputed
T
DOM
649
0.594
0.1848
0.4134
0.8529
−2.821
0.004787
0.8753
0.4923
0.46986
0.5095
70
125
87
86
202
79


rs1495377
Imputed
G
DOM
652
0.615
0.1836
0.4294
0.8819
−2.644
0.008185
0.9375
0.49233
0.47183
0.5082
71
126
87
86
202
80


rs1495381
Imputed
T
GEN
682




10.43
0.005444
0.3777
0.39443
0.43
0.3665
59
140
101
41
198
143


rs1495381
Imputed
T
REC
682
2.043
0.2213
1.324
3.152
3.229
0.001243
0.3777
0.39443
0.43
0.3665
59
140
101
41
198
143


rs1498992
Imputed
G
DOM
681
0.583
0.1567
0.4286
0.7922
−3.446
0.000568
0.4296
0.32159
0.27592
0.3573
28
109
162
47
179
156


rs1499001
Imputed
T
DOM
661
0.587
0.1603
0.4291
0.8042
−3.32
0.000901
0.5609
0.27761
0.22837
0.3159
16
100
173
38
159
175


rs1512988
Imputed
A
DOM
681
0.588
0.1643
0.4264
0.8118
−3.229
0.001243
0.9365
0.40088
0.36455
0.4293
45
128
126
65
198
119


rs1512989
Imputed
T
DOM
681
0.588
0.1643
0.4264
0.8118
−3.229
0.001243
0.9365
0.40088
0.36455
0.4293
45
128
126
65
198
119


rs1512991
Imputed
T
ADD
677
0.734
0.1143
0.5865
0.9181
−2.707
0.006791
0.6434
0.46824
0.42929
0.4987
57
141
99
88
203
89


rs1512991
Imputed
T
DOM
677
0.588
0.1751
0.4173
0.8289
−3.032
0.002431
0.6434
0.46824
0.42929
0.4987
57
141
99
88
203
89


rs1516855
Imputed
G
REC
657
1.965
0.2424
1.222
3.16
2.786
0.005328
0.1374
0.38052
0.41176
0.356
49
140
100
37
188
143


rs1527450
Imputed
T
ADD
670
1.426
0.1148
1.139
1.787
3.093
0.001982
0.7474
0.39776
0.44463
0.3602
61
143
94
47
174
151


rs1527450
Imputed
T
GEN
670




9.977
0.006814
0.7474
0.39776
0.44463
0.3602
61
143
94
47
174
151


rs1567740
Imputed
T
DOM
679
0.584
0.165
0.4224
0.8064
−3.264
0.001098
0.8732
0.40206
0.367
0.4293
46
126
125
65
198
119


rs1572573
Imputed
A
ADD
657
1.745
0.1419
1.321
2.305
3.923
8.73E−05
0.1585
0.18798
0.23693
0.15
16
104
167
13
85
272


rs1572573
Imputed
A
DOM
657
2.014
0.1694
1.445
2.807
4.132
3.60E−05
0.1585
0.18798
0.23693
0.15
16
104
167
13
85
272


rs1584003
Imputed
C
DOM
673
1.97
0.1803
1.384
2.806
3.761
0.000169
0.2788
0.47028
0.5119
0.438
70
161
63
86
160
133


rs1584005
Imputed
C
DOM
665
1.936
0.181
1.358
2.761
3.652
0.000261
0.2759
0.46842
0.50692
0.4388
67
159
63
86
158
132


rs1585771
Imputed
G
ADD
674
1.481
0.1242
1.161
1.889
3.162
0.001567
0.3712
0.26261
0.30678
0.2282
31
119
145
20
133
226


rs1592015
Imputed
G
DOM
681
0.523
0.1726
0.373
0.7337
−3.754
0.000174
0.43
0.17621
0.13712
0.2068
10
62
227
14
130
238


rs1594885
Imputed
A
ADD
681
1.561
0.1254
1.221
1.995
3.551
0.000384
0.6918
0.26211
0.31
0.2244
30
126
144
19
133
229


rs1603232
Imputed
A
DOM
655
0.631
0.1827
0.4408
0.902
−2.525
0.01159
1
0.48779
0.47038
0.5014
72
126
89
84
201
83


rs1614565
Imputed
C
DOM
671
0.574
0.1797
0.4034
0.816
−3.091
0.001993
0.9385
0.48957
0.46949
0.5053
75
127
93
85
210
81


rs1648200
Imputed
G
ADD
623
1.473
0.135
1.13
1.919
2.868
0.004134
0.833
0.25522
0.29478
0.2254
19
120
129
20
120
215


rs16877387
Imputed
C
GEN
677




11.65
0.002959
0.3017
0.33678
0.38047
0.3026
51
124
122
32
166
182


rs16877387
Imputed
C
REC
677
2.249
0.2423
1.399
3.616
3.345
0.000823
0.3017
0.33678
0.38047
0.3026
51
124
122
32
166
182


rs16938626
Imputed
G
DOM
663
0.631
0.1588
0.4625
0.8618
−2.897
0.00377
0.9255
0.29261
0.25676
0.3215
23
106
167
33
170
164


rs1694334
Imputed
G
ADD
599
0.664
0.1373
0.5072
0.8688
−2.984
0.002847
0.01892
0.24207
0.1954
0.2781
10
82
169
36
116
186


rs16998821
Imputed
C
DOM
681
0.523
0.1726
0.373
0.7337
−3.754
0.000174
0.43
0.17621
0.13712
0.2068
10
62
227
14
130
238


rs1700400
Imputed
T
ADD
672
0.695
0.131
0.5378
0.8989
−2.774
0.005544
0.5481
0.25967
0.22297
0.2886
11
110
175
31
155
190


rs17007620
Imputed
G
ADD
599
1.567
0.1431
1.184
2.074
3.138
0.001699
0.8194
0.23372
0.27308
0.2035
16
110
134
15
108
216


rs17007620
Imputed
G
DOM
599
1.743
0.171
1.247
2.437
3.251
0.001149
0.8194
0.23372
0.27308
0.2035
16
110
134
15
108
216


rs17023290
Imputed
C
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs17047957
Imputed
C
DOM
681
1.493
0.168
1.074
2.074
2.384
0.01712
0.4202
0.17181
0.19231
0.1558
7
101
191
16
87
279


rs1705237
Imputed
A
DOM
666
0.566
0.1803
0.3973
0.8057
−3.158
0.001589
0.8767
0.48649
0.4622
0.5053
71
127
93
85
209
81


rs1705261
Imputed
A
GEN
682




10.46
0.005353
0.4226
0.39296
0.43
0.3639
59
140
101
41
196
145


rs1705261
Imputed
A
REC
682
2.043
0.2213
1.324
3.152
3.229
0.001243
0.4226
0.39296
0.43
0.3639
59
140
101
41
196
145


rs17076972
Imputed
C
ADD
682
1.427
0.1121
1.146
1.778
3.172
0.001511
1
0.47507
0.52667
0.4346
86
144
70
68
196
118


rs17076972
Imputed
C
GEN
682




11.26
0.003593
1
0.47507
0.52667
0.4346
86
144
70
68
196
118


rs17076972
Imputed
C
REC
682
1.816
0.1863
1.26
2.616
3.202
0.001365
1
0.47507
0.52667
0.4346
86
144
70
68
196
118


rs17189710
Imputed
T
ADD
681
1.338
0.1141
1.07
1.674
2.554
0.01063
0.2789
0.3583
0.39667
0.3281
54
130
116
40
170
171


rs17189710
Imputed
T
GEN
681




7.872
0.01953
0.2789
0.3583
0.39667
0.3281
54
130
116
40
170
171


rs17196143
Imputed
A
ADD
682
1.57
0.1416
1.189
2.072
3.183
0.001458
0.6286
0.19721
0.23667
0.1662
12
118
170
12
103
267


rs17353809
Imputed
G
ADD
674
1.511
0.1348
1.16
1.968
3.062
0.002199
0.9094
0.21588
0.25424
0.186
22
106
167
10
121
248


rs17368986
Imputed
A
GEN
682




13.99
0.000919
0.07037
0.19721
0.24167
0.1623
26
93
181
8
108
266


rs17369097
Imputed
A
GEN
681




13.12
0.001413
0.1414
0.19457
0.23833
0.1601
24
95
181
8
106
267


rs17434511
Imputed
C
GEN
679




13.93
0.000944
0.06935
0.19735
0.24161
0.1627
26
92
180
8
108
265


rs17434589
Imputed
C
GEN
673




14.2
0.000826
0.06943
0.19837
0.24407
0.1627
26
92
177
8
107
263


rs17434603
Imputed
G
GEN
680




13.78
0.001017
0.06901
0.19706
0.2408
0.1627
26
92
181
8
108
265


rs17434840
Imputed
C
GEN
681




13.12
0.001413
0.1414
0.19457
0.23833
0.1601
24
95
181
8
106
267


rs17446418
Imputed
G
DOM
678
0.537
0.1603
0.3921
0.7351
−3.88
0.000105
0.8045
0.36873
0.31711
0.4092
35
119
144
59
193
128


rs17530747
Imputed
T
DOM
669
0.525
0.1614
0.383
0.7209
−3.988
6.66E−05
0.8027
0.36398
0.30887
0.4069
32
117
144
58
190
128


rs17604285
Imputed
C
ADD
681
0.533
0.1972
0.3619
0.7838
−3.195
0.001397
0.2868
0.09912
0.06833
0.1234
2
37
261
7
80
294


rs17604285
Imputed
C
DOM
681
0.504
0.212
0.3327
0.7638
−3.231
0.001233
0.2868
0.09912
0.06833
0.1234
2
37
261
7
80
294


rs17662322
Imputed
T
DOM
681
0.555
0.17
0.3978
0.7746
−3.463
0.000535
1
0.18135
0.13712
0.216
4
74
221
18
129
235


rs17769826
Imputed
T
ADD
677
1.504
0.1347
1.155
1.958
3.029
0.002453
0.9092
0.21492
0.25253
0.1855
22
106
169
10
121
249


rs17821641
Imputed
T
ADD
679
1.5
0.1343
1.153
1.952
3.019
0.00254
1
0.21944
0.25671
0.1903
21
111
166
11
123
247


rs1782328
Imputed
A
ADD
647
0.613
0.1454
0.4609
0.8148
−3.369
0.000754
0.1051
0.19706
0.15194
0.2321
6
74
203
26
117
221


rs1796337
Imputed
T
DOM
669
0.597
0.1833
0.4168
0.8548
−2.816
0.004863
0.5361
0.51121
0.48142
0.5349
77
131
88
102
195
76


rs1798083
Imputed
C
DOM
674
0.601
0.179
0.4232
0.8536
−2.845
0.004447
0.8775
0.48813
0.46959
0.5026
74
130
92
85
210
83


rs1798085
Imputed
T
DOM
668
0.578
0.1804
0.4058
0.823
−3.04
0.002368
0.9383
0.48952
0.46928
0.5053
74
127
92
85
209
81


rs1798086
Imputed
T
DOM
668
0.553
0.1797
0.3886
0.786
−3.3
0.000968
1
0.48653
0.46246
0.5053
73
125
95
85
209
81


rs1798089
Imputed
C
GEN
675




11.13
0.00383
0.42
0.39333
0.43098
0.3638
59
138
100
40
195
143


rs1798089
Imputed
C
REC
675
2.101
0.2227
1.358
3.252
3.334
0.000855
0.42
0.39333
0.43098
0.3638
59
138
100
40
195
143


rs1798090
Imputed
C
GEN
674




10.63
0.004921
0.3765
0.39614
0.43412
0.3664
59
139
98
41
195
142


rs1798090
Imputed
C
REC
674
2.054
0.2214
1.331
3.17
3.251
0.001151
0.3765
0.39614
0.43412
0.3664
59
139
98
41
195
142


rs1832222
Imputed
G
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs1838104
Imputed
A
ADD
668
0.727
0.1159
0.5791
0.9121
−2.754
0.005895
0.3083
0.55539
0.51199
0.5891
71
157
64
128
187
61


rs1838104
Imputed
A
GEN
668




7.983
0.01848
0.3083
0.55539
0.51199
0.5891
71
157
64
128
187
61


rs1868616
Imputed
G
ADD
671
0.572
0.1501
0.426
0.7672
−3.725
0.000195
0.7063
0.19001
0.14576
0.2247
4
78
213
18
133
225


rs1874313
Imputed
A
DOM
674
0.578
0.1655
0.4178
0.7993
−3.314
0.000921
0.9364
0.40504
0.36824
0.4339
46
126
124
65
198
115


rs1884902
Imputed
C
REC
678
2.217
0.2224
1.434
3.428
3.579
0.000344
0.6303
0.39381
0.44649
0.3522
61
145
93
41
185
153


rs1913201
Imputed
G
ADD
650
0.692
0.1185
0.5487
0.873
−3.106
0.001894
0.3832
0.44692
0.40175
0.4822
45
139
101
79
194
92


rs1913201
Imputed
G
DOM
650
0.589
0.1754
0.4175
0.8303
−3.02
0.002528
0.3832
0.44692
0.40175
0.4822
45
139
101
79
194
92


rs1913201
Imputed
G
GEN
650




10.22
0.006038
0.3832
0.44692
0.40175
0.4822
45
139
101
79
194
92


rs1944279
Imputed
A
ADD
679
1.579
0.1261
1.233
2.022
3.624
0.00029
0.6914
0.26068
0.30936
0.2224
30
125
144
18
133
229


rs198461
Imputed
C
DOM
676
0.625
0.1925
0.4287
0.9117
−2.44
0.01467
0.04501
0.52367
0.49495
0.5462
71
152
74
101
212
66


rs1987179
Imputed
T
DOM
680
0.701
0.1613
0.5109
0.9616
−2.203
0.0276
0.06175
0.20735
0.18562
0.2244
10
91
198
11
149
221


rs1990023
Imputed
T
DOM
682
0.548
0.1595
0.4011
0.7494
−3.769
0.000164
0.9329
0.34824
0.30667
0.3809
36
112
152
46
199
137


rs2016194
Imputed
G
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs2024789
Imputed
C
ADD
666
0.675
0.1123
0.542
0.8417
−3.495
0.000475
0.3902
0.4542
0.39828
0.4973
49
133
108
94
186
96


rs2024789
Imputed
C
GEN
666




12.34
0.002095
0.3902
0.4542
0.39828
0.4973
49
133
108
94
186
96


rs2024902
Imputed
A
ADD
678
2.07
0.2296
1.32
3.246
3.168
0.001535
0.2503
0.07375
0.09732
0.0553
3
52
243
3
36
341


rs2024902
Imputed
A
DOM
678
2.266
0.2451
1.401
3.663
3.336
0.000849
0.2503
0.07375
0.09732
0.0553
3
52
243
3
36
341


rs2025107
Imputed
A
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs2025107
Imputed
A
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs2025108
Imputed
T
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs2025108
Imputed
T
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs2062448
Imputed
T
ADD
674
0.545
0.1992
0.3687
0.805
−3.049
0.002299
0.2633
0.09644
0.06711
0.1197
2
36
260
7
76
293


rs2062448
Imputed
T
DOM
674
0.517
0.215
0.339
0.7873
−3.072
0.002123
0.2633
0.09644
0.06711
0.1197
2
36
260
7
76
293


rs2063591
Imputed
C
ADD
677
0.73
0.1136
0.5839
0.9113
−2.777
0.005479
0.8173
0.47858
0.43792
0.5106
61
139
98
92
203
84


rs2063591
Imputed
C
DOM
677
0.56
0.1767
0.3958
0.7911
−3.287
0.001014
0.8173
0.47858
0.43792
0.5106
61
139
98
92
203
84


rs2065604
Imputed
C
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs2066238
Imputed
T
DOM
682
0.521
0.1725
0.3715
0.7305
−3.78
0.000157
0.4294
0.17595
0.13667
0.2068
10
62
228
14
130
238


rs2068051
Imputed
G
ADD
424
0.612
0.1413
0.464
0.8076
−3.472
0.000517
0.1925
0.58726
0.52332
0.6407
55
92
46
98
100
33


rs2068051
Imputed
G
GEN
424




12.06
0.002411
0.1925
0.58726
0.52332
0.6407
55
92
46
98
100
33


rs2077702
Genotyped
G
GEN
682




9.004
0.01108
0.5971
0.31818
0.35
0.2932
44
122
134
28
168
186


rs208757
Imputed
G
ADD
652
1.552
0.1511
1.154
2.087
2.91
0.003619
0.4981
0.17485
0.20833
0.1484
9
102
177
8
92
264


rs208757
Imputed
G
DOM
652
1.649
0.1701
1.182
2.302
2.942
0.003266
0.4981
0.17485
0.20833
0.1484
9
102
177
8
92
264


rs2095586
Imputed
A
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs2108426
Imputed
C
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs2110664
Imputed
A
DOM
643
1.503
0.1611
1.096
2.061
2.53
0.01141
0.8422
0.27138
0.30674
0.2438
24
125
133
22
132
207


rs2132242
Imputed
A
DOM
680
0.585
0.1661
0.4222
0.8097
−3.231
0.001233
1
0.41544
0.37919
0.4437
48
130
120
69
201
112


rs2151644
Imputed
T
DOM
679
0.527
0.2075
0.3509
0.7914
−3.088
0.002018
0.6758
0.10236
0.07358
0.125
2
40
257
6
83
291


rs2157752
Genotyped
A
GEN
682




12.46
0.001973
0.676
0.35557
0.30667
0.394
24
136
140
65
171
146


rs2158958
Imputed
A
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs2158961
Imputed
G
DOM
680
0.564
0.1598
0.412
0.7707
−3.59
0.00033
0.9326
0.34706
0.30833
0.3776
36
113
151
45
197
138


rs2164099
Imputed
G
ADD
681
1.561
0.1254
1.221
1.995
3.551
0.000384
0.6918
0.26211
0.31
0.2244
30
126
144
19
133
229


rs2173254
Imputed
G
GEN
675




12.63
0.001808
0.08658
0.34074
0.29561
0.376
17
141
138
51
183
145


rs2173254
Imputed
G
REC
675
0.382
0.2927
0.2154
0.6786
−3.285
0.001021
0.08658
0.34074
0.29561
0.376
17
141
138
51
183
145


rs2188079
Imputed
C
ADD
682
1.482
0.1139
1.186
1.853
3.457
0.000547
0.8148
0.42962
0.48333
0.3874
71
148
81
53
190
139


rs2188079
Imputed
C
GEN
682




12.81
0.001651
0.8148
0.42962
0.48333
0.3874
71
148
81
53
190
139


rs2190304
Imputed
G
REC
682
0.439
0.2056
0.2933
0.6567
−4.005
6.20E−05
0.2503
0.47947
0.42667
0.5209
44
168
88
105
188
89


rs2190597
Imputed
T
DOM
681
0.559
0.174
0.3978
0.7868
−3.338
0.000844
0.9387
0.46916
0.43167
0.4987
63
133
104
86
208
87


rs2190598
Imputed
T
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs2190600
Imputed
A
DOM
672
0.561
0.1605
0.4097
0.7686
−3.6
0.000319
0.9321
0.34598
0.3064
0.3773
36
110
151
45
193
137


rs2218084
Imputed
T
GEN
664




8.488
0.01435
0.02385
0.16416
0.18983
0.1436
19
74
202
7
92
270


rs2218084
Imputed
T
REC
664
3.657
0.4516
1.509
8.862
2.871
0.004092
0.02385
0.16416
0.18983
0.1436
19
74
202
7
92
270


rs2236290
Genotyped
C
GEN
680




6.499
0.0388
0.5618
0.36103
0.32667
0.3882
30
136
134
62
171
147


rs2243860
Imputed
A
GEN
548




9.796
0.00746
0.1582
0.40785
0.45021
0.3746
50
117
74
33
164
110


rs2243860
Imputed
A
REC
548
2.168
0.2486
1.332
3.529
3.113
0.00185
0.1582
0.40785
0.45021
0.3746
50
117
74
33
164
110


rs2246564
Imputed
T
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs2248236
Imputed
C
DOM
681
0.718
0.1608
0.524
0.9842
−2.059
0.03947
0.04865
0.20852
0.18833
0.2244
10
93
197
11
149
221


rs2250340
Imputed
T
DOM
600
0.514
0.2136
0.3382
0.7813
−3.115
0.001837
0.8378
0.1125
0.08113
0.1373
2
39
224
6
80
249


rs2257192
Imputed
G
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs2270584
Imputed
A
DOM
679
0.567
0.1632
0.4117
0.7806
−3.477
0.000507
0.7495
0.40059
0.36622
0.4276
49
121
129
62
201
117


rs2270586
Imputed
A
DOM
680
0.564
0.1631
0.4095
0.7761
−3.514
0.000442
0.8731
0.4
0.36622
0.4265
49
121
129
61
203
117


rs2270589
Imputed
A
ADD
682
0.711
0.1121
0.5703
0.8851
−3.048
0.002301
0.877
0.44648
0.40167
0.4817
54
133
113
83
202
97


rs2270589
Imputed
A
DOM
682
0.552
0.1689
0.3961
0.7679
−3.523
0.000426
0.877
0.44648
0.40167
0.4817
54
133
113
83
202
97


rs2270589
Imputed
A
GEN
682




12.43
0.001996
0.877
0.44648
0.40167
0.4817
54
133
113
83
202
97


rs2296889
Imputed
C
DOM
672
1.638
0.1743
1.164
2.305
2.832
0.004632
0.7651
0.15253
0.17508
0.1347
3
98
196
11
79
285


rs2301346
Imputed
C
ADD
550
1.573
0.133
1.212
2.042
3.407
0.000656
0.2216
0.29818
0.35124
0.2565
32
106
104
23
112
173


rs2301346
Imputed
C
DOM
550
1.763
0.1765
1.248
2.492
3.214
0.001311
0.2216
0.29818
0.35124
0.2565
32
106
104
23
112
173


rs2327929
Imputed
G
REC
682
2.122
0.1996
1.435
3.137
3.769
0.000164
0.09898
0.42155
0.47333
0.3809
77
130
93
55
181
146


rs2357486
Imputed
C
REC
673
2.717
0.2622
1.625
4.542
3.812
0.000138
0.7297
0.33432
0.37752
0.3
48
129
121
25
175
175


rs2373793
Imputed
G
DOM
646
1.534
0.1778
1.083
2.173
2.407
0.0161
0.1726
0.15402
0.18151
0.1314
11
84
197
9
75
270


rs2377622
Imputed
T
GEN
552




7.759
0.02066
0.9252
0.34692
0.3125
0.3719
18
109
105
49
140
131


rs2377622
Imputed
T
REC
552
0.437
0.2982
0.2436
0.784
−2.776
0.005501
0.9252
0.34692
0.3125
0.3719
18
109
105
49
140
131


rs2383903
Imputed
G
DOM
681
0.614
0.1576
0.4507
0.836
−3.096
0.001959
0.9247
0.28267
0.245
0.3123
22
103
175
33
172
176


rs2389866
Imputed
C
DOM
681
0.697
0.1612
0.508
0.9558
−2.24
0.02509
0.06186
0.20705
0.185
0.2244
10
91
199
11
149
221


rs2389869
Imputed
C
DOM
681
0.697
0.1612
0.508
0.9558
−2.24
0.02509
0.06186
0.20705
0.185
0.2244
10
91
199
11
149
221


rs2418541
Imputed
A
DOM
681
0.551
0.1595
0.4029
0.753
−3.738
0.000186
1
0.34802
0.30667
0.3806
36
112
152
46
198
137


rs2418542
Imputed
A
DOM
681
0.551
0.1595
0.4029
0.753
−3.738
0.000186
1
0.34802
0.30667
0.3806
36
112
152
46
198
137


rs2418548
Imputed
C
DOM
630
0.572
0.1639
0.4145
0.788
−3.414
0.00064
0.9279
0.32698
0.29474
0.3536
33
102
150
35
174
136


rs2476976
Imputed
C
DOM
681
1.728
0.1579
1.268
2.355
3.465
0.00053
0.855
0.29736
0.33278
0.2696
25
149
125
34
138
210


rs2483639
Imputed
A
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs2483640
Imputed
A
DOM
682
0.529
0.2074
0.352
0.7937
−3.074
0.00211
0.6748
0.10191
0.07333
0.1243
2
40
258
6
83
293


rs2544780
Imputed
T
REC
670
1.881
0.2505
1.151
3.073
2.521
0.0117
0.248
0.3194
0.35959
0.2884
43
124
125
32
154
192


rs2586458
Imputed
T
DOM
322
0.507
0.2771
0.2947
0.8733
−2.449
0.01433
0.4953
0.14286
0.10465
0.1684
3
21
105
5
55
133


rs2593272
Imputed
G
ADD
682
0.712
0.1296
0.5521
0.9177
−2.623
0.00872
0.6186
0.25953
0.225
0.2866
12
111
177
31
157
194


rs2593273
Imputed
T
ADD
678
0.699
0.1321
0.5396
0.9057
−2.71
0.006738
0.3627
0.25516
0.2198
0.2829
10
111
177
29
157
194


rs2622499
Imputed
G
DOM
682
0.726
0.1604
0.5299
0.9939
−1.998
0.04572
0.08586
0.21261
0.19333
0.2277
11
94
195
12
150
220


rs264126
Imputed
C
DOM
679
0.553
0.1744
0.3932
0.779
−3.392
0.000693
0.9386
0.46981
0.43167
0.5
63
133
104
86
207
86


rs264129
Imputed
T
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
1
0.34802
0.30833
0.3793
36
113
151
46
197
138


rs2656822
Imputed
T
ADD
682
0.712
0.1296
0.5521
0.9177
−2.623
0.00872
0.6186
0.25953
0.225
0.2866
12
111
177
31
157
194


rs2656823
Imputed
G
ADD
682
0.712
0.1296
0.5521
0.9177
−2.623
0.00872
0.6186
0.25953
0.225
0.2866
12
111
177
31
157
194


rs2656825
Imputed
T
ADD
665
0.702
0.1338
0.5398
0.9119
−2.649
0.00807
0.4115
0.25263
0.21747
0.2802
9
109
174
29
151
193


rs2764766
Imputed
C
REC
678
1.803
0.2463
1.112
2.922
2.393
0.01673
0.2549
0.32448
0.36364
0.294
44
128
125
34
156
191


rs2793101
Imputed
T
ADD
680
0.506
0.1889
0.3491
0.732
−3.612
0.000304
1
0.1125
0.07833
0.1395
1
45
254
7
92
281


rs2793101
Imputed
T
DOM
680
0.501
0.2
0.3385
0.7413
−3.457
0.000547
1
0.1125
0.07833
0.1395
1
45
254
7
92
281


rs2795871
Imputed
A
ADD
676
0.578
0.2256
0.3717
0.9
−2.427
0.01522
0.3783
0.07175
0.05201
0.0873
0
31
267
5
56
317


rs2795886
Imputed
A
ADD
681
0.507
0.2747
0.2962
0.8693
−2.47
0.01352
0.0724
0.04919
0.03167
0.063
0
19
281
4
40
337


rs2795886
Imputed
A
DOM
681
0.517
0.2884
0.2939
0.9104
−2.285
0.02229
0.0724
0.04919
0.03167
0.063
0
19
281
4
40
337


rs2859994
Imputed
C
GEN
645




9.449
0.008877
0.112
0.37984
0.41986
0.3478
49
143
95
34
181
143


rs2870464
Imputed
G
DOM
682
1.534
0.1771
1.084
2.171
2.417
0.01564
0.5379
0.14443
0.17
0.1243
9
84
207
7
81
294


rs2875528
Imputed
T
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs2876227
Imputed
C
ADD
640
1.393
0.1179
1.106
1.755
2.811
0.00494
0.226
0.35156
0.39785
0.3158
50
122
107
36
156
169


rs2876227
Imputed
C
GEN
640




8.788
0.01235
0.226
0.35156
0.39785
0.3158
50
122
107
36
156
169


rs2882097
Imputed
A
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs2921983
Imputed
C
ADD
640
0.679
0.1387
0.5173
0.8909
−2.793
0.00522
0.5889
0.23984
0.20285
0.2688
9
96
176
25
143
191


rs2987537
Imputed
C
DOM
682
0.501
0.1957
0.3413
0.735
−3.533
0.000411
0.2158
0.1239
0.09
0.1505
5
44
251
9
97
276


rs2996416
Imputed
C
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs2996416
Imputed
C
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015527
Imputed
C
ADD
677
0.519
0.1922
0.3558
0.7559
−3.416
0.000635
0.303
0.10487
0.07191
0.131
3
37
259
7
85
286


rs3015527
Imputed
C
DOM
677
0.476
0.2098
0.3154
0.7179
−3.54
0.000401
0.303
0.10487
0.07191
0.131
3
37
259
7
85
286


rs3015530
Imputed
C
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015530
Imputed
C
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015531
Imputed
T
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015531
Imputed
T
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015535
Imputed
C
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3015535
Imputed
C
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs3019407
Imputed
A
GEN
675




12.63
0.001808
0.08658
0.34074
0.29561
0.376
17
141
138
51
183
145


rs3019407
Imputed
A
REC
675
0.382
0.2927
0.2154
0.6786
−3.285
0.001021
0.08658
0.34074
0.29561
0.376
17
141
138
51
183
145


rs36071725
Genotyped
C
GEN
682




15.36
0.000463
0.6072
0.33724
0.38333
0.301
49
132
119
25
180
177


rs373983
Imputed
G
DOM
661
1.911
0.1684
1.373
2.658
3.844
0.000121
0.4632
0.39334
0.44692
0.3509
55
151
86
52
155
162


rs3756154
Imputed
C
DOM
681
0.697
0.1612
0.508
0.9558
−2.24
0.02509
0.06186
0.20705
0.185
0.2244
10
91
199
11
149
221


rs3793044
Imputed
C
ADD
682
2.264
0.2373
1.422
3.606
3.444
0.000573
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs3793044
Imputed
C
DOM
682
2.432
0.2521
1.484
3.986
3.525
0.000423
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs3793053
Imputed
C
ADD
672
2.017
0.2117
1.332
3.055
3.316
0.000914
0.6256
0.08705
0.11409
0.0655
3
62
233
3
43
328


rs3793053
Imputed
C
DOM
672
2.188
0.2249
1.408
3.4
3.48
0.000501
0.6256
0.08705
0.11409
0.0655
3
62
233
3
43
328


rs3796246
Imputed
G
ADD
682
0.511
0.2045
0.3419
0.7623
−3.287
0.001012
1
0.09531
0.065
0.1191
1
37
262
5
81
296


rs3796246
Imputed
G
DOM
682
0.497
0.2139
0.3265
0.7551
−3.273
0.001063
1
0.09531
0.065
0.1191
1
37
262
5
81
296


rs3805996
Imputed
G
ADD
662
2.146
0.2358
1.352
3.407
3.239
0.001199
0.1442
0.07251
0.0976
0.0527
3
51
238
3
33
334


rs3805996
Imputed
G
DOM
662
2.368
0.2509
1.448
3.871
3.436
0.00059
0.1442
0.07251
0.0976
0.0527
3
51
238
3
33
334


rs3806003
Imputed
A
ADD
682
2.264
0.2373
1.422
3.606
3.444
0.000573
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs3806003
Imputed
A
DOM
682
2.432
0.2521
1.484
3.986
3.525
0.000423
0.205
0.06598
0.09167
0.0458
3
49
248
2
31
349


rs3806004
Imputed
T
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806004
Imputed
T
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806010
Imputed
T
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806010
Imputed
T
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806014
Imputed
T
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806014
Imputed
T
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806015
Imputed
A
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806015
Imputed
A
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806018
Imputed
A
ADD
682
2.008
0.2082
1.336
3.02
3.35
0.000808
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806018
Imputed
A
DOM
682
2.219
0.2217
1.437
3.427
3.596
0.000324
0.4997
0.09238
0.12
0.0707
3
66
231
4
46
332


rs3806019
Imputed
A
ADD
678
2.145
0.2126
1.414
3.253
3.588
0.000333
0.6198
0.08555
0.11538
0.062
3
63
233
3
41
335


rs3806019
Imputed
A
DOM
678
2.353
0.2258
1.511
3.663
3.788
0.000152
0.6198
0.08555
0.11538
0.062
3
63
233
3
41
335


rs3806024
Imputed
T
ADD
672
2.017
0.2117
1.332
3.055
3.316
0.000914
0.6256
0.08705
0.11409
0.0655
3
62
233
3
43
328


rs3806024
Imputed
T
DOM
672
2.188
0.2249
1.408
3.4
3.48
0.000501
0.6256
0.08705
0.11409
0.0655
3
62
233
3
43
328


rs3847825
Imputed
G
ADD
680
0.691
0.112
0.5544
0.8601
−3.305
0.00095
0.03311
0.37353
0.32107
0.4147
33
126
140
75
166
140


rs3847825
Imputed
G
GEN
680




11.36
0.003414
0.03311
0.37353
0.32107
0.4147
33
126
140
75
166
140


rs3852001
Genotyped
C
GEN
682




13.99
0.000919
0.07037
0.19721
0.24167
0.1623
26
93
181
8
108
266


rs3852001
Genotyped
C
REC
682
4.254
0.4136
1.891
9.569
3.5
0.000465
0.07037
0.19721
0.24167
0.1623
26
93
181
8
108
266


rs3852002
Imputed
G
GEN
681




13.41
0.001226
0.08816
0.1953
0.23913
0.161
25
93
181
8
107
267


rs3852002
Imputed
G
REC
681
4.089
0.4152
1.812
9.226
3.392
0.000694
0.08816
0.1953
0.23913
0.161
25
93
181
8
107
267


rs3852003
Imputed
A
GEN
681




13.41
0.001226
0.08816
0.1953
0.23913
0.161
25
93
181
8
107
267


rs3852003
Imputed
A
REC
681
4.089
0.4152
1.812
9.226
3.392
0.000694
0.08816
0.1953
0.23913
0.161
25
93
181
8
107
267


rs3942254
Imputed
T
DOM
678
0.6
0.1651
0.4341
0.8292
−3.094
0.001974
1
0.40413
0.37037
0.4304
46
128
123
65
198
118


rs3945085
Imputed
A
DOM
682
1.794
0.1572
1.319
2.442
3.72
0.000199
1
0.29252
0.33167
0.2618
25
149
126
33
134
215


rs399485
Imputed
A
DOM
678
1.537
0.1571
1.129
2.091
2.735
0.006241
0.697
0.26917
0.30705
0.2395
27
129
142
24
134
222


rs4029119
Imputed
G
ADD
682
0.217
0.4129
0.0965
0.4867
−3.704
0.000213
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs4029119
Imputed
G
DOM
682
0.223
0.4255
0.0967
0.5123
−3.532
0.000412
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs412791
Imputed
C
GEN
675




12.74
0.001714
0.8702
0.38
0.33054
0.4191
27
143
128
69
178
130


rs4146972
Genotyped
T
DOM
682
1.42
0.1657
1.026
1.965
2.117
0.0343
0.6059
0.18035
0.19833
0.1662
8
103
189
16
95
271


rs4259369
Imputed
C
REC
679
0.645
0.1981
0.4374
0.9509
−2.214
0.02681
0.01503
0.42636
0.40468
0.4434
50
142
107
89
159
132


rs4273613
Imputed
T
ADD
682
0.217
0.4129
0.0965
0.4867
−3.704
0.000213
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs4273613
Imputed
T
DOM
682
0.223
0.4255
0.0967
0.5123
−3.532
0.000412
0.06816
0.03812
0.01667
0.055
0
10
290
3
36
343


rs4294022
Imputed
C
DOM
659
0.632
0.1627
0.4591
0.8687
−2.825
0.004728
1
0.23293
0.19792
0.2601
13
88
187
23
147
201


rs4310554
Genotyped
C
DOM
682
1.747
0.1888
1.207
2.53
2.956
0.00312
0.2203
0.49707
0.54167
0.462
81
163
56
79
195
108


rs4315598
Imputed
T
ADD
682
1.338
0.1141
1.07
1.674
2.555
0.01063
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs4315598
Imputed
T
GEN
682




7.867
0.01957
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs4370878
Imputed
G
DOM
682
1.755
0.157
1.29
2.388
3.583
0.00034
0.9265
0.29399
0.33167
0.2644
25
149
126
33
136
213


rs4436200
Imputed
C
ADD
682
0.718
0.169
0.5154
0.9996
−1.963
0.0497
0.2391
0.1305
0.11
0.1466
5
56
239
10
92
280


rs4444612
Imputed
G
ADD
682
1.338
0.1141
1.07
1.674
2.555
0.01063
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs4444612
Imputed
G
GEN
682




7.867
0.01957
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs4450660
Imputed
C
DOM
675
1.654
0.1588
1.212
2.258
3.168
0.001533
0.07497
0.24296
0.27778
0.2156
15
135
147
16
131
231


rs4463950
Imputed
C
DOM
671
0.617
0.1688
0.4431
0.8588
−2.862
0.004214
0.9374
0.43294
0.40541
0.4547
56
128
112
69
203
103


rs4509702
Imputed
C
DOM
682
1.755
0.157
1.29
2.388
3.583
0.00034
0.9265
0.29399
0.33167
0.2644
25
149
126
33
136
213


rs4533379
Imputed
G
ADD
681
1.561
0.1254
1.221
1.995
3.551
0.000384
0.6918
0.26211
0.31
0.2244
30
126
144
19
133
229


rs4569984
Imputed
A
DOM
671
0.645
0.1612
0.4706
0.8853
−2.715
0.006623
0.8278
0.231
0.19661
0.258
13
90
192
24
146
206


rs4570530
Imputed
C
DOM
681
1.766
0.1571
1.298
2.403
3.62
0.000295
0.9266
0.29369
0.33167
0.2638
25
149
126
33
135
213


rs4571583
Imputed
T
DOM
666
0.645
0.162
0.4697
0.8862
−2.706
0.006814
0.9134
0.23123
0.19759
0.2573
13
89
189
23
147
205


rs4586678
Imputed
A
DOM
678
1.637
0.1582
1.2
2.232
3.114
0.001843
0.07807
0.24484
0.27852
0.2184
15
136
147
17
132
231


rs4615971
Imputed
C
DOM
676
1.8
0.1582
1.32
2.455
3.716
0.000202
0.9269
0.29734
0.33784
0.2658
26
148
122
33
136
211


rs4629229
Imputed
G
DOM
682
0.521
0.1725
0.3715
0.7305
−3.78
0.000157
0.4294
0.17595
0.13667
0.2068
10
62
228
14
130
238


rs4632512
Imputed
T
GEN
681




13.12
0.001413
0.1414
0.19457
0.23833
0.1601
24
95
181
8
106
267


rs4641552
Imputed
A
ADD
678
0.514
0.2311
0.3271
0.8092
−2.876
0.004025
0.7689
0.07153
0.04849
0.0897
0
29
270
4
60
315


rs4682527
Imputed
C
DOM
656
1.64
0.1669
1.183
2.275
2.966
0.003017
0.3618
0.37805
0.40941
0.3537
39
157
91
49
163
157


rs4688632
Imputed
G
REC
675
0.538
0.1943
0.3678
0.7876
−3.189
0.001429
0.3557
0.48889
0.45424
0.5158
50
168
77
105
182
93


rs4702720
Imputed
A
ADD
530
0.596
0.1535
0.4412
0.8051
−3.372
0.000745
0.08183
0.22547
0.17842
0.2647
11
64
166
23
107
159


rs4702720
Imputed
A
DOM
530
0.541
0.1863
0.3758
0.7798
−3.295
0.000984
0.08183
0.22547
0.17842
0.2647
11
64
166
23
107
159


rs4714484
Imputed
A
ADD
681
0.631
0.1545
0.4661
0.8539
−2.982
0.002861
0.8896
0.1652
0.13
0.1929
5
68
227
14
119
248


rs4714484
Imputed
A
DOM
681
0.606
0.1733
0.4315
0.8511
−2.89
0.003849
0.8896
0.1652
0.13
0.1929
5
68
227
14
119
248


rs4725142
Genotyped
G
REC
682
0.444
0.2656
0.2639
0.7476
−3.055
0.002251
0.2804
0.3585
0.33667
0.3757
23
156
121
58
171
153


rs4725144
Imputed
G
REC
677
0.427
0.2722
0.2502
0.7275
−3.129
0.001756
0.2734
0.35229
0.32886
0.3707
21
154
123
56
169
154


rs4760785
Imputed
A
ADD
657
0.709
0.1165
0.5639
0.8903
−2.957
0.003102
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4760785
Imputed
A
DOM
657
0.595
0.1749
0.4222
0.8382
−2.969
0.002989
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4760894
Imputed
T
ADD
657
0.709
0.1165
0.5639
0.8903
−2.957
0.003102
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4760894
Imputed
T
DOM
657
0.595
0.1749
0.4222
0.8382
−2.969
0.002989
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4760895
Imputed
A
ADD
657
0.709
0.1165
0.5639
0.8903
−2.957
0.003102
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4760895
Imputed
A
DOM
657
0.595
0.1749
0.4222
0.8382
−2.969
0.002989
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs4767184
Imputed
C
ADD
678
0.704
0.1112
0.5659
0.8752
−3.159
0.001584
0.02822
0.38127
0.3311
0.4208
37
124
138
75
169
135


rs4767184
Imputed
C
GEN
678




9.99
0.006772
0.02822
0.38127
0.3311
0.4208
37
124
138
75
169
135


rs4773487
Imputed
T
ADD
682
0.555
0.1837
0.3871
0.7953
−3.207
0.001342
0.2503
0.11364
0.08167
0.1387
3
43
254
9
88
285


rs4780547
Imputed
G
GEN
682




8.214
0.01646
0.1488
0.22141
0.19167
0.2448
9
97
194
31
125
226


rs4780547
Imputed
G
REC
682
0.327
0.3979
0.1501
0.7141
−2.806
0.005013
0.1488
0.22141
0.19167
0.2448
9
97
194
31
125
226


rs483159
Imputed
T
DOM
611
1.742
0.1718
1.244
2.44
3.23
0.001236
0.899
0.19722
0.23432
0.1676
11
105
155
12
90
238


rs4836502
Imputed
T
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.9329
0.34824
0.30833
0.3796
36
113
151
46
198
138


rs4836507
Imputed
C
DOM
672
0.561
0.1605
0.4097
0.7686
−3.6
0.000319
0.9321
0.34598
0.3064
0.3773
36
110
151
45
193
137


rs4851531
Imputed
T
DOM
677
0.722
0.1629
0.5246
0.9935
−2
0.0455
1
0.4062
0.37584
0.4301
44
136
118
68
190
121


rs4879931
Imputed
G
ADD
678
0.672
0.1211
0.5303
0.8526
−3.277
0.00105
0.2044
0.30457
0.25758
0.3412
22
109
166
48
164
169


rs489441
Imputed
G
ADD
631
1.549
0.1342
1.191
2.015
3.261
0.00111
0.4702
0.2607
0.30545
0.2261
20
128
127
19
123
214


rs489441
Imputed
G
DOM
631
1.778
0.164
1.289
2.452
3.509
0.00045
0.4702
0.2607
0.30545
0.2261
20
128
127
19
123
214


rs4976276
Imputed
T
ADD
681
1.45
0.125
1.135
1.853
2.973
0.002945
0.07074
0.3047
0.345
0.273
32
143
125
21
166
194


rs4977681
Imputed
C
REC
682
2.487
0.278
1.442
4.288
3.278
0.001047
0.7153
0.29912
0.33
0.2749
41
116
143
22
166
194


rs4986197
Imputed
G
ADD
679
1.564
0.1255
1.223
2
3.563
0.000366
0.6211
0.26215
0.3104
0.2244
30
125
143
19
133
229


rs4986220
Imputed
T
ADD
681
1.538
0.1266
1.2
1.971
3.4
0.000673
0.8411
0.25698
0.30268
0.2212
28
125
146
18
133
231


rs525462
Imputed
A
GEN
682




4.513
0.1047
0.1205
0.56012
0.53
0.5838
88
142
70
136
174
72


rs552006
Imputed
G
GEN
678




9.189
0.01011
0.00901
0.2913
0.32886
0.2618
44
108
146
28
143
209


rs5756669
Imputed
C
DOM
679
1.798
0.1769
1.271
2.543
3.316
0.000914
1
0.45582
0.49664
0.4239
66
164
68
75
173
133


rs581905
Imputed
T
DOM
681
1.742
0.218
1.137
2.671
2.548
0.01085
1
0.08003
0.10167
0.063
3
55
242
1
46
334


rs6033138
Imputed
C
ADD
682
1.338
0.1141
1.07
1.674
2.555
0.01063
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6033138
Imputed
C
GEN
682




7.867
0.01957
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6040619
Imputed
C
ADD
677
1.341
0.1132
1.074
1.675
2.594
0.009478
0.2114
0.36115
0.40101
0.3298
55
129
114
41
168
170


rs6040619
Imputed
C
GEN
677




7.963
0.01866
0.2114
0.36115
0.40101
0.3298
55
129
114
41
168
170


rs6040625
Imputed
T
ADD
680
1.351
0.1131
1.082
1.686
2.66
0.007824
0.2138
0.36103
0.40167
0.3289
55
131
114
41
168
171


rs6040625
Imputed
T
GEN
680




8.078
0.01761
0.2138
0.36103
0.40167
0.3289
55
131
114
41
168
171


rs6040630
Imputed
A
ADD
679
1.356
0.1137
1.085
1.694
2.676
0.007453
0.317
0.35935
0.4
0.3272
54
132
114
40
168
171


rs6040630
Imputed
A
GEN
679




8.108
0.01735
0.317
0.35935
0.4
0.3272
54
132
114
40
168
171


rs6040633
Imputed
A
ADD
679
1.356
0.1137
1.085
1.694
2.676
0.007453
0.317
0.35935
0.4
0.3272
54
132
114
40
168
171


rs6040633
Imputed
A
GEN
679




8.108
0.01735
0.317
0.35935
0.4
0.3272
54
132
114
40
168
171


rs6040634
Imputed
T
ADD
682
1.306
0.1123
1.048
1.628
2.378
0.01743
0.2463
0.3629
0.4
0.3338
54
132
114
43
169
170


rs6040634
Imputed
T
GEN
682




6.36
0.0416
0.2463
0.3629
0.4
0.3338
54
132
114
43
169
170


rs6040636
Imputed
T
ADD
681
1.312
0.1124
1.052
1.635
2.413
0.01583
0.2147
0.3627
0.4
0.3333
54
132
114
43
168
170


rs6040636
Imputed
T
GEN
681




6.462
0.03952
0.2147
0.3627
0.4
0.3333
54
132
114
43
168
170


rs6040638
Imputed
C
ADD
682
1.338
0.1141
1.07
1.674
2.555
0.01063
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6040638
Imputed
C
GEN
682




7.867
0.01957
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6040644
Imputed
A
ADD
680
1.338
0.1141
1.07
1.674
2.554
0.01065
0.2795
0.35882
0.39799
0.3281
54
130
115
40
170
171


rs6040644
Imputed
A
GEN
680




7.863
0.01962
0.2795
0.35882
0.39799
0.3281
54
130
115
40
170
171


rs6040667
Imputed
T
ADD
669
1.394
0.1165
1.11
1.752
2.853
0.004333
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6040667
Imputed
T
GEN
669




8.924
0.01154
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6040668
Imputed
C
ADD
669
1.394
0.1165
1.11
1.752
2.853
0.004333
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6040668
Imputed
C
GEN
669




8.924
0.01154
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6053005
Imputed
C
DOM
479
0.644
0.2558
0.3901
1.063
−1.72
0.08545
0.7029
0.60334
0.59709
0.6081
78
90
38
94
144
35


rs6054405
Imputed
A
REC
679
2.249
0.2226
1.454
3.478
3.641
0.000271
0.6876
0.39323
0.44631
0.3517
61
144
93
41
186
154


rs6054427
Genotyped
G
GEN
682




12.27
0.002167
0.4728
0.39736
0.44667
0.3586
59
150
91
44
186
152


rs6075186
Imputed
G
DOM
682
0.521
0.1725
0.3715
0.7305
−3.78
0.000157
0.4294
0.17595
0.13667
0.2068
10
62
228
14
130
238


rs608278
Imputed
A
ADD
594
0.702
0.1219
0.5527
0.8913
−2.904
0.003681
0.8663
0.41835
0.37354
0.4525
39
114
104
66
173
98


rs6111540
Imputed
A
ADD
630
0.643
0.1186
0.5094
0.8109
−3.727
0.000194
0.8731
0.47619
0.41455
0.5239
45
138
92
99
174
82


rs6131206
Imputed
C
ADD
668
1.277
0.1203
1.009
1.617
2.033
0.04201
0.3108
0.29865
0.3299
0.2745
36
120
135
29
149
199


rs6131208
Imputed
T
ADD
669
1.394
0.1165
1.11
1.752
2.853
0.004333
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6131208
Imputed
T
GEN
669




8.924
0.01154
0.3047
0.34529
0.38908
0.3112
50
128
115
36
162
178


rs6131919
Imputed
G
DOM
682
0.521
0.1725
0.3715
0.7305
−3.78
0.000157
0.4294
0.17595
0.13667
0.2068
10
62
228
14
130
238


rs6134243
Imputed
C
ADD
682
1.338
0.1141
1.07
1.674
2.555
0.01063
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6134243
Imputed
C
GEN
682




7.867
0.01957
0.2786
0.35777
0.39667
0.3272
54
130
116
40
170
172


rs6136020
Imputed
A
DOM
681
0.511
0.1731
0.3638
0.7171
−3.881
0.000104
0.4267
0.17548
0.13545
0.2068
10
61
228
14
130
238


rs613799
Imputed
C
DOM
582
1.79
0.1709
1.28
2.502
3.405
0.000663
1
0.28866
0.32738
0.2591
20
125
107
28
115
187


rs644041
Imputed
G
ADD
621
1.565
0.135
1.201
2.039
3.319
0.000902
0.4688
0.26329
0.30882
0.2278
21
126
125
18
123
208


rs644041
Imputed
G
DOM
621
1.762
0.165
1.275
2.435
3.433
0.000597
0.4688
0.26329
0.30882
0.2278
21
126
125
18
123
208


rs6464377
Imputed
C
DOM
681
2.223
0.2258
1.428
3.46
3.538
0.000404
0.5678
0.07269
0.09833
0.0525
0
59
241
2
36
343


rs6474230
Imputed
T
DOM
681
1.542
0.1596
1.127
2.108
2.712
0.006696
0.106
0.23128
0.25585
0.212
17
119
163
27
108
247


rs6476565
Imputed
A
DOM
677
0.524
0.2092
0.3479
0.7901
−3.086
0.00203
0.6704
0.10118
0.07239
0.1237
2
39
256
6
82
292


rs6511286
Imputed
T
ADD
675
1.359
0.1178
1.079
1.712
2.603
0.009243
0.5353
0.31852
0.3557
0.2891
37
138
123
35
148
194


rs6541829
Genotyped
C
REC
682
1.978
0.3119
1.073
3.646
2.187
0.02875
0.9213
0.2632
0.28833
0.2435
28
117
155
20
146
216


rs6544721
Imputed
G
DOM
675
1.623
0.1588
1.189
2.216
3.049
0.002295
0.05817
0.24148
0.27458
0.2158
14
134
147
16
132
232


rs6544728
Imputed
T
DOM
680
1.638
0.158
1.202
2.233
3.124
0.001785
0.03564
0.23971
0.27592
0.2113
15
135
149
14
133
234


rs6565910
Imputed
G
DOM
675
0.576
0.1625
0.4188
0.7919
−3.395
0.000685
0.1512
0.24963
0.21044
0.2804
19
87
191
30
152
196


rs6581985
Imputed
G
GEN
661




8.243
0.01622
0.7098
0.29728
0.32646
0.2743
35
120
136
21
161
188


rs6581985
Imputed
G
REC
661
2.29
0.2899
1.298
4.042
2.859
0.004255
0.7098
0.29728
0.32646
0.2743
35
120
136
21
161
188


rs6685186
Imputed
T
ADD
680
1.508
0.1138
1.206
1.884
3.606
0.000312
0.9363
0.39926
0.45485
0.3556
63
146
90
46
179
156


rs6685186
Imputed
T
GEN
680




13.11
0.001423
0.9363
0.39926
0.45485
0.3556
63
146
90
46
179
156


rs670593
Imputed
A
REC
678
0.594
0.2258
0.3815
0.9244
−2.308
0.02099
0.8731
0.40192
0.38629
0.4142
37
157
105
71
172
136


rs6722640
Imputed
T
DOM
682
0.696
0.1624
0.5059
0.9562
−2.236
0.02536
0.7521
0.40909
0.37833
0.4332
47
133
120
69
193
120


rs6746170
Imputed
A
DOM
679
1.647
0.1581
1.208
2.245
3.155
0.001604
0.03549
0.24006
0.27685
0.2113
15
135
148
14
133
234


rs6757316
Imputed
A
GEN
675




12.53
0.001901
0.4778
0.42222
0.46633
0.3876
73
131
93
52
189
137


rs6805139
Imputed
G
DOM
681
1.829
0.1922
1.255
2.666
3.141
0.001685
0.4904
0.51101
0.54333
0.4856
78
170
52
95
180
106


rs6808571
Imputed
G
ADD
675
1.794
0.1564
1.32
2.438
3.736
0.000187
0.5429
0.14889
0.19231
0.1144
13
89
197
4
78
294


rs6816479
Imputed
A
REC
681
1.903
0.2298
1.213
2.985
2.8
0.005116
0.4521
0.35609
0.36789
0.3469
52
116
131
39
187
156


rs6865976
Imputed
C
DOM
636
0.514
0.1832
0.3586
0.7355
−3.636
0.000277
0.5254
0.47799
0.42419
0.5195
53
129
95
88
197
74


rs687047
Imputed
C
ADD
682
0.621
0.1734
0.4423
0.8729
−2.744
0.00607
0.485
0.1261
0.09833
0.1479
1
57
242
12
89
281


rs6871041
Imputed
G
DOM
625
0.549
0.1652
0.3974
0.7594
−3.626
0.000288
0.7819
0.3176
0.27957
0.3483
28
100
151
33
175
138


rs688358
Imputed
A
ADD
672
0.627
0.1736
0.4457
0.8804
−2.693
0.007071
0.4853
0.12723
0.09966
0.1489
1
57
238
12
88
276


rs6908481
Imputed
C
REC
664
2.09
0.2119
1.38
3.166
3.479
0.000503
0.1953
0.39759
0.44138
0.3636
66
124
100
47
178
149


rs6917224
Imputed
A
ADD
682
1.452
0.1114
1.167
1.806
3.346
0.000821
0.3803
0.40029
0.45167
0.3599
64
143
93
51
173
158


rs6917224
Imputed
A
GEN
682




11.22
0.003661
0.3803
0.40029
0.45167
0.3599
64
143
93
51
173
158


rs6920677
Imputed
G
DOM
669
0.657
0.1616
0.4785
0.9016
−2.601
0.009294
0.5131
0.38266
0.3468
0.4113
41
124
132
61
184
127


rs6994498
Imputed
G
DOM
679
1.535
0.1598
1.122
2.1
2.682
0.007325
0.1286
0.22975
0.25336
0.2113
16
119
163
27
107
247


rs6998772
Imputed
T
DOM
682
2.585
0.2693
1.525
4.383
3.526
0.000422
0.1493
0.05572
0.07833
0.038
2
43
255
2
25
355


rs7022281
Imputed
C
ADD
678
0.736
0.1153
0.5872
0.9228
−2.656
0.007896
0.8713
0.38569
0.34783
0.4156
33
142
124
69
177
133


rs7022281
Imputed
C
GEN
678




7.862
0.01963
0.8713
0.38569
0.34783
0.4156
33
142
124
69
177
133


rs7022281
Imputed
C
REC
678
0.551
0.2295
0.3514
0.864
−2.597
0.009407
0.8713
0.38569
0.34783
0.4156
33
142
124
69
177
133


rs7043983
Imputed
T
DOM
678
0.526
0.2092
0.3491
0.7928
−3.07
0.00214
0.6702
0.10103
0.07239
0.1234
2
39
256
6
82
293


rs7077799
Imputed
A
DOM
682
1.772
0.1576
1.301
2.413
3.63
0.000284
1
0.29692
0.335
0.267
26
149
125
34
136
212


rs7088947
Imputed
A
ADD
681
0.579
0.2256
0.372
0.9006
−2.424
0.01536
0.3761
0.07122
0.05167
0.0866
0
31
269
5
56
320


rs7089661
Imputed
C
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs7102072
Imputed
A
DOM
681
0.569
0.1579
0.4177
0.7758
−3.568
0.00036
0.397
0.28488
0.24167
0.3189
24
97
179
36
171
174


rs710832
Genotyped
A
REC
682
0.39
0.3429
0.1992
0.7638
−2.746
0.006038
0.2666
0.25293
0.24
0.2631
12
120
168
37
127
218


rs712531
Imputed
A
DOM
671
1.679
0.1639
1.217
2.315
3.16
0.001579
0.2799
0.36587
0.39691
0.3421
35
161
95
48
164
168


rs7129817
Imputed
T
ADD
674
0.693
0.1168
0.5509
0.8706
−3.147
0.001649
0.4978
0.34866
0.30201
0.3856
30
120
148
56
178
142


rs7134262
Imputed
T
GEN
678




19.92
4.72E−05
0.9333
0.35619
0.3796
0.3377
55
117
127
30
196
153


rs7134262
Imputed
T
REC
678
2.671
0.2439
1.656
4.308
4.027
5.66E−05
0.9333
0.35619
0.3796
0.3377
55
117
127
30
196
153


rs7138300
Imputed
C
ADD
657
0.709
0.1165
0.5639
0.8903
−2.957
0.003102
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs7138300
Imputed
C
DOM
657
0.595
0.1749
0.4222
0.8382
−2.969
0.002989
0.5823
0.45282
0.41003
0.4864
49
139
101
82
194
92


rs722927
Imputed
G
ADD
660
0.494
0.2288
0.3152
0.773
−3.085
0.002035
0.2612
0.07652
0.04915
0.0986
1
27
267
5
62
298


rs722927
Imputed
G
DOM
660
0.474
0.2419
0.2951
0.7616
−3.086
0.002029
0.2612
0.07652
0.04915
0.0986
1
27
267
5
62
298


rs726424
Genotyped
G
ADD
682
0.709
0.111
0.57
0.8809
−3.102
0.001922
0.02768
0.37757
0.32833
0.4162
35
127
138
76
166
140


rs726424
Genotyped
G
GEN
682




10.03
0.006653
0.02768
0.37757
0.32833
0.4162
35
127
138
76
166
140


rs7295817
Imputed
C
ADD
677
0.667
0.1118
0.5356
0.8302
−3.624
0.00029
0.0658
0.40177
0.34343
0.4474
36
132
129
85
170
125


rs7295817
Imputed
C
GEN
677




13.77
0.001022
0.0658
0.40177
0.34343
0.4474
36
132
129
85
170
125


rs7295817
Imputed
C
REC
677
0.482
0.218
0.3144
0.739
−3.347
0.000816
0.0658
0.40177
0.34343
0.4474
36
132
129
85
170
125


rs7297372
Imputed
A
ADD
682
0.69
0.1134
0.5524
0.8617
−3.272
0.001068
0.8151
0.56891
0.52
0.6073
80
152
68
139
186
57


rs7297372
Imputed
A
GEN
682




10.73
0.00468
0.8151
0.56891
0.52
0.6073
80
152
68
139
186
57


rs7298255
Imputed
A
ADD
682
0.725
0.1134
0.5804
0.9053
−2.837
0.004558
0.701
0.46701
0.42667
0.4987
57
142
101
89
203
90


rs7298255
Imputed
A
DOM
682
0.584
0.1737
0.4156
0.8211
−3.095
0.001971
0.701
0.46701
0.42667
0.4987
57
142
101
89
203
90


rs7305832
Imputed
C
GEN
678




19.92
4.72E−05
0.9333
0.35619
0.3796
0.3377
55
117
127
30
196
153


rs7305832
Imputed
C
REC
678
2.671
0.2439
1.656
4.308
4.027
5.66E−05
0.9333
0.35619
0.3796
0.3377
55
117
127
30
196
153


rs737542
Imputed
A
REC
678
1.983
0.312
1.076
3.655
2.194
0.02823
0.8432
0.26327
0.28859
0.2434
28
116
154
20
145
215


rs742827
Imputed
A
ADD
637
1.408
0.1178
1.118
1.774
2.905
0.003678
0.2603
0.35479
0.40108
0.3189
50
123
105
37
155
167


rs742827
Imputed
A
GEN
637




8.971
0.01127
0.2603
0.35479
0.40108
0.3189
50
123
105
37
155
167


rs7446891
Imputed
G
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
0.9326
0.34728
0.30833
0.378
36
113
151
45
198
138


rs7448641
Imputed
C
ADD
682
0.187
0.4378
0.0793
0.441
−3.83
0.000128
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7448641
Imputed
C
DOM
682
0.19
0.451
0.0786
0.4606
−3.679
0.000234
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7460605
Imputed
G
DOM
638
1.639
0.1689
1.177
2.283
2.927
0.003421
0.1625
0.40282
0.43816
0.3746
52
144
87
60
146
149


rs7468898
Imputed
T
ADD
674
1.412
0.1152
1.127
1.77
2.995
0.002747
0.3143
0.45846
0.50334
0.4227
74
153
72
61
195
119


rs7468898
Imputed
T
GEN
674




9.55
0.008438
0.3143
0.45846
0.50334
0.4227
74
153
72
61
195
119


rs7501186
Imputed
A
DOM
677
1.561
0.1787
1.099
2.215
2.49
0.01276
0.5241
0.13959
0.16498
0.1197
8
82
207
7
77
296


rs755117
Imputed
A
DOM
651
1.658
0.1686
1.192
2.308
2.999
0.002709
0.3232
0.19662
0.22664
0.1727
13
105
171
16
93
253


rs7557560
Imputed
T
GEN
679




8.554
0.01389
0.9031
0.19514
0.21906
0.1763
18
95
186
7
120
253


rs7557560
Imputed
T
REC
679
3.783
0.4649
1.521
9.41
2.862
0.004208
0.9031
0.19514
0.21906
0.1763
18
95
186
7
120
253


rs7562462
Imputed
T
DOM
673
1.896
0.1733
1.35
2.662
3.691
0.000223
0.2091
0.43388
0.48294
0.3961
65
153
75
70
161
149


rs757173
Genotyped
G
DOM
682
0.544
0.1595
0.398
0.7436
−3.817
0.000135
1
0.36217
0.31
0.4031
32
122
146
57
194
131


rs7607447
Imputed
T
REC
676
1.87
0.2836
1.073
3.26
2.208
0.02726
0.7777
0.28624
0.29798
0.277
33
111
153
24
162
193


rs7639053
Imputed
A
ADD
682
1.506
0.1344
1.157
1.96
3.046
0.002322
0.9093
0.21408
0.25167
0.1846
22
107
171
10
121
251


rs7648163
Imputed
C
REC
654
1.993
0.25
1.221
3.252
2.758
0.005822
0.3754
0.32875
0.34896
0.3128
45
111
132
31
167
168


rs7651273
Imputed
A
GEN
680




14.12
0.00086
0.08957
0.19779
0.24247
0.1627
26
93
180
8
108
265


rs7653190
Imputed
C
ADD
677
1.504
0.1347
1.155
1.958
3.029
0.002453
0.9092
0.21492
0.25253
0.1855
22
106
169
10
121
249


rs7653685
Genotyped
C
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs7684899
Imputed
C
DOM
682
0.713
0.1608
0.5205
0.9774
−2.102
0.03551
0.04848
0.20894
0.18833
0.2251
10
93
197
11
150
221


rs7701604
Imputed
G
ADD
682
0.187
0.4378
0.0793
0.441
−3.83
0.000128
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7701604
Imputed
G
DOM
682
0.19
0.451
0.0786
0.4606
−3.679
0.000234
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7703676
Imputed
C
ADD
682
0.187
0.4378
0.0793
0.441
−3.83
0.000128
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7703676
Imputed
C
DOM
682
0.19
0.451
0.0786
0.4606
−3.679
0.000234
0.06181
0.03739
0.015
0.055
0
9
291
3
36
343


rs7711358
Imputed
A
DOM
677
0.564
0.1602
0.4123
0.7725
−3.571
0.000355
1
0.34934
0.30976
0.3803
36
112
149
46
197
137


rs7713251
Imputed
C
REC
661
2.098
0.2572
1.267
3.474
2.882
0.003956
0.6634
0.33661
0.37075
0.3093
44
130
120
28
171
168


rs7737608
Imputed
G
DOM
676
1.904
0.164
1.38
2.625
3.926
8.65E−05
0.5601
0.36169
0.41186
0.3228
44
155
96
48
150
183


rs7755903
Imputed
A
GEN
681




7.188
0.02748
0.9377
0.42805
0.38833
0.4593
44
145
111
80
190
111


rs7762993
Imputed
A
ADD
677
1.726
0.1392
1.314
2.268
3.921
8.82E−05
0.219
0.19276
0.24074
0.1553
16
111
170
14
90
276


rs7762993
Imputed
A
DOM
677
2.011
0.1659
1.453
2.784
4.21
2.55E−05
0.219
0.19276
0.24074
0.1553
16
111
170
14
90
276


rs7767265
Imputed
G
DOM
663
2.106
0.1643
1.526
2.905
4.533
5.81E−06
0.07386
0.22323
0.27875
0.1809
22
116
149
19
98
259


rs7769415
Imputed
C
GEN
670




4.537
0.1035
0.9297
0.32239
0.34694
0.3032
39
126
129
31
166
179


rs7771264
Imputed
T
DOM
654
0.635
0.1631
0.4613
0.8744
−2.783
0.005385
1
0.23471
0.2
0.2615
13
88
184
23
147
199


rs7795792
Imputed
T
REC
679
0.645
0.1981
0.4374
0.9509
−2.214
0.02681
0.01503
0.42636
0.40468
0.4434
50
142
107
89
159
132


rs7806481
Imputed
G
REC
682
0.439
0.2056
0.2933
0.6567
−4.005
6.20E−05
0.2503
0.47947
0.42667
0.5209
44
168
88
105
188
89


rs7808536
Imputed
G
DOM
678
1.455
0.1608
1.062
1.995
2.334
0.01962
0.7257
0.20649
0.2291
0.1887
11
115
173
16
111
252


rs7814819
Imputed
G
ADD
395
2.408
0.2698
1.419
4.086
3.256
0.001129
1
0.08734
0.12431
0.0561
2
41
138
1
22
191


rs7814819
Imputed
G
DOM
395
2.577
0.2831
1.48
4.488
3.345
0.000824
1
0.08734
0.12431
0.0561
2
41
138
1
22
191


rs7815952
Imputed
T
DOM
682
2.585
0.2693
1.525
4.383
3.526
0.000422
0.1493
0.05572
0.07833
0.038
2
43
255
2
25
355


rs7834090
Imputed
T
DOM
682
2.585
0.2693
1.525
4.383
3.526
0.000422
0.1493
0.05572
0.07833
0.038
2
43
255
2
25
355


rs7859250
Imputed
C
DOM
679
0.52
0.2089
0.345
0.7824
−3.134
0.001722
0.6726
0.10162
0.07239
0.1243
2
39
256
6
83
293


rs7863577
Genotyped
A
ADD
682
0.48
0.201
0.3239
0.7122
−3.648
0.000264
0.6823
0.10337
0.07
0.1296
1
40
259
7
85
290


rs7863577
Genotyped
A
DOM
682
0.479
0.2131
0.3153
0.7268
−3.458
0.000545
0.6823
0.10337
0.07
0.1296
1
40
259
7
85
290


rs7902140
Imputed
C
ADD
673
0.63
0.1425
0.4765
0.8328
−3.244
0.001178
0.1401
0.19539
0.1532
0.2287
6
79
212
26
120
230


rs7921834
Imputed
C
DOM
682
1.786
0.1574
1.312
2.431
3.685
0.000229
1
0.29545
0.335
0.2644
26
149
125
33
136
213


rs7939893
Imputed
C
ADD
682
0.707
0.1129
0.5669
0.8826
−3.066
0.002167
0.005005
0.34311
0.29833
0.3783
33
113
154
64
161
157


rs7939893
Imputed
C
DOM
682
0.641
0.1573
0.4706
0.8718
−2.832
0.004625
0.005005
0.34311
0.29833
0.3783
33
113
154
64
161
157


rs7955901
Imputed
C
ADD
675
0.723
0.1135
0.579
0.9035
−2.855
0.00431
0.8771
0.46741
0.42617
0.5
57
140
101
89
199
89


rs7955901
Imputed
C
DOM
675
0.582
0.1743
0.4133
0.8183
−3.11
0.001869
0.8771
0.46741
0.42617
0.5
57
140
101
89
199
89


rs7956274
Imputed
T
ADD
677
0.74
0.1141
0.5915
0.9251
−2.642
0.00823
0.6995
0.4675
0.42929
0.4974
57
141
99
88
202
90


rs7956274
Imputed
T
DOM
677
0.598
0.1747
0.4246
0.8421
−2.944
0.003242
0.6995
0.4675
0.42929
0.4974
57
141
99
88
202
90


rs7957932
Imputed
G
ADD
671
0.738
0.1147
0.5895
0.9243
−2.646
0.008151
0.6433
0.47615
0.4375
0.5067
60
139
97
89
202
84


rs7957932
Imputed
G
DOM
671
0.57
0.1775
0.4021
0.8065
−3.171
0.001518
0.6433
0.47615
0.4375
0.5067
60
139
97
89
202
84


rs7984294
Imputed
A
DOM
678
1.497
0.19
1.032
2.173
2.125
0.03361
0.8479
0.11283
0.13255
0.0974
5
69
224
4
66
310


rs7994286
Imputed
A
ADD
674
0.538
0.1883
0.3721
0.7784
−3.29
0.001
0.2388
0.10979
0.07653
0.1355
3
39
252
8
87
285


rs7994286
Imputed
A
DOM
674
0.5
0.2066
0.3333
0.7491
−3.358
0.000784
0.2388
0.10979
0.07653
0.1355
3
39
252
8
87
285


rs8038229
Genotyped
A
ADD
682
0.809
0.1191
0.6403
1.021
−1.783
0.07457
0.2326
0.29545
0.26833
0.3168
26
109
165
40
162
180


rs8038229
Genotyped
A
DOM
682
0.742
0.1556
0.547
1.007
−1.918
0.05517
0.2326
0.29545
0.26833
0.3168
26
109
165
40
162
180


rs8043336
Imputed
C
GEN
647




8.706
0.01287
0.9305
0.34312
0.30851
0.3699
21
132
129
56
158
151


rs8043336
Imputed
C
REC
647
0.449
0.2712
0.264
0.7645
−2.95
0.003176
0.9305
0.34312
0.30851
0.3699
21
132
129
56
158
151


rs8054431
Imputed
T
DOM
652
1.625
0.1667
1.172
2.253
2.915
0.003561
0.5067
0.38037
0.41434
0.3538
41
155
90
49
161
156


rs8066502
Imputed
T
DOM
681
0.683
0.1787
0.4814
0.9701
−2.13
0.03319
1
0.14317
0.12667
0.1562
8
60
232
6
107
268


rs8068714
Imputed
T
DOM
682
0.671
0.1793
0.4725
0.954
−2.223
0.02623
0.8763
0.14223
0.125
0.1558
8
59
233
6
107
269


rs892575
Imputed
T
ADD
681
1.549
0.1262
1.21
1.984
3.471
0.000519
0.7644
0.25844
0.305
0.2218
28
127
145
19
131
231


rs892583
Imputed
G
ADD
679
1.541
0.1267
1.202
1.976
3.414
0.00064
0.9202
0.25847
0.30435
0.2224
28
126
145
18
133
229


rs915494
Imputed
A
ADD
647
1.548
0.1295
1.201
1.995
3.374
0.00074
0.6962
0.27975
0.32517
0.2438
23
140
123
25
126
210


rs915494
Imputed
A
DOM
647
1.881
0.1622
1.369
2.585
3.896
9.77E−05
0.6962
0.27975
0.32517
0.2438
23
140
123
25
126
210


rs917295
Imputed
G
DOM
681
0.561
0.1597
0.4104
0.7675
−3.617
0.000298
0.9326
0.34728
0.30833
0.378
36
113
151
45
198
138


rs922594
Imputed
T
DOM
681
0.735
0.1583
0.5392
1.003
−1.941
0.05228
0.1829
0.35756
0.34281
0.3691
45
115
139
50
182
150


rs9301653
Imputed
T
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs9301653
Imputed
T
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs9309988
Imputed
G
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs9309989
Genotyped
C
DOM
682
1.731
0.2018
1.165
2.57
2.718
0.006576
0.1323
0.09824
0.11667
0.0838
2
66
232
8
48
326


rs9310221
Imputed
A
DOM
631
2.083
0.1765
1.474
2.943
4.157
3.23E−05
0.6253
0.42155
0.46277
0.3883
50
161
71
65
141
143


rs9327555
Imputed
T
DOM
682
0.56
0.1597
0.4098
0.7664
−3.626
0.000288
0.866
0.34751
0.30833
0.3783
36
113
151
45
199
138


rs937890
Imputed
G
DOM
638
0.654
0.1848
0.455
0.939
−2.3
0.02143
0.8728
0.14498
0.12633
0.1597
8
55
218
6
102
249


rs9454967
Imputed
G
ADD
678
2.104
0.213
1.386
3.194
3.492
0.000479
0.6166
0.08481
0.11371
0.062
3
62
234
3
41
335


rs9454967
Imputed
G
DOM
678
2.304
0.2264
1.478
3.592
3.687
0.000227
0.6166
0.08481
0.11371
0.062
3
62
234
3
41
335


rs9471295
Imputed
T
DOM
682
1.569
0.1754
1.112
2.213
2.567
0.01026
0.1579
0.14223
0.16667
0.123
5
90
205
4
86
292


rs9477007
Imputed
A
ADD
651
1.476
0.1133
1.182
1.842
3.433
0.000596
0.225
0.41014
0.46503
0.3671
65
136
85
52
164
149


rs9477007
Imputed
A
GEN
651




11.79
0.002754
0.225
0.41014
0.46503
0.3671
65
136
85
52
164
149


rs9487279
Imputed
T
DOM
653
0.61
0.165
0.4417
0.8435
−2.991
0.002778
0.5145
0.3974
0.35986
0.4272
45
118
126
62
187
115


rs949016
Imputed
C
ADD
682
1.55
0.1262
1.21
1.985
3.473
0.000515
0.7642
0.25806
0.305
0.2212
29
125
146
18
133
231


rs9555973
Imputed
G
ADD
681
0.538
0.1869
0.3726
0.7754
−3.321
0.000898
0.3277
0.11087
0.07833
0.1365
3
41
256
8
88
285


rs9555973
Imputed
G
DOM
681
0.501
0.2048
0.3354
0.7487
−3.373
0.000743
0.3277
0.11087
0.07833
0.1365
3
41
256
8
88
285


rs9557510
Imputed
G
ADD
680
1.629
0.1608
1.188
2.232
3.033
0.002418
0.7519
0.14044
0.17224
0.1155
6
91
202
6
76
299


rs9557510
Imputed
G
DOM
680
1.768
0.1765
1.251
2.498
3.227
0.001253
0.7519
0.14044
0.17224
0.1155
6
91
202
6
76
299


rs9560584
Imputed
T
DOM
660
0.489
0.211
0.3233
0.7393
−3.392
0.000695
0.3013
0.10606
0.07388
0.1314
3
37
251
7
83
279


rs9588770
Imputed
T
DOM
680
0.529
0.2039
0.3549
0.7895
−3.119
0.001815
0.3247
0.11029
0.08
0.1342
3
42
255
8
86
286


rs9588848
Imputed
C
ADD
682
0.518
0.1922
0.3551
0.7544
−3.426
0.000612
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs9588848
Imputed
C
DOM
682
0.474
0.2097
0.3145
0.7155
−3.556
0.000376
0.3055
0.10484
0.07167
0.1309
3
37
260
7
86
289


rs966583
Imputed
A
ADD
679
0.729
0.1149
0.5819
0.913
−2.752
0.005926
0.9364
0.40133
0.36409
0.4304
45
127
126
65
198
118


rs966583
Imputed
A
DOM
679
0.578
0.1648
0.4182
0.7977
−3.332
0.000863
0.9364
0.40133
0.36409
0.4304
45
127
126
65
198
118


rs974130
Genotyped
A
REC
682
1.891
0.2296
1.206
2.965
2.775
0.005522
0.4535
0.3563
0.36833
0.3469
52
117
131
39
187
156


rs977160
Imputed
T
ADD
681
1.657
0.1289
1.287
2.133
3.916
8.99E−05
0.919
0.25037
0.30333
0.2087
26
130
144
17
125
239


rs9812206
Imputed
G
ADD
682
0.481
0.2047
0.3217
0.7177
−3.581
0.000343
0.8253
0.09677
0.06333
0.123
1
36
263
6
82
294


rs9812206
Imputed
G
DOM
682
0.466
0.215
0.306
0.7107
−3.548
0.000388
0.8253
0.09677
0.06333
0.123
1
36
263
6
82
294


rs9813552
Imputed
G
ADD
673
0.487
0.2063
0.325
0.7298
−3.487
0.000489
1
0.09658
0.06376
0.1227
1
36
261
5
82
288


rs9813552
Imputed
G
DOM
673
0.472
0.2155
0.3093
0.7198
−3.486
0.000491
1
0.09658
0.06376
0.1227
1
36
261
5
82
288


rs9815037
Imputed
T
ADD
682
0.482
0.206
0.3221
0.7224
−3.539
0.000402
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9815037
Imputed
T
DOM
682
0.467
0.215
0.3063
0.7115
−3.543
0.000395
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9825349
Imputed
A
ADD
682
0.482
0.206
0.3221
0.7224
−3.539
0.000402
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9825349
Imputed
A
DOM
682
0.467
0.215
0.3063
0.7115
−3.543
0.000395
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9834217
Imputed
T
ADD
681
0.483
0.206
0.3226
0.7234
−3.532
0.000413
1
0.09618
0.06355
0.1217
1
36
262
5
83
294


rs9834217
Imputed
T
DOM
681
0.468
0.215
0.3069
0.7127
−3.535
0.000407
1
0.09618
0.06355
0.1217
1
36
262
5
83
294


rs9840460
Imputed
T
ADD
682
0.482
0.206
0.3221
0.7224
−3.539
0.000402
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9840460
Imputed
T
DOM
682
0.467
0.215
0.3063
0.7115
−3.543
0.000395
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9840756
Imputed
A
ADD
682
0.482
0.206
0.3221
0.7224
−3.539
0.000402
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9840756
Imputed
A
DOM
682
0.467
0.215
0.3063
0.7115
−3.543
0.000395
1
0.09604
0.06333
0.1217
1
36
263
5
83
294


rs9844801
Imputed
C
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs985375
Imputed
A
GEN
655




11.2
0.003703
0.4705
0.2542
0.2972
0.2209
30
110
146
16
131
222


rs9869187
Imputed
C
ADD
681
0.488
0.2129
0.3218
0.7413
−3.366
0.000764
0.8111
0.08884
0.05853
0.1126
0
35
264
6
74
302


rs9869187
Imputed
C
DOM
681
0.497
0.2215
0.3219
0.7671
−3.157
0.001595
0.8111
0.08884
0.05853
0.1126
0
35
264
6
74
302


rs9872327
Imputed
T
DOM
682
1.705
0.2034
1.144
2.541
2.623
0.008711
0.3705
0.09457
0.11333
0.0798
2
64
234
6
49
327


rs9881685
Imputed
A
ADD
682
0.481
0.2047
0.3217
0.7177
−3.581
0.000343
0.8253
0.09677
0.06333
0.123
1
36
263
6
82
294


rs9881685
Imputed
A
DOM
682
0.466
0.215
0.306
0.7107
−3.548
0.000388
0.8253
0.09677
0.06333
0.123
1
36
263
6
82
294


rs9909499
Imputed
C
DOM
668
1.42
0.1577
1.042
1.934
2.223
0.02622
0.8536
0.2979
0.3266
0.2749
29
136
132
29
146
196


rs9911847
Imputed
G
DOM
680
0.668
0.1793
0.4702
0.9495
−2.249
0.02452
0.7545
0.14338
0.12667
0.1566
9
58
233
6
107
267


rs9946886
Imputed
G
REC
232
0.3
0.3567
0.1492
0.6039
−3.374
0.000742
0.08656
0.44828
0.39908
0.4919
13
61
35
40
41
42


rs9958823
Imputed
A
ADD
679
1.579
0.1261
1.233
2.022
3.624
0.00029
0.6914
0.26068
0.30936
0.2224
30
125
144
18
133
229


rs9965248
Imputed
T
ADD
671
1.556
0.127
1.213
1.996
3.481
0.0005
0.7646
0.2608
0.30847
0.2234
27
128
140
20
128
228




































TABLE 10


















PRA-
PLA-
PRA-

PRA-
PLA-

PLA-















VA_
CEBO_
VA_
PRA-
VA_
CEBO_
PLA-
CEBO_




ALL-








HW_
ALL-
ALL-
ALL-
A1_
VA_
A2_
A1_
CEBO_
A2_




ELE
MOD-
N-






PVA
ELE_
ELE_
ELE_
HZ_
HET_
HZ
HZ_
HET_
HZ_


SNP rs #
SOURCE
(A1)
EL
MISS
OR
SE
L95
U95
STAT
P
LUE
FREQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT



































rs198460
Genotyped
G
REC
383
2.115
0.2449
1.309
3.418
3.058
0.00223
1
0.48695
0.53145
0.45536
50
69
40
41
122
61


rs603940
Genotyped
G
REC
383
0.5858
0.2988
0.3261
1.052
−1.79
0.07347
0.7489
0.39687
0.36164
0.42188
19
77
63
43
103
78


rs10021016
Genotyped
G
GEN
383




3.838
0.1467
0.8921
0.25196
0.28931
0.22545
14
64
81
11
79
134


rs1003148
Imputed
C
ADD
383
0.7355
0.153
0.545
0.9926
−2.009
0.04457
0.9158
0.4047
0.36164
0.43527
22
71
66
40
115
69


rs1003148
Imputed
C
GEN
383




4.552
0.1027
0.9158
0.4047
0.36164
0.43527
22
71
66
40
115
69


rs1003148
Imputed
C
REC
383
0.7366
0.2895
0.4176
1.299
−1.056
0.2911
0.9158
0.4047
0.36164
0.43527
22
71
66
40
115
69


rs10046799
Imputed
C
ADD
381
0.617
0.1556
0.4548
0.837
−3.103
0.00192
0.7499
0.60105
0.53797
0.64574
44
82
32
92
104
27


rs10046799
Imputed
C
GEN
381




9.722
0.00774
0.7499
0.60105
0.53797
0.64574
44
82
32
92
104
27


rs10051148
Imputed
C
DOM
383
0.609
0.2097
0.4037
0.9185
−2.365
0.01802
0.6338
0.3107
0.27358
0.33705
16
55
88
23
105
96


rs10054055
Imputed
T
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.5542
0.31593
0.27987
0.34152
17
55
87
24
105
95


rs10067895
Imputed
A
DOM
379
0.6022
0.2112
0.398
0.911
−2.401
0.01634
0.724
0.3219
0.28526
0.34753
17
55
84
24
107
92


rs1008705
Imputed
C
DOM
276
1.451
0.2489
0.8906
2.363
1.495
0.135
0.3442
0.33514
0.36752
0.31132
13
60
44
14
71
74


rs10105871
Imputed
C
DOM
355
1.427
0.2237
0.9203
2.212
1.589
0.1121
0.3678
0.37887
0.40203
0.36232
23
73
52
32
86
89


rs10116807
Imputed
A
GEN
376




4.005
0.135
1
0.20346
0.23077
0.18409
10
52
94
5
71
144


rs10116807
Imputed
A
REC
376
2.952
0.5596
0.9858
8.84
1.934
0.05307
1
0.20346
0.23077
0.18409
10
52
94
5
71
144


rs10121941
Imputed
C
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs10128638
Genotyped
G
DOM
383
0.6529
0.2374
0.41
1.04
−1.796
0.07252
0.4134
0.50783
0.4717
0.53348
39
72
48
64
111
49


rs1012924
Imputed
G
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs1012924
Imputed
G
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs1016030
Genotyped
G
ADD
382
1.554
0.1629
1.129
2.139
2.707
0.0068
0.02038
0.40969
0.46519
0.37054
29
89
40
24
118
82


rs1016030
Genotyped
G
GEN
382




7.336
0.02553
0.02038
0.40969
0.46519
0.37054
29
89
40
24
118
82


rs1017558
Imputed
A
REC
382
2.201
0.2868
1.254
3.861
2.75
0.00596
0.8317
0.40052
0.45912
0.35874
35
76
48
25
110
88


rs10183431
Imputed
T
DOM
383
1.719
0.2141
1.13
2.615
2.53
0.01141
0.6453
0.21149
0.24843
0.18527
6
67
86
9
65
150


rs10195401
Imputed
C
DOM
377
1.766
0.2208
1.146
2.722
2.575
0.01001
0.00985
0.35544
0.39172
0.32955
14
95
48
22
101
97


rs10239416
Imputed
A
DOM
381
0.5548
0.2123
0.3659
0.8412
−2.775
0.00553
0.497
0.34646
0.29245
0.38514
16
61
82
33
105
84


rs1032188
Imputed
G
GEN
381




8.656
0.01319
0.3118
0.28084
0.2327
0.31532
6
62
91
28
84
110


rs1032188
Imputed
G
REC
381
0.2613
0.4645
0.1051
0.6494
−2.89
0.00386
0.3118
0.28084
0.2327
0.31532
6
62
91
28
84
110


rs10468988
Imputed
G
ADD
380
1.448
0.1681
1.042
2.013
2.202
0.02767
0.3889
0.29342
0.33228
0.26577
17
71
70
12
94
116


rs10478919
Imputed
G
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs10506623
Imputed
C
DOM
383
0.6268
0.2197
0.4075
0.9641
−2.126
0.03347
0.133
0.39034
0.34591
0.42188
18
74
67
33
123
68


rs10506626
Imputed
A
DOM
371
0.5858
0.2268
0.3756
0.9138
−2.358
0.0184
0.0525
0.40296
0.35526
0.43607
18
72
62
33
125
61


rs10509477
Imputed
T
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs10511071
Imputed
C
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs10511072
Imputed
G
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs10511199
Imputed
C
ADD
379
1.571
0.1825
1.099
2.247
2.475
0.01331
0.3801
0.22559
0.2707
0.19369
10
65
82
6
74
142


rs10513283
Imputed
G
GEN
383




3.158
0.2061
0.4152
0.19452
0.21384
0.1808
11
46
102
6
69
149


rs10520072
Imputed
T
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs1065639
Imputed
C
DOM
364
1.785
0.2238
1.151
2.767
2.588
0.00965
0.08775
0.35852
0.40523
0.32464
19
86
48
20
97
94


rs10733846
Imputed
G
ADD
381
0.6607
0.2049
0.4422
0.9872
−2.023
0.04308
0.3007
0.18241
0.14968
0.20536
3
41
113
6
80
138


rs10733846
Imputed
G
DOM
381
0.6237
0.2255
0.4009
0.9704
−2.093
0.03632
0.3007
0.18241
0.14968
0.20536
3
41
113
6
80
138


rs10737390
Imputed
T
DOM
367
0.6571
0.2203
0.4267
1.012
−1.906
0.05666
0.7431
0.39373
0.36218
0.41706
22
69
65
33
110
68


rs10749293
Imputed
G
DOM
382
1.379
0.2098
0.914
2.08
1.531
0.1257
0.5373
0.29188
0.31761
0.27354
16
69
74
19
84
120


rs10752159
Imputed
G
DOM
382
1.921
0.2194
1.25
2.953
2.976
0.00292
0.8691
0.19241
0.2327
0.16368
5
64
90
8
57
158


rs10753760
Imputed
T
ADD
374
1.478
0.1517
1.098
1.99
2.576
0.00999
0.3803
0.37968
0.43506
0.34091
31
72
51
27
96
97


rs10753760
Imputed
T
GEN
374




6.677
0.0355
0.3803
0.37968
0.43506
0.34091
31
72
51
27
96
97


rs10757887
Imputed
C
DOM
383
0.5825
0.2158
0.3816
0.8891
−2.505
0.01226
0.1637
0.24021
0.19497
0.27232
9
44
106
18
86
120


rs10758326
Imputed
A
ADD
382
0.7394
0.1581
0.5424
1.008
−1.91
0.0561
0.2409
0.39921
0.36164
0.42601
19
77
63
36
118
69


rs10758326
Imputed
A
GEN
382




3.771
0.1518
0.2409
0.39921
0.36164
0.42601
19
77
63
36
118
69


rs10758326
Imputed
A
REC
382
0.6985
0.3059
0.3835
1.272
−1.173
0.2408
0.2409
0.39921
0.36164
0.42601
19
77
63
36
118
69


rs10762236
Genotyped
G
ADD
383
0.6676
0.2037
0.4479
0.9952
−1.984
0.04728
0.233
0.18277
0.15094
0.20536
3
42
114
6
80
138


rs10765769
Imputed
C
ADD
378
1.537
0.1636
1.115
2.118
2.627
0.00862
0.01547
0.42725
0.48089
0.38914
31
89
37
26
120
75


rs10765769
Imputed
C
GEN
378




6.932
0.03125
1.55E−02
0.42725
0.48089
0.38914
31
89
37
26
120
75


rs10784891
Imputed
C
ADD
372
0.7477
0.1606
0.5458
1.024
−1.811
0.07022
0.2351
0.40188
0.36129
0.43088
22
68
65
32
123
62


rs10784891
Imputed
C
DOM
372
0.5753
0.2241
0.3708
0.8925
−2.467
0.01361
0.2351
0.40188
0.36129
0.43088
22
68
65
32
123
62


rs10787923
Imputed
G
DOM
383
1.391
0.2096
0.9222
2.098
1.574
0.1155
0.5365
0.29112
0.31761
0.27232
16
69
74
19
84
121


rs10787949
Imputed
A
DOM
382
1.33
0.2097
0.8818
2.006
1.36
0.1737
0.5395
0.29581
0.32075
0.27803
17
68
74
19
86
118


rs10787951
Imputed
G
DOM
382
1.33
0.2097
0.8818
2.006
1.36
0.1737
0.5395
0.29581
0.32075
0.27803
17
68
74
19
86
118


rs10787983
Imputed
C
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs10788380
Imputed
C
ADD
377
1.299
0.1485
0.9713
1.738
1.764
0.07781
0.6046
0.53581
0.57643
0.50682
51
79
27
60
103
57


rs10788380
Imputed
C
DOM
377
1.624
0.2633
0.9695
2.721
1.842
0.06541
0.6046
0.53581
0.57643
0.50682
51
79
27
60
103
57


rs10788380
Imputed
C
GEN
377




3.622
0.1635
0.6046
0.53581
0.57643
0.50682
51
79
27
60
103
57


rs10814418
Imputed
G
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs10831417
Imputed
A
ADD
383
1.615
0.1632
1.173
2.224
2.937
0.00332
0.02621
0.40862
0.46855
0.36607
30
89
40
23
118
83


rs10831417
Imputed
A
GEN
383




8.69
0.01297
0.02621
0.40862
0.46855
0.36607
30
89
40
23
118
83


rs10831422
Imputed
C
ADD
378
1.53
0.1629
1.112
2.106
2.611
0.00902
0.03304
0.40212
0.4557
0.36364
29
86
43
22
116
82


rs10831422
Imputed
C
GEN
378




7.075
0.02908
0.03304
0.40212
0.4557
0.36364
29
86
43
22
116
82


rs10862931
Imputed
C
GEN
377




3.939
0.1395
0.4279
0.34748
0.30645
0.37613
15
65
75
34
99
89


rs10865197
Imputed
C
DOM
383
1.719
0.2141
1.13
2.615
2.53
0.01141
0.6453
0.21149
0.24843
0.18527
6
67
86
9
65
150


rs10871302
Imputed
A
DOM
382
1.272
0.2475
0.7828
2.066
0.9709
0.3316
0.8085
0.12042
0.13836
0.10762
4
36
119
2
44
177


rs10877463
Imputed
C
DOM
381
0.5962
0.213
0.3927
0.9052
−2.428
0.0152
0.424
0.3399
0.30063
0.36771
15
65
78
25
114
84


rs10877468
Imputed
C
DOM
375
0.5825
0.2147
0.3824
0.8872
−2.518
0.01181
0.4237
0.34133
0.3
0.37045
15
63
77
25
113
82


rs10879240
Imputed
C
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs10879242
Imputed
A
DOM
383
0.643
0.2198
0.418
0.9893
−2.009
0.04455
0.1989
0.39426
0.3522
0.42411
19
74
66
34
122
68


rs10879245
Imputed
G
DOM
383
0.643
0.2198
0.418
0.9893
−2.009
0.04455
0.1989
0.39426
0.3522
0.42411
19
74
66
34
122
68


rs10879249
Imputed
T
DOM
383
0.6376
0.2187
0.4154
0.9789
−2.057
0.03964
0.1621
0.38903
0.34591
0.41964
18
74
67
33
122
69


rs10886452
Imputed
A
DOM
382
1.33
0.2097
0.8818
2.006
1.36
0.1737
0.5395
0.29581
0.32075
0.27803
17
68
74
19
86
118


rs10886463
Imputed
C
DOM
381
1.346
0.21
0.8919
2.032
1.415
0.157
0.3912
0.29659
0.32075
0.27928
17
68
74
20
84
118


rs10886465
Imputed
A
DOM
383
1.341
0.2095
0.8897
2.022
1.402
0.161
0.3936
0.29634
0.32075
0.27902
17
68
74
20
85
119


rs10886526
Imputed
C
DOM
381
1.361
0.21
0.9017
2.054
1.467
0.1423
0.3889
0.29265
0.31646
0.27578
16
68
74
20
83
120


rs10902437
Imputed
G
ADD
355
1.176
0.1625
0.8556
1.618
1
0.3172
0.1268
0.41972
0.44257
0.40338
20
91
37
35
97
75


rs10941126
Imputed
G
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs10941126
Imputed
G
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs10947871
Imputed
A
DOM
383
1.488
0.2326
0.9435
2.348
1.71
0.08731
0.5442
0.14883
0.16667
0.13616
2
49
108
8
45
171


rs10972978
Imputed
G
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs10973012
Imputed
A
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs10974028
Genotyped
G
ADD
383
0.6345
0.2091
0.4211
0.956
−2.175
0.02963
0.5604
0.15666
0.12264
0.1808
4
31
124
7
67
150


rs10974028
Genotyped
G
DOM
383
0.5711
0.2392
0.3573
0.9127
−2.342
0.01918
0.5604
0.15666
0.12264
0.1808
4
31
124
7
67
150


rs11021302
Imputed
A
ADD
378
1.53
0.1629
1.112
2.106
2.611
0.00902
0.03304
0.40212
0.4557
0.36364
29
86
43
22
116
82


rs11021302
Imputed
A
GEN
378




7.075
0.02908
0.03304
0.40212
0.4557
0.36364
29
86
43
22
116
82


rs11099644
Imputed
G
REC
382
2.201
0.2868
1.254
3.861
2.75
0.00596
0.8317
0.40052
0.45912
0.35874
35
76
48
25
110
88


rs11138315
Imputed
G
ADD
364
0.5496
0.2588
0.3309
0.9128
−2.313
0.02075
0.4098
0.10852
0.07566
0.13208
0
23
129
6
44
162


rs11149802
Imputed
T
DOM
382
1.272
0.2475
0.7828
2.066
0.9709
0.3316
0.8085
0.12042
0.13836
0.10762
4
36
119
2
44
177


rs1116596
Imputed
T
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs11178531
Imputed
A
ADD
381
0.778
0.1538
0.5755
1.052
−1.632
0.1027
0.5321
0.42913
0.39172
0.45536
27
69
61
40
124
60


rs11178531
Imputed
A
DOM
381
0.5967
0.2247
0.3841
0.9269
−2.298
0.02156
0.5321
0.42913
0.39172
0.45536
27
69
61
40
124
60


rs11178575
Imputed
C
GEN
382




2.149
0.3415
0.6639
0.37696
0.39937
0.36099
27
73
59
25
111
87


rs11178575
Imputed
C
REC
382
1.549
0.3014
0.8578
2.796
1.451
0.1468
0.6639
0.37696
0.39937
0.36099
27
73
59
25
111
87


rs11178577
Imputed
T
GEN
383




2.22
0.3296
0.6635
0.37728
0.39937
0.36161
27
73
59
25
112
87


rs11178577
Imputed
T
REC
383
1.557
0.3014
0.8625
2.811
1.469
0.1418
0.6635
0.37728
0.39937
0.36161
27
73
59
25
112
87


rs11178583
Imputed
A
DOM
383
0.6376
0.2187
0.4154
0.9789
−2.057
0.03964
0.1621
0.38903
0.34591
0.41964
18
74
67
33
122
69


rs11178589
Imputed
T
DOM
382
0.6428
0.2192
0.4183
0.9878
−2.016
0.0438
0.1627
0.38874
0.34591
0.41928
18
74
67
33
121
69


rs11178594
Imputed
C
DOM
383
0.6253
0.2193
0.4068
0.9611
−2.141
0.0323
0.133
0.39034
0.34591
0.42188
18
74
67
33
123
68


rs11178602
Imputed
T
DOM
383
0.6388
0.2189
0.4159
0.9811
−2.047
0.04066
0.1621
0.38903
0.34591
0.41964
18
74
67
33
122
69


rs11178648
Imputed
T
DOM
382
0.5988
0.2187
0.3901
0.9193
−2.345
0.01904
0.2351
0.38613
0.33861
0.41964
18
71
69
33
122
69


rs11198877
Imputed
T
DOM
382
1.33
0.2097
0.8818
2.006
1.36
0.1737
0.5395
0.29581
0.32075
0.27803
17
68
74
19
86
118


rs11198942
Imputed
T
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs11221075
Imputed
A
ADD
378
0.7098
0.2323
0.4502
1.119
−1.475
0.1401
1
0.12434
0.1051
0.13801
2
29
126
4
53
164


rs11242020
Imputed
T
DOM
382
0.6024
0.2102
0.399
0.9096
−2.411
0.01591
0.4079
0.31675
0.28165
0.34152
18
53
87
24
105
95


rs11242021
Imputed
T
DOM
381
0.602
0.2105
0.3986
0.9094
−2.411
0.01591
0.7248
0.32152
0.28481
0.34753
17
56
85
24
107
92


rs11242022
Imputed
T
DOM
380
0.617
0.2103
0.4086
0.9318
−2.296
0.02168
1
0.31316
0.27987
0.3371
16
57
86
21
107
93


rs11242023
Imputed
T
DOM
379
0.6116
0.2108
0.4046
0.9244
−2.333
0.01964
0.7243
0.31926
0.28481
0.34389
17
56
85
23
106
92


rs1149350
Imputed
A
DOM
382
1.97
0.2254
1.266
3.065
3.007
0.00264
0.05226
0.17801
0.22327
0.14574
8
55
96
10
45
168


rs1150143
Imputed
G
DOM
379
1.782
0.2127
1.175
2.704
2.717
0.00659
0.128
0.32586
0.38217
0.28604
24
72
61
23
81
118


rs11576627
Imputed
T
ADD
383
1.437
0.2014
0.9684
2.132
1.8
0.0718
0.2168
0.14491
0.17296
0.125
6
43
110
5
46
173


rs11576627
Imputed
T
DOM
383
1.496
0.2351
0.9433
2.371
1.712
0.08693
0.2168
0.14491
0.17296
0.125
6
43
110
5
46
173


rs11602189
Imputed
A
DOM
374
0.5948
0.2142
0.3909
0.905
−2.426
0.01527
1
0.31818
0.27124
0.35068
12
59
82
26
103
92


rs11605163
Imputed
A
DOM
376
2.186
0.3185
1.171
4.08
2.455
0.01408
0.3822
0.0625
0.08654
0.04545
0
27
129
0
20
200


rs11615214
Imputed
G
ADD
382
0.7639
0.1532
0.5657
1.032
−1.758
0.07882
1
0.38874
0.35127
0.41518
21
69
68
37
112
75


rs11615214
Imputed
G
GEN
382




3.652
0.161
1
0.38874
0.35127
0.41518
21
69
68
37
112
75


rs11642394
Imputed
C
DOM
383
1.277
0.2476
0.7859
2.074
0.9866
0.3238
0.8082
0.1201
0.13836
0.10714
4
36
119
2
44
178


rs11644943
Imputed
A
ADD
380
1.606
0.1767
1.136
2.27
2.68
0.00736
0.7774
0.23816
0.28616
0.20362
9
73
77
11
68
142


rs11656608
Imputed
T
DOM
383
0.7037
0.2279
0.4502
1.1
−1.542
0.1231
0.8589
0.17363
0.15409
0.1875
6
37
116
6
72
146


rs11661309
Imputed
A
ADD
383
0.5977
0.199
0.4046
0.8827
−2.587
0.00969
0.1541
0.17493
0.13208
0.20536
4
34
121
12
68
144


rs11661309
Imputed
A
DOM
383
0.5564
0.2336
0.352
0.8796
−2.509
0.0121
0.1541
0.17493
0.13208
0.20536
4
34
121
12
68
144


rs11666131
Imputed
A
ADD
382
1.578
0.1755
1.119
2.226
2.6
0.00931
0.2905
0.21466
0.26266
0.1808
11
61
86
10
61
153


rs11743355
Imputed
C
ADD
379
0.2291
0.7784
0.04984
1.054
−1.893
0.05836
1
0.01715
0.00629
0.025
0
2
157
0
11
209


rs11743355
Imputed
C
DOM
379
0.2291
0.7784
0.04984
1.054
−1.893
0.05836
1
0.01715
0.00629
0.025
0
2
157
0
11
209


rs11746806
Imputed
T
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs11746806
Imputed
T
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs11746959
Imputed
T
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs11746959
Imputed
T
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs11749272
Imputed
T
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs11901899
Imputed
A
DOM
378
1.83
0.2121
1.208
2.774
2.851
0.00436
0.1985
0.27646
0.33333
0.23649
18
68
70
16
73
133


rs11926319
Imputed
G
ADD
380
0.3536
0.2967
0.1977
0.6325
−3.504
0.00046
1
0.09868
0.05414
0.13004
0
17
140
3
52
168


rs11926319
Imputed
G
DOM
380
0.3514
0.3031
0.194
0.6364
−3.451
0.00056
1
0.09868
0.05414
0.13004
0
17
140
3
52
168


rs11956952
Imputed
C
DOM
378
0.7003
0.2121
0.4621
1.061
−1.679
0.09313
0.2413
0.26984
0.25478
0.28054
17
46
94
15
94
112


rs12025826
Imputed
G
DOM
377
1.354
0.2159
0.8867
2.067
1.403
0.1607
0.1274
0.38462
0.39809
0.375
24
77
56
39
87
94


rs1204522
Imputed
C
GEN
378




3.915
0.1412
0.58
0.36243
0.32595
0.38864
14
75
69
33
105
82


rs1204524
Imputed
A
GEN
378




3.758
0.1527
0.5784
0.36376
0.32803
0.38914
14
75
68
33
106
82


rs12153185
Imputed
T
DOM
379
0.6022
0.2112
0.398
0.911
−2.401
0.01634
0.724
0.3219
0.28526
0.34753
17
55
84
24
107
92


rs12182651
Imputed
T
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs12182651
Imputed
T
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs12193568
Imputed
G
DOM
237
2.406
0.3051
1.323
4.375
2.878
0.00401
0.2704
0.13713
0.18557
0.10357
1
34
62
1
27
112


rs12264914
Imputed
C
DOM
204
0.7523
0.29
0.4261
1.328
−0.9814
0.3264
0.7359
0.29167
0.2625
0.31048
5
32
43
11
55
58


rs12307767
Imputed
C
DOM
352
0.5633
0.2206
0.3656
0.868
−2.602
0.00928
0.4648
0.32102
0.27931
0.35024
13
55
77
20
105
82


rs1232298
Imputed
G
REC
372
2.839
0.3328
1.479
5.45
3.135
0.00172
0.2379
0.32661
0.37742
0.29032
29
59
67
16
94
107


rs12407412
Imputed
C
ADD
383
1.437
0.2014
0.9684
2.132
1.8
0.0718
0.2168
0.14491
0.17296
0.125
6
43
110
5
46
173


rs12407412
Imputed
C
DOM
383
1.496
0.2351
0.9433
2.371
1.712
0.08693
0.2168
0.14491
0.17296
0.125
6
43
110
5
46
173


rs12420184
Imputed
G
DOM
382
0.6069
0.2381
0.3805
0.9678
−2.097
0.03596
0.1285
0.16099
0.1195
0.19058
2
34
123
12
61
150


rs12422750
Imputed
A
DOM
383
0.5915
0.2116
0.3907
0.8956
−2.481
0.0131
0.2019
0.32637
0.28616
0.35491
13
65
81
22
115
87


rs12446951
Imputed
A
ADD
266
3.123
0.3652
1.526
6.388
3.118
0.00182
0.1047
0.06767
0.11429
0.03727
3
18
84
0
12
149


rs12446951
Imputed
A
DOM
266
3.166
0.3883
1.479
6.776
2.968
0.003
0.1047
0.06767
0.11429
0.03727
3
18
84
0
12
149


rs12457400
Imputed
G
DOM
383
0.6578
0.2682
0.3889
1.113
−1.562
0.1183
0.7834
0.10444
0.08491
0.1183
1
25
133
2
49
173


rs1247340
Imputed
C
DOM
383
1.98
0.2254
1.273
3.079
3.03
0.00244
0.07793
0.17624
0.22327
0.14286
8
55
96
9
46
169


rs1247341
Imputed
C
DOM
382
2.017
0.2261
1.295
3.142
3.103
0.00192
0.07501
0.17539
0.22327
0.14126
8
55
96
9
45
169


rs12521291
Imputed
G
ADD
380
0.6882
0.1569
0.506
0.9361
−2.381
0.01727
0.6567
0.35921
0.3121
0.39238
19
60
78
32
111
80


rs12526849
Imputed
T
ADD
380
1.357
0.1432
1.025
1.797
2.132
0.03298
0.04681
0.42763
0.47484
0.39367
42
67
50
37
100
84


rs12526849
Imputed
T
GEN
380




5.531
0.06295
0.04681
0.42763
0.47484
0.39367
42
67
50
37
100
84


rs12543110
Imputed
G
DOM
383
1.832
0.2138
1.205
2.786
2.832
0.00463
0.4624
0.22454
0.28302
0.18304
14
62
83
8
66
150


rs12678600
Imputed
A
DOM
381
0.5988
0.211
0.396
0.9055
−2.43
0.01509
0.9081
0.33202
0.28616
0.36486
14
63
82
27
108
87


rs12719415
Imputed
T
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs12831292
Imputed
G
DOM
382
0.643
0.219
0.4186
0.9878
−2.016
0.04381
0.1627
0.38874
0.34591
0.41928
18
74
67
33
121
69


rs12923993
Imputed
C
DOM
383
1.277
0.2476
0.7859
2.074
0.9866
0.3238
0.8082
0.1201
0.13836
0.10714
4
36
119
2
44
178


rs12936964
Imputed
T
DOM
380
1.581
0.2211
1.025
2.439
2.073
0.03817
0.3863
0.38553
0.40823
0.36937
19
91
48
33
98
91


rs12960663
Imputed
G
ADD
383
0.5977
0.199
0.4046
0.8827
−2.587
0.00969
0.1541
0.17493
0.13208
0.20536
4
34
121
12
68
144


rs13038146
Imputed
C
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs13038146
Imputed
C
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs13134222
Imputed
A
GEN
382




6.996
0.03026
0.1929
0.23037
0.18553
0.26233
5
49
105
20
77
126


rs13172910
Imputed
A
DOM
379
0.6946
0.212
0.4585
1.052
−1.719
0.08561
0.2969
0.27045
0.25478
0.28153
17
46
94
15
95
112


rs13194907
Imputed
A
ADD
383
2.378
0.3248
1.258
4.495
2.668
0.00763
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs13194907
Imputed
A
DOM
383
2.64
0.3358
1.367
5.099
2.891
0.00384
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs13195745
Imputed
A
ADD
383
2.378
0.3248
1.258
4.495
2.668
0.00763
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs13195745
Imputed
A
DOM
383
2.64
0.3358
1.367
5.099
2.891
0.00384
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs1321432
Imputed
A
REC
383
1.784
0.3115
0.9689
3.286
1.859
0.0631
0.3248
0.37206
0.39308
0.35714
26
73
60
22
116
86


rs1321457
Imputed
G
REC
383
1.704
0.3084
0.9308
3.118
1.728
0.08407
0.6599
0.36684
0.38679
0.35268
26
71
62
23
112
89


rs13265054
Imputed
T
DOM
381
0.5995
0.211
0.3965
0.9065
−2.425
0.01529
0.9081
0.33202
0.28616
0.36486
14
63
82
27
108
87


rs13282131
Imputed
C
GEN
383




4.029
0.1334
0.3575
0.4752
0.51887
0.4442
44
77
38
47
105
72


rs13353526
Imputed
C
DOM
383
2.299
0.2671
1.362
3.881
3.116
0.00183
0.2304
0.0953
0.13208
0.0692
0
42
117
1
29
194


rs1336382
Imputed
T
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs1336383
Imputed
T
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs1336407
Imputed
T
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs1336409
Imputed
T
DOM
382
1.355
0.2098
0.8985
2.045
1.45
0.1471
0.4624
0.2945
0.31761
0.27803
16
69
74
20
84
119


rs1336596
Imputed
A
DOM
380
0.6528
0.2133
0.4297
0.9916
−2
0.04554
0.2643
0.35658
0.32595
0.37838
18
67
73
25
118
79


rs1343560
Imputed
T
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs1343560
Imputed
T
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs1361987
Imputed
T
GEN
383




3.272
0.1948
0.4362
0.3577
0.3239
0.3817
14
75
70
31
109
84


rs1386153
Imputed
T
ADD
379
0.6655
0.164
0.4826
0.9177
−2.484
0.01299
0.8128
0.31662
0.26752
0.35135
12
60
85
27
102
93


rs1386153
Imputed
T
DOM
379
0.5913
0.212
0.3902
0.8959
−2.478
0.01321
0.8128
0.31662
0.26752
0.35135
12
60
85
27
102
93


rs1394015
Imputed
C
DOM
356
1.898
0.243
1.179
3.056
2.637
0.00837
0.08154
0.41854
0.47569
0.37972
27
83
34
27
107
78


rs1407038
Imputed
A
REC
382
1.717
0.3085
0.9381
3.144
1.753
0.07963
0.6601
0.36649
0.38608
0.35268
26
70
62
23
112
89


rs1407039
Imputed
A
REC
379
1.715
0.3088
0.9365
3.142
1.748
0.08054
0.5818
0.37071
0.38854
0.35811
26
70
61
23
113
86


rs1412802
Imputed
T
GEN
381




5.343
0.06914
0.3707
0.27428
0.2327
0.30405
8
58
93
24
87
111


rs1414865
Imputed
T
DOM
382
1.33
0.2097
0.8818
2.006
1.36
0.1737
0.5395
0.29581
0.32075
0.27803
17
68
74
19
86
118


rs1414873
Imputed
A
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs1414876
Imputed
C
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs1418671
Imputed
C
REC
377
2.067
0.2706
1.216
3.513
2.684
0.00728
0.8338
0.43236
0.4557
0.41553
39
66
53
30
122
67


rs1419490
Genotyped
T
GEN
383




3.125
0.2096
0.4381
0.3564
0.3239
0.37946
14
75
70
31
108
85


rs1434507
Imputed
A
ADD
381
1.405
0.1664
1.014
1.947
2.044
0.04098
0.5376
0.29396
0.33019
0.26802
17
71
71
13
93
116


rs1434508
Imputed
T
ADD
382
1.399
0.1663
1.01
1.938
2.018
0.04355
0.5378
0.2945
0.33019
0.26906
17
71
71
13
94
116


rs1435205
Imputed
A
ADD
379
1.571
0.1825
1.099
2.247
2.475
0.01331
0.3801
0.22559
0.2707
0.19369
10
65
82
6
74
142


rs1443928
Imputed
C
REC
380
0.5055
0.2469
0.3116
0.8201
−2.763
0.00572
0.5394
0.51579
0.43671
0.57207
31
76
51
73
108
41


rs1452235
Imputed
G
GEN
383




4.025
0.1337
0.3156
0.35248
0.31132
0.3817
16
67
76
36
99
89


rs1452236
Imputed
G
GEN
383




4.025
0.1337
0.3156
0.35248
0.31132
0.3817
16
67
76
36
99
89


rs1452237
Imputed
G
GEN
383




4.025
0.1337
0.3156
0.35248
0.31132
0.3817
16
67
76
36
99
89


rs1452243
Genotyped
T
GEN
383




4.025
0.1337
0.3156
0.35248
0.31132
0.3817
16
67
76
36
99
89


rs1463768
Genotyped
G
REC
383
2.557
0.2969
1.429
4.574
3.162
0.00157
0.6662
0.38251
0.41195
0.36161
36
59
64
22
118
84


rs1463769
Imputed
G
REC
383
2.557
0.2969
1.429
4.574
3.162
0.00157
0.6662
0.38251
0.41195
0.36161
36
59
64
22
118
84


rs1472435
Imputed
A
ADD
374
0.3624
0.3387
0.1866
0.704
−2.996
0.00274
0.2433
0.07353
0.0414
0.09677
0
13
144
0
42
175


rs1472435
Imputed
A
DOM
374
0.3624
0.3387
0.1866
0.704
−2.996
0.00274
0.2433
0.07353
0.0414
0.09677
0
13
144
0
42
175


rs1476714
Imputed
A
DOM
381
0.5994
0.2104
0.3969
0.9054
−2.432
0.01501
0.6369
0.3189
0.28165
0.34529
17
55
86
24
106
93


rs1495159
Imputed
G
ADD
377
0.6292
0.1647
0.4556
0.8688
−2.814
0.0049
0.01409
0.27454
0.21935
0.31306
11
46
98
27
85
110


rs1495159
Imputed
G
GEN
377




8.035
0.018
0.01409
0.27454
0.21935
0.31306
11
46
98
27
85
110


rs1495375
Imputed
A
DOM
383
0.643
0.2198
0.418
0.9893
−2.009
0.04455
0.1989
0.39426
0.3522
0.42411
19
74
66
34
122
68


rs1495376
Imputed
T
DOM
371
0.4469
0.2418
0.2782
0.7178
−3.331
0.00086
0.7551
0.47844
0.43182
0.51152
35
63
56
48
126
43


rs1495377
Imputed
G
DOM
370
0.4491
0.2417
0.2797
0.7213
−3.312
0.00093
0.7556
0.47838
0.43182
0.51157
35
63
56
48
125
43


rs1495381
Imputed
T
GEN
383




5.394
0.06741
0.7553
0.43473
0.46541
0.41295
40
68
51
34
117
73


rs1495381
Imputed
T
REC
383
1.786
0.2638
1.065
2.996
2.199
0.02786
0.7553
0.43473
0.46541
0.41295
40
68
51
34
117
73


rs1498992
Imputed
G
DOM
383
0.6967
0.2093
0.4622
1.05
−1.727
0.08421
0.5379
0.29373
0.27358
0.30804
14
59
86
16
106
102


rs1499001
Imputed
T
DOM
378
0.6855
0.2116
0.4528
1.038
−1.784
0.07436
0.352
0.2619
0.24214
0.27626
11
55
93
11
99
109


rs1512988
Imputed
A
DOM
380
0.6145
0.2204
0.3989
0.9466
−2.209
0.02719
0.161
0.39079
0.34494
0.42342
18
73
67
33
122
67


rs1512989
Imputed
T
DOM
380
0.6145
0.2204
0.3989
0.9466
−2.209
0.02719
0.161
0.39079
0.34494
0.42342
18
73
67
33
122
67


rs1512991
Imputed
T
ADD
382
0.7489
0.1551
0.5526
1.015
−1.864
0.06235
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs1512991
Imputed
T
DOM
382
0.571
0.2227
0.3691
0.8835
−2.516
0.01186
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs1516855
Imputed
G
REC
382
2.635
0.3326
1.373
5.056
2.913
0.00358
0.3164
0.35864
0.38679
0.33857
27
69
63
17
117
89


rs1527450
Imputed
T
ADD
383
1.615
0.1632
1.173
2.224
2.937
0.00332
0.02621
0.40862
0.46855
0.36607
30
89
40
23
118
83


rs1527450
Imputed
T
GEN
383




8.69
0.01297
0.02621
0.40862
0.46855
0.36607
30
89
40
23
118
83


rs1567740
Imputed
T
DOM
381
0.6186
0.2199
0.402
0.9518
−2.185
0.02891
0.1327
0.39108
0.34591
0.42342
18
74
67
33
122
67


rs1572573
Imputed
A
ADD
362
1.424
0.201
0.9603
2.112
1.759
0.07865
0.2969
0.18646
0.21622
0.16589
3
58
87
6
59
149


rs1572573
Imputed
A
DOM
362
1.608
0.2249
1.035
2.498
2.112
0.03472
0.2969
0.18646
0.21622
0.16589
3
58
87
6
59
149


rs1584003
Imputed
C
DOM
380
1.619
0.2537
0.9846
2.661
1.899
0.05761
0.3047
0.49605
0.52548
0.47534
38
89
30
50
112
61


rs1584005
Imputed
C
DOM
380
1.619
0.2537
0.9846
2.661
1.899
0.05761
0.3047
0.49605
0.52548
0.47534
38
89
30
50
112
61


rs1585771
Imputed
G
ADD
382
1.485
0.1701
1.064
2.073
2.325
0.02005
0.44
0.27225
0.31646
0.24107
15
70
73
10
88
126


rs1592015
Imputed
G
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs1594885
Imputed
A
ADD
380
1.429
0.1671
1.03
1.983
2.138
0.03253
0.461
0.29737
0.33544
0.27027
17
72
69
13
94
115


rs1603232
Imputed
A
DOM
370
0.4692
0.2395
0.2935
0.7503
−3.159
0.00158
0.8353
0.47432
0.43137
0.50461
35
62
56
47
125
45


rs1614565
Imputed
C
DOM
372
0.4727
0.2424
0.2939
0.7602
−3.091
0.00199
0.6778
0.48253
0.44156
0.51147
36
64
54
48
127
43


rs1648200
Imputed
G
ADD
363
1.513
0.1861
1.05
2.179
2.224
0.02618
0.02626
0.25207
0.29333
0.223
9
70
71
6
83
124


rs16877387
Imputed
C
GEN
382




6.901
0.03174
0.8277
0.37304
0.40506
0.35045
30
68
60
22
113
89


rs16877387
Imputed
C
REC
382
2.182
0.3041
1.202
3.961
2.566
0.01029
0.8277
0.37304
0.40506
0.35045
30
68
60
22
113
89


rs16938626
Imputed
G
DOM
382
0.5784
0.2111
0.3825
0.8747
−2.594
0.00948
0.5218
0.27618
0.23101
0.30804
9
55
94
17
104
103


rs1694334
Imputed
G
ADD
351
0.6042
0.1961
0.4114
0.8874
−2.569
0.01019
0.7491
0.21225
0.16443
0.24752
6
37
106
11
78
113


rs16998821
Imputed
C
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs1700400
Imputed
T
ADD
362
0.5776
0.1758
0.4093
0.8151
−3.123
0.00179
0.05211
0.25552
0.19156
0.30288
6
47
101
25
76
107


rs17007620
Imputed
G
ADD
363
1.653
0.1777
1.167
2.341
2.828
0.00468
1
0.24656
0.3
0.20892
13
64
73
9
71
133


rs17007620
Imputed
G
DOM
363
1.767
0.2175
1.154
2.707
2.619
0.00883
1
0.24656
0.3
0.20892
13
64
73
9
71
133


rs17023290
Imputed
C
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs17047957
Imputed
C
DOM
383
1.726
0.2428
1.073
2.778
2.249
0.02453
0.4928
0.12924
0.16352
0.10491
5
42
112
3
41
180


rs1705237
Imputed
A
DOM
369
0.4663
0.2431
0.2895
0.7508
−3.139
0.0017
0.7547
0.48238
0.44079
0.51152
36
62
54
48
126
43


rs1705261
Imputed
A
GEN
383




5.394
0.06741
0.7553
0.43473
0.46541
0.41295
40
68
51
34
117
73


rs1705261
Imputed
A
REC
383
1.786
0.2638
1.065
2.996
2.199
0.02786
0.7553
0.43473
0.46541
0.41295
40
68
51
34
117
73


rs17076972
Imputed
C
ADD
383
1.44
0.1509
1.071
1.935
2.416
0.01568
0.7591
0.46736
0.51887
0.4308
44
77
38
38
117
69


rs17076972
Imputed
C
GEN
383




6.553
0.03777
0.7591
0.46736
0.51887
0.4308
44
77
38
38
117
69


rs17076972
Imputed
C
REC
383
1.85
0.2521
1.128
3.032
2.439
0.01473
0.7591
0.46736
0.51887
0.4308
44
77
38
38
117
69


rs17189710
Imputed
T
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs17189710
Imputed
T
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs17196143
Imputed
A
ADD
383
1.543
0.1879
1.068
2.231
2.308
0.02098
0.869
0.1893
0.22956
0.16071
10
53
96
4
64
156


rs17353809
Imputed
G
ADD
382
1.616
0.1806
1.134
2.302
2.658
0.00786
0.3892
0.23037
0.27848
0.19643
11
66
81
6
76
142


rs17368986
Imputed
A
GEN
381




3.069
0.2155
0.4122
0.19423
0.21384
0.18018
11
46
102
6
68
148


rs17369097
Imputed
A
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs17434511
Imputed
C
GEN
383




3.158
0.2061
0.4152
0.19452
0.21384
0.1808
11
46
102
6
69
149


rs17434589
Imputed
C
GEN
376




3.386
0.184
0.4114
0.19548
0.2129
0.18326
11
44
100
6
69
146


rs17434603
Imputed
G
GEN
383




3.158
0.2061
0.4152
0.19452
0.21384
0.1808
11
46
102
6
69
149


rs17434840
Imputed
C
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs17446418
Imputed
G
DOM
382
0.6878
0.2135
0.4526
1.045
−1.753
0.07956
0.7451
0.38089
0.34906
0.40359
22
67
70
35
110
78


rs17530747
Imputed
T
DOM
382
0.6878
0.2135
0.4526
1.045
−1.753
0.07956
0.7451
0.38089
0.34906
0.40359
22
67
70
35
110
78


rs17604285
Imputed
C
ADD
383
0.4148
0.2819
0.2387
0.7208
−3.122
0.0018
0.4026
0.10183
0.06289
0.12946
0
20
139
2
54
168


rs17604285
Imputed
C
DOM
383
0.4153
0.2867
0.2368
0.7285
−3.065
0.00218
0.4026
0.10183
0.06289
0.12946
0
20
139
2
54
168


rs17662322
Imputed
T
DOM
383
0.6835
0.2193
0.4447
1.05
−1.735
0.08267
0.526
0.19974
0.17296
0.21875
5
45
109
8
82
134


rs17769826
Imputed
T
ADD
382
1.616
0.1806
1.134
2.302
2.658
0.00786
0.3892
0.23037
0.27848
0.19643
11
66
81
6
76
142


rs17821641
Imputed
T
ADD
379
1.571
0.1825
1.099
2.247
2.475
0.01331
0.3801
0.22559
0.2707
0.19369
10
65
82
6
74
142


rs1782328
Imputed
A
ADD
356
0.5789
0.2144
0.3803
0.8814
−2.549
0.0108
0.4722
0.17978
0.13667
0.21117
3
35
112
6
75
125


rs1796337
Imputed
T
DOM
379
0.5422
0.239
0.3394
0.8661
−2.561
0.01043
0.8372
0.49208
0.44937
0.52262
37
68
53
56
119
46


rs1798083
Imputed
C
DOM
370
0.4733
0.2427
0.2942
0.7617
−3.081
0.00206
0.6044
0.48108
0.43791
0.51152
35
64
54
48
126
43


rs1798085
Imputed
T
DOM
372
0.4727
0.2424
0.2939
0.7602
−3.091
0.00199
0.6778
0.48253
0.44156
0.51147
36
64
54
48
127
43


rs1798086
Imputed
T
DOM
370
0.4689
0.2427
0.2914
0.7545
−3.12
0.00181
0.7547
0.48243
0.44118
0.51152
36
63
54
48
126
43


rs1798089
Imputed
C
GEN
371




5.637
0.0597
0.2536
0.469
0.51316
0.43836
46
64
42
41
110
68


rs1798089
Imputed
C
REC
371
1.806
0.2499
1.106
2.947
2.365
0.01804
0.2536
0.469
0.51316
0.43836
46
64
42
41
110
68


rs1798090
Imputed
C
GEN
371




5.595
0.06097
0.2992
0.47035
0.51645
0.43836
46
65
41
41
110
68


rs1798090
Imputed
C
REC
371
1.806
0.2499
1.106
2.947
2.365
0.01804
0.2992
0.47035
0.51645
0.43836
46
65
41
41
110
68


rs1832222
Imputed
G
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs1838104
Imputed
A
ADD
370
0.6393
0.1498
0.4766
0.8574
−2.987
0.00282
0.3479
0.52568
0.46104
0.57176
38
66
50
69
109
38


rs1838104
Imputed
A
GEN
370




11.02
0.00404
0.3479
0.52568
0.46104
0.57176
38
66
50
69
109
38


rs1868616
Imputed
G
ADD
372
0.7123
0.1959
0.4852
1.046
−1.732
0.08332
0.3379
0.2043
0.17419
0.22581
4
46
105
8
82
127


rs1874313
Imputed
A
DOM
382
0.6182
0.22
0.4017
0.9516
−2.185
0.02885
0.1324
0.39136
0.34591
0.42377
18
74
67
33
123
67


rs1884902
Imputed
C
REC
379
1.796
0.3119
0.9747
3.31
1.878
0.0604
0.4419
0.36939
0.38854
0.35586
26
70
61
22
114
86


rs1913201
Imputed
G
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs1913201
Imputed
G
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs1913201
Imputed
G
GEN
383




6.592
0.03704
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs1944279
Imputed
A
ADD
377
1.444
0.1687
1.038
2.01
2.179
0.02933
0.3868
0.29576
0.33439
0.26818
17
71
69
12
94
114


rs198461
Imputed
C
DOM
382
0.4755
0.245
0.2942
0.7685
−3.035
0.00241
0.9187
0.51309
0.46855
0.54484
40
69
50
61
121
41


rs1987179
Imputed
T
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs1990023
Imputed
T
DOM
382
0.6024
0.2102
0.399
0.9096
−2.411
0.01591
0.4079
0.31675
0.28165
0.34152
18
53
87
24
105
95


rs2016194
Imputed
G
DOM
381
0.602
0.2105
0.3986
0.9094
−2.411
0.01591
0.7248
0.32152
0.28481
0.34753
17
56
85
24
107
92


rs2024789
Imputed
C
ADD
381
0.7464
0.1501
0.5562
1.002
−1.949
0.05131
0.9185
0.49081
0.44937
0.52018
31
80
47
60
112
51


rs2024789
Imputed
C
GEN
381




3.798
0.1497
0.9185
0.49081
0.44937
0.52018
31
80
47
60
112
51


rs2024902
Imputed
A
ADD
382
2.395
0.3248
1.267
4.526
2.688
0.00718
1
0.05759
0.08544
0.03795
0
27
131
1
15
208


rs2024902
Imputed
A
DOM
382
2.659
0.3358
1.377
5.135
2.912
0.00359
1
0.05759
0.08544
0.03795
0
27
131
1
15
208


rs2025107
Imputed
A
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs2025107
Imputed
A
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs2025108
Imputed
T
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs2025108
Imputed
T
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs2062448
Imputed
T
ADD
383
0.4148
0.2819
0.2387
0.7208
−3.122
0.0018
0.4026
0.10183
0.06289
0.12946
0
20
139
2
54
168


rs2062448
Imputed
T
DOM
383
0.4153
0.2867
0.2368
0.7285
−3.065
0.00218
0.4026
0.10183
0.06289
0.12946
0
20
139
2
54
168


rs2063591
Imputed
C
ADD
382
0.7711
0.1536
0.5706
1.042
−1.692
0.09058
0.6013
0.42801
0.38924
0.45536
27
69
62
40
124
60


rs2063591
Imputed
C
DOM
382
0.5884
0.2242
0.3791
0.9131
−2.366
0.018
0.6013
0.42801
0.38924
0.45536
27
69
62
40
124
60


rs2065604
Imputed
C
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2066238
Imputed
T
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs2068051
Imputed
G
ADD
264
0.6426
0.1952
0.4383
0.9422
−2.265
0.02351
0.06451
0.5
0.45045
0.53595
20
60
31
38
88
27


rs2068051
Imputed
G
GEN
264




5.343
0.06914
0.06451
0.5
0.45045
0.53595
20
60
31
38
88
27


rs2077702
Genotyped
G
GEN
383




2.22
0.3296
0.6635
0.37728
0.39937
0.36161
27
73
59
25
112
87


rs208757
Imputed
G
ADD
345
1.353
0.2024
0.9102
2.012
1.495
0.1348
0.8529
0.17536
0.20139
0.15672
5
48
91
6
51
144


rs208757
Imputed
G
DOM
345
1.453
0.2347
0.917
2.301
1.591
0.1116
0.8529
0.17536
0.20139
0.15672
5
48
91
6
51
144


rs2095586
Imputed
A
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs2108426
Imputed
C
DOM
381
0.5994
0.2104
0.3969
0.9054
−2.432
0.01501
0.6369
0.3189
0.28165
0.34529
17
55
86
24
106
93


rs2110664
Imputed
A
DOM
349
1.697
0.2201
1.102
2.613
2.403
0.01627
0.1922
0.28797
0.34028
0.25122
18
62
64
16
71
118


rs2132242
Imputed
A
DOM
382
0.6291
0.2196
0.4091
0.9676
−2.11
0.03486
0.1617
0.39005
0.34591
0.42152
18
74
67
33
122
68


rs2151644
Imputed
T
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2157752
Genotyped
A
GEN
383




3.356
0.1868
0.3575
0.3329
0.30189
0.35491
11
74
74
27
105
92


rs2158958
Imputed
A
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs2158961
Imputed
G
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.5542
0.31593
0.27987
0.34152
17
55
87
24
105
95


rs2164099
Imputed
G
ADD
382
1.424
0.1667
1.027
1.974
2.121
0.03389
0.4616
0.29581
0.33333
0.26906
17
72
70
13
94
116


rs2173254
Imputed
G
GEN
381




4.978
0.08298
0.06174
0.32546
0.30063
0.34305
7
81
70
25
103
95


rs2173254
Imputed
G
REC
381
0.3756
0.4421
0.1579
0.8933
−2.215
0.02675
0.06174
0.32546
0.30063
0.34305
7
81
70
25
103
95


rs2188079
Imputed
C
ADD
383
1.5
0.1541
1.109
2.029
2.63
0.00854
0.6716
0.40339
0.45912
0.36384
32
82
45
28
107
89


rs2188079
Imputed
C
GEN
383




6.918
0.03146
0.6716
0.40339
0.45912
0.36384
32
82
45
28
107
89


rs2190304
Imputed
G
REC
383
0.628
0.2629
0.3751
1.051
−1.77
0.0768
0.47
0.4517
0.43082
0.46652
27
83
49
55
99
70


rs2190597
Imputed
T
DOM
381
0.7825
0.223
0.5054
1.211
−1.1
0.2713
0.8344
0.43045
0.4172
0.43973
29
73
55
40
117
67


rs2190598
Imputed
T
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs2190600
Imputed
A
DOM
379
0.6022
0.2112
0.398
0.911
−2.401
0.01634
0.724
0.3219
0.28526
0.34753
17
55
84
24
107
92


rs2218084
Imputed
T
GEN
383




6.969
0.03066
0.3636
0.16971
0.21069
0.14063
6
55
98
2
59
163


rs2218084
Imputed
T
REC
383
4.673
0.8259
0.9259
23.58
1.867
0.06194
0.3636
0.16971
0.21069
0.14063
6
55
98
2
59
163


rs2236290
Genotyped
C
GEN
381




3.686
0.1583
1
0.37664
0.33861
0.40359
17
73
68
37
106
80


rs2243860
Imputed
A
GEN
306




4.567
0.1019
1
0.35131
0.39431
0.3224
21
55
47
17
84
82


rs2243860
Imputed
A
REC
306
2.063
0.3516
1.035
4.108
2.059
0.03949
1
0.35131
0.39431
0.3224
21
55
47
17
84
82


rs2246564
Imputed
T
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2248236
Imputed
C
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs2250340
Imputed
T
DOM
333
0.4723
0.3046
0.26
0.858
−2.463
0.01378
0.3862
0.10511
0.07299
0.12755
2
16
119
3
44
149


rs2257192
Imputed
G
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2270584
Imputed
A
DOM
382
0.5988
0.2187
0.3901
0.9193
−2.345
0.01904
0.2351
0.38613
0.33861
0.41964
18
71
69
33
122
69


rs2270586
Imputed
A
DOM
371
0.5858
0.2268
0.3756
0.9138
−2.358
0.0184
0.0525
0.40296
0.35526
0.43607
18
72
62
33
125
61


rs2270589
Imputed
A
ADD
308
0.6907
0.1757
0.4895
0.9746
−2.106
0.03518
0.1384
0.4724
0.42188
0.50833
25
58
45
37
109
34


rs2270589
Imputed
A
DOM
308
0.4396
0.2688
0.2596
0.7445
−3.058
0.00223
0.1384
0.4724
0.42188
0.50833
25
58
45
37
109
34


rs2270589
Imputed
A
GEN
308




9.89
0.00712
0.1384
0.4724
0.42188
0.50833
25
58
45
37
109
34


rs2296889
Imputed
C
DOM
381
1.88
0.2321
1.193
2.963
2.721
0.00651
0.6901
0.15223
0.19811
0.11937
7
49
103
3
47
172


rs2301346
Imputed
C
ADD
343
1.627
0.1791
1.145
2.311
2.717
0.00658
0.2971
0.293
0.34932
0.25127
12
78
56
13
73
111


rs2301346
Imputed
C
DOM
343
2.008
0.2246
1.293
3.119
3.103
0.00191
0.2971
0.293
0.34932
0.25127
12
78
56
13
73
111


rs2327929
Imputed
G
REC
383
1.756
0.2541
1.068
2.89
2.217
0.02662
0.8372
0.45431
0.47799
0.4375
42
68
49
38
120
66


rs2357486
Imputed
C
REC
379
1.682
0.4091
0.7542
3.75
1.27
0.2039
0.00149
0.32322
0.33228
0.31674
14
77
67
12
116
93


rs2373793
Imputed
G
DOM
374
1.775
0.2221
1.149
2.743
2.583
0.00978
0.6199
0.19251
0.22549
0.16968
4
61
88
8
59
154


rs2377622
Imputed
T
GEN
283




3.778
0.1513
0.6851
0.32686
0.28205
0.35843
9
48
60
23
73
70


rs2377622
Imputed
T
REC
283
0.5046
0.4168
0.2229
1.142
−1.641
0.1008
0.6851
0.32686
0.28205
0.35843
9
48
60
23
73
70


rs2383903
Imputed
G
DOM
381
0.5866
0.211
0.3879
0.8871
−2.528
0.01148
0.444
0.27822
0.23418
0.30942
9
56
93
17
104
102


rs2389866
Imputed
C
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs2389869
Imputed
C
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs2418541
Imputed
A
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs2418542
Imputed
A
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs2418548
Imputed
C
DOM
378
0.6382
0.211
0.4221
0.965
−2.129
0.03326
0.4132
0.32672
0.29618
0.34842
19
55
83
25
104
92


rs2476976
Imputed
C
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs2483639
Imputed
A
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2483640
Imputed
A
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs2544780
Imputed
T
REC
381
1.683
0.3502
0.8473
3.344
1.487
0.137
0.7246
0.3189
0.32166
0.31696
20
61
76
17
108
99


rs2586458
Imputed
T
DOM
323
0.4393
0.2682
0.2597
0.7431
−3.067
0.00216
0.65
0.14396
0.09929
0.17857
2
24
115
3
59
120


rs2593272
Imputed
G
ADD
383
0.5962
0.1685
0.4285
0.8294
−3.07
0.00214
0.05071
0.26762
0.2044
0.3125
7
51
101
28
84
112


rs2593273
Imputed
T
ADD
383
0.5962
0.1685
0.4285
0.8294
−3.07
0.00214
0.05071
0.26762
0.2044
0.3125
7
51
101
28
84
112


rs2622499
Imputed
G
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs264126
Imputed
C
DOM
381
0.7975
0.2216
0.5165
1.231
−1.022
0.307
1
0.42782
0.4172
0.43527
30
71
56
40
115
69


rs264129
Imputed
T
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.5542
0.31593
0.27987
0.34152
17
55
87
24
105
95


rs2656822
Imputed
T
ADD
383
0.5962
0.1685
0.4285
0.8294
−3.07
0.00214
0.05071
0.26762
0.2044
0.3125
7
51
101
28
84
112


rs2656823
Imputed
G
ADD
383
0.5962
0.1685
0.4285
0.8294
−3.07
0.00214
0.05071
0.26762
0.2044
0.3125
7
51
101
28
84
112


rs2656825
Imputed
T
ADD
362
0.558
0.1868
0.387
0.8047
−3.123
0.00179
0.4731
0.23895
0.17763
0.28333
3
48
101
20
79
111


rs2764766
Imputed
C
REC
383
1.776
0.3462
0.901
3.5
1.659
0.09717
0.8147
0.32115
0.32704
0.31696
21
62
76
17
108
99


rs2793101
Imputed
T
ADD
383
0.6263
0.2568
0.3786
1.036
−1.822
0.06842
0.2863
0.10705
0.08491
0.12277
1
25
133
1
53
170


rs2793101
Imputed
T
DOM
383
0.5997
0.2668
0.3555
1.012
−1.916
0.05534
0.2863
0.10705
0.08491
0.12277
1
25
133
1
53
170


rs2795871
Imputed
A
ADD
382
0.3627
0.3488
0.1831
0.7186
−2.908
0.00364
0.2402
0.06806
0.03774
0.08969
0
12
147
0
40
183


rs2795886
Imputed
A
ADD
383
0.3343
0.376
0.16
0.6986
−2.914
0.00357
0.3826
0.06005
0.03145
0.08036
0
10
149
0
36
188


rs2795886
Imputed
A
DOM
383
0.3343
0.376
0.16
0.6986
−2.914
0.00357
0.3826
0.06005
0.03145
0.08036
0
10
149
0
36
188


rs2859994
Imputed
C
GEN
378




6.173
0.04567
0.2908
0.41931
0.47115
0.38288
33
81
42
28
114
80


rs2870464
Imputed
G
DOM
383
1.373
0.2699
0.8092
2.331
1.176
0.2398
0.7607
0.09399
0.11006
0.08259
2
31
126
2
33
189


rs2875528
Imputed
T
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs2876227
Imputed
C
ADD
380
1.396
0.1502
1.04
1.874
2.221
0.02634
0.1846
0.36579
0.41026
0.33482
27
74
55
30
90
104


rs2876227
Imputed
C
GEN
380




5.549
0.06238
0.1846
0.36579
0.41026
0.33482
27
74
55
30
90
104


rs2882097
Imputed
A
DOM
383
1.367
0.2096
0.9065
2.062
1.491
0.1358
0.4613
0.29373
0.31761
0.27679
16
69
74
20
84
120


rs2921983
Imputed
C
ADD
375
0.5761
0.1731
0.4103
0.8087
−3.187
0.00144
0.04386
0.26
0.19355
0.30682
6
48
101
27
81
112


rs2987537
Imputed
C
DOM
383
0.5886
0.2614
0.3526
0.9826
−2.027
0.04264
0.8057
0.1188
0.09119
0.13839
2
25
132
4
54
166


rs2996416
Imputed
C
ADD
382
0.5791
0.2661
0.3437
0.9755
−2.053
0.04007
0.7684
0.09686
0.06962
0.11607
1
20
137
3
46
175


rs2996416
Imputed
C
DOM
382
0.5573
0.2856
0.3184
0.9754
−2.047
0.04066
0.7684
0.09686
0.06962
0.11607
1
20
137
3
46
175


rs3015527
Imputed
C
ADD
377
0.5922
0.2667
0.3511
0.9989
−1.964
0.04953
0.7661
0.09682
0.07051
0.11538
1
20
135
3
45
173


rs3015527
Imputed
C
DOM
377
0.572
0.2869
0.326
1.004
−1.947
0.05151
0.7661
0.09682
0.07051
0.11538
1
20
135
3
45
173


rs3015530
Imputed
C
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3015530
Imputed
C
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3015531
Imputed
T
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3015531
Imputed
T
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3015535
Imputed
C
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3015535
Imputed
C
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs3019407
Imputed
A
GEN
381




5.56
0.06205
0.1023
0.32546
0.30063
0.34305
7
81
70
26
101
96


rs3019407
Imputed
A
REC
381
0.3598
0.4403
0.1518
0.8529
−2.321
0.02026
0.1023
0.32546
0.30063
0.34305
7
81
70
26
101
96


rs36071725
Genotyped
C
GEN
383




4.835
0.08914
0.9112
0.35248
0.39623
0.32143
24
78
57
24
96
104


rs373983
Imputed
G
DOM
380
1.266
0.2223
0.8189
1.957
1.061
0.2888
0.7504
0.41053
0.42038
0.40359
24
84
49
38
104
81


rs3756154
Imputed
C
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs3793044
Imputed
C
ADD
383
2.378
0.3248
1.258
4.495
2.668
0.00763
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs3793044
Imputed
C
DOM
383
2.64
0.3358
1.367
5.099
2.891
0.00384
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs3793053
Imputed
C
ADD
380
2.28
0.3065
1.25
4.157
2.689
0.00717
0.1626
0.06184
0.09177
0.04054
1
27
130
2
14
206


rs3793053
Imputed
C
DOM
380
2.764
0.3341
1.436
5.32
3.042
0.00235
0.1626
0.06184
0.09177
0.04054
1
27
130
2
14
206


rs3796246
Imputed
G
ADD
383
0.3513
0.2964
0.1965
0.6279
−3.53
0.00042
1
0.09791
0.05346
0.12946
0
17
142
3
52
169


rs3796246
Imputed
G
DOM
383
0.3489
0.3028
0.1928
0.6316
−3.478
0.00051
1
0.09791
0.05346
0.12946
0
17
142
3
52
169


rs3805996
Imputed
G
ADD
382
2.395
0.3248
1.267
4.526
2.688
0.00718
1
0.05759
0.08544
0.03795
0
27
131
1
15
208


rs3805996
Imputed
G
DOM
382
2.659
0.3358
1.377
5.135
2.912
0.00359
1
0.05759
0.08544
0.03795
0
27
131
1
15
208


rs3806003
Imputed
A
ADD
383
2.378
0.3248
1.258
4.495
2.668
0.00763
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs3806003
Imputed
A
DOM
383
2.64
0.3358
1.367
5.099
2.891
0.00384
1
0.05744
0.08491
0.03795
0
27
132
1
15
208


rs3806004
Imputed
T
ADD
382
2.473
0.3048
1.361
4.493
2.97
0.00298
0.193
0.06414
0.0981
0.04018
1
29
128
2
14
208


rs3806004
Imputed
T
DOM
382
3.015
0.3305
1.578
5.763
3.339
0.00084
0.193
0.06414
0.0981
0.04018
1
29
128
2
14
208


rs3806010
Imputed
T
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806010
Imputed
T
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806014
Imputed
T
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806014
Imputed
T
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806015
Imputed
A
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806015
Imputed
A
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806018
Imputed
A
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806018
Imputed
A
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806019
Imputed
A
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806019
Imputed
A
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs3806024
Imputed
T
ADD
382
2.274
0.3063
1.248
4.146
2.682
0.00732
0.1608
0.06152
0.09119
0.04036
1
27
131
2
14
207


rs3806024
Imputed
T
DOM
382
2.756
0.334
1.432
5.303
3.035
0.0024
0.1608
0.06152
0.09119
0.04036
1
27
131
2
14
207


rs3847825
Imputed
G
ADD
382
0.7535
0.1544
0.5568
1.02
−1.833
0.06673
0.9143
0.39005
0.35127
0.41741
21
69
68
36
115
73


rs3847825
Imputed
G
GEN
382




4.284
0.1174
0.9143
0.39005
0.35127
0.41741
21
69
68
36
115
73


rs3852001
Genotyped
C
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3852001
Genotyped
C
REC
383
2.797
0.5134
1.023
7.653
2.004
0.04512
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3852002
Imputed
G
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3852002
Imputed
G
REC
383
2.797
0.5134
1.023
7.653
2.004
0.04512
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3852003
Imputed
A
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3852003
Imputed
A
REC
383
2.797
0.5134
1.023
7.653
2.004
0.04512
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs3942254
Imputed
T
DOM
351
0.5955
0.227
0.3817
0.9293
−2.283
0.02242
0.737
0.38746
0.33916
0.42067
18
61
64
33
109
66


rs3945085
Imputed
A
DOM
383
1.391
0.2096
0.9222
2.098
1.574
0.1155
0.5365
0.29112
0.31761
0.27232
16
69
74
19
84
121


rs399485
Imputed
A
DOM
382
1.379
0.2101
0.9136
2.082
1.53
0.126
0.6346
0.31283
0.33648
0.29596
15
77
67
20
92
111


rs4029119
Imputed
G
ADD
382
0.1157
1.052
0.01473
0.9094
−2.05
0.04034
1
0.01571
0.00316
0.02455
0
1
157
0
11
213


rs4029119
Imputed
G
DOM
382
0.1157
1.052
0.01473
0.9094
−2.05
0.04034
1
0.01571
0.00316
0.02455
0
1
157
0
11
213


rs412791
Imputed
C
GEN
367




2.832
0.2427
0.5643
0.34605
0.31731
0.3673
13
73
70
28
99
84


rs4146972
Genotyped
T
DOM
383
1.672
0.2418
1.041
2.685
2.125
0.03357
0.4985
0.13055
0.16352
0.10714
5
42
112
3
42
179


rs4259369
Imputed
C
REC
383
0.4161
0.2795
0.2406
0.7196
−3.137
0.00171
0.6078
0.46867
0.39937
0.51786
21
85
53
60
112
52


rs4273613
Imputed
T
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs4273613
Imputed
T
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs4294022
Imputed
C
DOM
383
0.5507
0.2147
0.3616
0.8388
−2.779
0.00546
0.3404
0.25065
0.21384
0.27679
9
50
100
11
102
111


rs4310554
Genotyped
C
DOM
383
1.609
0.2628
0.9616
2.694
1.811
0.07014
0.681
0.53786
0.57547
0.51116
51
81
27
62
105
57


rs4315598
Imputed
T
ADD
382
1.42
0.1496
1.06
1.904
2.347
0.01894
0.1477
0.35864
0.40566
0.32511
27
75
57
29
87
107


rs4315598
Imputed
T
GEN
382




6.306
0.04271
0.1477
0.35864
0.40566
0.32511
27
75
57
29
87
107


rs4370878
Imputed
G
DOM
383
1.391
0.2096
0.9222
2.098
1.574
0.1155
0.5365
0.29112
0.31761
0.27232
16
69
74
19
84
121


rs4436200
Imputed
C
ADD
383
0.5856
0.2343
0.37
0.9269
−2.284
0.02238
0.6515
0.12794
0.09434
0.15179
0
30
129
7
54
163


rs4444612
Imputed
G
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs4444612
Imputed
G
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs4450660
Imputed
C
DOM
383
1.719
0.2141
1.13
2.615
2.53
0.01141
0.6453
0.21149
0.24843
0.18527
6
67
86
9
65
150


rs4463950
Imputed
C
DOM
379
0.5555
0.2195
0.3613
0.8542
−2.678
0.00741
0.05998
0.43272
0.37342
0.47511
27
64
67
53
104
64


rs4509702
Imputed
C
DOM
383
1.391
0.2096
0.9222
2.098
1.574
0.1155
0.5365
0.29112
0.31761
0.27232
16
69
74
19
84
121


rs4533379
Imputed
G
ADD
380
1.429
0.1671
1.03
1.983
2.138
0.03253
0.461
0.29737
0.33544
0.27027
17
72
69
13
94
115


rs4569984
Imputed
A
DOM
374
0.5254
0.2168
0.3436
0.8036
−2.969
0.00299
0.2184
0.25401
0.21474
0.28211
9
49
98
10
103
105


rs4570530
Imputed
C
DOM
383
1.391
0.2096
0.9222
2.098
1.574
0.1155
0.5365
0.29112
0.31761
0.27232
16
69
74
19
84
121


rs4571583
Imputed
T
DOM
383
0.5381
0.2149
0.3531
0.8199
−2.884
0.00392
0.2723
0.24804
0.21069
0.27455
9
49
101
10
103
111


rs4586678
Imputed
A
DOM
383
1.719
0.2141
1.13
2.615
2.53
0.01141
0.6453
0.21149
0.24843
0.18527
6
67
86
9
65
150


rs4615971
Imputed
C
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs4629229
Imputed
G
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs4632512
Imputed
T
GEN
383




4.104
0.1285
0.3319
0.19713
0.21698
0.18304
12
45
102
6
70
148


rs4641552
Imputed
A
ADD
377
0.5381
0.2751
0.3138
0.9226
−2.253
0.02427
1
0.09682
0.06731
0.11765
1
19
136
2
48
171


rs4682527
Imputed
C
DOM
364
1.785
0.2238
1.151
2.767
2.588
0.00965
0.08775
0.35852
0.40523
0.32464
19
86
48
20
97
94


rs4688632
Imputed
G
REC
373
0.656
0.2381
0.4113
1.046
−1.77
0.07666
0.12
0.52145
0.49026
0.54338
37
77
40
72
94
53


rs4702720
Imputed
A
ADD
320
0.6922
0.2059
0.4623
1.036
−1.787
0.07392
0.7262
0.2
0.16541
0.2246
3
38
92
11
62
114


rs4702720
Imputed
A
DOM
320
0.7001
0.2406
0.4369
1.122
−1.481
0.1385
0.7262
0.2
0.16541
0.2246
3
38
92
11
62
114


rs4714484
Imputed
A
ADD
383
0.5988
0.1942
0.4093
0.8761
−2.641
0.00827
0.1255
0.18538
0.13836
0.21875
6
32
121
12
74
138


rs4714484
Imputed
A
DOM
383
0.5097
0.2319
0.3235
0.803
−2.906
0.00366
0.1255
0.18538
0.13836
0.21875
6
32
121
12
74
138


rs4725142
Genotyped
G
REC
383
0.3868
0.3771
0.1847
0.81
−2.519
0.01178
0.9099
0.34204
0.3239
0.35491
10
83
66
34
91
99


rs4725144
Imputed
G
REC
383
0.3868
0.3771
0.1847
0.81
−2.519
0.01178
0.9099
0.34204
0.3239
0.35491
10
83
66
34
91
99


rs4760785
Imputed
A
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4760785
Imputed
A
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4760894
Imputed
T
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4760894
Imputed
T
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4760895
Imputed
A
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4760895
Imputed
A
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs4767184
Imputed
C
ADD
375
0.7432
0.1558
0.5476
1.009
−1.905
0.05677
1
0.392
0.35065
0.42081
21
66
67
36
114
71


rs4767184
Imputed
C
GEN
375




4.92
0.08545
1
0.392
0.35065
0.42081
21
66
67
36
114
71


rs4773487
Imputed
T
ADD
380
0.5534
0.2659
0.3287
0.932
−2.225
0.02609
0.7794
0.1
0.07006
0.12108
1
20
136
3
48
172


rs4780547
Imputed
G
GEN
382




1.722
0.4228
1
0.22644
0.21519
0.23438
5
58
95
14
77
133


rs4780547
Imputed
G
REC
382
0.5086
0.5339
0.1786
1.448
−1.266
0.2054
1
0.22644
0.21519
0.23438
5
58
95
14
77
133


rs483159
Imputed
T
DOM
369
1.242
0.2188
0.8087
1.906
0.9893
0.3225
0.7497
0.20461
0.21711
0.19585
5
56
91
9
67
141


rs4836502
Imputed
T
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs4836507
Imputed
C
DOM
376
0.6042
0.212
0.3988
0.9154
−2.377
0.01745
0.5558
0.32048
0.28387
0.34615
17
54
84
24
105
92


rs4851531
Imputed
T
DOM
380
0.5595
0.2166
0.366
0.8553
−2.682
0.00733
0.665
0.38553
0.35127
0.40991
24
63
71
30
122
70


rs4879931
Imputed
G
ADD
382
0.7554
0.1662
0.5453
1.046
−1.688
0.09145
0.2407
0.32199
0.28931
0.34529
12
68
79
22
110
91


rs489441
Imputed
G
ADD
357
1.491
0.172
1.064
2.089
2.322
0.02024
0.4487
0.29552
0.34354
0.2619
16
69
62
12
86
112


rs489441
Imputed
G
DOM
357
1.551
0.2175
1.013
2.376
2.018
0.04362
0.4487
0.29552
0.34354
0.2619
16
69
62
12
86
112


rs4976276
Imputed
T
ADD
382
1.499
0.1578
1.1
2.042
2.566
0.01029
0.6569
0.35995
0.41456
0.32143
24
83
51
23
98
103


rs4977681
Imputed
C
REC
380
2.078
0.3396
1.068
4.042
2.153
0.03132
0.1768
0.34868
0.37898
0.32735
23
73
61
17
112
94


rs4986197
Imputed
G
ADD
379
1.42
0.1672
1.023
1.97
2.097
0.03598
0.4609
0.29683
0.33439
0.27027
17
71
69
13
94
115


rs4986220
Imputed
T
ADD
383
1.437
0.1677
1.034
1.996
2.162
0.03065
0.3893
0.29243
0.33019
0.26563
17
71
71
12
95
117


rs525462
Imputed
A
GEN
382




9.552
0.00843
0.9148
0.6034
0.54088
0.64798
45
82
32
93
103
27


rs552006
Imputed
G
GEN
380




6.857
0.03243
0.3034
0.27237
0.31447
0.24208
16
68
75
8
91
122


rs5756669
Imputed
C
DOM
383
1.639
0.2271
1.05
2.558
2.175
0.02962
0.8346
0.42428
0.44654
0.40848
27
88
44
43
97
84


rs581905
Imputed
T
DOM
383
1.341
0.2854
0.7666
2.347
1.029
0.3036
0.7263
0.08094
0.09119
0.07366
1
27
131
2
29
193


rs6033138
Imputed
C
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6033138
Imputed
C
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040619
Imputed
C
ADD
374
1.432
0.1515
1.064
1.927
2.368
0.01789
0.1811
0.3623
0.41026
0.32798
27
74
55
28
87
103


rs6040619
Imputed
C
GEN
374




6.205
0.04493
0.1811
0.3623
0.41026
0.32798
27
74
55
28
87
103


rs6040625
Imputed
T
ADD
380
1.45
0.1506
1.079
1.947
2.466
0.01364
0.1459
0.35658
0.40705
0.32143
27
73
56
28
88
108


rs6040625
Imputed
T
GEN
380




6.611
0.03669
0.1459
0.35658
0.40705
0.32143
27
73
56
28
88
108


rs6040630
Imputed
A
ADD
383
1.444
0.1501
1.076
1.938
2.448
0.01435
0.1808
0.3564
0.40566
0.32143
27
75
57
28
88
108


rs6040630
Imputed
A
GEN
383




6.635
0.03624
0.1808
0.3564
0.40566
0.32143
27
75
57
28
88
108


rs6040633
Imputed
A
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040633
Imputed
A
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040634
Imputed
T
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040634
Imputed
T
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040636
Imputed
T
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040636
Imputed
T
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040638
Imputed
C
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040638
Imputed
C
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040644
Imputed
A
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040644
Imputed
A
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6040667
Imputed
T
ADD
381
1.419
0.1495
1.058
1.902
2.339
0.01935
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6040667
Imputed
T
GEN
381




6.102
0.04731
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6040668
Imputed
C
ADD
381
1.419
0.1495
1.058
1.902
2.339
0.01935
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6040668
Imputed
C
GEN
381




6.102
0.04731
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6053005
Imputed
C
DOM
283
0.3707
0.3223
0.1971
0.6972
−3.079
0.00207
0.3237
0.59717
0.52542
0.64848
37
50
31
68
78
19


rs6054405
Imputed
A
REC
379
1.796
0.3119
0.9747
3.31
1.878
0.0604
0.4419
0.36939
0.38854
0.35586
26
70
61
22
114
86


rs6054427
Genotyped
G
GEN
383




3.524
0.1717
0.1355
0.39687
0.43082
0.37277
28
81
50
25
117
82


rs6075186
Imputed
G
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs608278
Imputed
A
ADD
345
0.6427
0.1607
0.4691
0.8807
−2.751
0.00594
0.9142
0.48116
0.42414
0.5225
24
75
46
55
99
46


rs6111540
Imputed
A
ADD
347
0.7778
0.1612
0.5671
1.067
−1.558
0.1191
0.5914
0.48271
0.44178
0.51244
30
69
47
48
110
43


rs6131206
Imputed
C
ADD
380
1.462
0.1555
1.078
1.983
2.445
0.01449
0.1924
0.31447
0.36306
0.28027
22
70
65
21
83
119


rs6131208
Imputed
T
ADD
381
1.419
0.1495
1.058
1.902
2.339
0.01935
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6131208
Imputed
T
GEN
381




6.102
0.04731
0.09512
0.35696
0.40446
0.32366
27
73
57
29
87
108


rs6131919
Imputed
G
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs6134243
Imputed
C
ADD
383
1.429
0.1494
1.066
1.915
2.388
0.01695
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6134243
Imputed
C
GEN
383




6.537
0.03806
0.1203
0.3577
0.40566
0.32366
27
75
57
29
87
108


rs6136020
Imputed
A
DOM
383
0.6821
0.2397
0.4264
1.091
−1.596
0.1105
0.3197
0.15013
0.12579
0.16741
4
32
123
7
61
156


rs613799
Imputed
C
DOM
373
1.426
0.2134
0.9386
2.167
1.663
0.0963
0.4587
0.29759
0.32566
0.27828
16
67
69
20
83
118


rs644041
Imputed
G
ADD
349
1.523
0.1742
1.082
2.142
2.415
0.01575
0.5224
0.29799
0.35
0.26316
16
66
58
12
86
111


rs644041
Imputed
G
DOM
349
1.58
0.2213
1.024
2.438
2.067
0.03874
0.5224
0.29799
0.35
0.26316
16
66
58
12
86
111


rs6464377
Imputed
C
DOM
383
1.743
0.2989
0.9701
3.131
1.859
0.06309
1
0.0718
0.08805
0.06027
0
28
131
2
23
199


rs6474230
Imputed
T
DOM
383
1.832
0.2138
1.205
2.786
2.832
0.00463
0.4624
0.22454
0.28302
0.18304
14
62
83
8
66
150


rs6476565
Imputed
A
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs6511286
Imputed
T
ADD
382
1.657
0.1628
1.204
2.28
3.103
0.00192
0.9052
0.31021
0.37107
0.26682
22
74
63
14
91
118


rs6541829
Genotyped
C
REC
383
3.048
0.4236
1.329
6.991
2.631
0.00851
0.7014
0.27415
0.29874
0.2567
18
59
82
9
97
118


rs6544721
Imputed
G
DOM
383
1.782
0.2114
1.178
2.697
2.733
0.00628
0.7817
0.24413
0.29245
0.20982
12
69
78
12
70
142


rs6544728
Imputed
T
DOM
377
1.8
0.2171
1.177
2.755
2.709
0.00675
0.7509
0.20424
0.24522
0.175
6
65
86
8
61
151


rs6565910
Imputed
G
DOM
383
0.6325
0.2139
0.4159
0.9619
−2.141
0.03224
0.3965
0.23629
0.19811
0.26339
5
53
101
13
92
119


rs6581985
Imputed
G
GEN
383




5.059
0.07972
0.6393
0.32115
0.34277
0.3058
22
65
72
15
107
102


rs6581985
Imputed
G
REC
383
2.122
0.3548
1.058
4.253
2.12
0.03402
0.6393
0.32115
0.34277
0.3058
22
65
72
15
107
102


rs6685186
Imputed
T
ADD
383
1.364
0.1533
1.01
1.842
2.026
0.04275
0.9138
0.38251
0.42453
0.35268
27
81
51
28
102
94


rs6685186
Imputed
T
GEN
383




4.244
0.1198
0.9138
0.38251
0.42453
0.35268
27
81
51
28
102
94


rs670593
Imputed
A
REC
383
0.6178
0.2944
0.347
1.1
−1.636
0.1018
0.6696
0.39817
0.36478
0.42188
20
76
63
43
103
78


rs6722640
Imputed
T
DOM
382
0.5778
0.2162
0.3783
0.8827
−2.537
0.01117
0.5916
0.38874
0.35849
0.41031
25
64
70
30
123
70


rs6746170
Imputed
A
DOM
380
1.811
0.2168
1.184
2.77
2.739
0.00616
0.7506
0.20263
0.24367
0.17342
6
65
87
8
61
153


rs6757316
Imputed
A
GEN
380




5.94
0.05131
0.535
0.44737
0.49367
0.41441
37
82
39
42
100
80


rs6805139
Imputed
G
DOM
376
1.64
0.2386
1.028
2.618
2.074
0.03807
0.1787
0.47606
0.51613
0.44796
41
78
36
51
96
74


rs6808571
Imputed
G
ADD
378
1.439
0.2034
0.9658
2.143
1.789
0.07364
1
0.15741
0.18671
0.13636
6
47
105
3
54
163


rs6816479
Imputed
A
REC
383
2.214
0.2867
1.262
3.883
2.772
0.00557
0.8315
0.40078
0.45912
0.35938
35
76
48
25
111
88


rs6865976
Imputed
C
DOM
305
0.5474
0.2612
0.3281
0.9134
−2.307
0.02106
0.646
0.47377
0.42692
0.50857
25
61
44
41
96
38


rs687047
Imputed
C
ADD
383
0.7104
0.232
0.4509
1.119
−1.474
0.1405
0.8148
0.12272
0.10377
0.13616
2
29
128
4
53
167


rs6871041
Imputed
G
DOM
367
0.6093
0.2145
0.4002
0.9278
−2.31
0.02092
0.7102
0.29837
0.26144
0.32477
14
52
87
20
99
95


rs688358
Imputed
A
ADD
382
0.6857
0.2311
0.4359
1.079
−1.632
0.1026
0.4845
0.12304
0.10127
0.13839
2
28
128
5
52
167


rs6908481
Imputed
C
REC
375
1.848
0.262
1.106
3.088
2.344
0.01908
0.7545
0.45333
0.46452
0.44545
40
64
51
35
126
59


rs6917224
Imputed
A
ADD
382
1.351
0.1419
1.023
1.784
2.118
0.0342
0.02099
0.42408
0.47152
0.39063
43
63
52
37
101
86


rs6917224
Imputed
A
GEN
382




6.409
0.04058
0.02099
0.42408
0.47152
0.39063
43
63
52
37
101
86


rs6920677
Imputed
G
DOM
380
0.5128
0.2196
0.3335
0.7886
−3.041
0.00235
0.5212
0.39868
0.31847
0.45516
12
76
69
45
113
65


rs6994498
Imputed
G
DOM
383
1.832
0.2138
1.205
2.786
2.832
0.00463
0.4624
0.22454
0.28302
0.18304
14
62
83
8
66
150


rs6998772
Imputed
T
DOM
383
2.739
0.4524
1.128
6.647
2.227
0.02596
0.00643
0.03394
0.05031
0.02232
1
14
144
2
6
216


rs7022281
Imputed
C
ADD
382
0.7264
0.1589
0.532
0.9919
−2.011
0.04432
0.1999
0.39791
0.35849
0.42601
18
78
63
36
118
69


rs7022281
Imputed
C
GEN
382




4.073
0.1305
0.1999
0.39791
0.35849
0.42601
18
78
63
36
118
69


rs7022281
Imputed
C
REC
382
0.6555
0.3107
0.3565
1.205
−1.359
0.174
0.1999
0.39791
0.35849
0.42601
18
78
63
36
118
69


rs7043983
Imputed
T
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs7077799
Imputed
A
DOM
382
1.355
0.2098
0.8985
2.045
1.45
0.1471
0.4624
0.2945
0.31761
0.27803
16
69
74
20
84
119


rs7088947
Imputed
A
ADD
383
0.3545
0.3478
0.1793
0.7009
−2.982
0.00287
0.2394
0.06919
0.03774
0.09152
0
12
147
0
41
183


rs7089661
Imputed
C
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs7102072
Imputed
A
DOM
381
0.6088
0.2112
0.4024
0.9209
−2.35
0.01876
0.902
0.29265
0.25316
0.32063
12
56
90
21
101
101


rs710832
Genotyped
A
REC
383
0.2657
0.5623
0.08825
0.7997
−2.357
0.0184
0.5936
0.25849
0.24214
0.27009
4
69
86
19
83
122


rs712531
Imputed
A
DOM
371
1.787
0.2215
1.158
2.759
2.622
0.00874
0.0548
0.35445
0.40323
0.31944
19
87
49
19
100
97


rs7129817
Imputed
T
ADD
383
0.6903
0.1578
0.5066
0.9405
−2.348
0.01886
0.6497
0.34204
0.2956
0.375
15
64
80
32
104
88


rs7134262
Imputed
T
GEN
383




3.342
0.1881
0.3841
0.37728
0.40252
0.35938
27
74
58
23
115
86


rs7134262
Imputed
T
REC
383
1.737
0.3064
0.9527
3.167
1.802
0.07156
0.3841
0.37728
0.40252
0.35938
27
74
58
23
115
86


rs7138300
Imputed
C
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs7138300
Imputed
C
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs722927
Imputed
G
ADD
383
0.4322
0.319
0.2313
0.8077
−2.63
0.00855
0.7112
0.07572
0.04717
0.09598
0
15
144
1
41
182


rs722927
Imputed
G
DOM
383
0.433
0.3231
0.2299
0.8157
−2.59
0.00958
0.7112
0.07572
0.04717
0.09598
0
15
144
1
41
182


rs726424
Genotyped
G
ADD
383
0.7473
0.1542
0.5524
1.011
−1.889
0.05889
0.9144
0.38903
0.34906
0.41741
21
69
69
36
115
73


rs726424
Genotyped
G
GEN
383




4.55
0.1028
0.9144
0.38903
0.34906
0.41741
21
69
69
36
115
73


rs7295817
Imputed
C
ADD
381
0.7394
0.1533
0.5475
0.9985
−1.97
0.04885
0.9158
0.40551
0.36306
0.43527
22
70
65
40
115
69


rs7295817
Imputed
C
GEN
381




4.446
0.1083
0.9158
0.40551
0.36306
0.43527
22
70
65
40
115
69


rs7295817
Imputed
C
REC
381
0.747
0.2896
0.4235
1.318
−1.007
0.3139
0.9158
0.40551
0.36306
0.43527
22
70
65
40
115
69


rs7297372
Imputed
A
ADD
338
0.7506
0.1757
0.532
1.059
−1.633
0.1025
0.00146
0.53846
0.50368
0.56188
29
79
28
54
119
29


rs7297372
Imputed
A
GEN
338




2.895
0.2351
0.00146
0.53846
0.50368
0.56188
29
79
28
54
119
29


rs7298255
Imputed
A
ADD
382
0.7489
0.1551
0.5526
1.015
−1.864
0.06235
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs7298255
Imputed
A
DOM
382
0.571
0.2227
0.3691
0.8835
−2.516
0.01186
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs7305832
Imputed
C
GEN
383




3.342
0.1881
0.3841
0.37728
0.40252
0.35938
27
74
58
23
115
86


rs7305832
Imputed
C
REC
383
1.737
0.3064
0.9527
3.167
1.802
0.07156
0.3841
0.37728
0.40252
0.35938
27
74
58
23
115
86


rs737542
Imputed
A
REC
381
3.431
0.4396
1.45
8.122
2.804
0.00504
0.6064
0.27297
0.30063
0.25336
18
59
81
8
97
118


rs742827
Imputed
A
ADD
361
1.416
0.1525
1.05
1.91
2.282
0.02249
0.1122
0.36704
0.41391
0.33333
27
71
53
29
82
99


rs742827
Imputed
A
GEN
361




5.995
0.0499
0.1122
0.36704
0.41391
0.33333
27
71
53
29
82
99


rs7446891
Imputed
G
DOM
373
0.5964
0.2125
0.3932
0.9046
−2.432
0.01503
0.6302
0.31099
0.27419
0.33716
16
53
86
22
103
93


rs7448641
Imputed
C
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7448641
Imputed
C
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7460605
Imputed
G
DOM
361
1.533
0.2243
0.988
2.38
1.906
0.05662
0.2254
0.39474
0.42105
0.3756
26
76
50
36
85
88


rs7468898
Imputed
T
ADD
379
1.539
0.1544
1.137
2.083
2.791
0.00526
0.7518
0.42084
0.48089
0.37838
34
83
40
31
106
85


rs7468898
Imputed
T
GEN
379




7.907
0.01919
0.7518
0.42084
0.48089
0.37838
34
83
40
31
106
85


rs7501186
Imputed
A
DOM
383
1.277
0.2476
0.7859
2.074
0.9866
0.3238
0.8082
0.1201
0.13836
0.10714
4
36
119
2
44
178


rs755117
Imputed
A
DOM
375
1.758
0.223
1.135
2.722
2.53
0.01142
0.8628
0.18267
0.22436
0.15297
7
56
93
6
55
158


rs7557560
Imputed
T
GEN
383




10.8
0.00451
0.08079
0.20104
0.24528
0.16964
17
44
98
4
68
152


rs7557560
Imputed
T
REC
383
6.446
0.567
2.122
19.58
3.286
0.00102
0.08079
0.20104
0.24528
0.16964
17
44
98
4
68
152


rs7562462
Imputed
T
DOM
380
1.588
0.2435
0.9851
2.559
1.898
0.05765
0.2578
0.46974
0.50316
0.44595
35
89
34
43
112
67


rs757173
Genotyped
G
DOM
383
0.683
0.2133
0.4496
1.038
−1.787
0.0739
0.8284
0.3812
0.34906
0.40402
22
67
70
35
111
78


rs7607447
Imputed
T
REC
332
1.964
0.3733
0.9451
4.083
1.809
0.0705
0.8998
0.31928
0.34173
0.30311
19
57
63
14
89
90


rs7639053
Imputed
A
ADD
383
1.6
0.1803
1.124
2.278
2.608
0.00912
0.3899
0.22977
0.27673
0.19643
11
66
82
6
76
142


rs7648163
Imputed
C
REC
358
2.989
0.3458
1.518
5.886
3.166
0.00154
0.816
0.34916
0.39333
0.31731
27
64
59
15
102
91


rs7651273
Imputed
A
GEN
383




3.158
0.2061
0.4152
0.19452
0.21384
0.1808
11
46
102
6
69
149


rs7653190
Imputed
C
ADD
382
1.616
0.1806
1.134
2.302
2.658
0.00786
0.3892
0.23037
0.27848
0.19643
11
66
81
6
76
142


rs7653685
Genotyped
C
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.758
0.09269
0.12893
0.06696
0
41
118
2
26
196


rs7684899
Imputed
C
DOM
383
0.6667
0.216
0.4366
1.018
−1.877
0.06051
0.7691
0.22324
0.20126
0.23884
10
44
105
10
87
127


rs7701604
Imputed
G
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7701604
Imputed
G
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7703676
Imputed
C
ADD
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7703676
Imputed
C
DOM
383
0.235
0.778
0.05116
1.08
−1.861
0.0627
1
0.01697
0.00629
0.02455
0
2
157
0
11
213


rs7711358
Imputed
A
DOM
383
0.6113
0.2097
0.4053
0.9221
−2.347
0.01893
0.4104
0.31723
0.28302
0.34152
18
54
87
24
105
95


rs7713251
Imputed
C
REC
367
2.559
0.3384
1.319
4.968
2.777
0.00548
0.7295
0.34605
0.38816
0.31628
26
66
60
16
104
95


rs7737608
Imputed
G
DOM
382
1.5
0.2234
0.9683
2.324
1.816
0.06938
0.6005
0.41754
0.4462
0.39732
29
83
46
40
98
86


rs7755903
Imputed
A
GEN
382




9.733
0.0077
1
0.42539
0.36478
0.46861
17
82
60
52
105
66


rs7762993
Imputed
A
ADD
378
1.373
0.1976
0.9323
2.023
1.605
0.1084
0.2987
0.18122
0.20701
0.1629
3
59
95
6
60
155


rs7762993
Imputed
A
DOM
378
1.537
0.2206
0.9974
2.368
1.948
0.0514
0.2987
0.18122
0.20701
0.1629
3
59
95
6
60
155


rs7767265
Imputed
G
DOM
382
1.53
0.2141
1.005
2.327
1.985
0.04716
0.453
0.21859
0.24843
0.19731
9
61
89
12
64
147


rs7769415
Imputed
C
GEN
376




3.721
0.1556
0.9073
0.32846
0.34295
0.31818
22
63
71
19
102
99


rs7771264
Imputed
T
DOM
383
0.5507
0.2147
0.3616
0.8388
−2.779
0.00546
0.3404
0.25065
0.21384
0.27679
9
50
100
11
102
111


rs7795792
Imputed
T
REC
383
0.4161
0.2795
0.2406
0.7196
−3.137
0.00171
0.6078
0.46867
0.39937
0.51786
21
85
53
60
112
52


rs7806481
Imputed
G
REC
383
0.628
0.2629
0.3751
1.051
−1.77
0.0768
0.47
0.4517
0.43082
0.46652
27
83
49
55
99
70


rs7808536
Imputed
G
DOM
383
1.952
0.2193
1.27
3
3.05
0.00229
1
0.19191
0.23899
0.15848
7
62
90
7
57
160


rs7814819
Imputed
G
ADD
225
1.743
0.3691
0.8454
3.593
1.505
0.1324
1
0.07333
0.09551
0.05882
0
17
72
1
14
121


rs7814819
Imputed
G
DOM
225
1.939
0.386
0.9098
4.131
1.715
0.08632
1
0.07333
0.09551
0.05882
0
17
72
1
14
121


rs7815952
Imputed
T
DOM
383
2.739
0.4524
1.128
6.647
2.227
0.02596
0.00643
0.03394
0.05031
0.02232
1
14
144
2
6
216


rs7834090
Imputed
T
DOM
383
2.739
0.4524
1.128
6.647
2.227
0.02596
0.00643
0.03394
0.05031
0.02232
1
14
144
2
6
216


rs7859250
Imputed
C
DOM
383
0.4711
0.3006
0.2614
0.8493
−2.503
0.0123
0.2271
0.09138
0.06289
0.11161
2
16
141
3
44
177


rs7863577
Genotyped
A
ADD
383
0.5916
0.2865
0.3374
1.037
−1.832
0.06689
0.7318
0.08225
0.05975
0.09821
1
17
141
2
40
182


rs7863577
Genotyped
A
DOM
383
0.5571
0.3041
0.307
1.011
−1.924
0.0544
0.7318
0.08225
0.05975
0.09821
1
17
141
2
40
182


rs7902140
Imputed
C
ADD
378
0.622
0.2115
0.4109
0.9414
−2.245
0.02475
0.5866
0.16931
0.13226
0.19507
3
35
117
6
75
142


rs7921834
Imputed
C
DOM
382
1.351
0.2099
0.8952
2.038
1.432
0.152
0.4588
0.29319
0.31646
0.27679
16
68
74
20
84
120


rs7939893
Imputed
C
ADD
382
0.8314
0.1592
0.6085
1.136
−1.16
0.2462
0.4351
0.3534
0.33333
0.36771
20
66
73
24
116
83


rs7939893
Imputed
C
DOM
382
0.6782
0.2127
0.447
1.029
−1.826
0.0679
0.4351
0.3534
0.33333
0.36771
20
66
73
24
116
83


rs7955901
Imputed
C
ADD
383
0.7632
0.1542
0.5641
1.032
−1.753
0.07966
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs7955901
Imputed
C
DOM
383
0.5772
0.2224
0.3733
0.8926
−2.471
0.01349
0.6
0.41775
0.37736
0.44643
26
68
65
38
124
62


rs7956274
Imputed
T
ADD
382
0.7489
0.1551
0.5526
1.015
−1.864
0.06235
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs7956274
Imputed
T
DOM
382
0.571
0.2227
0.3691
0.8835
−2.516
0.01186
0.5292
0.41623
0.37342
0.44643
25
68
65
38
124
62


rs7957932
Imputed
G
ADD
380
0.7622
0.1541
0.5635
1.031
−1.762
0.07806
0.6008
0.42895
0.38854
0.4574
27
68
62
40
124
59


rs7957932
Imputed
G
DOM
380
0.5724
0.2251
0.3682
0.8898
−2.479
0.01319
0.6008
0.42895
0.38854
0.4574
27
68
62
40
124
59


rs7984294
Imputed
A
DOM
341
1.992
0.4122
0.888
4.468
1.672
0.09458
1
0.03959
0.05594
0.02778
0
16
127
0
11
187


rs7994286
Imputed
A
ADD
377
0.5714
0.2665
0.3389
0.9633
−2.1
0.03571
0.7705
0.09814
0.07006
0.11818
1
20
136
3
46
171


rs7994286
Imputed
A
DOM
377
0.5491
0.2859
0.3135
0.9616
−2.097
0.03601
0.7705
0.09814
0.07006
0.11818
1
20
136
3
46
171


rs8038229
Genotyped
A
ADD
383
0.6055
0.165
0.4381
0.8367
−3.04
0.00237
0.3986
0.30418
0.24528
0.34598
11
56
92
28
99
97


rs8038229
Genotyped
A
DOM
383
0.534
0.2122
0.3523
0.8093
−2.957
0.0031
0.3986
0.30418
0.24528
0.34598
11
56
92
28
99
97


rs8043336
Imputed
C
GEN
370




8.202
0.01656
0.3028
0.34865
0.2987
0.38426
9
74
71
31
104
81


rs8043336
Imputed
C
REC
370
0.3477
0.3977
0.1595
0.758
−2.657
0.00789
0.3028
0.34865
0.2987
0.38426
9
74
71
31
104
81


rs8054431
Imputed
T
DOM
372
2.022
0.2234
1.305
3.133
3.153
0.00162
0.3127
0.3629
0.42308
0.31944
22
88
46
22
94
100


rs8066502
Imputed
T
DOM
383
0.6823
0.229
0.4356
1.069
−1.669
0.09506
0.8575
0.17232
0.15094
0.1875
6
36
117
6
72
146


rs8068714
Imputed
T
DOM
383
0.7037
0.2279
0.4502
1.1
−1.542
0.1231
0.8589
0.17363
0.15409
0.1875
6
37
116
6
72
146


rs892575
Imputed
T
ADD
383
1.417
0.1666
1.022
1.964
2.092
0.03642
0.4618
0.29634
0.33333
0.27009
17
72
70
13
95
116


rs892583
Imputed
G
ADD
383
1.437
0.1677
1.034
1.996
2.162
0.03065
0.3893
0.29243
0.33019
0.26563
17
71
71
12
95
117


rs915494
Imputed
A
ADD
374
1.204
0.1605
0.8791
1.649
1.157
0.2474
0.3776
0.28877
0.31046
0.27376
16
63
74
19
83
119


rs915494
Imputed
A
DOM
374
1.279
0.2121
0.8439
1.938
1.16
0.2462
0.3776
0.28877
0.31046
0.27376
16
63
74
19
83
119


rs917295
Imputed
G
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs922594
Imputed
T
DOM
375
0.5825
0.2147
0.3824
0.8872
−2.518
0.01181
0.4237
0.34133
0.3
0.37045
15
63
77
25
113
82


rs9301653
Imputed
T
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs9301653
Imputed
T
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs9309988
Imputed
G
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.758
0.09269
0.12893
0.06696
0
41
118
2
26
196


rs9309989
Genotyped
C
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.758
0.09269
0.12893
0.06696
0
41
118
2
26
196


rs9310221
Imputed
A
DOM
352
1.531
0.2314
0.9727
2.41
1.84
0.06574
0.7387
0.39915
0.40972
0.39183
17
84
43
37
89
82


rs9327555
Imputed
T
DOM
383
0.6021
0.2099
0.3991
0.9085
−2.417
0.01564
0.7244
0.31984
0.28302
0.34598
17
56
86
24
107
93


rs937890
Imputed
G
DOM
383
0.7037
0.2279
0.4502
1.1
−1.542
0.1231
0.8589
0.17363
0.15409
0.1875
6
37
116
6
72
146


rs9454967
Imputed
G
ADD
382
2.387
0.3056
1.311
4.345
2.847
0.00442
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs9454967
Imputed
G
DOM
382
2.904
0.3322
1.514
5.569
3.209
0.00133
0.1765
0.06283
0.09494
0.04018
1
28
129
2
14
208


rs9471295
Imputed
T
DOM
383
1.488
0.2326
0.9435
2.348
1.71
0.08731
0.5442
0.14883
0.16667
0.13616
2
49
108
8
45
171


rs9477007
Imputed
A
ADD
380
1.357
0.1432
1.025
1.797
2.132
0.03298
0.04681
0.42763
0.47484
0.39367
42
67
50
37
100
84


rs9477007
Imputed
A
GEN
380




5.531
0.06295
0.04681
0.42763
0.47484
0.39367
42
67
50
37
100
84


rs9487279
Imputed
T
DOM
366
0.5667
0.2254
0.3643
0.8814
−2.52
0.01173
0.1024
0.40164
0.33882
0.44626
13
77
62
38
115
61


rs949016
Imputed
C
ADD
383
1.437
0.1677
1.034
1.996
2.162
0.03065
0.3893
0.29243
0.33019
0.26563
17
71
71
12
95
117


rs9555973
Imputed
G
ADD
379
0.5702
0.2704
0.3356
0.9686
−2.078
0.03773
0.7618
0.09499
0.06731
0.11435
1
19
136
3
45
175


rs9555973
Imputed
G
DOM
379
0.5463
0.2905
0.3091
0.9655
−2.081
0.03744
0.7618
0.09499
0.06731
0.11435
1
19
136
3
45
175


rs9557510
Imputed
G
ADD
383
1.582
0.1986
1.072
2.334
2.308
0.02098
0.2295
0.15144
0.18868
0.125
6
48
105
6
44
174


rs9557510
Imputed
G
DOM
383
1.775
0.2327
1.125
2.801
2.466
0.01365
0.2295
0.15144
0.18868
0.125
6
48
105
6
44
174


rs9560584
Imputed
T
DOM
382
0.5572
0.2856
0.3184
0.9752
−2.048
0.04058
0.7684
0.09686
0.06962
0.11607
1
20
137
3
46
175


rs9588770
Imputed
T
DOM
381
0.497
0.2943
0.2792
0.8849
−2.376
0.01752
0.7612
0.09449
0.06329
0.11659
1
18
139
3
46
174


rs9588848
Imputed
C
ADD
383
0.5758
0.2661
0.3418
0.97
−2.074
0.03805
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs9588848
Imputed
C
DOM
383
0.554
0.2856
0.3166
0.9696
−2.068
0.03864
0.7681
0.09661
0.06918
0.11607
1
20
138
3
46
175


rs966583
Imputed
A
ADD
382
0.7239
0.1599
0.5291
0.9903
−2.021
0.04332
0.1993
0.39398
0.34906
0.42601
19
73
67
34
122
67


rs966583
Imputed
A
DOM
382
0.6175
0.2202
0.4011
0.9507
−2.189
0.02856
0.1993
0.39398
0.34906
0.42601
19
73
67
34
122
67


rs974130
Genotyped
A
REC
383
2.214
0.2867
1.262
3.883
2.772
0.00557
0.8315
0.40078
0.45912
0.35938
35
76
48
25
111
88


rs977160
Imputed
T
ADD
382
1.378
0.1666
0.9945
1.911
1.927
0.05403
0.7069
0.28403
0.31761
0.26009
17
67
75
12
92
119


rs9812206
Imputed
G
ADD
383
0.3883
0.2849
0.2221
0.6787
−3.321
0.0009
0.7825
0.10183
0.05975
0.1317
0
19
140
3
53
168


rs9812206
Imputed
G
DOM
383
0.3876
0.2917
0.2188
0.6867
−3.248
0.00116
0.7825
0.10183
0.05975
0.1317
0
19
140
3
53
168


rs9813552
Imputed
G
ADD
379
0.3826
0.2913
0.2162
0.6772
−3.298
0.00097
1
0.09894
0.05732
0.12838
0
18
139
3
51
168


rs9813552
Imputed
G
DOM
379
0.3816
0.2983
0.2127
0.6847
−3.23
0.00124
1
0.09894
0.05732
0.12838
0
18
139
3
51
168


rs9815037
Imputed
T
ADD
382
0.3819
0.2906
0.2161
0.675
−3.313
0.00092
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9815037
Imputed
T
DOM
382
0.3809
0.2976
0.2125
0.6825
−3.243
0.00118
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9825349
Imputed
A
ADD
382
0.3819
0.2906
0.2161
0.675
−3.313
0.00092
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9825349
Imputed
A
DOM
382
0.3809
0.2976
0.2125
0.6825
−3.243
0.00118
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9834217
Imputed
T
ADD
382
0.3819
0.2906
0.2161
0.675
−3.313
0.00092
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9834217
Imputed
T
DOM
382
0.3809
0.2976
0.2125
0.6825
−3.243
0.00118
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9840460
Imputed
T
ADD
382
0.3819
0.2906
0.2161
0.675
−3.313
0.00092
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9840460
Imputed
T
DOM
382
0.3809
0.2976
0.2125
0.6825
−3.243
0.00118
1
0.09817
0.0566
0.1278
0
18
141
3
51
169


rs9840756
Imputed
A
ADD
380
0.3808
0.291
0.2153
0.6737
−3.317
0.00091
1
0.09868
0.05696
0.12838
0
18
140
3
51
168


rs9840756
Imputed
A
DOM
380
0.3798
0.298
0.2118
0.681
−3.249
0.00116
1
0.09868
0.05696
0.12838
0
18
140
3
51
168


rs9844801
Imputed
C
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs985375
Imputed
A
GEN
374




5.977
0.05036
0.5979
0.26471
0.30844
0.23409
15
65
74
9
85
126


rs9869187
Imputed
C
ADD
383
0.4258
0.2859
0.2431
0.7458
−2.986
0.00283
1
0.09661
0.05975
0.12277
0
19
140
3
49
172


rs9869187
Imputed
C
DOM
383
0.4271
0.294
0.24
0.7599
−2.894
0.0038
1
0.09661
0.05975
0.12277
0
19
140
3
49
172


rs9872327
Imputed
T
DOM
383
2.42
0.2725
1.419
4.128
3.244
0.00118
0.3464
0.09138
0.12893
0.06473
0
41
118
1
27
196


rs9881685
Imputed
A
ADD
379
0.377
0.2935
0.2121
0.6701
−3.324
0.00089
0.5599
0.09894
0.05769
0.1278
0
18
138
2
53
168


rs9881685
Imputed
A
DOM
379
0.3761
0.298
0.2098
0.6745
−3.282
0.00103
0.5599
0.09894
0.05769
0.1278
0
18
138
2
53
168


rs9909499
Imputed
C
DOM
362
1.559
0.2159
1.021
2.381
2.058
0.03962
0.08453
0.2721
0.29801
0.25355
7
76
68
13
81
117


rs9911847
Imputed
G
DOM
382
0.6877
0.2291
0.4389
1.078
−1.634
0.1023
0.8576
0.17277
0.1519
0.1875
6
36
116
6
72
146


rs9946886
Imputed
G
REC
156
0.3262
0.5121
0.1196
0.8902
−2.187
0.02873
0.3882
0.36218
0.29452
0.42169
6
31
36
17
36
30


rs9958823
Imputed
A
ADD
377
1.444
0.1687
1.038
2.01
2.179
0.02933
0.3868
0.29576
0.33439
0.26818
17
71
69
12
94
114


rs9965248
Imputed
T
ADD
379
1.399
0.167
1.009
1.941
2.011
0.04433
0.537
0.29551
0.33121
0.27027
17
70
70
13
94
115




































TABLE 11


















ATOR-
PRA-
ATOR-

ATOR-
PRA-

PRA-















VA_
VA_
VA_
ATOR-
VA_
VA_
PRA-
VA_




ALL-








HW_
ALL-
ALL-
ALL-
A1_
VA_
A2_
A1_
VA_
A2_




ELE
MOD-
N-






PVA
ELE_
ELE_
ELE_
HZ_
HET_
HZ
HZ_
HET_
HZ_


SNP rs #
SOURCE
(A1)
EL
MISS
OR
SE
L95
U95
STAT
P
LUE
FREQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT



































rs198460
Genotyped
G
REC
443
1.956
0.2218
1.267
3.021
3.026
0.00248
1
0.51129
0.56021
0.47421
64
86
41
52
135
65


rs603940
Genotyped
G
REC
443
0.3862
0.3119
0.2095
0.7117
−3.05
0.00229
0.9214
0.39955
0.37958
0.41468
19
107
65
51
107
94


rs10021016
Genotyped
G
GEN
443




6.477
0.03922
0.7144
0.26298
0.29843
0.23611
20
74
97
12
95
145


rs1003148
Imputed
C
ADD
427
0.7405
0.1452
0.5572
0.9843
−2.069
0.03853
0.9214
0.42974
0.38798
0.46107
23
96
64
55
115
74


rs1003148
Imputed
C
GEN
427




6.652
0.03594
0.9214
0.42974
0.38798
0.46107
23
96
64
55
115
74


rs1003148
Imputed
C
REC
427
0.4879
0.2786
0.2826
0.8423
−2.576
0.01
0.9214
0.42974
0.38798
0.46107
23
96
64
55
115
74


rs10046799
Imputed
C
ADD
440
0.7946
0.1374
0.607
1.04
−1.672
0.09444
0.4976
0.5625
0.5291
0.58765
61
78
50
82
131
38


rs10046799
Imputed
C
GEN
440




9.736
0.00769
0.4976
0.5625
0.5291
0.58765
61
78
50
82
131
38


rs10051148
Imputed
C
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187
0.8242
0.30813
0.2801
0.32937
20
67
104
23
120
109


rs10054055
Imputed
T
DOM
440
0.5872
0.2006
0.3963
0.8702
−2.653
0.00797
0.3313
0.32841
0.29365
0.35458
23
65
101
29
120
102


rs10067895
Imputed
A
DOM
440
0.577
0.2025
0.388
0.8581
−2.716
0.00661
0.07522
0.34886
0.31316
0.376
27
65
98
35
118
97


rs1008705
Imputed
C
DOM
353
2.01
0.2249
1.294
3.124
3.106
0.0019
0.6981
0.28895
0.32667
0.26108
11
76
63
20
66
117


rs10105871
Imputed
C
DOM
382
1.492
0.219
0.9712
2.291
1.827
0.06776
0.1311
0.38351
0.41212
0.36175
22
92
51
27
103
87


rs10116807
Imputed
A
GEN
436




7.758
0.02068
0.8866
0.21216
0.25263
0.18089
13
70
107
7
75
164


rs10116807
Imputed
A
REC
436
2.869
0.4949
1.087
7.568
2.129
0.03322
0.8866
0.21216
0.25263
0.18089
13
70
107
7
75
164


rs10121941
Imputed
C
DOM
443
1.177
0.2597
0.7077
1.959
6.29E−01
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs10128638
Genotyped
G
DOM
443
0.6667
0.2297
0.425
1.046
−1.765
0.07748
1
0.52483
0.49738
0.54563
50
90
51
72
131
49


rs1012924
Imputed
G
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs1012924
Imputed
G
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs1016030
Genotyped
G
ADD
442
1.159
0.1474
0.8678
1.547
0.9985
0.318
1
0.36425
0.3822
0.3506
27
92
72
31
114
106


rs1016030
Genotyped
G
GEN
442




1.088
0.5805
1
0.36425
0.3822
0.3506
27
92
72
31
114
106


rs1017558
Imputed
A
REC
430
0.7905
0.293
0.4452
1.404
−0.8024
0.4223
0.3984
0.35349
0.32787
0.37247
22
76
85
36
112
99


rs10183431
Imputed
T
DOM
438
1.231
0.1969
0.8366
1.81
1.054
0.292
0.4508
0.25342
0.26064
0.248
11
76
101
20
84
146


rs10195401
Imputed
C
DOM
440
1.047
0.206
0.6991
1.568
0.2228
0.8237
0.112
0.4
0.40263
0.398
27
99
64
35
129
86


rs10239416
Imputed
A
DOM
431
1.361
0.2052
0.9105
2.035
1.503
0.1328
0.8386
0.38399
0.41444
0.36066
31
93
63
31
114
99


rs1032188
Imputed
G
GEN
443




6.472
0.03932
0.5638
0.29007
0.27225
0.30357
10
84
97
30
93
129


rs1032188
Imputed
G
REC
443
0.3936
0.3872
0.1843
0.8406
−2.408
0.01603
0.5638
0.29007
0.27225
0.30357
10
84
97
30
93
129


rs10468988
Imputed
G
ADD
438
1.083
0.1637
0.7858
1.493
0.4879
0.6256
0.7885
0.23174
0.23947
0.22581
9
73
108
13
86
149


rs10478919
Imputed
G
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs10506623
Imputed
C
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051
0.6908
0.3948
0.36316
0.41865
26
86
78
45
121
86


rs10506626
Imputed
A
DOM
443
0.6807
0.2015
0.4586
1.01
−1.909
0.05621
0.5504
0.39391
0.35602
0.42262
26
84
81
46
121
85


rs10509477
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131
0.1655
0.33409
0.36911
0.30754
29
83
79
27
101
124


rs10511071
Imputed
C
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs10511072
Imputed
G
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs10511199
Imputed
C
ADD
442
1.021
0.1625
0.7424
1.404
0.1273
0.8987
0.8924
0.22624
0.22895
0.22421
10
67
113
13
87
152


rs10513283
Imputed
G
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs10520072
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs1065639
Imputed
C
DOM
209
2.955
1.237
0.2613
33.41
0.8755
0.3813
1
0.00718
0.01111
0.0042
0
2
88
0
1
118


rs10733846
Imputed
G
ADD
435
0.8325
0.1945
0.5686
1.219
−0.9428
0.3458
0.4814
0.16207
0.14706
0.17339
5
45
137
4
78
166


rs10733846
Imputed
G
DOM
435
0.7557
0.2153
0.4955
1.152
−1.301
0.1933
0.4814
0.16207
0.14706
0.17339
5
45
137
4
78
166


rs10737390
Imputed
T
DOM
418
1.128
0.213
0.7431
1.712
0.5659
0.5715
0.3626
0.40909
0.41899
0.40167
30
90
59
35
122
82


rs10749293
Imputed
G
DOM
441
1.442
0.1947
0.9847
2.113
1.881
0.05998
0.1901
0.322
0.35789
0.29482
26
84
80
26
96
129


rs10752159
Imputed
G
DOM
442
1.434
0.2005
0.968
2.124
1.798
0.07223
0.5658
0.20814
0.22513
0.19522
7
72
112
14
70
167


rs10753760
Imputed
T
ADD
423
0.9252
0.1361
0.7085
1.208
−0.5713
0.5678
0.01675
0.41844
0.41081
0.42437
36
80
69
50
102
86


rs10753760
Imputed
T
GEN
423




0.3766
0.8284
0.01675
0.41844
0.41081
0.42437
36
80
69
50
102
86


rs10757887
Imputed
C
DOM
443
1.073
0.1955
0.7315
1.574
0.3608
0.7182
0.05609
0.2754
0.28272
0.26984
19
70
102
23
90
139


rs10758326
Imputed
A
ADD
440
0.6884
0.1481
0.515
0.9203
−2.521
0.01172
0.5467
0.38523
0.34211
0.418
16
98
76
46
117
87


rs10758326
Imputed
A
GEN
440




9.42
0.009
0.5467
0.38523
0.34211
0.418
16
98
76
46
117
87


rs10758326
Imputed
A
REC
440
0.3854
0.3129
0.2087
0.7116
−3.047
0.00231
0.5467
0.38523
0.34211
0.418
16
98
76
46
117
87


rs10762236
Genotyped
G
ADD
443
0.93
0.1858
0.6461
1.339
−0.3906
0.6961
0.5219
0.18172
0.17539
0.18651
7
53
131
5
84
163


rs10765769
Imputed
C
ADD
441
1.226
0.1457
0.9215
1.631
1.399
0.1618
0.8413
0.38776
0.4127
0.36905
31
94
64
34
118
100


rs10765769
Imputed
C
GEN
441




2.026
0.3632
0.8413
0.38776
0.4127
0.36905
31
94
64
34
118
100


rs10784891
Imputed
C
ADD
422
0.7472
0.1404
0.5675
0.9839
−2.076
0.03794
0.4305
0.4455
0.40489
0.47689
30
89
65
58
111
69


rs10784891
Imputed
C
DOM
422
0.7374
0.2125
0.4862
1.118
−1.433
0.1518
0.4305
0.4455
0.40489
0.47689
30
89
65
58
111
69


rs10787923
Imputed
G
DOM
439
1.448
0.1952
0.9878
2.123
1.897
0.05785
0.1572
0.32232
0.35904
0.29482
26
83
79
26
96
129


rs10787949
Imputed
A
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272
0.1377
0.33937
0.37173
0.31474
29
84
78
29
100
122


rs10787951
Imputed
G
DOM
441
1.349
0.1976
0.9157
1.987
1.514
0.1299
0.1364
0.339
0.37105
0.31474
29
83
78
29
100
122


rs10787983
Imputed
C
DOM
441
1.351
0.1964
0.9194
1.986
1.532
0.1255
0.1642
0.33447
0.36911
0.308
29
83
79
27
100
123


rs10788380
Imputed
C
ADD
438
1.318
0.1398
1.002
1.733
1.973
0.04851
0.9239
0.49658
0.53723
0.466
51
100
37
56
121
73


rs10788380
Imputed
C
DOM
438
1.663
0.2322
1.055
2.621
2.191
0.02847
0.9239
0.49658
0.53723
0.466
51
100
37
56
121
73


rs10788380
Imputed
C
GEN
438




4.897
0.08641
0.9239
0.49658
0.53723
0.466
51
100
37
56
121
73


rs10814418
Imputed
G
DOM
442
1.184
0.2598
0.7118
1.97
0.6512
0.5149
0.7613
0.0871
0.09474
0.08135
2
32
156
2
37
213


rs10831417
Imputed
A
ADD
443
1.151
0.1492
0.8595
1.543
0.9453
0.3445
0.6065
0.35779
0.37435
0.34524
25
93
73
29
116
107


rs10831417
Imputed
A
GEN
443




0.969
0.616
0.6065
0.35779
0.37435
0.34524
25
93
73
29
116
107


rs10831422
Imputed
C
ADD
441
1.164
0.1481
0.871
1.557
1.028
0.304
0.918
0.36281
0.38095
0.34921
27
90
72
30
116
106


rs10831422
Imputed
C
GEN
441




1.057
0.5895
0.918
0.36281
0.38095
0.34921
27
90
72
30
116
106


rs10862931
Imputed
C
GEN
439




6.025
0.04917
0.8337
0.34966
0.38158
0.3253
32
81
77
23
116
110


rs10865197
Imputed
C
DOM
438
1.231
0.1969
0.8366
1.81
1.054
0.292
0.4508
0.25342
0.26064
0.248
11
76
101
20
84
146


rs10871302
Imputed
A
DOM
443
2.011
0.2218
1.302
3.107
3.15
0.00163
0.4471
0.14447
0.17801
0.11905
3
62
126
8
44
200


rs10877463
Imputed
C
DOM
443
0.5826
0.1985
0.3948
0.8597
−2.722
0.0065
0.6802
0.36005
0.31675
0.39286
21
79
91
34
130
88


rs10877468
Imputed
C
DOM
442
0.5848
0.1985
0.3963
0.8629
−2.703
0.00688
0.6808
0.35973
0.31675
0.39243
21
79
91
34
129
88


rs10879240
Imputed
C
ADD
428
0.7296
0.1403
0.5542
0.9605
−2.247
0.02462
0.434
0.44743
0.40426
0.48125
30
92
66
60
111
69


rs10879242
Imputed
A
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001
0.9197
0.40855
0.37297
0.43644
26
86
73
45
116
75


rs10879245
Imputed
G
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001
0.9197
0.40855
0.37297
0.43644
26
86
73
45
116
75


rs10879249
Imputed
T
DOM
440
0.7247
0.2038
0.486
1.081
−1.58
0.1141
0.7662
0.39773
0.36579
0.422
26
87
77
45
121
84


rs10886452
Imputed
A
DOM
440
1.376
0.1972
0.9349
2.025
1.619
0.1055
0.1648
0.33523
0.37368
0.306
30
82
78
26
101
123


rs10886463
Imputed
C
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272
0.1118
0.3405
0.37435
0.31474
30
83
78
29
100
122


rs10886465
Imputed
A
DOM
441
1.355
0.1976
0.9197
1.995
1.536
0.1245
0.1364
0.339
0.37435
0.312
30
83
78
28
100
122


rs10886526
Imputed
C
DOM
439
1.364
0.197
0.9275
2.007
1.578
0.1146
0.2383
0.33257
0.36772
0.306
28
83
78
26
101
123


rs10902437
Imputed
G
ADD
393
1.494
0.1583
1.095
2.037
2.534
0.01127
0.6725
0.39186
0.43558
0.36087
34
74
55
24
118
88


rs10941126
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs10941126
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs10947871
Imputed
A
DOM
391
2.143
0.2487
1.316
3.49
3.065
0.00218
1
0.11893
0.15805
0.08756
3
49
122
2
34
181


rs10972978
Imputed
G
DOM
437
1.24
0.2619
0.7423
2.072
0.8222
0.4109
0.5546
0.08696
0.09626
0.08
2
32
153
2
36
212


rs10973012
Imputed
A
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs10974028
Genotyped
G
ADD
443
1.203
0.1904
0.8287
1.748
0.9728
0.3306
0.726
0.16027
0.17277
0.15079
5
56
130
5
66
181


rs10974028
Genotyped
G
DOM
443
1.224
0.2126
0.807
1.857
0.9516
0.3413
0.726
0.16027
0.17277
0.15079
5
56
130
5
66
181


rs11021302
Imputed
A
ADD
441
1.164
0.1481
0.871
1.557
1.028
0.304
0.918
0.36281
0.38095
0.34921
27
90
72
30
116
106


rs11021302
Imputed
A
GEN
441




1.057
0.5895
0.918
0.36281
0.38095
0.34921
27
90
72
30
116
106


rs11099644
Imputed
G
REC
430
0.7905
0.293
0.4452
1.404
−0.8024
0.4223
0.3984
0.35349
0.32787
0.37247
22
76
85
36
112
99


rs11138315
Imputed
G
ADD
443
0.5453
0.2248
0.351
0.8473
−2.697
0.00699
0.2265
0.13544
0.10209
0.16071
2
35
154
9
63
180


rs11149802
Imputed
T
DOM
443
2.011
0.2218
1.302
3.107
3.15
0.00163
0.4471
0.14447
0.17801
0.11905
3
62
126
8
44
200


rs1116596
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs11178531
Imputed
A
ADD
439
0.7197
0.1371
0.5501
0.9416
−2.399
0.01643
0.3881
0.46811
0.42105
0.50402
34
92
64
67
117
65


rs11178531
Imputed
A
DOM
439
0.6936
0.2116
0.4581
1.05
−1.729
0.08386
0.3881
0.46811
0.42105
0.50402
34
92
64
67
117
65


rs11178575
Imputed
C
GEN
441




8.684
0.01301
0.3129
0.30385
0.3534
0.266
22
91
78
14
105
131


rs11178575
Imputed
C
REC
441
2.252
0.3587
1.115
4.549
2.263
0.02362
0.3129
0.30385
0.3534
0.266
22
91
78
14
105
131


rs11178577
Imputed
T
GEN
439




8.67
0.0131
0.2621
0.30752
0.35789
0.26908
22
92
76
14
106
129


rs11178577
Imputed
T
REC
439
2.243
0.3588
1.11
4.532
2.252
0.02435
0.2621
0.30752
0.35789
0.26908
22
92
76
14
106
129


rs11178583
Imputed
A
DOM
443
0.7338
0.2032
0.4927
1.093
−1.523
0.1277
0.6922
0.39503
0.36387
0.41865
26
87
78
45
121
86


rs11178589
Imputed
T
DOM
437
0.7215
0.2047
0.4831
1.078
−1.595
0.1108
0.8419
0.39931
0.36579
0.4251
26
87
77
45
120
82


rs11178594
Imputed
C
DOM
441
0.7044
0.202
0.4741
1.046
−1.735
0.08274
1
0.40249
0.36842
0.42829
26
88
76
45
125
81


rs11178602
Imputed
T
DOM
439
0.7005
0.2027
0.4709
1.042
−1.757
0.079
1
0.40205
0.36772
0.428
26
87
76
45
124
81


rs11178648
Imputed
T
DOM
440
0.6786
0.2027
0.4561
1.01
−1.912
0.05581
0.4852
0.39432
0.35714
0.42231
26
83
80
46
120
85


rs11198877
Imputed
T
DOM
441
1.369
0.1971
0.9302
2.014
1.593
0.1113
0.1996
0.3356
0.37368
0.30677
30
82
78
26
102
123


rs11198942
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131
0.1655
0.33409
0.36911
0.30754
29
83
79
27
101
124


rs11221075
Imputed
A
ADD
417
0.4912
0.2448
0.304
0.7936
−2.904
0.00369
1
0.11391
0.07542
0.14286
0
27
152
5
58
175


rs11242020
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs11242021
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs11242022
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs11242023
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs1149350
Imputed
A
DOM
443
0.8901
0.2092
0.5906
1.341
−0.5566
0.5778
0.01047
0.21445
0.18848
0.23413
6
60
125
24
70
158


rs1150143
Imputed
G
DOM
435
1.007
0.2015
0.6785
1.495
0.03498
0.9721
0.1573
0.38851
0.38978
0.38755
31
83
72
42
109
98


rs11576627
Imputed
T
ADD
441
1.439
0.1975
0.977
2.119
1.842
0.06547
0.01289
0.12358
0.15
0.10359
7
43
140
6
40
205


rs11576627
Imputed
T
DOM
441
1.57
0.2354
0.9899
2.491
1.917
0.05525
0.01289
0.12358
0.15
0.10359
7
43
140
6
40
205


rs11602189
Imputed
A
DOM
440
0.8739
0.1947
0.5967
1.28
−0.6923
0.4888
0.3294
0.32727
0.31579
0.336
17
86
87
25
118
107


rs11605163
Imputed
A
DOM
440
1.075
0.249
0.6597
1.751
0.2893
0.7723
0.4443
0.10341
0.11111
0.09761
4
34
151
2
45
204


rs11615214
Imputed
G
ADD
437
0.7544
0.1432
0.5697
0.9989
−1.968
0.04908
0.9205
0.39359
0.35526
0.42308
18
99
73
49
111
87


rs11615214
Imputed
G
GEN
437




8.718
0.01279
0.9205
0.39359
0.35526
0.42308
18
99
73
49
111
87


rs11642394
Imputed
C
DOM
443
2.011
0.2218
1.302
3.107
3.15
0.00163
0.4471
0.14447
0.17801
0.11905
3
62
126
8
44
200


rs11644943
Imputed
A
ADD
421
1.464
0.1665
1.056
2.029
2.29
0.02202
0.7836
0.22922
0.26776
0.19958
13
72
98
10
75
153


rs11656608
Imputed
T
DOM
442
0.5127
0.2187
0.334
0.7871
−3.055
0.00225
0.8632
0.16403
0.11842
0.19841
2
41
147
9
82
161


rs11661309
Imputed
A
ADD
439
0.8005
0.1812
0.5612
1.142
−1.228
0.2194
0.872
0.18109
0.16138
0.196
3
55
131
12
74
164


rs11661309
Imputed
A
DOM
439
0.8571
0.2089
0.5691
1.291
−0.7383
0.4603
0.872
0.18109
0.16138
0.196
3
55
131
12
74
164


rs11666131
Imputed
A
ADD
441
1.074
0.1682
0.772
1.493
0.4219
0.6731
0.2245
0.22676
0.23158
0.22311
6
76
108
12
88
151


rs11743355
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11743355
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11746806
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11746806
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11746959
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11746959
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs11749272
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs11901899
Imputed
A
DOM
426
1.452
0.1995
0.9821
2.147
1.869
0.06157
0.3322
0.27582
0.30707
0.25207
14
85
85
14
94
134


rs11926319
Imputed
G
ADD
443
0.9777
0.2632
0.5837
1.638
−0.08556
0.9318
0.4982
0.07675
0.07592
0.07738
0
29
162
1
37
214


rs11926319
Imputed
G
DOM
443
1.007
0.269
0.5945
1.706
0.02639
0.9789
0.4982
0.07675
0.07592
0.07738
0
29
162
1
37
214


rs11956952
Imputed
C
DOM
418
0.6491
0.2055
0.4339
0.971
−2.103
0.03544
1
0.24282
0.21858
0.2617
12
56
115
12
99
124


rs12025826
Imputed
G
DOM
434
1.459
0.2095
0.9676
2.199
1.803
0.07141
1
0.41705
0.4328
0.40524
29
103
54
46
109
93


rs1204522
Imputed
C
GEN
422




0.09565
0.9533
0.9146
0.34834
0.35326
0.34454
24
82
78
28
108
102


rs1204524
Imputed
A
GEN
422




0.09565
0.9533
0.9146
0.34834
0.35326
0.34454
24
82
78
28
108
102


rs12153185
Imputed
T
DOM
441
0.5728
0.2023
0.3853
0.8516
−2.754
0.00589
0.07489
0.35034
0.31316
0.37849
27
65
98
36
118
97


rs12182651
Imputed
T
ADD
441
0.982
0.2314
0.624
1.545
−0.07863
0.9373
0.07328
0.0907
0.08947
0.09163
3
28
159
4
38
209


rs12182651
Imputed
T
DOM
441
0.9744
0.2621
0.583
1.629
−0.09893
0.9212
0.07328
0.0907
0.08947
0.09163
3
28
159
4
38
209


rs12193568
Imputed
G
DOM
361
1.618
0.2464
0.9984
2.623
1.953
0.05077
0.1009
0.14958
0.17296
0.13119
5
45
109
7
39
156


rs12264914
Imputed
C
DOM
311
0.4742
0.2385
0.2971
0.7568
−3.128
0.00176
1
0.25723
0.20652
0.29769
8
41
89
12
79
82


rs12307767
Imputed
C
DOM
419
0.6033
0.203
0.4053
0.8981
−2.489
0.0128
0.8317
0.3568
0.31564
0.3875
20
73
86
32
122
86


rs1232298
Imputed
G
REC
408
1.995
0.3003
1.107
3.593
2.299
0.0215
0.08143
0.34681
0.38483
0.31739
33
71
74
24
98
108


rs12407412
Imputed
C
ADD
441
1.439
0.1975
0.977
2.119
1.842
0.06547
0.01289
0.12358
0.15
0.10359
7
43
140
6
40
205


rs12407412
Imputed
C
DOM
441
1.57
0.2354
0.9899
2.491
1.917
0.05525
0.01289
0.12358
0.15
0.10359
7
43
140
6
40
205


rs12420184
Imputed
G
DOM
438
1.429
0.2168
0.9343
2.185
1.647
0.09966
1
0.14954
0.16931
0.13454
4
56
129
5
57
187


rs12422750
Imputed
A
DOM
442
0.5888
0.1966
0.4005
0.8656
−2.694
0.00706
0.2411
0.33597
0.29474
0.36706
17
78
95
27
131
94


rs12446951
Imputed
A
ADD
310
1.549
0.2897
0.8777
2.732
1.51
0.1312
0.7534
0.10161
0.12411
0.08284
1
33
107
1
26
142


rs12446951
Imputed
A
DOM
310
1.63
0.2998
0.9057
2.933
1.63
0.1032
0.7534
0.10161
0.12411
0.08284
1
33
107
1
26
142


rs12457400
Imputed
G
DOM
443
0.578
0.2524
0.3525
0.948
−2.172
0.02987
0.8041
0.10497
0.08115
0.12302
2
27
162
2
58
192


rs1247340
Imputed
C
DOM
441
0.9041
0.2098
0.5993
1.364
−0.4802
0.6311
0.0397
0.20522
0.17895
0.2251
4
60
126
22
69
160


rs1247341
Imputed
C
DOM
441
0.919
0.2102
0.6087
1.387
−0.4021
0.6876
0.05636
0.20408
0.18063
0.222
4
61
126
21
69
160


rs12521291
Imputed
G
ADD
435
1.07
0.1477
0.8008
1.429
0.4556
0.6486
0.9172
0.35747
0.36559
0.35141
21
94
71
35
105
109


rs12526849
Imputed
T
ADD
436
1.012
0.1389
0.7712
1.329
0.08887
0.9292
0.4209
0.39106
0.39362
0.38911
34
80
74
37
119
92


rs12526849
Imputed
T
GEN
436




1.863
0.394
0.4209
0.39106
0.39362
0.38911
34
80
74
37
119
92


rs12543110
Imputed
G
DOM
443
1.32
0.1941
0.9026
1.931
1.432
0.1521
0.6236
0.26298
0.27487
0.25397
9
87
95
19
90
143


rs12678600
Imputed
A
DOM
439
0.7992
0.198
0.5421
1.178
−1.132
0.2575
1
0.31663
0.29894
0.33
18
77
94
26
113
111


rs12719415
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs12831292
Imputed
G
DOM
436
0.7047
0.2039
0.4725
1.051
−1.716
0.08609
1
0.40367
0.37097
0.428
26
86
74
45
124
81


rs12923993
Imputed
C
DOM
443
2.011
0.2218
1.302
3.107
3.15
0.00163
0.4471
0.14447
0.17801
0.11905
3
62
126
8
44
200


rs12936964
Imputed
T
DOM
431
1.123
0.2052
0.7508
1.678
0.5634
0.5732
0.2205
0.38167
0.37097
0.3898
23
92
71
46
99
100


rs12960663
Imputed
G
ADD
435
0.797
0.1843
0.5553
1.144
−1.231
0.2182
0.8698
0.17701
0.15775
0.19153
3
53
131
11
73
164


rs13038146
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs13038146
Imputed
C
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs13134222
Imputed
A
GEN
442




4.511
0.1048
0.6117
0.24887
0.28158
0.22421
13
81
96
12
89
151


rs13172910
Imputed
A
DOM
417
0.6398
0.2054
0.4278
0.9571
−2.174
0.02974
1
0.2446
0.21858
0.26496
12
56
115
13
98
123


rs13194907
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs13194907
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs13195745
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs13195745
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs1321432
Imputed
A
REC
443
0.9755
0.2643
0.5811
1.638
−0.09385
0.9252
0.108
0.38036
0.37696
0.38294
31
82
78
41
111
100


rs1321457
Imputed
G
REC
435
0.9425
0.2789
0.5456
1.628
−0.2122
0.8319
0.3005
0.36207
0.3617
0.36235
26
84
78
36
107
104


rs13265054
Imputed
T
DOM
434
0.7541
0.1998
0.5098
1.116
−1.413
0.1577
0.8248
0.31567
0.29412
0.33198
17
76
94
25
114
108


rs13282131
Imputed
C
GEN
440




6.641
0.03614
0.8464
0.43864
0.47105
0.414
47
85
58
39
129
82


rs13353526
Imputed
C
DOM
438
0.8239
0.2338
0.521
1.303
−0.8286
0.4073
1
0.12785
0.11842
0.13508
2
41
147
5
57
186


rs1336382
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131
0.1655
0.33409
0.36911
0.30754
29
83
79
27
101
124


rs1336383
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131
0.1655
0.33409
0.36911
0.30754
29
83
79
27
101
124


rs1336407
Imputed
T
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.1663
0.33484
0.36911
0.30876
29
83
79
27
101
123


rs1336409
Imputed
T
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.1663
0.33484
0.36911
0.30876
29
83
79
27
101
123


rs1336596
Imputed
A
DOM
440
0.9849
0.205
0.659
1.472
−0.07439
0.9407
0.4737
0.36932
0.37632
0.364
28
87
75
28
126
96


rs1343560
Imputed
T
ADD
437
1.717
0.2225
1.11
2.656
2.43
0.01509
0.1757
0.11899
0.14894
0.09639
2
52
134
1
46
202


rs1343560
Imputed
T
DOM
437
1.745
0.2319
1.108
2.75
2.402
0.0163
0.1757
0.11899
0.14894
0.09639
2
52
134
1
46
202


rs1361987
Imputed
T
GEN
443




0.4112
0.8142
0.8328
0.34199
0.34817
0.3373
25
83
83
28
114
110


rs1386153
Imputed
T
ADD
441
0.8596
0.1501
0.6405
1.154
−1.008
0.3137
0.3322
0.32993
0.31316
0.34263
16
87
87
27
118
106


rs1386153
Imputed
T
DOM
441
0.8546
0.1947
0.5835
1.252
−0.8069
0.4197
0.3322
0.32993
0.31316
0.34263
16
87
87
27
118
106


rs1394015
Imputed
C
DOM
372
2.85
1.231
0.2552
31.84
0.8507
0.3949
1
0.00403
0.00633
0.00234
0
2
156
0
1
213


rs1407038
Imputed
A
REC
443
0.9523
0.2749
0.5556
1.632
−0.178
0.8588
0.1496
0.35892
0.35864
0.35913
27
83
81
37
107
108


rs1407039
Imputed
A
REC
443
0.9755
0.2643
0.5811
1.638
−0.09385
0.9252
0.108
0.38036
0.37696
0.38294
31
82
78
41
111
100


rs1412802
Imputed
T
GEN
428




3.851
0.1458
0.7178
0.27804
0.25543
0.29508
8
78
98
23
98
123


rs1414865
Imputed
T
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272
0.1377
0.33937
0.37173
0.31474
29
84
78
29
100
122


rs1414873
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.1663
0.33484
0.36911
0.30876
29
83
79
27
101
123


rs1414876
Imputed
C
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.1663
0.33484
0.36911
0.30876
29
83
79
27
101
123


rs1418671
Imputed
C
REC
424
1.095
0.2783
0.6345
1.889
0.3255
0.7448
0.6846
0.39623
0.4011
0.39256
29
88
65
35
120
87


rs1419490
Genotyped
T
GEN
443




0.3173
0.8533
1
0.33634
0.3377
0.33532
23
83
85
27
115
110


rs1434507
Imputed
A
ADD
442
1.053
0.1646
0.7624
1.453
0.3112
0.7556
1
0.22624
0.23037
0.22311
9
70
112
13
86
152


rs1434508
Imputed
T
ADD
442
1.053
0.1646
0.7624
1.453
0.3112
0.7556
1
0.22624
0.23037
0.22311
9
70
112
13
86
152


rs1435205
Imputed
A
ADD
442
1.021
0.1625
0.7424
1.404
0.1273
0.8987
0.8924
0.22624
0.22895
0.22421
10
67
113
13
87
152


rs1443928
Imputed
C
REC
435
0.9918
0.2124
0.6541
1.504
−0.03862
0.9692
0.1711
0.57126
0.56806
0.57377
65
87
39
84
112
48


rs1452235
Imputed
G
GEN
443




5.506
0.06375
0.5227
0.33296
0.36911
0.30556
30
81
80
22
110
120


rs1452236
Imputed
G
GEN
443




5.506
0.06375
0.5227
0.33296
0.36911
0.30556
30
81
80
22
110
120


rs1452237
Imputed
G
GEN
443




5.506
0.06375
0.5227
0.33296
0.36911
0.30556
30
81
80
22
110
120


rs1452243
Genotyped
T
GEN
443




5.995
0.04992
0.6732
0.33973
0.37435
0.31349
31
81
79
22
114
116


rs1463768
Genotyped
G
REC
443
1.844
0.2673
1.092
3.114
2.29
0.02201
0.5464
0.38262
0.42932
0.34722
38
88
65
30
115
107


rs1463769
Imputed
G
REC
443
1.844
0.2673
1.092
3.114
2.29
0.02201
0.5464
0.38262
0.42932
0.34722
38
88
65
30
115
107


rs1472435
Imputed
A
ADD
437
0.5361
0.3365
0.2772
1.037
−1.853
0.0639
0.6259
0.05378
0.03704
0.06653
0
14
175
0
33
215


rs1472435
Imputed
A
DOM
437
0.5361
0.3365
0.2772
1.037
−1.853
0.0639
0.6259
0.05378
0.03704
0.06653
0
14
175
0
33
215


rs1476714
Imputed
A
DOM
439
0.5924
0.2025
0.3983
0.8811
−2.585
0.00974
0.1129
0.3451
0.31316
0.36948
27
65
98
33
118
98


rs1495159
Imputed
G
ADD
429
1.318
0.1505
0.9813
1.77
1.835
0.06656
0.6567
0.31935
0.35135
0.29508
18
94
73
28
88
128


rs1495159
Imputed
G
GEN
429




9.642
0.00806
0.6567
0.31935
0.35135
0.29508
18
94
73
28
88
128


rs1495375
Imputed
A
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001
0.9197
0.40855
0.37297
0.43644
26
86
73
45
116
75


rs1495376
Imputed
T
DOM
424
0.774
0.2264
0.4966
1.206
−1.132
0.2577
0.3834
0.48231
0.45652
0.50208
36
96
52
58
125
57


rs1495377
Imputed
G
DOM
425
0.7814
0.2265
0.5013
1.218
−1.089
0.2762
0.4372
0.48118
0.45652
0.5
36
96
52
58
125
58


rs1495381
Imputed
T
GEN
442




7.762
0.02063
0.2705
0.38575
0.43421
0.34921
35
95
60
25
126
101


rs1495381
Imputed
T
REC
442
2.08
0.2834 1
.194
3.626
2.584
0.00975
0.2705
0.38575
0.43421
0.34921
35
95
60
25
126
101


rs1498992
Imputed
G
DOM
428
0.7274
0.1999
0.4916
1.076
−1.592
0.1114
0.4588
0.35047
0.32337
0.3709
22
75
87
34
113
97


rs1499001
Imputed
T
DOM
437
0.7573
0.1974
0.5144
1.115
−1.409
0.159
0.2889
0.28375
0.26203
0.3
16
66
105
24
102
124


rs1512988
Imputed
A
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051
0.6908
0.3948
0.36316
0.41865
26
86
78
45
121
86


rs1512989
Imputed
T
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051
0.6908
0.3948
0.36316
0.41865
26
86
78
45
121
86


rs1512991
Imputed
T
ADD
425
0.7106
0.1399
0.5401
0.9348
−2.442
0.01462
0.3804
0.45647
0.4071
0.4938
30
89
64
63
113
66


rs1512991
Imputed
T
DOM
425
0.6965
0.2131
0.4587
1.057
−1.698
0.08957
0.3804
0.45647
0.4071
0.4938
30
89
64
63
113
66


rs1516855
Imputed
G
REC
398
1.236
0.2928
0.6964
2.195
0.7243
0.4689
0.2364
0.36935
0.38571
0.3565
29
77
69
31
97
95


rs1527450
Imputed
T
ADD
441
1.146
0.1493
0.8556
1.536
0.9151
0.3601
0.6792
0.35714
0.37302
0.34524
25
91
73
29
116
107


rs1527450
Imputed
T
GEN
441




0.8647
0.649
0.6792
0.35714
0.37302
0.34524
25
91
73
29
116
107


rs1567740
Imputed
T
DOM
439
0.7204
0.2038
0.4831
1.074
−1.609
0.1076
0.8422
0.39863
0.36579
0.42369
26
87
77
45
121
83


rs1572573
Imputed
A
ADD
396
1.012
0.2009
0.6826
1.501
0.05984
0.9523
0.00264
0.18813
0.18786
0.18834
2
61
110
3
78
142


rs1572573
Imputed
A
DOM
396
1.019
0.2128
0.6715
1.546
0.08849
0.9295
0.00264
0.18813
0.18786
0.18834
2
61
110
3
78
142


rs1584003
Imputed
C
DOM
432
0.6043
0.2157
0.396
0.9221
−2.336
0.0195
0.2438
0.45255
0.42063
0.47737
35
89
65
47
138
58


rs1584005
Imputed
C
DOM
427
0.6032
0.2163
0.3947
0.9217
−2.337
0.01944
0.2831
0.45082
0.41979
0.475
35
87
65
46
136
58


rs1585771
Imputed
G
ADD
433
0.9914
0.1575
0.728
1.35
−0.05515
0.956
1
0.26559
0.26486
0.26613
13
72
100
17
98
133


rs1592015
Imputed
G
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs1594885
Imputed
A
ADD
440
1.083
0.1634
0.7863
1.492
0.4891
0.6248
0.7887
0.23182
0.23947
0.226
9
73
108
13
87
150


rs1603232
Imputed
A
DOM
412
0.7502
0.2319
0.4761
1.182
−1.239
0.2152
0.49
0.49029
0.46111
0.51293
36
94
50
59
120
53


rs1614565
Imputed
C
DOM
439
0.7578
0.2237
0.4888
1.175
−1.24
0.2151
0.6336
0.49089
0.46296
0.512
39
97
53
64
128
58


rs1648200
Imputed
G
ADD
411
1.299
0.1675
0.9357
1.804
1.563
0.118
1
0.24331
0.26816
0.22414
14
68
97
10
84
138


rs16877387
Imputed
C
GEN
436




2.224
0.3289
0.5854
0.32569
0.31649
0.33266
23
73
92
26
113
109


rs16877387
Imputed
C
REC
436
1.186
0.3054
0.6518
2.158
0.5586
0.5764
0.5854
0.32569
0.31649
0.33266
23
73
92
26
113
109


rs16938626
Imputed
G
DOM
435
0.7689
0.1982
0.5213
1.134
−1.326
0.1849
0.3923
0.26552
0.24866
0.27823
15
63
109
19
100
129


rs1694334
Imputed
G
ADD
399
1.156
0.1835
0.8068
1.657
0.7904
0.4293
0.5371
0.20426
0.21765
0.19432
7
60
103
7
75
147


rs16998821
Imputed
C
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs1700400
Imputed
T
ADD
417
0.9427
0.1613
0.6872
1.293
−0.3659
0.7144
0.1293
0.23141
0.22652
0.23517
12
58
111
16
79
141


rs17007620
Imputed
G
ADD
408
1.033
0.1717
0.7377
1.446
0.1877
0.8511
1
0.22181
0.22599
0.21861
7
66
104
13
75
143


rs17007620
Imputed
G
DOM
408
1.127
0.206
0.7523
1.687
0.5784
0.563
1
0.22181
0.22599
0.21861
7
66
104
13
75
143


rs17023290
Imputed
C
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs17047957
Imputed
C
DOM
439
1.801
0.2129
1.187
2.734
2.765
0.0057
0.6092
0.16856
0.20635
0.14
7
64
118
7
56
187


rs1705237
Imputed
A
DOM
439
0.7578
0.2237
0.4888
1.175
−1.24
0.2151
0.6336
0.49089
0.46296
0.512
39
97
53
64
128
58


rs1705261
Imputed
A
GEN
442




7.113
0.02854
0.5499
0.39367
0.43947
0.35913
37
93
60
28
125
99


rs1705261
Imputed
A
REC
442
2.005
0.2767
1.166
3.449
2.514
0.01192
0.5499
0.39367
0.43947
0.35913
37
93
60
28
125
99


rs17076972
Imputed
C
ADD
442
1.031
0.1393
0.7845
1.355
0.2183
0.8272
0.5032
0.45814
0.46335
0.45418
38
101
52
51
126
74


rs17076972
Imputed
C
GEN
442




0.2344
0.8894
0.5032
0.45814
0.46335
0.45418
38
101
52
51
126
74


rs17076972
Imputed
C
REC
442
0.9776
0.2403
0.6104
1.566
−0.09436
0.9248
0.5032
0.45814
0.46335
0.45418
38
101
52
51
126
74


rs17189710
Imputed
T
ADD
430
1.382
0.1457
1.039
1.839
2.22
0.02639
0.3369
0.34535
0.38649
0.31429
33
77
75
23
108
114


rs17189710
Imputed
T
GEN
430




6.752
0.03418
0.3369
0.34535
0.38649
0.31429
33
77
75
23
108
114


rs17196143
Imputed
A
ADD
443
0.7066
0.186
0.4907
1.017
−1.867
0.06189
1
0.17946
0.15183
0.2004
2
54
135
12
77
163


rs17353809
Imputed
G
ADD
433
0.9859
0.1679
0.7095
1.37
−0.0846
0.9326
0.569
0.21478
0.21351
0.21573
10
59
116
12
83
153


rs17368986
Imputed
A
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs17369097
Imputed
A
GEN
443




1.248
0.5357
0.6275
0.17946
0.19634
0.16667
8
59
124
8
68
176


rs17434511
Imputed
C
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs17434589
Imputed
C
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs17434603
Imputed
G
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs17434840
Imputed
C
GEN
443




1.248
0.5357
0.6275
0.17946
0.19634
0.16667
8
59
124
8
68
176


rs17446418
Imputed
G
DOM
380
1.044
0.2158
0.6838
1.593
0.1982
0.8429
0.03708
0.32895
0.33537
0.32407
14
82
68
18
104
94


rs17530747
Imputed
T
DOM
374
1.033
0.2172
0.6751
1.582
0.1511
0.8799
0.0203
0.3369
0.34375
0.33178
14
82
64
18
106
90


rs17604285
Imputed
C
ADD
443
0.9476
0.2663
0.5622
1.597
−0.2023
0.8397
0.09538
0.07788
0.07592
0.07937
0
29
162
0
40
212


rs17604285
Imputed
C
DOM
443
0.9476
0.2663
0.5622
1.597
−0.2023
0.8397
0.09538
0.07788
0.07592
0.07937
0
29
162
0
40
212


rs17662322
Imputed
T
DOM
443
0.7561
0.2081
0.5029
1.137
−1.344
0.179
0.8723
0.18059
0.15969
0.19643
5
51
135
10
79
163


rs17769826
Imputed
T
ADD
433
0.9859
0.1679
0.7095
1.37
−0.0846
0.9326
0.569
0.21478
0.21351
0.21573
10
59
116
12
83
153


rs17821641
Imputed
T
ADD
442
1.021
0.1625
0.7424
1.404
0.1273
0.8987
0.8924
0.22624
0.22895
0.22421
10
67
113
13
87
152


rs1782328
Imputed
A
ADD
426
0.96
0.1915
0.6595
1.397
−0.213
0.8313
0.305
0.17136
0.16758
0.17418
5
51
126
4
77
163


rs1796337
Imputed
T
DOM
428
0.6991
0.2365
0.4398
1.111
−1.514
0.1301
0.1753
0.51285
0.47581
0.54132
38
101
47
67
128
47


rs1798083
Imputed
C
DOM
441
0.7428
0.2255
0.4774
1.156
−1.318
0.1874
0.7038
0.5
0.47105
0.52191
41
97
52
67
128
56


rs1798085
Imputed
T
DOM
439
0.7578
0.2237
0.4888
1.175
−1.24
0.2151
0.6336
0.49089
0.46296
0.512
39
97
53
64
128
58


rs1798086
Imputed
T
DOM
416
0.7565
0.2341
0.4781
1.197
−1.192
0.2332
0.6948
0.50361
0.47826
0.52371
41
94
49
62
119
51


rs1798089
Imputed
C
GEN
366




2.947
0.2291
2.13E−06
0.29235
0.31908
0.27336
8
81
63
5
107
102


rs1798089
Imputed
C
REC
366
2.307
0.5861
0.7314
7.277
1.426
0.1538
2.13E−06
0.29235
0.31908
0.27336
8
81
63
5
107
102


rs1798090
Imputed
C
GEN
367




3.038
0.2189
1.37E−06
0.29292
0.32026
0.27336
8
82
63
5
107
102


rs1798090
Imputed
C
REC
367
2.295
0.5861
0.7275
7.238
1.417
0.1564
1.37E−06
0.29292
0.32026
0.27336
8
82
63
5
107
102


rs1832222
Imputed
G
DOM
443
1.344
0.1965
0.9144
1.975
1.504
0.1325
0.2005
0.33521
0.36911
0.30952
29
83
79
27
102
123


rs1838104
Imputed
A
ADD
440
0.9138
0.1404
0.694
1.203
−0.6418
0.521
0.5608
0.56591
0.55526
0.574
61
89
40
83
121
46


rs1838104
Imputed
A
GEN
440




0.6345
0.7281
0.5608
0.56591
0.55526
0.574
61
89
40
83
121
46


rs1868616
Imputed
G
ADD
437
0.8179
0.1786
0.5764
1.161
−1.126
0.2602
0.8751
0.18764
0.17021
0.2008
6
52
130
10
80
159


rs1874313
Imputed
A
DOM
443
0.7338
0.2032
0.4927
1.093
−1.523
0.1277
0.6922
0.39503
0.36387
0.41865
26
87
78
45
121
86


rs1884902
Imputed
C
REC
443
0.9755
0.2643
0.5811
1.638
−0.09385
0.9252
0.108
0.38036
0.37696
0.38294
31
82
78
41
111
100


rs1913201
Imputed
G
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs1913201
Imputed
G
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs1913201
Imputed
G
GEN
432




6.276
0.04338
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs1944279
Imputed
A
ADD
438
1.083
0.1637
0.7858
1.493
0.4879
0.6256
0.7885
0.23174
0.23947
0.22581
9
73
108
13
86
149


rs198461
Imputed
C
DOM
433
0.5222
0.221
0.3386
0.8052
−2.94
0.00328
0.6307
0.48614
0.43548
0.52429
40
82
64
65
129
53


rs1987179
Imputed
T
DOM
417
0.5176
0.2237
0.3339
0.8024
−2.944
0.00324
0.8637
0.17266
0.13462
0.20213
6
37
139
7
81
147


rs1990023
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs2016194
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs2024789
Imputed
C
ADD
440
0.9942
0.1364
0.7609
1.299
−0.0427
0.9659
0.8491
0.50682
0.50529
0.50797
49
93
47
65
125
61


rs2024789
Imputed
C
GEN
440




0.0158
0.9921
0.8491
0.50682
0.50529
0.50797
49
93
47
65
125
61


rs2024902
Imputed
A
ADD
442
1.087
0.2583
0.655
1.803
0.3216
0.7477
0.2797
0.07353
0.07592
0.07171
1
27
163
3
30
218


rs2024902
Imputed
A
DOM
442
1.157
0.2804
0.6678
2.005
0.52
0.6031
0.2797
0.07353
0.07592
0.07171
1
27
163
3
30
218


rs2025107
Imputed
A
ADD
442
0.9899
0.2312
0.6292
1.557
−0.04381
0.9651
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs2025107
Imputed
A
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs2025108
Imputed
T
ADD
442
0.9899
0.2312
0.6292
1.557
−0.04381
0.9651
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs2025108
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs2062448
Imputed
T
ADD
442
0.913
0.2688
0.5391
1.546
−0.3387
0.7348
0.09556
0.07692
0.07368
0.07937
0
28
162
0
40
212


rs2062448
Imputed
T
DOM
442
0.913
0.2688
0.5391
1.546
−0.3387
0.7348
0.09556
0.07692
0.07368
0.07937
0
28
162
0
40
212


rs2063591
Imputed
C
ADD
441
0.7255
0.1363
0.5554
0.9478
−2.353
0.01861
0.2947
0.47506
0.42932
0.51
36
92
63
69
117
64


rs2063591
Imputed
C
DOM
441
0.6936
0.2125
0.4573
1.052
−1.722
0.08515
0.2947
0.47506
0.42932
0.51
36
92
63
69
117
64


rs2065604
Imputed
C
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs2066238
Imputed
T
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs2068051
Imputed
G
ADD
269
0.9214
0.1888
0.6364
1.334
−0.4337
0.6645
0.3082
0.60223
0.59009
0.61076
36
59
16
57
79
22


rs2068051
Imputed
G
GEN
269




0.367
0.8324
0.3082
0.60223
0.59009
0.61076
36
59
16
57
79
22


rs2077702
Genotyped
G
GEN
443




8.422
0.01483
0.4324
0.30361
0.3534
0.26587
22
91
78
15
104
133


rs208757
Imputed
G
ADD
435
1.552
0.175
1.101
2.187
2.512
0.01201
0.6456
0.19425
0.23545
0.1626
8
73
108
10
60
176


rs208757
Imputed
G
DOM
435
1.858
0.2057
1.241
2.78
3.011
0.0026
0.6456
0.19425
0.23545
0.1626
8
73
108
10
60
176


rs2095586
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.3355
0.33145
0.36649
0.30478
28
84
79
25
103
123


rs2108426
Imputed
C
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs2110664
Imputed
A
DOM
399
1.47
0.2058
0.9818
2.2
1.871
0.06136
1
0.27569
0.30523
0.2533
14
77
81
16
83
128


rs2132242
Imputed
A
DOM
440
0.6978
0.2022
0.4695
1.037
−1.78
0.07505
1
0.40341
0.36842
0.43
26
88
76
45
125
80


rs2151644
Imputed
T
DOM
442
1.184
0.2598
0.7118
1.97
0.6512
0.5149
0.7613
0.0871
0.09474
0.08135
2
32
156
2
37
213


rs2157752
Genotyped
A
GEN
443




0.5489
0.76
0.372
0.30474
0.29843
0.30952
20
74
97
25
106
121


rs2158958
Imputed
A
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs2158961
Imputed
G
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187
0.8242
0.30813
0.2801
0.32937
20
67
104
23
120
109


rs2164099
Imputed
G
ADD
441
1.075
0.1633
0.7809
1.481
0.4457
0.6558
0.6902
0.23243
0.23947
0.22709
9
73
108
13
88
150


rs2173254
Imputed
G
GEN
438




0.524
0.7695
0.9154
0.34132
0.35185
0.33333
22
89
78
28
110
111


rs2173254
Imputed
G
REC
438
1.019
0.3061
0.5595
1.857
0.06273
0.95
0.9154
0.34132
0.35185
0.33333
22
89
78
28
110
111


rs2188079
Imputed
C
ADD
443
1.028
0.1399
0.7818
1.353
0.2006
0.841
0.563
0.43905
0.44503
0.43452
39
92
60
43
133
76


rs2188079
Imputed
C
GEN
443




1.2
0.5489
0.563
0.43905
0.44503
0.43452
39
92
60
43
133
76


rs2190304
Imputed
G
REC
443
1.465
0.2335
0.9272
2.316
1.636
0.1017
1
0.47517
0.47906
0.47222
50
83
58
50
138
64


rs2190597
Imputed
T
DOM
440
0.6496
0.2095
0.4309
0.9795
−2.059
0.0395
0.1008
0.44318
0.42021
0.46032
42
74
72
53
126
73


rs2190598
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs2190600
Imputed
A
DOM
440
0.577
0.2025
0.388
0.8581
−2.716
0.00661
0.07522
0.34886
0.31316
0.376
27
65
98
35
118
97


rs2218084
Imputed
T
GEN
440




5.731
0.05696
0.3138
0.17159
0.17368
0.17
11
44
135
5
75
170


rs2218084
Imputed
T
REC
440
2.942
0.5498
1.002
8.643
1.963
0.04966
0.3138
0.17159
0.17368
0.17
11
44
135
5
75
170


rs2236290
Genotyped
C
GEN
441




6.206
0.04491
0.9174
0.35488
0.31675
0.384
16
89
86
40
112
98


rs2243860
Imputed
A
GEN
354




2.941
0.2298
0.4422
0.4096
0.44737
0.38119
33
70
49
30
94
78


rs2243860
Imputed
A
REC
354
1.553
0.289
0.8812
2.736
1.522
0.1279
0.4422
0.4096
0.44737
0.38119
33
70
49
30
94
78


rs2246564
Imputed
T
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs2248236
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.0026
0.8852
0.20655
0.17016
0.23413
9
47
135
9
100
143


rs2250340
Imputed
T
DOM
410
1.184
0.2617
0.709
1.978
0.6458
0.5184
0.7706
0.0939
0.10169
0.08798
2
32
143
2
37
194


rs2257192
Imputed
G
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs2270584
Imputed
A
DOM
441
0.6747
0.2026
0.4536
1.004
−1.942
0.05211
0.4848
0.39342
0.35526
0.42231
26
83
81
46
120
85


rs2270586
Imputed
A
DOM
442
0.6883
0.2018
0.4634
1.022
−1.851
0.06423
0.4864
0.39367
0.35602
0.42231
26
84
81
46
120
85


rs2270589
Imputed
A
ADD
391
0.6468
0.1498
0.4822
0.8674
−2.909
0.00362
0.7615
0.48082
0.42059
0.52715
30
83
57
62
109
50


rs2270589
Imputed
A
DOM
391
0.5799
0.2334
0.367
0.9163
−2.335
0.01956
0.7615
0.48082
0.42059
0.52715
30
83
57
62
109
50


rs2270589
Imputed
A
GEN
391




8.473
0.01446
0.7615
0.48082
0.42059
0.52715
30
83
57
62
109
50


rs2296889
Imputed
C
DOM
437
0.9005
0.2162
0.5895
1.376
−0.485
0.6277
0.3269
0.17849
0.18182
0.176
10
48
129
7
74
169


rs2301346
Imputed
C
ADD
357
1.001
0.1711
0.7159
1.4
0.005922
0.9953
0.4976
0.26611
0.26563
0.2665
12
61
87
16
73
108


rs2301346
Imputed
C
DOM
357
1.026
0.2191
0.6675
1.576
0.1152
0.9083
0.4976
0.26611
0.26563
0.2665
12
61
87
16
73
108


rs2327929
Imputed
G
REC
441
1.411
0.2475
0.8684
2.291
1.39
0.1645
0.4376
0.42857
0.44764
0.414
42
87
62
43
121
86


rs2357486
Imputed
C
REC
436
0.8855
0.316
0.4766
1.645
−0.385
0.7003
0.9136
0.32683
0.32181
0.33065
19
83
86
28
108
112


rs2373793
Imputed
G
DOM
435
1.599
0.2233
1.032
2.477
2.103
0.03546
1
0.14253
0.17368
0.11837
6
54
130
3
52
190


rs2377622
Imputed
T
GEN
291




8.41
0.01492
1
0.38832
0.33333
0.42857
10
62
51
34
76
58


rs2377622
Imputed
T
REC
291
0.2954
0.4232
0.1289
0.677
−2.882
0.00396
1
0.38832
0.33333
0.42857
10
62
51
34
76
58


rs2383903
Imputed
G
DOM
443
0.7568
0.1968
0.5146
1.113
−1.416
0.1569
0.4634
0.26411
0.24607
0.27778
15
64
112
19
102
131


rs2389866
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.0026
0.8852
0.20655
0.17016
0.23413
9
47
135
9
100
143


rs2389869
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.0026
0.8852
0.20655
0.17016
0.23413
9
47
135
9
100
143


rs2418541
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs2418542
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs2418548
Imputed
C
DOM
442
0.6036
0.2017
0.4065
0.8963
−2.503
0.01231
0.01683
0.35633
0.32199
0.38247
29
65
97
39
114
98


rs2476976
Imputed
C
DOM
442
1.391
0.1963
0.9466
2.044
1.68
0.09288
0.2817
0.32919
0.36387
0.30279
27
85
79
26
100
125


rs2483639
Imputed
A
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs2483640
Imputed
A
DOM
443
1.177
0.2597
0.7077
1.959
0.6286
0.5296
0.5598
0.08691
0.09424
0.08135
2
32
157
2
37
213


rs2544780
Imputed
T
REC
442
3.054
0.3822
1.444
6.46
2.921
0.00349
0.3055
0.29638
0.33246
0.26892
23
81
87
11
113
127


rs2586458
Imputed
T
DOM
372
1.439
0.2465
0.8877
2.333
1.477
0.1397
1
0.13172
0.14744
0.12037
2
42
112
4
44
168


rs2593272
Imputed
G
ADD
443
0.9033
0.1559
0.6654
1.226
−0.6524
0.5141
0.1147
0.23702
0.22775
0.24405
12
63
116
19
85
148


rs2593273
Imputed
T
ADD
426
0.9769
0.1588
0.7156
1.334
−0.1474
0.8828
0.03674
0.22418
0.2234
0.22479
12
60
116
17
73
148


rs2622499
Imputed
G
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.0026
0.8852
0.20655
0.17016
0.23413
9
47
135
9
100
143


rs264126
Imputed
C
DOM
439
0.6379
0.2093
0.4232
0.9615
−2.148
0.03174
0.08131
0.44191
0.41755
0.46016
42
73
73
53
125
73


rs264129
Imputed
T
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187
0.8242
0.30813
0.2801
0.32937
20
67
104
23
120
109


rs2656822
Imputed
T
ADD
443
0.9033
0.1559
0.6654
1.226
−0.6524
0.5141
0.1147
0.23702
0.22775
0.24405
12
63
116
19
85
148


rs2656823
Imputed
G
ADD
443
0.9033
0.1559
0.6654
1.226
−0.6524
0.5141
0.1147
0.23702
0.22775
0.24405
12
63
116
19
85
148


rs2656825
Imputed
T
ADD
420
0.986
0.1592
0.7217
1.347
−0.08844
0.9295
0.03522
0.225
0.2246
0.22532
12
60
115
17
71
145


rs2764766
Imputed
C
REC
443
3.069
0.3822
1.451
6.491
2.934
0.00335
0.3053
0.29684
0.33246
0.26984
23
81
87
11
114
127


rs2793101
Imputed
T
ADD
442
1.081
0.236
0.6809
1.717
0.3309
0.7407
0.7843
0.09615
0.09948
0.09363
2
34
155
1
45
205


rs2793101
Imputed
T
DOM
442
1.046
0.2497
0.6414
1.707
0.1818
0.8557
0.7843
0.09615
0.09948
0.09363
2
34
155
1
45
205


rs2795871
Imputed
A
ADD
435
0.5722
0.339
0.2944
1.112
−1.647
0.09966
0.6186
0.05172
0.03763
0.06225
0
14
172
0
31
218


rs2795886
Imputed
A
ADD
442
0.5272
0.3735
0.2535
1.096
−1.714
0.08652
1
0.04299
0.02895
0.05357
0
11
179
0
27
225


rs2795886
Imputed
A
DOM
442
0.5272
0.3735
0.2535
1.096
−1.714
0.08652
1
0.04299
0.02895
0.05357
0
11
179
0
27
225


rs2859994
Imputed
C
GEN
436




0.8834
0.643
0.4109
0.36927
0.37234
0.36694
22
96
70
33
116
99


rs2870464
Imputed
G
DOM
441
1.969
0.2225
1.273
3.045
3.045
0.00233
0.4419
0.14399
0.17632
0.11952
3
61
126
8
44
199


rs2875528
Imputed
T
DOM
443
0.8843
0.2352
0.5577
1.402
−0.5227
0.6012
1
0.11851
0.10995
0.125
1
40
150
5
53
194


rs2876227
Imputed
C
ADD
442
1.389
0.1445
1.046
1.843
2.272
0.02309
0.4631
0.34502
0.38743
0.31275
33
82
76
23
111
117


rs2876227
Imputed
C
GEN
442




6.593
0.03701
0.4631
0.34502
0.38743
0.31275
33
82
76
23
111
117


rs2882097
Imputed
A
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131
0.1655
0.33409
0.36911
0.30754
29
83
79
27
101
124


rs2921983
Imputed
C
ADD
416
0.8945
0.167
0.6448
1.241
−0.6677
0.5043
0.2479
0.21755
0.20718
0.22553
9
57
115
15
76
144


rs2987537
Imputed
C
DOM
438
1.58
0.2184
1.03
2.424
2.095
0.03621
0.718
0.15753
0.18617
0.136
6
58
124
6
56
188


rs2996416
Imputed
C
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs2996416
Imputed
C
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015527
Imputed
C
ADD
398
1.884
0.2353
1.188
2.989
2.693
0.00708
0.3323
0.11558
0.15029
0.08889
2
48
123
1
38
186


rs3015527
Imputed
C
DOM
398
1.945
0.2451
1.203
3.144
2.714
0.00664
0.3323
0.11558
0.15029
0.08889
2
48
123
1
38
186


rs3015530
Imputed
C
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015530
Imputed
C
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015531
Imputed
T
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015531
Imputed
T
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015535
Imputed
C
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3015535
Imputed
C
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs3019407
Imputed
A
GEN
439




0.7217
0.6971
1
0.33941
0.35185
0.33
22
89
78
28
109
113


rs3019407
Imputed
A
REC
439
1.025
0.306
0.5627
1.867
0.08058
0.9358
1
0.33941
0.35185
0.33
22
89
78
28
109
113


rs36071725
Genotyped
C
GEN
443




0.6419
0.7255
0.5846
0.31828
0.31414
0.32143
16
88
87
26
110
116


rs373983
Imputed
G
DOM
414
1.954
0.2168
1.277
2.988
3.089
0.00201
0.9193
0.41063
0.45355
0.37662
31
104
48
38
98
95


rs3756154
Imputed
C
DOM
416
0.5162
0.2209
0.3348
0.7959
−2.993
0.00276
1
0.17668
0.13736
0.20726
6
38
138
7
83
144


rs3793044
Imputed
C
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs3793044
Imputed
C
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs3793053
Imputed
C
ADD
436
0.995
0.236
0.6266
1.58
−0.02103
0.9832
0.06405
0.0883
0.08777
0.08871
3
27
158
4
36
208


rs3793053
Imputed
C
DOM
436
0.9919
0.2675
0.5872
1.676
−0.03035
0.9758
0.06405
0.0883
0.08777
0.08871
3
27
158
4
36
208


rs3796246
Imputed
G
ADD
442
0.9554
0.2625
0.5711
1.598
−0.1737
0.8621
0.5013
0.07805
0.07592
0.07968
0
29
162
1
38
212


rs3796246
Imputed
G
DOM
442
0.9829
0.2682
0.5811
1.663
−0.06425
0.9488
0.5013
0.07805
0.07592
0.07968
0
29
162
1
38
212


rs3805996
Imputed
G
ADD
421
1.042
0.2655
0.6195
1.754
0.1561
0.876
0.2844
0.07601
0.07692
0.07531
1
26
155
3
30
206


rs3805996
Imputed
G
DOM
421
1.106
0.2862
0.631
1.938
0.3512
0.7254
0.2844
0.07601
0.07692
0.07531
1
26
155
3
30
206


rs3806003
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs3806003
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923
0.279
0.07336
0.07592
0.07143
1
27
163
3
30
219


rs3806004
Imputed
T
ADD
442
0.9899
0.2312
0.6292
1.557
−0.04381
0.9651
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806004
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806010
Imputed
T
ADD
442
0.9899
0.2312
0.6292
1.557
−0.04381
0.9651
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806010
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806014
Imputed
T
ADD
430
1.014
0.234
0.6412
1.605
0.06078
0.9515
0.06876
0.0907
0.09016
0.09109
3
27
153
4
37
206


rs3806014
Imputed
T
DOM
430
1.002
0.2658
0.5954
1.688
0.008889
0.9929
0.06876
0.0907
0.09016
0.09109
3
27
153
4
37
206


rs3806015
Imputed
A
ADD
426
1.004
0.2345
0.634
1.589
0.01643
0.9869
0.07007
0.09155
0.09066
0.09221
3
27
152
4
37
203


rs3806015
Imputed
A
DOM
426
0.9945
0.2663
0.5902
1.676
−0.02059
0.9836
0.07007
0.09155
0.09066
0.09221
3
27
152
4
37
203


rs3806018
Imputed
A
ADD
442
0.9899
0.2312
0.6292
1.557
−0.04381
0.9651
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806018
Imputed
A
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446
0.0729
0.0905
0.08947
0.09127
3
28
159
4
38
210


rs3806019
Imputed
A
ADD
438
0.974
0.2319
0.6182
1.534
−0.1137
0.9095
0.07445
0.09132
0.08995
0.09237
3
28
158
4
38
207


rs3806019
Imputed
A
DOM
438
0.9676
0.2625
0.5784
1.619
−0.1255
0.9001
0.07445
0.09132
0.08995
0.09237
3
28
158
4
38
207


rs3806024
Imputed
T
ADD
442
1.029
0.2268
0.6599
1.605
0.1274
0.8986
0.03996
0.09276
0.09424
0.09163
4
28
159
4
38
209


rs3806024
Imputed
T
DOM
442
1.001
0.2605
0.601
1.669
0.005209
0.9958
0.03996
0.09276
0.09424
0.09163
4
28
159
4
38
209


rs3847825
Imputed
G
ADD
440
0.7616
0.1432
0.5752
1.008
−1.901
0.05729
1
0.38523
0.34737
0.414
18
96
76
47
113
90


rs3847825
Imputed
G
GEN
440




6.939
0.03113
1
0.38523
0.34737
0.414
18
96
76
47
113
90


rs3852001
Genotyped
C
GEN
443




0.9298
0.6282
0.6332
0.18172
0.19634
0.17063
8
59
124
8
70
174


rs3852001
Genotyped
C
REC
443
1.348
0.5124
0.4937
3.68
0.5827
0.5601
0.6332
0.18172
0.19634
0.17063
8
59
124
8
70
174


rs3852002
Imputed
G
GEN
443




1.248
0.5357
0.6275
0.17946
0.19634
0.16667
8
59
124
8
68
176


rs3852002
Imputed
G
REC
443
1.348
0.5124
0.4937
3.68
0.5827
0.5601
0.6275
0.17946
0.19634
0.16667
8
59
124
8
68
176


rs3852003
Imputed
A
GEN
442




1.289
0.525
0.6277
0.17986
0.19737
0.16667
8
59
123
8
68
176


rs3852003
Imputed
A
REC
442
1.351
0.5124
0.4947
3.687
0.5864
0.5576
0.6277
0.17986
0.19737
0.16667
8
59
123
8
68
176


rs3942254
Imputed
T
DOM
420
0.6591
0.2081
0.4383
0.991
−2.004
0.04512
0.1836
0.39167
0.35393
0.41942
26
74
78
45
113
84


rs3945085
Imputed
A
DOM
441
1.324
0.1969
0.9003
1.948
1.427
0.1537
0.05672
0.34014
0.37435
0.314
31
81
79
29
99
122


rs399485
Imputed
A
DOM
437
1.648
0.1968
1.12
2.423
2.538
0.01116
0.3195
0.25973
0.29211
0.23482
10
91
89
15
86
146


rs4029119
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs4029119
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs412791
Imputed
C
GEN
432




0.1413
0.9318
0.8291
0.33565
0.33957
0.33265
23
81
83
27
109
109


rs4146972
Genotyped
T
DOM
443
1.832
0.2123
1.208
2.777
2.851
0.00436
0.7362
0.17043
0.20942
0.14087
7
66
118
7
57
188


rs4259369
Imputed
C
REC
440
0.659
0.2526
0.4017
1.081
−1.651
0.09871
0.3808
0.42727
0.39005
0.45582
30
89
72
55
117
77


rs4273613
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs4273613
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs4294022
Imputed
C
DOM
441
1.051
0.1977
0.7133
1.548
0.251
0.8018
0.25
0.2483
0.25132
0.24603
14
67
108
18
88
146


rs4310554
Genotyped
C
DOM
443
1.561
0.2379
0.9794
2.489
1.872
0.06115
0.9242
0.52032
0.55497
0.49405
56
100
35
63
123
66


rs4315598
Imputed
T
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs4315598
Imputed
T
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs4370878
Imputed
G
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682
0.1648
0.33523
0.36842
0.31
29
82
79
27
101
122


rs4436200
Imputed
C
ADD
442
0.543
0.2248
0.3494
0.8436
−2.716
0.0066
0.2274
0.13575
0.10209
0.16135
2
35
154
9
63
179


rs4444612
Imputed
G
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs4444612
Imputed
G
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs4450660
Imputed
C
DOM
438
1.275
0.1965
0.8675
1.874
1.236
0.2163
0.378
0.25457
0.26316
0.24798
11
78
101
21
81
146


rs4463950
Imputed
C
DOM
438
0.7997
0.211
0.5288
1.209
−1.06
0.2893
0.18
0.46347
0.44415
0.478
41
85
62
60
119
71


rs4509702
Imputed
C
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682
0.1648
0.33523
0.36842
0.31
29
82
79
27
101
122


rs4533379
Imputed
G
ADD
441
1.075
0.1633
0.7809
1.481
0.4457
0.6558
0.6902
0.23243
0.23947
0.22709
9
73
108
13
88
150


rs4569984
Imputed
A
DOM
426
1.031
0.2026
0.6932
1.534
0.1516
0.8795
0.498
0.23357
0.22973
0.23651
10
65
110
16
82
143


rs4570530
Imputed
C
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682
0.1648
0.33523
0.36842
0.31
29
82
79
27
101
122


rs4571583
Imputed
T
DOM
439
1.001
0.1996
0.6767
1.48
0.002892
0.9977
0.3419
0.22665
0.22222
0.23
10
64
115
16
83
151


rs4586678
Imputed
A
DOM
442
1.235
0.1959
0.8415
1.813
1.079
0.2807
0.4569
0.25679
0.26316
0.25198
11
78
101
21
85
146


rs4615971
Imputed
C
DOM
440
1.347
0.1965
0.9164
1.98
1.516
0.1296
0.2375
0.33182
0.36579
0.306
28
83
79
26
101
123


rs4629229
Imputed
G
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs4632512
Imputed
T
GEN
443




1.248
0.5357
0.6275
0.17946
0.19634
0.16667
8
59
124
8
68
176


rs4641552
Imputed
A
ADD
437
0.6214
0.279
0.3596
1.074
−1.705
0.08817
1
0.07323
0.05585
0.08635
0
21
167
2
39
208


rs4682527
Imputed
C
DOM
209
2.955
1.237
0.2613
33.41
0.8755
0.3813
1
0.00718
0.01111
0.0042
0
2
88
0
1
118


rs4688632
Imputed
G
REC
429
0.6822
0.2335
0.4316
1.078
−1.638
0.1014
0.00063
0.45338
0.41892
0.47951
38
79
68
68
98
78


rs4702720
Imputed
A
ADD
359
0.757
0.1808
0.5311
1.079
−1.54
0.1236
1
0.24652
0.21935
0.26716
10
48
97
12
85
107


rs4702720
Imputed
A
DOM
359
0.6462
0.2205
0.4194
0.9956
−1.98
0.04769
1
0.24652
0.21935
0.26716
10
48
97
12
85
107


rs4714484
Imputed
A
ADD
439
0.8396
0.1992
0.5682
1.241
−0.8775
0.3802
0.3702
0.15718
0.1455
0.166
3
49
137
5
73
172


rs4714484
Imputed
A
DOM
439
0.8278
0.2185
0.5394
1.27
−0.8651
0.387
0.3702
0.15718
0.1455
0.166
3
49
137
5
73
172


rs4725142
Genotyped
G
REC
443
1.186
0.2801
0.6847
2.053
0.6082
0.5431
0.1412
0.34537
0.35864
0.33532
28
81
82
32
105
115


rs4725144
Imputed
G
REC
438
1.136
0.2871
0.647
1.994
0.4432
0.6576
0.1657
0.33904
0.3484
0.332
26
79
83
31
104
115


rs4760785
Imputed
A
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4760785
Imputed
A
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4760894
Imputed
T
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4760894
Imputed
T
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4760895
Imputed
A
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4760895
Imputed
A
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs4767184
Imputed
C
ADD
425
0.7759
0.1466
0.5822
1.034
−1.732
0.08334
0.8408
0.40353
0.3674
0.43033
18
97
66
50
110
84


rs4767184
Imputed
C
GEN
425




8.173
0.0168
0.8408
0.40353
0.3674
0.43033
18
97
66
50
110
84


rs4773487
Imputed
T
ADD
436
1.73
0.2227
1.118
2.676
2.461
0.01385
0.1754
0.11927
0.14973
0.09639
2
52
133
1
46
202


rs4780547
Imputed
G
GEN
442




7.627
0.02207
0.3901
0.26244
0.22775
0.28884
7
73
111
27
91
133


rs4780547
Imputed
G
REC
442
0.2881
0.4519
0.1188
0.6985
−2.754
0.00588
0.3901
0.26244
0.22775
0.28884
7
73
111
27
91
133


rs483159
Imputed
T
DOM
386
1.953
0.219
1.271
2.999
3.056
0.00225
0.3957
0.18264
0.22561
0.1509
4
66
94
6
55
161


rs4836502
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs4836507
Imputed
C
DOM
442
0.5803
0.2019
0.3906
0.862
−2.696
0.00703
0.09482
0.34955
0.31414
0.37649
27
66
98
35
119
97


rs4851531
Imputed
T
DOM
442
0.6071
0.2055
0.4058
0.9082
−2.428
0.01517
0.2107
0.44231
0.40052
0.4741
36
81
74
57
124
70


rs4879931
Imputed
G
ADD
438
0.7451
0.1533
0.5517
1.006
−1.92
0.05489
0.5791
0.31279
0.28042
0.33735
10
86
93
30
108
111


rs489441
Imputed
G
ADD
409
1.224
0.1644
0.8866
1.689
1.228
0.2195
0.6152
0.26773
0.28736
0.25319
11
78
85
16
87
132


rs489441
Imputed
G
DOM
409
1.384
0.2043
0.9276
2.066
1.592
0.1114
0.6152
0.26773
0.28736
0.25319
11
78
85
16
87
132


rs4976276
Imputed
T
ADD
440
0.9836
0.1502
0.7328
1.32
−0.1103
0.9121
0.5816
0.31591
0.31316
0.318
17
85
88
24
111
115


rs4977681
Imputed
C
REC
441
0.9851
0.323
0.523
1.856
−0.04633
0.9631
0.7396
0.31293
0.30105
0.322
19
77
95
26
109
115


rs4986197
Imputed
G
ADD
440
1.083
0.1634
0.7863
1.492
0.4891
0.6248
0.7887
0.23182
0.23947
0.226
9
73
108
13
87
150


rs4986220
Imputed
T
ADD
442
1.075
0.1653
0.7775
1.486
0.4371
0.6621
1
0.21946
0.22632
0.21429
9
68
113
12
84
156


rs525462
Imputed
A
GEN
440




8.36
0.0153
0.4957
0.57045
0.53704
0.59562
62
79
48
85
129
37


rs552006
Imputed
G
GEN
443




0.4432
0.8012
0.8062
0.26298
0.26178
0.26389
11
78
102
18
97
137


rs5756669
Imputed
C
DOM
443
1.061
0.217
0.6932
1.623
0.2716
0.7859
0.08691
0.48646
0.50262
0.47421
54
84
53
60
119
73


rs581905
Imputed
T
DOM
442
2.177
0.2555
1.32
3.593
3.045
0.00232
1
0.09955
0.13089
0.0757
2
46
143
2
34
215


rs6033138
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6033138
Imputed
C
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6040619
Imputed
C
ADD
439
1.429
0.1436
1.079
1.894
2.487
0.01287
0.3441
0.34852
0.39628
0.31275
34
81
73
24
109
118


rs6040619
Imputed
C
GEN
439




7.276
0.02631
0.3441
0.34852
0.39628
0.31275
34
81
73
24
109
118


rs6040625
Imputed
T
ADD
442
1.414
0.1431
1.068
1.871
2.419
0.01557
0.3449
0.34729
0.39267
0.31275
34
82
75
24
109
118


rs6040625
Imputed
T
GEN
442




6.967
0.0307
0.3449
0.34729
0.39267
0.31275
34
82
75
24
109
118


rs6040630
Imputed
A
ADD
441
1.401
0.1436
1.058
1.857
2.349
0.01881
0.2464
0.34467
0.38947
0.31076
34
80
76
24
108
119


rs6040630
Imputed
A
GEN
441




6.767
0.03392
0.2464
0.34467
0.38947
0.31076
34
80
76
24
108
119


rs6040633
Imputed
A
ADD
442
1.391
0.1433
1.05
1.842
2.302
0.02133
0.2489
0.34502
0.38947
0.31151
34
80
76
24
109
119


rs6040633
Imputed
A
GEN
442




6.683
0.03539
0.2489
0.34502
0.38947
0.31151
34
80
76
24
109
119


rs6040634
Imputed
T
ADD
441
1.404
0.1433
1.06
1.859
2.368
0.01791
0.295
0.34694
0.39211
0.31275
34
81
75
24
109
118


rs6040634
Imputed
T
GEN
441




6.855
0.03246
0.295
0.34694
0.39211
0.31275
34
81
75
24
109
118


rs6040636
Imputed
T
ADD
443
1.371
0.1435
1.034
1.816
2.196
0.0281
0.2458
0.34312
0.38482
0.31151
34
79
78
24
109
119


rs6040636
Imputed
T
GEN
443




6.529
0.03821
0.2458
0.34312
0.38482
0.31151
34
79
78
24
109
119


rs6040638
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6040638
Imputed
C
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6040644
Imputed
A
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6040644
Imputed
A
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6040667
Imputed
T
ADD
424
1.422
0.1447
1.071
1.888
2.432
0.01502
0.3997
0.35731
0.40385
0.32231
34
79
69
24
108
110


rs6040667
Imputed
T
GEN
424




7.201
0.02731
0.3997
0.35731
0.40385
0.32231
34
79
69
24
108
110


rs6040668
Imputed
C
ADD
440
1.398
0.1448
1.053
1.857
2.314
0.02064
0.5278
0.34659
0.38947
0.314
33
82
75
23
111
116


rs6040668
Imputed
C
GEN
440




6.796
0.03345
0.5278
0.34659
0.38947
0.314
33
82
75
23
111
116


rs6053005
Imputed
C
DOM
275
0.4506
0.309
0.2459
0.8257
−2.58
0.00989
0.0865
0.56909
0.53361
0.59615
41
45
33
55
76
25


rs6054405
Imputed
A
REC
443
0.9755
0.2643
0.5811
1.638
−0.09385
0.9252
0.108
0.38036
0.37696
0.38294
31
82
78
41
111
100


rs6054427
Genotyped
G
GEN
443




0.8477
0.6545
0.1259
0.36907
0.35602
0.37897
29
78
84
39
113
100


rs6075186
Imputed
G
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs608278
Imputed
A
ADD
351
1.166
0.1563
0.8582
1.584
0.9815
0.3263
0.7448
0.43305
0.45364
0.4175
31
75
45
33
101
66


rs6111540
Imputed
A
ADD
380
0.9692
0.145
0.7295
1.288
−0.2155
0.8294
0.1209
0.45921
0.45181
0.46495
35
80
51
53
93
68


rs6131206
Imputed
C
ADD
424
1.493
0.1554
1.101
2.025
2.581
0.00986
0.2791
0.28066
0.3288
0.24375
23
75
86
15
87
138


rs6131208
Imputed
T
ADD
440
1.387
0.1445
1.045
1.841
2.263
0.02364
0.2909
0.34091
0.3836
0.30876
33
79
77
23
109
119


rs6131208
Imputed
T
GEN
440




6.748
0.03426
0.2909
0.34091
0.3836
0.30876
33
79
77
23
109
119


rs6131919
Imputed
G
DOM
443
1.138
0.2135
0.7487
1.729
0.6045
0.5455
0.2352
0.16817
0.17801
0.16071
8
52
131
8
65
179


rs6134243
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6134243
Imputed
C
GEN
443




6.692
0.03523
0.2479
0.34424
0.38743
0.31151
34
80
77
24
109
119


rs6136020
Imputed
A
DOM
441
1.061
0.2134
0.6982
1.612
0.2765
0.7822
0.1646
0.1644
0.17016
0.16
8
49
134
8
64
178


rs613799
Imputed
C
DOM
420
1.391
0.2013
0.9378
2.065
1.641
0.1008
0.1798
0.32262
0.35912
0.29498
26
78
77
24
93
122


rs644041
Imputed
G
ADD
402
1.202
0.1659
0.8685
1.664
1.111
0.2667
0.6136
0.27114
0.28947
0.25758
11
77
83
16
87
128


rs644041
Imputed
G
DOM
402
1.351
0.2068
0.9007
2.026
1.454
0.1459
0.6136
0.27114
0.28947
0.25758
11
77
83
16
87
128


rs6464377
Imputed
C
DOM
443
1.043
0.2788
0.6037
1.801
0.1498
0.8809
0.4889
0.07223
0.07068
0.07341
0
27
164
3
31
218


rs6474230
Imputed
T
DOM
443
1.32
0.1941
0.9026
1.931
1.432
0.1521
0.6236
0.26298
0.27487
0.25397
9
87
95
19
90
143


rs6476565
Imputed
A
DOM
442
1.184
0.2598
0.7118
1.97
0.6512
0.5149
0.7613
0.0871
0.09474
0.08135
2
32
156
2
37
213


rs6511286
Imputed
T
ADD
442
1.099
0.1394
0.8364
1.444
0.6778
0.4979
0.1082
0.33371
0.34737
0.32341
24
84
82
33
97
122


rs6541829
Genotyped
C
REC
443
2.003
0.3363
1.036
3.873
2.066
0.03883
0.1994
0.2833
0.2801
0.28571
24
59
108
17
110
125


rs6544721
Imputed
G
DOM
436
1.236
0.1963
0.8409
1.815
1.077
0.2814
0.454
0.25803
0.26455
0.25304
11
78
100
21
83
143


rs6544728
Imputed
T
DOM
439
1.333
0.197
0.9058
1.961
1.458
0.1448
0.7087
0.25854
0.26862
0.251
10
81
97
21
84
146


rs6565910
Imputed
G
DOM
433
1.047
0.1973
0.7112
1.541
0.2331
0.8157
0.7258
0.28753
0.29144
0.28455
15
79
93
19
102
125


rs6581985
Imputed
G
GEN
408




7.356
0.02528
0.3553
0.31127
0.35714
0.27682
22
81
72
13
103
117


rs6581985
Imputed
G
REC
408
2.451
0.3667
1.195
5.028
2.445
0.01449
0.3553
0.31127
0.35714
0.27682
22
81
72
13
103
117


rs6685186
Imputed
T
ADD
426
1.015
0.1482
0.7591
1.357
0.1003
0.9201
0.3984
0.35329
0.35519
0.35185
23
84
76
26
119
98


rs6685186
Imputed
T
GEN
426




0.5003
0.7787
0.3984
0.35329
0.35519
0.35185
23
84
76
26
119
98


rs670593
Imputed
A
REC
442
0.3987
0.3133
0.2158
0.7367
−2.935
0.00333
0.7665
0.40045
0.38158
0.41468
19
107
64
50
109
93


rs6722640
Imputed
T
DOM
441
0.5987
0.207
0.399
0.8983
−2.478
0.01322
0.2486
0.44671
0.40576
0.478
37
81
73
57
125
68


rs6746170
Imputed
A
DOM
442
1.346
0.196
0.9168
1.977
1.517
0.1293
0.8072
0.26471
0.27749
0.25498
11
84
96
21
86
144


rs6757316
Imputed
A
GEN
431




3.593
0.1659
0.01072
0.43155
0.45946
0.41057
31
108
46
36
130
80


rs6805139
Imputed
G
DOM
442
1.417
0.2237
0.9138
2.197
1.557
0.1194
0.00028
0.52941
0.56283
0.50398
67
81
43
76
101
74


rs6808571
Imputed
G
ADD
440
1.138
0.1981
0.7719
1.678
0.6528
0.5139
1
0.14091
0.15
0.134
5
47
138
3
61
186


rs6816479
Imputed
A
REC
430
0.7905
0.293
0.4452
1.404
−0.8024
0.4223
0.3984
0.35349
0.32787
0.37247
22
76
85
36
112
99


rs6865976
Imputed
C
DOM
401
1.085
0.2308
0.69
1.705
0.352
0.7249
0.2704
0.47382
0.48276
0.46696
38
92
44
46
120
61


rs687047
Imputed
C
ADD
443
0.5642
0.2311
0.3587
0.8876
−2.476
0.01329
0.8186
0.11512
0.08377
0.13889
0
32
159
5
60
187


rs6871041
Imputed
G
DOM
418
0.6503
0.2006
0.4389
0.9635
−2.145
0.03192
0.6303
0.2823
0.25824
0.30085
16
62
104
15
112
109


rs688358
Imputed
A
ADD
427
0.5756
0.2319
0.3653
0.9068
−2.382
0.01723
0.8183
0.1171
0.08602
0.14108
0
32
154
5
58
178


rs6908481
Imputed
C
REC
400
1.391
0.2704
0.8186
2.363
1.22
0.2226
0.7579
0.41875
0.43275
0.4083
35
78
58
37
113
79


rs6917224
Imputed
A
ADD
441
0.959
0.1367
0.7336
1.254
−0.3058
0.7597
0.1287
0.37642
0.37105
0.38048
33
75
82
37
117
97


rs6917224
Imputed
A
GEN
441




2.699
0.2593
0.1287
0.37642
0.37105
0.38048
33
75
82
37
117
97


rs6920677
Imputed
G
DOM
438
0.9579
0.2018
0.645
1.422
−0.2133
0.8311
0.6893
0.39384
0.37831
0.40562
25
93
71
45
112
92


rs6994498
Imputed
G
DOM
443
1.32
0.1941
0.9026
1.931
1.432
0.1521
0.6236
0.26298
0.27487
0.25397
9
87
95
19
90
143


rs6998772
Imputed
T
DOM
442
1.182
0.3637
0.5795
2.411
0.4595
0.6459
1
0.04299
0.04712
0.03984
0
18
173
0
20
231


rs7022281
Imputed
C
ADD
441
0.6915
0.1481
0.5172
0.9244
−2.491
0.01275
0.548
0.38776
0.34392
0.42063
16
98
75
47
118
87


rs7022281
Imputed
C
GEN
441




9.434
0.00894
0.548
0.38776
0.34392
0.42063
16
98
75
47
118
87


rs7022281
Imputed
C
REC
441
0.386
0.3115
0.2096
0.7108
−3.056
0.00224
0.548
0.38776
0.34392
0.42063
16
98
75
47
118
87


rs7043983
Imputed
T
DOM
438
1.147
0.2639
0.6835
1.923
0.5181
0.6044
0.5344
0.08447
0.09043
0.08
2
30
156
2
36
212


rs7077799
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.1663
0.33484
0.36911
0.30876
29
83
79
27
101
123


rs7088947
Imputed
A
ADD
436
0.5704
0.339
0.2936
1.108
−1.656
0.0977
0.6185
0.05161
0.03743
0.06225
0
14
173
0
31
218


rs7089661
Imputed
C
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129
0.3355
0.33145
0.36649
0.30478
28
84
79
25
103
123


rs7102072
Imputed
A
DOM
439
0.9567
0.1978
0.6492
1.41
−0.224
0.8228
0.5412
0.26651
0.25926
0.272
10
78
101
18
100
132


rs710832
Genotyped
A
REC
443
0.4518
0.4871
0.1739
1.174
−1.631
0.1029
0.4404
0.24492
0.21466
0.26786
6
70
115
17
101
134


rs712531
Imputed
A
DOM
275
2.784
1.233
0.2485
31.19
0.8305
0.4063
1
0.00545
0.00833
0.00323
0
2
118
0
1
154


rs7129817
Imputed
T
ADD
441
0.9401
0.1475
0.7041
1.255
−0.4191
0.6751
0.4609
0.3424
0.33598
0.34722
20
87
82
28
119
105


rs7134262
Imputed
T
GEN
438




5.456
0.06536
1
0.3379
0.37632
0.30847
29
85
76
21
111
116


rs7134262
Imputed
T
REC
438
1.986
0.3091
1.084
3.641
2.22
0.02641
1
0.3379
0.37632
0.30847
29
85
76
21
111
116


rs7138300
Imputed
C
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs7138300
Imputed
C
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546
0.438
0.4537
0.40541
0.48988
30
90
65
63
116
68


rs722927
Imputed
G
ADD
435
0.8492
0.2939
0.4774
1.511
−0.5561
0.5782
1
0.06207
0.05645
0.06627
0
21
165
1
31
217


rs722927
Imputed
G
DOM
435
0.874
0.3014
0.4842
1.578
−0.4468
0.655
1
0.06207
0.05645
0.06627
0
21
165
1
31
217


rs726424
Genotyped
G
ADD
443
0.7827
0.1433
0.5911
1.037
−1.709
0.08742
0.6906
0.38939
0.35602
0.41468
18
100
73
47
115
90


rs726424
Genotyped
G
GEN
443




7.021
0.02989
0.6906
0.38939
0.35602
0.41468
18
100
73
47
115
90


rs7295817
Imputed
C
ADD
424
0.727
0.1447
0.5475
0.9655
−2.203
0.02761
1
0.42807
0.38187
0.46281
23
93
66
55
114
73


rs7295817
Imputed
C
GEN
424




6.629
0.03635
1
0.42807
0.38187
0.46281
23
93
66
55
114
73


rs7295817
Imputed
C
REC
424
0.4929
0.2774
0.2862
0.849
−2.55
0.01077
1
0.42807
0.38187
0.46281
23
93
66
55
114
73


rs7297372
Imputed
A
ADD
435
0.7305
0.1423
0.5526
0.9655
−2.207
0.02734
1
0.55977
0.51862
0.59109
50
95
43
86
120
41


rs7297372
Imputed
A
GEN
435




4.87
0.08761
1
0.55977
0.51862
0.59109
50
95
43
86
120
41


rs7298255
Imputed
A
ADD
443
0.7433
0.1356
0.5699
0.9696
−2.188
0.02869
0.2143
0.46163
0.41885
0.49405
34
92
65
67
115
70


rs7298255
Imputed
A
DOM
443
0.74
0.2089
0.4914
1.114
−1.442
0.1493
0.2143
0.46163
0.41885
0.49405
34
92
65
67
115
70


rs7305832
Imputed
C
GEN
442




5.607
0.06061
1
0.33597
0.37435
0.30677
29
85
77
21
112
118


rs7305832
Imputed
C
REC
442
2.008
0.3089
1.096
3.678
2.256
0.02404
1
0.33597
0.37435
0.30677
29
85
77
21
112
118


rs737542
Imputed
A
REC
425
2.077
0.347
1.052
4.1
2.107
0.03514
0.1461
0.27765
0.27596
0.27893
23
55
105
16
103
123


rs742827
Imputed
A
ADD
437
1.396
0.145
1.051
1.855
2.3
0.02146
0.4608
0.34668
0.38947
0.31377
33
82
75
23
109
115


rs742827
Imputed
A
GEN
437




6.499
0.03879
0.4608
0.34668
0.38947
0.31377
33
82
75
23
109
115


rs7446891
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs7448641
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7448641
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7460605
Imputed
G
DOM
412
1.481
0.222
0.9584
2.288
1.769
0.07694
0.1313
0.42961
0.46369
0.40343
33
100
46
35
118
80


rs7468898
Imputed
T
ADD
426
1.05
0.1419
0.795
1.386
0.3429
0.7317
0.6273
0.47183
0.48077
0.46516
44
87
51
48
131
65


rs7468898
Imputed
T
GEN
426




1.795
0.4075
0.6273
0.47183
0.48077
0.46516
44
87
51
48
131
65


rs7501186
Imputed
A
DOM
443
2.011
0.2218
1.302
3.107
3.15
0.00163
0.4471
0.14447
0.17801
0.11905
3
62
126
8
44
200


rs755117
Imputed
A
DOM
418
0.7161
0.2216
0.4638
1.106
−1.507
0.1319
0.07503
0.16627
0.14641
0.18143
7
39
135
10
66
161


rs7557560
Imputed
T
GEN
437




3.838
0.1467
0.05904
0.20938
0.20213
0.21486
14
48
126
12
83
154


rs7557560
Imputed
T
REC
437
1.621
0.4101
0.7258
3.622
1.179
0.2386
0.05904
0.20938
0.20213
0.21486
14
48
126
12
83
154


rs7562462
Imputed
T
DOM
436
0.6891
0.2101
0.4565
1.04
−1.772
0.07634
0.2049
0.43349
0.40576
0.4551
31
93
67
44
135
66


rs757173
Genotyped
G
DOM
443
1.033
0.2035
0.6933
1.54
0.1606
0.8724
0.01107
0.37359
0.3822
0.36706
23
100
68
26
133
93


rs7607447
Imputed
T
REC
410
2.337
0.3138
1.264
4.323
2.706
0.00681
0.3717
0.33049
0.37288
0.29828
30
72
75
19
101
113


rs7639053
Imputed
A
ADD
443
1.02
0.1656
0.7375
1.411
0.1214
0.9034
0.6744
0.21558
0.21728
0.21429
10
63
118
12
84
156


rs7648163
Imputed
C
REC
421
0.941
0.3004
0.5223
1.695
−0.2025
0.8396
0.06007
0.32542
0.32222
0.3278
22
72
86
31
96
114


rs7651273
Imputed
A
GEN
442




1.393
0.4984
0.6226
0.17534
0.19211
0.1627
7
59
124
8
66
178


rs7653190
Imputed
C
ADD
433
0.9859
0.1679
0.7095
1.37
−0.0846
0.9326
0.569
0.21478
0.21351
0.21573
10
59
116
12
83
153


rs7653685
Genotyped
C
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs7684899
Imputed
C
DOM
417
0.5176
0.2237
0.3339
0.8024
−2.944
0.00324
0.8637
0.17266
0.13462
0.20213
6
37
139
7
81
147


rs7701604
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7701604
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7703676
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7703676
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709
2.36E−05
0.07336
0.0733
0.07341
3
22
166
7
23
222


rs7711358
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.00954
0.1134
0.34312
0.3089
0.36905
26
66
99
34
118
100


rs7713251
Imputed
C
REC
433
1.11
0.3089
0.6058
2.033
0.3374
0.7358
0.08847
0.30485
0.29894
0.30943
22
69
98
26
99
119


rs7737608
Imputed
G
DOM
399
0.7496
0.2094
0.4973
1.13
−1.376
0.1687
0.912
0.34712
0.32164
0.36623
18
74
79
29
109
90


rs7755903
Imputed
A
GEN
426




0.886
0.6421
1
0.41197
0.41129
0.4125
29
95
62
43
112
85


rs7762993
Imputed
A
ADD
431
1.066
0.1948
0.7276
1.561
0.3271
0.7436
0.00187
0.18213
0.18548
0.17959
2
65
119
3
82
160


rs7762993
Imputed
A
DOM
431
1.079
0.2057
0.7207
1.614
0.3676
0.7132
0.00187
0.18213
0.18548
0.17959
2
65
119
3
82
160


rs7767265
Imputed
G
DOM
430
1.155
0.1977
0.7839
1.702
0.7283
0.4664
0.0128
0.24419
0.25936
0.23251
9
79
99
7
99
137


rs7769415
Imputed
C
GEN
433




11.76
0.0028
0.2034
0.34642
0.41176
0.29675
35
84
68
23
100
123


rs7771264
Imputed
T
DOM
441
1.051
0.1977
0.7133
1.548
0.251
0.8018
0.25
0.2483
0.25132
0.24603
14
67
108
18
88
146


rs7795792
Imputed
T
REC
440
0.659
0.2526
0.4017
1.081
−1.651
0.09871
0.3808
0.42727
0.39005
0.45582
30
89
72
55
117
77


rs7806481
Imputed
G
REC
443
1.465
0.2335
0.9272
2.316
1.636
0.1017
1
0.47517
0.47906
0.47222
50
83
58
50
138
64


rs7808536
Imputed
G
DOM
409
1.374
0.2138
0.904
2.09
1.488
0.1368
0.7448
0.18582
0.2095
0.16739
8
59
112
7
63
160


rs7814819
Imputed
G
ADD
250
2.296
0.3362
1.188
4.438
2.472
0.01342
1
0.088
0.12736
0.05903
1
25
80
1
15
128


rs7814819
Imputed
G
DOM
250
2.549
0.3553
1.271
5.115
2.634
0.00844
1
0.088
0.12736
0.05903
1
25
80
1
15
128


rs7815952
Imputed
T
DOM
442
1.182
0.3637
0.5795
2.411
0.4595
0.6459
1
0.04299
0.04712
0.03984
0
18
173
0
20
231


rs7834090
Imputed
T
DOM
442
1.182
0.3637
0.5795
2.411
0.4595
0.6459
1
0.04299
0.04712
0.03984
0
18
173
0
20
231


rs7859250
Imputed
C
DOM
442
1.184
0.2598
0.7118
1.97
0.6512
0.5149
0.7613
0.0871
0.09474
0.08135
2
32
156
2
37
213


rs7863577
Genotyped
A
ADD
443
1.029
0.2235
0.6639
1.595
0.1275
0.8986
0.01049
0.10835
0.10995
0.10714
6
30
155
5
44
203


rs7863577
Genotyped
A
DOM
443
0.9475
0.2573
0.5723
1.569
−0.2095
0.8341
0.01049
0.10835
0.10995
0.10714
6
30
155
5
44
203


rs7902140
Imputed
C
ADD
442
0.9423
0.1886
0.6511
1.364
−0.3154
0.7525
0.2408
0.16968
0.16492
0.17331
5
53
133
4
79
168


rs7921834
Imputed
C
DOM
440
1.347
0.1965
0.9164
1.98
1.516
0.1296
0.2375
0.33182
0.36579
0.306
28
83
79
26
101
123


rs7939893
Imputed
C
ADD
441
0.6916
0.1478
0.5177
0.924
−2.495
0.01261
0.3875
0.32653
0.27895
0.36255
22
62
106
29
124
98


rs7939893
Imputed
C
DOM
441
0.506
0.1982
0.3431
0.7463
−3.437
0.00059
0.3875
0.32653
0.27895
0.36255
22
62
106
29
124
98


rs7955901
Imputed
C
ADD
440
0.7285
0.1367
0.5573
0.9524
−2.316
0.02054
0.2142
0.46364
0.41842
0.498
34
91
65
67
115
68


rs7955901
Imputed
C
DOM
440
0.7139
0.2105
0.4726
1.078
−1.601
0.1093
0.2142
0.46364
0.41842
0.498
34
91
65
67
115
68


rs7956274
Imputed
T
ADD
426
0.7156
0.1398
0.5441
0.9412
−2.394
0.01667
0.3288
0.45423
0.40659
0.48975
30
88
64
63
113
68


rs7956274
Imputed
T
DOM
426
0.7031
0.2129
0.4633
1.067
−1.655
0.098
0.3288
0.45423
0.40659
0.48975
30
88
64
63
113
68


rs7957932
Imputed
G
ADD
439
0.7234
0.1368
0.5533
0.9459
−2.366
0.01797
0.3884
0.47039
0.42408
0.50605
35
92
64
67
117
64


rs7957932
Imputed
G
DOM
439
0.6888
0.212
0.4546
1.044
−1.758
0.07871
0.3884
0.47039
0.42408
0.50605
35
92
64
67
117
64


rs7984294
Imputed
A
DOM
437
2.115
0.2464
1.305
3.429
3.041
0.00236
0.6016
0.10069
0.13564
0.0743
2
47
139
1
35
213


rs7994286
Imputed
A
ADD
436
1.764
0.2224
1.141
2.727
2.552
0.0107
0.1747
0.12041
0.15241
0.09639
2
53
132
1
46
202


rs7994286
Imputed
A
DOM
436
1.796
0.2315
1.141
2.828
2.529
0.01143
0.1747
0.12041
0.15241
0.09639
2
53
132
1
46
202


rs8038229
Genotyped
A
ADD
443
0.6909
0.1538
0.5111
0.934
−2.404
0.01622
0.8204
0.29684
0.25393
0.32937
12
73
106
28
110
114


rs8038229
Genotyped
A
DOM
443
0.666
0.1948
0.4546
0.9756
−2.087
0.03693
0.8204
0.29684
0.25393
0.32937
12
73
106
28
110
114


rs8043336
Imputed
C
GEN
418




0.2115
0.8997
0.4595
0.36124
0.35955
0.3625
23
82
73
35
104
101


rs8043336
Imputed
C
REC
418
0.9456
0.301
0.5242
1.706
−0.186
0.8525
0.4595
0.36124
0.35955
0.3625
23
82
73
35
104
101


rs8054431
Imputed
T
DOM
399
1.148
0.2121
0.7573
1.739
0.6492
0.5162
0.01816
0.36842
0.37791
0.36123
19
92
61
24
116
87


rs8066502
Imputed
T
DOM
442
0.5122
0.2187
0.3337
0.7864
−3.059
0.00222
0.7257
0.16176
0.1178
0.19522
2
41
148
8
82
161


rs8068714
Imputed
T
DOM
442
0.5127
0.2187
0.334
0.7871
−3.055
0.00225
0.8632
0.16403
0.11842
0.19841
2
41
147
9
82
161


rs892575
Imputed
T
ADD
442
1.044
0.1635
0.7579
1.439
0.2645
0.7914
1
0.22624
0.23037
0.22311
9
70
112
13
86
152


rs892583
Imputed
G
ADD
438
1.079
0.1657
0.7796
1.492
0.457
0.6477
1
0.22146
0.22872
0.216
9
68
111
12
84
154


rs915494
Imputed
A
ADD
422
1.399
0.1473
1.048
1.868
2.281
0.02256
0.1185
0.32227
0.36828
0.28602
29
79
78
22
91
123


rs915494
Imputed
A
DOM
422
1.486
0.1999
1.004
2.199
1.982
0.0475
0.1185
0.32227
0.36828
0.28602
29
79
78
22
91
123


rs917295
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs922594
Imputed
T
DOM
443
0.5826
0.1985
0.3948
0.8597
−2.722
0.0065
0.6802
0.36005
0.31675
0.39286
21
79
91
34
130
88


rs9301653
Imputed
T
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs9301653
Imputed
T
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs9309988
Imputed
G
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs9309989
Genotyped
C
DOM
443
0.771
0.2394
0.4822
1.233
−1.086
0.2774
1
0.11174
0.09686
0.12302
1
35
155
4
54
194


rs9310221
Imputed
A
DOM
393
0.8966
0.2237
0.5784
1.39
−0.4881
0.6255
0.1503
0.42875
0.42604
0.4308
29
86
54
36
121
67


rs9327555
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.00964
0.1134
0.34312
0.31152
0.36706
27
65
99
33
119
100


rs937890
Imputed
G
DOM
442
0.5127
0.2187
0.334
0.7871
−3.055
0.00225
0.8632
0.16403
0.11842
0.19841
2
41
147
9
82
161


rs9454967
Imputed
G
ADD
441
0.982
0.2314
0.624
1.545
−0.07863
0.9373
0.07328
0.0907
0.08947
0.09163
3
28
159
4
38
209


rs9454967
Imputed
G
DOM
441
0.9744
0.2621
0.583
1.629
−0.09893
0.9212
0.07328
0.0907
0.08947
0.09163
3
28
159
4
38
209


rs9471295
Imputed
T
DOM
443
1.784
0.2155
1.169
2.721
2.686
0.00722
0.7052
0.14786
0.18586
0.11905
5
61
125
3
54
195


rs9477007
Imputed
A
ADD
436
1.012
0.1389
0.7712
1.329
0.08887
0.9292
0.4209
0.39106
0.39362
0.38911
34
80
74
37
119
92


rs9477007
Imputed
A
GEN
436




1.863
0.394
0.4209
0.39106
0.39362
0.38911
34
80
74
37
119
92


rs9487279
Imputed
T
DOM
420
1.094
0.2113
0.7229
1.655
0.4244
0.6713
0.4873
0.42976
0.41892
0.4383
29
97
59
52
102
81


rs949016
Imputed
C
ADD
441
1.063
0.1656
0.7682
1.47
0.3676
0.7132
1
0.21882
0.22487
0.21429
9
67
113
12
84
156


rs9555973
Imputed
G
ADD
437
1.732
0.2221
1.12
2.676
2.472
0.01343
0.1748
0.12014
0.15079
0.09677
2
53
134
1
46
201


rs9555973
Imputed
G
DOM
437
1.761
0.2314
1.119
2.772
2.446
0.01443
0.1748
0.12014
0.15079
0.09677
2
53
134
1
46
201


rs9557510
Imputed
G
ADD
443
1.342
0.1885
0.9272
1.941
1.559
0.119
0.08093
0.14447
0.16754
0.12698
9
46
136
5
54
193


rs9557510
Imputed
G
DOM
443
1.316
0.2241
0.848
2.042
1.224
0.2208
0.08093
0.14447
0.16754
0.12698
9
46
136
5
54
193


rs9560584
Imputed
T
DOM
435
1.792
0.2322
1.137
2.824
2.512
0.01202
0.1752
0.11954
0.15135
0.096
2
52
131
1
46
203


rs9588770
Imputed
T
DOM
443
1.714
0.2282
1.096
2.68
2.36
0.01827
0.8302
0.12754
0.15707
0.10516
3
54
134
3
47
202


rs9588848
Imputed
C
ADD
438
1.725
0.2225
1.115
2.668
2.451
0.01426
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs9588848
Imputed
C
DOM
438
1.754
0.2318
1.113
2.762
2.423
0.01539
0.1759
0.11872
0.14894
0.096
2
52
134
1
46
203


rs966583
Imputed
A
ADD
439
0.7596
0.1431
0.5738
1.005
−1.922
0.05464
1
0.40091
0.36579
0.42771
26
87
77
44
125
80


rs966583
Imputed
A
DOM
439
0.6781
0.203
0.4555
1.01
−1.913
0.0557
1
0.40091
0.36579
0.42771
26
87
77
44
125
80


rs974130
Genotyped
A
REC
443
0.8861
0.2801
0.5118
1.534
−0.4317
0.6659
0.4714
0.3623
0.34293
0.37698
25
81
85
37
116
99


rs977160
Imputed
T
ADD
438
0.9972
0.168
0.7174
1.386
−0.0169
0.9865
0.8862
0.21119
0.21011
0.212
9
61
118
11
84
155


rs9812206
Imputed
G
ADD
442
1.042
0.2668
0.6177
1.758
0.1545
0.8772
0.09556
0.07692
0.07853
0.0757
0
30
161
0
38
213


rs9812206
Imputed
G
DOM
442
1.042
0.2668
0.6177
1.758
0.1545
0.8772
0.09556
0.07692
0.07853
0.0757
0
30
161
0
38
213


rs9813552
Imputed
G
ADD
442
1.042
0.2623
0.6235
1.743
0.1586
0.874
0.4984
0.07692
0.07853
0.0757
0
30
161
1
36
214


rs9813552
Imputed
G
DOM
442
1.077
0.2681
0.6368
1.821
0.2766
0.7821
0.4984
0.07692
0.07853
0.0757
0
30
161
1
36
214


rs9815037
Imputed
T
ADD
443
1.048
0.2622
0.6267
1.752
0.1778
0.8589
0.4982
0.07675
0.07853
0.0754
0
30
161
1
36
215


rs9815037
Imputed
T
DOM
443
1.083
0.2681
0.6401
1.831
0.2958
0.7674
0.4982
0.07675
0.07853
0.0754
0
30
161
1
36
215


rs9825349
Imputed
A
ADD
443
1.048
0.2622
0.6267
1.752
0.1778
0.8589
0.4982
0.07675
0.07853
0.0754
0
30
161
1
36
215


rs9825349
Imputed
A
DOM
443
1.083
0.2681
0.6401
1.831
0.2958
0.7674
0.4982
0.07675
0.07853
0.0754
0
30
161
1
36
215


rs9834217
Imputed
T
ADD
443
1.017
0.2611
0.6096
1.696
0.06425
0.9488
0.5011
0.07788
0.07853
0.07738
0
30
161
1
37
214


rs9834217
Imputed
T
DOM
443
1.049
0.2668
0.6218
1.77
0.179
0.858
0.5011
0.07788
0.07853
0.07738
0
30
161
1
37
214


rs9840460
Imputed
T
ADD
443
1.017
0.2611
0.6096
1.696
0.06425
0.9488
0.5011
0.07788
0.07853
0.07738
0
30
161
1
37
214


rs9840460
Imputed
T
DOM
443
1.049
0.2668
0.6218
1.77
0.179
0.858
0.5011
0.07788
0.07853
0.07738
0
30
161
1
37
214


rs9840756
Imputed
A
ADD
437
0.9995
0.2614
0.5988
1.668
−0.00192
0.9985
0.5026
0.07895
0.07895
0.07895
0
30
160
1
37
209


rs9840756
Imputed
A
DOM
437
1.031
0.2671
0.6105
1.74
0.1127
0.9103
0.5026
0.07895
0.07895
0.07895
0
30
160
1
37
209


rs9844801
Imputed
C
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs985375
Imputed
A
GEN
423




0.2263
0.893
0.8976
0.25296
0.25137
0.25417
12
68
103
14
94
132


rs9869187
Imputed
C
ADD
442
1.037
0.2669
0.6147
1.75
0.1366
0.8914
0.09536
0.07805
0.07895
0.07738
0
30
160
0
39
213


rs9869187
Imputed
C
DOM
442
1.037
0.2669
0.6147
1.75
0.1366
0.8914
0.09536
0.07805
0.07895
0.07738
0
30
160
0
39
213


rs9872327
Imputed
T
DOM
443
0.8286
0.2404
0.5173
1.327
−0.7821
0.4342
0.8039
0.10722
0.09686
0.11508
1
35
155
3
52
197


rs9881685
Imputed
A
ADD
440
1.041
0.2668
0.6172
1.756
0.151
0.88
0.09541
0.07727
0.07895
0.076
0
30
160
0
38
212


rs9881685
Imputed
A
DOM
440
1.041
0.2668
0.6172
1.756
0.151
0.88
0.09541
0.07727
0.07895
0.076
0
30
160
0
38
212


rs9909499
Imputed
C
DOM
422
1.716
0.1997
1.161
2.539
2.706
0.00681
0.6472
0.3045
0.33516
0.28125
15
92
75
26
83
131


rs9911847
Imputed
G
DOM
442
0.5127
0.2187
0.334
0.7871
−3.055
0.00225
0.8632
0.16403
0.11842
0.19841
2
41
147
9
82
161


rs9958823
Imputed
A
ADD
438
1.083
0.1637
0.7858
1.493
0.4879
0.6256
0.7885
0.23174
0.23947
0.22581
9
73
108
13
86
149


rs9965248
Imputed
T
ADD
437
1.002
0.1681
0.721
1.394
0.01427
0.9886
0.8864
0.21167
0.21123
0.212
9
61
117
11
84
155

























TABLE 12







ALLELE









SNP rs #
SOURCE
(A1)
MODEL
P
P(R)
OR
OR(R)
Q
I
























rs198460
Genotyped
G
RECESSIVE
2.29E−04
0.000229
1.7469
1.7469
0.3205
0


rs603940
Genotyped
G
RECESSIVE
4.77E−03
0.004769
0.6036
0.6036
0.9004
0


rs10021016
Genotyped
G
GENOTYPIC
1.53E−03
0.001532
2.2715
2.2715
0.7583
0


rs1003148
Imputed
C
ADDITIVE
1.09E−04
0.0001087
0.706
0.706
0.7408
0


rs1003148
Imputed
C
GENOTYPIC
0.0001585
0.0001585
0.4899
0.4899
0.518
0


rs1003148
Imputed
C
RECESSIVE
0.001753
0.00218
0.5819
0.5829
0.3099
3.02


rs10046799
Imputed
C
ADDITIVE
3.21E−04
0.003933
0.724
0.7134
0.2084
36.82


rs10046799
Imputed
C
GENOTYPIC
0.0005855
0.003461
0.5342
0.5221
0.2386
28.01


rs10051148
Imputed
C
DOMINANT
1.63E−05
1.63E−05
0.5783
0.5783
0.7565
0


rs10054055
Imputed
T
DOMINANT
1.71E−05
1.71E−05
0.5791
0.5791
0.7456
0


rs10067895
Imputed
A
DOMINANT
1.57E−05
1.57E−05
0.5759
0.5759
0.7904
0


rs1008705
Imputed
C
DOMINANT
8.42E−03
0.00842
1.4761
1.4761
0.9317
0


rs10105871
Imputed
C
DOMINANT
5.40E−04
0.0005398
1.6092
1.6092
0.4959
0


rs10116807
Imputed
A
GENOTYPIC
4.73E−04
0.0004726
3.0952
3.0952
0.9876
0


rs10116807
Imputed
A
RECESSIVE
5.24E−04
5.24E−04
3.0277
3.0277
0.956
0


rs10121941
Imputed
C
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs10128638
Genotyped
G
DOMINANT
3.84E−04
0.0003837
0.6023
0.6023
0.6707
0


rs1012924
Imputed
G
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs1012924
Imputed
G
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs1016030
Genotyped
G
ADDITIVE
7.02E−05
7.02E−05
1.4487
1.4487
0.5994
0


rs1016030
Genotyped
G
GENOTYPIC
8.31E−05
8.31E−05
2.1351
2.1351
0.6388
0


rs1017558
Imputed
A
RECESSIVE
9.48E−05
9.48E−05
2.016
2.016
0.6946
0


rs10183431
Imputed
T
DOMINANT
9.50E−05
9.50E−05
1.6438
1.6438
0.7949
0


rs10195401
Imputed
C
DOMINANT
8.08E−05
8.08E−05
1.679
1.679
0.7757
0


rs10239416
Imputed
A
DOMINANT
5.37E−05
5.37E−05
0.5939
0.5939
0.6861
0


rs1032188
Imputed
G
GENOTYPIC
0.0003684
0.004755
0.411
0.3885
0.2102
36.31


rs1032188
Imputed
G
RECESSIVE
0.0009593
0.01499
0.4495
0.4153
0.1711
46.62


rs10468988
Imputed
G
ADDITIVE
2.45E−05
2.45E−05
1.5305
1.5305
0.6802
0


rs10478919
Imputed
G
DOMINANT
1.10E−05
1.10E−05
0.5722
0.5722
0.6924
0


rs10506623
Imputed
C
DOMINANT
1.26E−04
0.0001255
0.6039
0.6039
0.8321
0


rs10506626
Imputed
A
DOMINANT
2.45E−05
2.45E−05
0.5722
0.5722
0.8985
0


rs10509477
Imputed
T
DOMINANT
1.46E−04
0.000146
1.6135
1.6135
0.3224
0


rs10511071
Imputed
C
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs10511072
Imputed
G
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs10511199
Imputed
C
ADDITIVE
9.67E−05
9.67E−05
1.5246
1.5246
0.8383
0


rs10513283
Imputed
G
GENOTYPIC
8.48E−05
8.48E−05
3.6142
3.6142
0.3734
0


rs10520072
Imputed
T
DOMINANT
1.41E−05
1.41E−05
0.5759
0.5759
0.7897
0


rs1065639
Imputed
C
DOMINANT
6.94E−05
6.94E−05
1.7059
1.7059
0.8002
0


rs10733846
Imputed
G
ADDITIVE
8.04E−06
8.04E−06
0.5881
0.5881
0.4857
0


rs10733846
Imputed
G
DOMINANT
7.17E−05
7.17E−05
0.5809
0.5809
0.6915
0


rs10737390
Imputed
T
DOMINANT
5.78E−05
5.78E−05
0.5929
0.5929
0.5632
0


rs10749293
Imputed
G
DOMINANT
9.87E−05
0.0001063
1.6321
1.6316
0.3156
0.71


rs10752159
Imputed
G
DOMINANT
0.0003712
0.001012
1.5856
1.5961
0.2786
14.82


rs10753760
Imputed
T
ADDITIVE
9.28E−05
9.28E−05
1.4355
1.4355
0.8085
0


rs10753760
Imputed
T
GENOTYPIC
8.65E−05
8.65E−05
2.1142
2.1142
0.8438
0


rs10757887
Imputed
C
DOMINANT
8.87E−05
8.87E−05
0.604
0.604
0.8342
0


rs10758326
Imputed
A
ADDITIVE
8.55E−04
0.0008545
0.7335
0.7335
0.95
0


rs10758326
Imputed
A
GENOTYPIC
0.001038
0.001038
0.5194
0.5194
0.7462
0


rs10758326
Imputed
A
RECESSIVE
6.13E−03
0.006132
0.603
0.603
0.5469
0


rs10762236
Genotyped
G
ADDITIVE
2.14E−05
2.14E−05
0.6093
0.6093
0.584
0


rs10765769
Imputed
C
ADDITIVE
2.91E−05
2.91E−05
1.474
1.474
0.756
0


rs10765769
Imputed
C
GENOTYPIC
5.17E−05
5.17E−05
2.1499
2.1499
0.7054
0


rs10784891
Imputed
C
ADDITIVE
0.0003093
0.0003093
0.711
0.711
0.6979
0


rs10784891
Imputed
C
DOMINANT
5.54E−05
5.54E−05
0.5722
0.5722
0.9756
0


rs10787923
Imputed
G
DOMINANT
6.47E−05
1.80E−04
1.6581
1.6522
0.2931
9.54


rs10787949
Imputed
A
DOMINANT
1.77E−04
0.001337
1.6068
1.5927
0.2585
21.69


rs10787951
Imputed
G
DOMINANT
0.0001766
0.001337
1.6068
1.5927
0.2585
21.69


rs10787983
Imputed
C
DOMINANT
1.40E−04
0.0004442
1.6153
1.6079
0.2874
11.66


rs10788380
Imputed
C
ADDITIVE
0.0005839
0.0005839
1.3678
1.3678
0.66
0


rs10788380
Imputed
C
DOMINANT
4.48E−04
4.48E−04
1.7138
1.7138
0.8013
0


rs10788380
Imputed
C
GENOTYPIC
0.0004936
0.0004936
1.8999
1.8999
0.7216
0


rs10814418
Imputed
G
DOMINANT
8.78E−05
8.78E−05
0.5119
0.5119
0.7369
0


rs10831417
Imputed
A
ADDITIVE
1.96E−05
1.96E−05
1.4929
1.4929
0.5559
0


rs10831417
Imputed
A
GENOTYPIC
1.73E−05
1.73E−05
2.3097
2.3097
0.6056
0


rs10831422
Imputed
C
ADDITIVE
5.92E−05
5.92E−05
1.4561
1.4561
0.7103
0


rs10831422
Imputed
C
GENOTYPIC
4.43E−05
4.43E−05
2.2133
2.2133
0.7026
0


rs10862931
Imputed
C
GENOTYPIC
9.68E−05
9.68E−05
0.4267
0.4267
0.4634
0


rs10865197
Imputed
C
DOMINANT
9.34E−05
9.34E−05
1.6437
1.6437
0.7947
0


rs10871302
Imputed
A
DOMINANT
0.009612
0.009612
1.4552
1.4552
0.5024
0


rs10877463
Imputed
C
DOMINANT
2.64E−03
0.002642
0.6825
0.6825
0.4291
0


rs10877468
Imputed
C
DOMINANT
2.82E−03
0.002816
0.6833
0.6833
0.3554
0


rs10879240
Imputed
C
ADDITIVE
5.13E−04
0.001027
0.6811
0.6808
0.2896
10.85


rs10879242
Imputed
A
DOMINANT
2.95E−05
2.95E−05
0.5555
0.5555
0.3862
0


rs10879245
Imputed
G
DOMINANT
2.95E−05
2.95E−05
0.5555
0.5555
0.3862
0


rs10879249
Imputed
T
DOMINANT
1.19E−04
0.0001194
0.6021
0.6021
0.7426
0


rs10886452
Imputed
A
DOMINANT
1.77E−04
0.001337
1.6068
1.5927
0.2585
21.69


rs10886463
Imputed
C
DOMINANT
1.54E−04
6.44E−04
1.6141
1.6047
0.2786
14.82


rs10886465
Imputed
A
DOMINANT
0.00019
0.0006506
1.604
1.596
0.2834
13.1


rs10886526
Imputed
C
DOMINANT
1.74E−04
0.0001743
1.6053
1.6053
0.3255
0


rs10902437
Imputed
G
ADDITIVE
1.74E−03
1.74E−03
1.3336
1.3336
0.3478
0


rs10941126
Imputed
G
ADDITIVE
2.13E−05
2.13E−05
0.1976
0.1976
0.798
0


rs10941126
Imputed
G
DOMINANT
3.85E−05
3.85E−05
0.2007
0.2007
0.8145
0


rs10947871
Imputed
A
DOMINANT
2.08E−03
0.002076
1.5391
1.5391
0.8556
0


rs10972978
Imputed
G
DOMINANT
6.77E−05
6.77E−05
0.5018
0.5018
0.7975
0


rs10973012
Imputed
A
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs10974028
Genotyped
G
ADDITIVE
9.41E−05
9.41E−05
0.6153
0.6153
0.8548
0


rs10974028
Genotyped
G
DOMINANT
1.15E−05
1.15E−05
0.5349
0.5349
0.733
0


rs11021302
Imputed
A
ADDITIVE
6.97E−05
6.97E−05
1.4505
1.4505
0.6892
0


rs11021302
Imputed
A
GENOTYPIC
4.72E−05
4.72E−05
2.2069
2.2069
0.695
0


rs11099644
Imputed
G
RECESSIVE
9.48E−05
9.48E−05
2.016
2.016
0.6946
0


rs11138315
Imputed
G
ADDITIVE
0.002501
0.002501
0.6333
0.6333
0.4998
0


rs11149802
Imputed
T
DOMINANT
9.61E−03
0.009612
1.4552
1.4552
0.5024
0


rs1116596
Imputed
T
DOMINANT
1.10E−05
1.10E−05
0.5722
0.5722
0.6924
0


rs11178531
Imputed
A
ADDITIVE
0.001066
0.001066
0.7412
0.7412
0.6947
0


rs11178531
Imputed
A
DOMINANT
5.75E−05
5.75E−05
0.572
0.572
0.8111
0


rs11178575
Imputed
C
GENOTYPIC
0.002546
0.002546
1.8735
1.8735
0.3907
0


rs11178575
Imputed
C
RECESSIVE
0.001194
0.001194
1.8848
1.8848
0.3922
0


rs11178577
Imputed
T
GENOTYPIC
0.002616
0.002616
1.87
1.87
0.3948
0


rs11178577
Imputed
T
RECESSIVE
0.001154
0.001154
1.8884
1.8884
0.4001
0


rs11178583
Imputed
A
DOMINANT
7.82E−05
7.82E−05
0.5918
0.5918
0.6676
0


rs11178589
Imputed
T
DOMINANT
0.0001977
0.0001977
0.6108
0.6108
0.7703
0


rs11178594
Imputed
C
DOMINANT
8.34E−05
8.34E−05
0.5951
0.5951
0.7778
0


rs11178602
Imputed
T
DOMINANT
7.78E−05
7.78E−05
0.5942
0.5942
0.6786
0


rs11178648
Imputed
T
DOMINANT
2.45E−05
2.45E−05
0.576
0.576
0.8248
0


rs11198877
Imputed
T
DOMINANT
0.0001766
0.001337
1.6068
1.5927
0.2585
21.69


rs11198942
Imputed
T
DOMINANT
0.0001123
0.0002521
1.6276
1.6227
0.2973
7.94


rs11221075
Imputed
A
ADDITIVE
0.002456
0.002456
0.6561
0.6561
0.6722
0


rs11242020
Imputed
T
DOMINANT
8.24E−06
8.24E−06
0.5675
0.5675
0.7214
0


rs11242021
Imputed
T
DOMINANT
1.39E−05
1.39E−05
0.5753
0.5753
0.7864
0


rs11242022
Imputed
T
DOMINANT
1.90E−05
1.90E−05
0.5805
0.5805
0.7156
0


rs11242023
Imputed
T
DOMINANT
1.94E−05
1.94E−05
0.5807
0.5807
0.7577
0


rs1149350
Imputed
A
DOMINANT
8.78E−05
8.78E−05
1.6713
1.6713
0.3701
0


rs1150143
Imputed
G
DOMINANT
5.41E−05
5.41E−05
1.6852
1.6852
0.741
0


rs11576627
Imputed
T
ADDITIVE
2.21E−04
0.0002213
1.6268
1.6268
0.4154
0


rs11576627
Imputed
T
DOMINANT
0.0002026
0.0002026
1.7055
1.7055
0.4813
0


rs11602189
Imputed
A
DOMINANT
5.90E−05
5.90E−05
0.6007
0.6007
0.9545
0


rs11605163
Imputed
A
DOMINANT
6.08E−05
6.08E−05
2.1075
2.1075
0.8875
0


rs11615214
Imputed
G
ADDITIVE
3.71E−05
3.71E−05
0.6853
0.6853
0.3765
0


rs11615214
Imputed
G
GENOTYPIC
9.43E−05
0.001874
0.4648
0.4738
0.2292
30.83


rs11642394
Imputed
C
DOMINANT
0.009359
0.009359
1.4572
1.4572
0.5108
0


rs11644943
Imputed
A
ADDITIVE
0.001027
0.001027
1.4247
1.4247
0.3922
0


rs11656608
Imputed
T
DOMINANT
4.43E−03
0.004428
0.6695
0.6695
0.7811
0


rs11661309
Imputed
A
ADDITIVE
3.52E−05
3.52E−05
0.6163
0.6163
0.8488
0


rs11661309
Imputed
A
DOMINANT
8.21E−05
8.21E−05
0.5852
0.5852
0.7907
0


rs11666131
Imputed
A
ADDITIVE
6.47E−05
6.47E−05
1.5364
1.5364
0.8474
0


rs11743355
Imputed
C
ADDITIVE
2.07E−05
2.07E−05
0.1796
0.1796
0.7144
0


rs11743355
Imputed
C
DOMINANT
3.53E−05
3.53E−05
0.1817
0.1817
0.7255
0


rs11746806
Imputed
T
ADDITIVE
3.41E−05
3.41E−05
0.2206
0.2206
0.9267
0


rs11746806
Imputed
T
DOMINANT
6.55E−05
6.55E−05
0.2253
0.2253
0.9509
0


rs11746959
Imputed
T
ADDITIVE
2.13E−05
2.13E−05
0.1976
0.1976
0.798
0


rs11746959
Imputed
T
DOMINANT
3.85E−05
3.85E−05
0.2007
0.2007
0.8145
0


rs11749272
Imputed
T
DOMINANT
1.23E−05
1.23E−05
0.5734
0.5734
0.7009
0


rs11901899
Imputed
A
DOMINANT
0.0003007
0.0003007
1.5824
1.5824
0.3922
0


rs11926319
Imputed
G
ADDITIVE
7.83E−07
7.83E−07
0.4343
0.4343
0.3992
0


rs11926319
Imputed
G
DOMINANT
1.01E−06
1.01E−06
0.4237
0.4237
0.4489
0


rs11956952
Imputed
C
DOMINANT
0.0009505
0.0009505
0.6564
0.6564
0.7028
0


rs12025826
Imputed
G
DOMINANT
0.0005142
0.0005142
1.5794
1.5794
0.3682
0


rs1204522
Imputed
C
GENOTYPIC
8.61E−05
8.61E−05
0.4353
0.4353
0.6828
0


rs1204524
Imputed
A
GENOTYPIC
8.54E−05
8.54E−05
0.4351
0.4351
0.6472
0


rs12153185
Imputed
T
DOMINANT
1.57E−05
1.57E−05
0.5759
0.5759
0.7904
0


rs12182651
Imputed
T
ADDITIVE
7.03E−06
7.03E−06
2.1926
2.1926
0.7348
0


rs12182651
Imputed
T
DOMINANT
1.21E−06
1.21E−06
2.4795
2.4795
0.5648
0


rs12193568
Imputed
G
DOMINANT
0.000391
0.004677
1.7403
1.8042
0.2164
34.55


rs12264914
Imputed
C
DOMINANT
1.11E−02
0.01109
0.6442
0.6442
0.505
0


rs12307767
Imputed
C
DOMINANT
0.001811
0.001811
0.6667
0.6667
0.3444
0


rs1232298
Imputed
G
RECESSIVE
0.0006722
0.006032
2.0566
2.0955
0.2088
36.69


rs12407412
Imputed
C
ADDITIVE
0.0002213
0.0002213
1.6268
1.6268
0.4154
0


rs12407412
Imputed
C
DOMINANT
2.03E−04
0.0002026
1.7055
1.7055
0.4813
0


rs12420184
Imputed
G
DOMINANT
6.39E−05
6.39E−05
0.5645
0.5645
0.7037
0


rs12422750
Imputed
A
DOMINANT
0.00369
0.00369
0.6919
0.6919
0.3546
0


rs12446951
Imputed
A
ADDITIVE
6.52E−05
6.52E−05
2.3413
2.3413
0.3314
0


rs12446951
Imputed
A
DOMINANT
0.0001226
0.0001226
2.3135
2.3135
0.3285
0


rs12457400
Imputed
G
DOMINANT
0.0009766
0.0009766
0.5884
0.5884
0.6035
0


rs1247340
Imputed
C
DOMINANT
8.32E−05
8.32E−05
1.6742
1.6742
0.3604
0


rs1247341
Imputed
C
DOMINANT
7.02E−05
7.02E−05
1.684
1.684
0.3274
0


rs12521291
Imputed
G
ADDITIVE
6.67E−05
6.67E−05
0.6857
0.6857
0.9769
0


rs12526849
Imputed
T
ADDITIVE
7.52E−05
7.52E−05
1.4208
1.4208
0.6829
0


rs12526849
Imputed
T
GENOTYPIC
7.73E−05
7.73E−05
2.0445
2.0445
0.7856
0


rs12543110
Imputed
G
DOMINANT
0.0001096
0.0001096
1.6401
1.6401
0.5183
0


rs12678600
Imputed
A
DOMINANT
9.83E−05
9.83E−05
0.6104
0.6104
0.9092
0


rs12719415
Imputed
T
DOMINANT
8.10E−06
8.10E−06
0.5662
0.5662
0.7128
0


rs12831292
Imputed
G
DOMINANT
9.77E−05
9.77E−05
0.5982
0.5982
0.6795
0


rs12923993
Imputed
C
DOMINANT
0.009359
0.009359
1.4572
1.4572
0.5108
0


rs12936964
Imputed
T
DOMINANT
9.02E−05
9.02E−05
1.6688
1.6688
0.7618
0


rs12960663
Imputed
G
ADDITIVE
5.61E−05
5.61E−05
0.6241
0.6241
0.7884
0


rs13038146
Imputed
C
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs13038146
Imputed
C
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs13134222
Imputed
A
GENOTYPIC
9.86E−05
9.86E−05
0.3011
0.3011
0.8224
0


rs13172910
Imputed
A
DOMINANT
0.0008666
0.0008666
0.6547
0.6547
0.7269
0


rs13194907
Imputed
A
ADDITIVE
1.34E−05
1.34E−05
2.303
2.303
0.9028
0


rs13194907
Imputed
A
DOMINANT
5.24E−06
5.24E−06
2.505
2.505
0.845
0


rs13195745
Imputed
A
ADDITIVE
1.34E−05
1.34E−05
2.303
2.303
0.9028
0


rs13195745
Imputed
A
DOMINANT
5.24E−06
5.24E−06
2.505
2.505
0.845
0


rs1321432
Imputed
A
RECESSIVE
3.78E−05
3.78E−05
2.1221
2.1221
0.4916
0


rs1321457
Imputed
G
RECESSIVE
7.32E−05
7.32E−05
2.0656
2.0656
0.4383
0


rs13265054
Imputed
T
DOMINANT
1.26E−04
0.0001261
0.6144
0.6144
0.8838
0


rs13282131
Imputed
C
GENOTYPIC
6.83E−04
0.0006831
1.8412
1.8412
0.8885
0


rs13353526
Imputed
C
DOMINANT
4.66E−05
4.66E−05
1.9371
1.9371
0.4192
0


rs1336382
Imputed
T
DOMINANT
1.46E−04
1.46E−04
1.6135
1.6135
0.3224
0


rs1336383
Imputed
T
DOMINANT
0.000146
0.000146
1.6135
1.6135
0.3224
0


rs1336407
Imputed
T
DOMINANT
0.000146
0.000146
1.6135
1.6135
0.3224
0


rs1336409
Imputed
T
DOMINANT
1.62E−04
0.0002489
1.6085
1.6059
0.3065
4.35


rs1336596
Imputed
A
DOMINANT
5.25E−05
5.25E−05
0.5951
0.5951
0.5868
0


rs1343560
Imputed
T
ADDITIVE
7.42E−05
7.42E−05
0.5393
0.5393
0.7611
0


rs1343560
Imputed
T
DOMINANT
4.91E−05
4.91E−05
0.5034
0.5034
0.6771
0


rs1361987
Imputed
T
GENOTYPIC
9.25E−05
9.25E−05
0.4404
0.4404
0.5591
0


rs1386153
Imputed
T
ADDITIVE
8.36E−05
8.36E−05
0.6841
0.6841
0.8357
0


rs1386153
Imputed
T
DOMINANT
5.01E−05
5.01E−05
0.599
0.599
0.9393
0


rs1394015
Imputed
C
DOMINANT
5.43E−05
5.43E−05
1.7294
1.7294
0.6444
0


rs1407038
Imputed
A
RECESSIVE
5.83E−05
5.83E−05
2.0823
2.0823
0.4381
0


rs1407039
Imputed
A
RECESSIVE
9.91E−05
9.91E−05
2.0129
2.0129
0.5236
0


rs1412802
Imputed
T
GENOTYPIC
0.0007205
0.0007205
0.4264
0.4264
0.7234
0


rs1414865
Imputed
T
DOMINANT
0.0001766
0.001337
1.6068
1.5927
0.2585
21.69


rs1414873
Imputed
A
DOMINANT
0.000122
0.0001815
1.6219
1.6195
0.3077
3.88


rs1414876
Imputed
C
DOMINANT
0.000122
0.0001815
1.6219
1.6195
0.3077
3.88


rs1418671
Imputed
C
RECESSIVE
9.36E−06
9.36E−06
2.1762
2.1762
0.8027
0


rs1419490
Genotyped
T
GENOTYPIC
8.94E−05
8.94E−05
0.4398
0.4398
0.5307
0


rs1434507
Imputed
A
ADDITIVE
7.02E−05
7.02E−05
1.4932
1.4932
0.6454
0


rs1434508
Imputed
T
ADDITIVE
9.01E−05
9.01E−05
1.4841
1.4841
0.6551
0


rs1435205
Imputed
A
ADDITIVE
9.67E−05
9.67E−05
1.5246
1.5246
0.8383
0


rs1443928
Imputed
C
RECESSIVE
6.72E−05
6.72E−05
0.5586
0.5586
0.6157
0


rs1452235
Imputed
G
GENOTYPIC
7.97E−05
7.97E−05
0.4269
0.4269
0.4549
0


rs1452236
Imputed
G
GENOTYPIC
7.57E−05
7.57E−05
0.4257
0.4257
0.4487
0


rs1452237
Imputed
G
GENOTYPIC
7.97E−05
7.97E−05
0.4269
0.4269
0.4549
0


rs1452243
Genotyped
T
GENOTYPIC
7.97E−05
7.97E−05
0.4269
0.4269
0.4549
0


rs1463768
Genotyped
G
RECESSIVE
4.61E−04
0.01223
1.8009
1.8886
0.1522
51.22


rs1463769
Imputed
G
RECESSIVE
3.34E−04
0.007743
1.8295
1.9062
0.171
46.65


rs1472435
Imputed
A
ADDITIVE
0.0002548
0.001662
0.5022
0.4908
0.2466
25.51


rs1472435
Imputed
A
DOMINANT
5.02E−04
0.004002
0.5076
0.4938
0.2238
32.42


rs1476714
Imputed
A
DOMINANT
1.19E−05
1.19E−05
0.5726
0.5726
0.7844
0


rs1495159
Imputed
G
ADDITIVE
1.61E−05
1.61E−05
0.6509
0.6509
0.7963
0


rs1495159
Imputed
G
GENOTYPIC
7.70E−05
7.70E−05
0.3915
0.3915
0.8463
0


rs1495375
Imputed
A
DOMINANT
0.0001025
0.0001025
0.5962
0.5962
0.6659
0


rs1495376
Imputed
T
DOMINANT
2.01E−05
2.01E−05
0.5347
0.5347
0.3504
0


rs1495377
Imputed
G
DOMINANT
3.97E−05
7.56E−05
0.5484
0.5467
0.2993
7.17


rs1495381
Imputed
T
GENOTYPIC
0.0009636
0.0009636
1.8616
1.8616
0.5241
0


rs1495381
Imputed
T
RECESSIVE
0.0001018
0.0001018
1.9326
1.9326
0.6962
0


rs1498992
Imputed
G
DOMINANT
1.48E−04
0.0001483
0.6213
0.6213
0.4944
0


rs1499001
Imputed
T
DOMINANT
0.0001967
0.0001967
0.6214
0.6214
0.5607
0


rs1512988
Imputed
A
DOMINANT
9.29E−05
9.29E−05
0.5976
0.5976
0.8745
0


rs1512989
Imputed
T
DOMINANT
9.29E−05
9.29E−05
0.5976
0.5976
0.8745
0


rs1512991
Imputed
T
ADDITIVE
1.02E−03
0.001016
0.7391
0.7391
0.9158
0


rs1512991
Imputed
T
DOMINANT
8.22E−05
8.22E−05
0.5816
0.5816
0.9166
0


rs1516855
Imputed
G
RECESSIVE
7.25E−05
7.25E−05
2.1755
2.1755
0.4759
0


rs1527450
Imputed
T
ADDITIVE
2.46E−05
2.46E−05
1.486
1.486
0.5328
0


rs1527450
Imputed
T
GENOTYPIC
2.19E−05
2.19E−05
2.2868
2.2868
0.5806
0


rs1567740
Imputed
T
DOMINANT
8.80E−05
8.80E−05
0.596
0.596
0.8322
0


rs1572573
Imputed
A
ADDITIVE
2.45E−05
2.45E−05
1.6309
1.6309
0.4087
0


rs1572573
Imputed
A
DOMINANT
4.83E−06
4.83E−06
1.8564
1.8564
0.424
0


rs1584003
Imputed
C
DOMINANT
3.11E−05
3.11E−05
1.8445
1.8445
0.5284
0


rs1584005
Imputed
C
DOMINANT
4.62E−05
4.62E−05
1.8227
1.8227
0.5661
0


rs1585771
Imputed
G
ADDITIVE
8.69E−05
8.69E−05
1.4824
1.4824
0.9898
0


rs1592015
Imputed
G
DOMINANT
6.94E−05
6.94E−05
0.5728
0.5728
0.3692
0


rs1594885
Imputed
A
ADDITIVE
3.75E−05
3.75E−05
1.5121
1.5121
0.6724
0


rs1603232
Imputed
A
DOMINANT
8.75E−05
8.75E−05
0.5656
0.5656
0.3264
0


rs1614565
Imputed
C
DOMINANT
1.53E−05
1.53E−05
0.5357
0.5357
0.5207
0


rs1648200
Imputed
G
ADDITIVE
0.0002847
0.0002847
1.4867
1.4867
0.9072
0


rs16877387
Imputed
C
GENOTYPIC
6.36E−05
6.36E−05
2.2411
2.2411
0.7064
0


rs16877387
Imputed
C
RECESSIVE
2.50E−05
2.50E−05
2.2227
2.2227
0.938
0


rs16938626
Imputed
G
DOMINANT
1.07E−04
0.0001071
0.6116
0.6116
0.7404
0


rs1694334
Imputed
G
ADDITIVE
8.91E−05
8.91E−05
0.6436
0.6436
0.6943
0


rs16998821
Imputed
C
DOMINANT
6.94E−05
6.94E−05
0.5728
0.5728
0.3692
0


rs1700400
Imputed
T
ADDITIVE
4.31E−05
4.31E−05
0.6508
0.6508
0.3976
0


rs17007620
Imputed
G
ADDITIVE
2.46E−05
2.46E−05
1.6003
1.6003
0.8148
0


rs17007620
Imputed
G
DOMINANT
3.02E−05
3.02E−05
1.7521
1.7521
0.9606
0


rs17023290
Imputed
C
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs17047957
Imputed
C
DOMINANT
0.001192
0.001192
1.5648
1.5648
0.6233
0


rs1705237
Imputed
A
DOMINANT
1.05E−05
1.05E−05
0.5283
0.5283
0.5228
0


rs1705261
Imputed
A
GENOTYPIC
0.0008093
0.0008093
1.8782
1.8782
0.4997
0


rs1705261
Imputed
A
RECESSIVE
0.0001018
0.0001018
1.9326
1.9326
0.6962
0


rs17076972
Imputed
C
ADDITIVE
6.68E−05
6.68E−05
1.4316
1.4316
0.9615
0


rs17076972
Imputed
C
GENOTYPIC
4.84E−05
4.84E−05
2.0743
2.0743
0.953
0


rs17076972
Imputed
C
RECESSIVE
5.68E−05
5.68E−05
1.8279
1.8279
0.9528
0


rs17189710
Imputed
T
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs17189710
Imputed
T
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs17196143
Imputed
A
ADDITIVE
8.38E−05
8.38E−05
1.5602
1.5602
0.9412
0


rs17353809
Imputed
G
ADDITIVE
5.27E−05
5.27E−05
1.5478
1.5478
0.7656
0


rs17368986
Imputed
A
GENOTYPIC
8.61E−05
8.61E−05
3.6103
3.6103
0.3631
0


rs17369097
Imputed
A
GENOTYPIC
9.78E−05
9.78E−05
3.572
3.572
0.5084
0


rs17434511
Imputed
C
GENOTYPIC
8.13E−05
8.13E−05
3.6271
3.6271
0.3688
0


rs17434589
Imputed
C
GENOTYPIC
7.42E−05
7.42E−05
3.6546
3.6546
0.3705
0


rs17434603
Imputed
G
GENOTYPIC
8.48E−05
8.48E−05
3.6142
3.6142
0.3734
0


rs17434840
Imputed
C
GENOTYPIC
9.78E−05
9.78E−05
3.572
3.572
0.5084
0


rs17446418
Imputed
G
DOMINANT
3.25E−05
3.25E−05
0.587
0.587
0.3535
0


rs17530747
Imputed
T
DOMINANT
2.26E−05
2.63E−05
0.5795
0.5797
0.3143
1.26


rs17604285
Imputed
C
ADDITIVE
1.05E−05
1.05E−05
0.4906
0.4906
0.4675
0


rs17604285
Imputed
C
DOMINANT
9.86E−06
9.86E−06
0.4707
0.4707
0.5868
0


rs17662322
Imputed
T
DOMINANT
0.0001449
0.0001449
0.6002
0.6002
0.4533
0


rs17769826
Imputed
T
ADDITIVE
5.88E−05
5.88E−05
1.5431
1.5431
0.7499
0


rs17821641
Imputed
T
ADDITIVE
9.67E−05
9.67E−05
1.5246
1.5246
0.8383
0


rs1782328
Imputed
A
ADDITIVE
2.46E−05
2.46E−05
0.6019
0.6019
0.8261
0


rs1796337
Imputed
T
DOMINANT
0.0001492
0.0001492
0.576
0.576
0.7496
0


rs1798083
Imputed
C
DOMINANT
3.81E−05
3.81E−05
0.5525
0.5525
0.4283
0


rs1798085
Imputed
T
DOMINANT
1.84E−05
1.84E−05
0.538
0.538
0.506
0


rs1798086
Imputed
T
DOMINANT
6.52E−06
6.52E−06
0.5214
0.5214
0.5861
0


rs1798089
Imputed
C
GENOTYPIC
0.0003263
0.0003263
1.9613
1.9613
0.6074
0


rs1798089
Imputed
C
RECESSIVE
4.85E−05
4.85E−05
1.9649
1.9649
0.6513
0


rs1798090
Imputed
C
GENOTYPIC
0.0002913
0.0002913
1.9722
1.9722
0.6702
0


rs1798090
Imputed
C
RECESSIVE
6.28E−05
6.28E−05
1.941
1.941
0.6999
0


rs1832222
Imputed
G
DOMINANT
0.0001402
0.0004442
1.6153
1.6079
0.2874
11.66


rs1838104
Imputed
A
ADDITIVE
6.20E−05
6.20E−05
0.6927
0.6927
0.4982
0


rs1838104
Imputed
A
GENOTYPIC
7.67E−05
7.67E−05
0.4828
0.4828
0.4457
0


rs1868616
Imputed
G
ADDITIVE
6.07E−05
6.07E−05
0.6201
0.6201
0.3729
0


rs1874313
Imputed
A
DOMINANT
7.43E−05
7.43E−05
0.5922
0.5922
0.8066
0


rs1884902
Imputed
C
RECESSIVE
6.21E−05
6.21E−05
2.0651
2.0651
0.5825
0


rs1913201
Imputed
G
ADDITIVE
0.0004149
0.0004149
0.7177
0.7177
0.6151
0


rs1913201
Imputed
G
DOMINANT
9.54E−05
9.54E−05
0.5843
0.5843
0.9445
0


rs1913201
Imputed
G
GENOTYPIC
0.001991
0.001991
0.5555
0.5555
0.4282
0


rs1944279
Imputed
A
ADDITIVE
2.61E−05
2.61E−05
1.5292
1.5292
0.6713
0


rs198461
Imputed
C
DOMINANT
0.0001487
0.0001487
0.5632
0.5632
0.3797
0


rs1987179
Imputed
T
DOMINANT
0.003872
0.003872
0.6885
0.6885
0.8528
0


rs1990023
Imputed
T
DOMINANT
8.24E−06
8.24E−06
0.5675
0.5675
0.7214
0


rs2016194
Imputed
G
DOMINANT
1.39E−05
1.39E−05
0.5753
0.5753
0.7864
0


rs2024789
Imputed
C
ADDITIVE
7.32E−05
7.32E−05
0.7001
0.7001
0.5939
0


rs2024789
Imputed
C
GENOTYPIC
9.80E−05
9.80E−05
0.4935
0.4935
0.6182
0


rs2024902
Imputed
A
ADDITIVE
3.48E−05
3.48E−05
2.1731
2.1731
0.7139
0


rs2024902
Imputed
A
DOMINANT
1.02E−05
1.02E−05
2.3955
2.3955
0.7005
0


rs2025107
Imputed
A
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs2025107
Imputed
A
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs2025108
Imputed
T
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs2025108
Imputed
T
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs2062448
Imputed
T
ADDITIVE
1.78E−05
1.78E−05
0.4975
0.4975
0.4296
0


rs2062448
Imputed
T
DOMINANT
1.73E−05
1.73E−05
0.4776
0.4776
0.5425
0


rs2063591
Imputed
C
ADDITIVE
0.001202
0.001202
0.7439
0.7439
0.7716
0


rs2063591
Imputed
C
DOMINANT
5.22E−05
5.22E−05
0.5704
0.5704
0.86
0


rs2065604
Imputed
C
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs2066238
Imputed
T
DOMINANT
6.31E−05
6.31E−05
0.5711
0.5711
0.3613
0


rs2068051
Imputed
G
ADDITIVE
3.45E−05
3.45E−05
0.6225
0.6225
0.8406
0


rs2068051
Imputed
G
GENOTYPIC
5.01E−05
5.01E−05
0.3895
0.3895
0.8309
0


rs2077702
Genotyped
G
GENOTYPIC
0.002605
0.002605
1.8705
1.8705
0.3942
0


rs208757
Imputed
G
ADDITIVE
0.001261
0.001261
1.4776
1.4776
0.5869
0


rs208757
Imputed
G
DOMINANT
0.0009161
0.0009161
1.5787
1.5787
0.6624
0


rs2095586
Imputed
A
DOMINANT
0.0001402
0.0004442
1.6153
1.6079
0.2874
11.66


rs2108426
Imputed
C
DOMINANT
1.31E−05
1.31E−05
0.5744
0.5744
0.799
0


rs2110664
Imputed
A
DOMINANT
0.0005399
0.0005399
1.568
1.568
0.6563
0


rs2132242
Imputed
A
DOMINANT
0.0001181
0.0001181
0.6005
0.6005
0.7904
0


rs2151644
Imputed
T
DOMINANT
7.40E−05
7.40E−05
0.5083
0.5083
0.7589
0


rs2157752
Genotyped
A
GENOTYPIC
7.96E−05
7.96E−05
0.4178
0.4178
0.6318
0


rs2158958
Imputed
A
DOMINANT
1.37E−05
1.37E−05
0.5753
0.5753
0.7855
0


rs2158961
Imputed
G
DOMINANT
1.89E−05
1.89E−05
0.5806
0.5806
0.7575
0


rs2164099
Imputed
G
ADDITIVE
3.91E−05
3.91E−05
1.51
1.51
0.6597
0


rs2173254
Imputed
G
GENOTYPIC
4.24E−05
4.24E−05
0.3535
0.3535
0.8105
0


rs2173254
Imputed
G
RECESSIVE
7.44E−05
7.44E−05
0.3802
0.3802
0.9734
0


rs2188079
Imputed
C
ADDITIVE
1.42E−05
1.42E−05
1.4883
1.4883
0.9498
0


rs2188079
Imputed
C
GENOTYPIC
1.20E−05
1.20E−05
2.2697
2.2697
0.9606
0


rs2190304
Imputed
G
RECESSIVE
2.19E−05
9.93E−05
0.5028
0.5057
0.2831
13.22


rs2190597
Imputed
T
DOMINANT
0.0009376
0.007487
0.6352
0.6427
0.2354
28.98


rs2190598
Imputed
T
DOMINANT
1.37E−05
1.37E−05
0.5753
0.5753
0.7855
0


rs2190600
Imputed
A
DOMINANT
1.57E−05
1.57E−05
0.8759
0.5759
0.7904
0


rs2218084
Imputed
T
GENOTYPIC
0.0004323
0.0004323
4.066
4.066
0.7112
0


rs2218084
Imputed
T
RECESSIVE
0.0006382
0.0006382
3.8693
3.8693
0.7945
0


rs2236290
Genotyped
C
GENOTYPIC
0.001515
0.001515
0.5241
0.5241
0.9756
0


rs2243860
Imputed
A
GENOTYPIC
0.0002795
0.0002795
2.2455
2.2455
0.9794
0


rs2243860
Imputed
A
RECESSIVE
0.000191
0.000191
2.1324
2.1324
0.9082
0


rs2246564
Imputed
T
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs2248236
Imputed
C
DOMINANT
0.00556
0.00556
0.6993
0.6993
0.7827
0


rs2250340
Imputed
T
DOMINANT
7.34E−05
7.34E−05
0.4999
0.4999
0.8201
0


rs2257192
Imputed
G
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs2270584
Imputed
A
DOMINANT
2.79E−05
2.79E−05
0.5781
0.5781
0.841
0


rs2270586
Imputed
A
DOMINANT
2.34E−05
2.34E−05
0.5711
0.5711
0.8905
0


rs2270589
Imputed
A
ADDITIVE
0.0002129
0.0002129
0.7047
0.7047
0.8921
0


rs2270589
Imputed
A
DOMINANT
4.02E−06
4.02E−06
0.5172
0.5172
0.475
0


rs2270589
Imputed
A
GENOTYPIC
0.0008832
0.0008832
0.5338
0.5338
0.9242
0


rs2296889
Imputed
C
DOMINANT
9.73E−05
9.73E−05
1.7214
1.7214
0.635
0


rs2301346
Imputed
C
ADDITIVE
1.33E−05
1.33E−05
1.592
1.592
0.8797
0


rs2301346
Imputed
C
DOMINANT
8.84E−06
8.84E−06
1.8528
1.8528
0.6487
0


rs2327929
Imputed
G
RECESSIVE
1.47E−05
1.47E−05
1.9741
1.9741
0.5579
0


rs2357486
Imputed
C
RECESSIVE
9.81E−05
9.81E−05
2.3629
2.3629
0.3237
0


rs2373793
Imputed
G
DOMINANT
0.0004772
0.0004772
1.624
1.624
0.608
0


rs2377622
Imputed
T
GENOTYPIC
0.001009
0.001009
0.4327
0.4327
0.9416
0


rs2377622
Imputed
T
RECESSIVE
0.001315
0.001315
0.4588
0.4588
0.779
0


rs2383903
Imputed
G
DOMINANT
6.50E−05
6.50E−05
0.6039
0.6039
0.8634
0


rs2389866
Imputed
C
DOMINANT
0.003524
0.003524
0.6859
0.6859
0.8694
0


rs2389869
Imputed
C
DOMINANT
0.003524
0.003524
0.6859
0.6859
0.8694
0


rs2418541
Imputed
A
DOMINANT
1.10E−05
1.10E−05
0.5722
0.5722
0.6924
0


rs2418542
Imputed
A
DOMINANT
1.10E−05
1.10E−05
0.5722
0.5722
0.6924
0


rs2418548
Imputed
C
DOMINANT
6.29E−05
6.29E−05
0.5957
0.5957
0.6795
0


rs2476976
Imputed
C
DOMINANT
0.0002836
0.0002836
1.5809
1.5809
0.3487
0


rs2483639
Imputed
A
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs2483640
Imputed
A
DOMINANT
7.75E−05
7.75E−05
0.5093
0.5093
0.7525
0


rs2544780
Imputed
T
RECESSIVE
0.003543
0.003543
1.8115
1.8115
0.7962
0


rs2586458
Imputed
T
DOMINANT
9.34E−05
9.34E−05
0.471
0.471
0.709
0


rs2593272
Imputed
G
ADDITIVE
7.80E−05
7.80E−05
0.6664
0.6664
0.4045
0


rs2593273
Imputed
T
ADDITIVE
5.67E−05
5.67E−05
0.658
0.658
0.4571
0


rs2622499
Imputed
G
DOMINANT
0.006454
0.006454
0.7042
0.7042
0.7526
0


rs264126
Imputed
C
DOMINANT
0.0009755
0.0163
0.6364
0.6476
0.1951
40.44


rs264129
Imputed
T
DOMINANT
1.71E−05
1.71E−05
0.5791
0.5791
0.7456
0


rs2656822
Imputed
T
ADDITIVE
7.80E−05
7.80E−05
0.6664
0.6664
0.4045
0


rs2656823
Imputed
G
ADDITIVE
7.80E−05
7.80E−05
0.6664
0.6664
0.4045
0


rs2656825
Imputed
T
ADDITIVE
7.13E−05
7.13E−05
0.6492
0.6492
0.3189
0


rs2764766
Imputed
C
RECESSIVE
0.003593
0.003593
1.7939
1.7939
0.9717
0


rs2793101
Imputed
T
ADDITIVE
6.64E−05
6.64E−05
0.545
0.545
0.5015
0


rs2793101
Imputed
T
DOMINANT
9.02E−05
9.02E−05
0.5344
0.5344
0.5893
0


rs2795871
Imputed
A
ADDITIVE
0.0002982
0.0014
0.504
0.4941
0.2612
20.77


rs2795886
Imputed
A
ADDITIVE
0.0002045
0.0002045
0.4388
0.4388
0.3702
0


rs2795886
Imputed
A
DOMINANT
0.0003345
0.0003345
0.4401
0.4401
0.3569
0


rs2859994
Imputed
C
GENOTYPIC
8.11E−05
8.11E−05
2.2234
2.2234
0.9879
0


rs2870464
Imputed
G
DOMINANT
0.007714
0.007714
1.4837
1.4837
0.7312
0


rs2875528
Imputed
T
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs2876227
Imputed
C
ADDITIVE
0.0003398
0.0003398
1.3941
1.3941
0.991
0


rs2876227
Imputed
C
GENOTYPIC
0.0005058
0.0005058
1.9894
1.9894
0.6903
0


rs2882097
Imputed
A
DOMINANT
0.000146
0.000146
1.6135
1.6135
0.3224
0


rs2921983
Imputed
C
ADDITIVE
3.03E−05
3.03E−05
0.6367
0.6367
0.4592
0


rs2987537
Imputed
C
DOMINANT
5.27E−05
5.27E−05
0.5308
0.5308
0.6212
0


rs2996416
Imputed
C
ADDITIVE
6.90E−05
6.90E−05
0.5379
0.5379
0.7323
0


rs2996416
Imputed
C
DOMINANT
4.54E−05
4.54E−05
0.5019
0.5019
0.6494
0


rs3015527
Imputed
C
ADDITIVE
8.85E−05
8.85E−05
0.5427
0.5427
0.6864
0


rs3015527
Imputed
C
DOMINANT
6.15E−05
6.15E−05
0.5073
0.5073
0.6044
0


rs3015530
Imputed
C
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs3015530
Imputed
C
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs3015531
Imputed
T
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs3015531
Imputed
T
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs3015535
Imputed
C
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs3015535
Imputed
C
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs3019407
Imputed
A
GENOTYPIC
3.61E−05
3.61E−05
0.3507
0.3507
0.848
0


rs3019407
Imputed
A
RECESSIVE
5.80E−05
5.80E−05
0.3753
0.3753
0.9087
0


rs36071725
Genotyped
C
GENOTYPIC
2.77E−05
2.77E−05
2.4392
2.4392
0.3383
0


rs373983
Imputed
G
DOMINANT
0.0002104
0.02216
1.6446
1.5957
0.1398
54.13


rs3756154
Imputed
C
DOMINANT
0.003524
0.003524
0.6859
0.6859
0.8694
0


rs3793044
Imputed
C
ADDITIVE
1.34E−05
1.34E−05
2.303
2.303
0.9028
0


rs3793044
Imputed
C
DOMINANT
5.24E−06
5.24E−06
2.505
2.505
0.845
0


rs3793053
Imputed
C
ADDITIVE
2.09E−05
2.09E−05
2.0984
2.0984
0.7421
0


rs3793053
Imputed
C
DOMINANT
4.49E−06
4.49E−06
2.3534
2.3534
0.5617
0


rs3796246
Imputed
G
ADDITIVE
2.47E−06
6.16E−06
0.4525
0.4504
0.2993
7.17


rs3796246
Imputed
G
DOMINANT
2.87E−06
2.87E−06
0.4415
0.4415
0.3413
0


rs3805996
Imputed
G
ADDITIVE
2.67E−05
2.67E−05
2.2289
2.2289
0.7845
0


rs3805996
Imputed
G
DOMINANT
6.94E−06
6.94E−06
2.4684
2.4684
0.7822
0


rs3806003
Imputed
A
ADDITIVE
1.34E−05
1.34E−05
2.303
2.303
0.9028
0


rs3806003
Imputed
A
DOMINANT
5.24E−06
5.24E−06
2.505
2.505
0.845
0


rs3806004
Imputed
T
ADDITIVE
8.98E−06
8.98E−06
2.1456
2.1456
0.5726
0


rs3806004
Imputed
T
DOMINANT
1.26E−06
1.26E−06
2.4405
2.4405
0.4411
0


rs3806010
Imputed
T
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs3806010
Imputed
T
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs3806014
Imputed
T
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs3806014
Imputed
T
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs3806015
Imputed
A
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs3806015
Imputed
A
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs3806018
Imputed
A
ADDITIVE
1.24E−05
1.24E−05
2.1211
2.1211
0.6401
0


rs3806018
Imputed
A
DOMINANT
1.83E−06
1.83E−06
2.4108
2.4108
0.5006
0


rs3806019
Imputed
A
ADDITIVE
4.82E−06
4.82E−06
2.2211
2.2211
0.774
0


rs3806019
Imputed
A
DOMINANT
7.89E−07
7.89E−07
2.5148
2.5148
0.6004
0


rs3806024
Imputed
T
ADDITIVE
2.13E−05
2.13E−05
2.0967
2.0967
0.7474
0


rs3806024
Imputed
T
DOMINANT
4.58E−06
4.58E−06
2.3513
2.3513
0.5665
0


rs3847825
Imputed
G
ADDITIVE
0.0001755
0.0001755
0.7117
0.7117
0.6477
0


rs3847825
Imputed
G
GENOTYPIC
0.0004069
0.0004069
0.504
0.504
0.39
0


rs3852001
Genotyped
C
GENOTYPIC
5.01E−05
5.01E−05
3.7361
3.7361
0.4411
0


rs3852001
Genotyped
C
RECESSIVE
6.81E−05
6.81E−05
3.6068
3.6068
0.5248
0


rs3852002
Imputed
G
GENOTYPIC
6.98E−05
6.98E−05
3.6551
3.6551
0.4732
0


rs3852002
Imputed
G
RECESSIVE
9.73E−05
9.73E−05
3.5189
3.5189
0.5652
0


rs3852003
Imputed
A
GENOTYPIC
6.98E−05
6.98E−05
3.6551
3.6551
0.4732
0


rs3852003
Imputed
A
RECESSIVE
9.73E−05
9.73E−05
3.5189
3.5189
0.5652
0


rs3942254
Imputed
T
DOMINANT
0.0001204
0.0001204
0.5984
0.5984
0.9786
0


rs3945085
Imputed
A
DOMINANT
8.89E−05
8.89E−05
1.637
1.637
0.3315
0


rs399485
Imputed
A
DOMINANT
0.001889
0.001889
1.4784
1.4784
0.6793
0


rs4029119
Imputed
G
ADDITIVE
2.71E−05
2.71E−05
0.1993
0.1993
0.5787
0


rs4029119
Imputed
G
DOMINANT
5.28E−05
5.28E−05
0.203
0.203
0.5644
0


rs412791
Imputed
C
GENOTYPIC
9.99E−05
9.99E−05
0.4339
0.4339
0.5099
0


rs4146972
Genotyped
T
DOMINANT
0.003205
0.003205
1.4961
1.4961
0.5773
0


rs4259369
Imputed
C
RECESSIVE
0.0002939
0.00425
0.557
0.5415
0.2009
38.87


rs4273613
Imputed
T
ADDITIVE
3.41E−05
3.41E−05
0.2206
0.2206
0.9267
0


rs4273613
Imputed
T
DOMINANT
6.55E−05
6.55E−05
0.2253
0.2253
0.9509
0


rs4294022
Imputed
C
DOMINANT
8.50E−05
8.50E−05
0.6007
0.6007
0.6113
0


rs4310554
Genotyped
C
DOMINANT
0.0005487
0.0005487
1.6987
1.6987
0.7993
0


rs4315598
Imputed
T
ADDITIVE
0.0005594
0.0005594
1.3676
1.3676
0.7519
0


rs4315598
Imputed
T
GENOTYPIC
0.0006963
0.0006963
1.9242
1.9242
0.8583
0


rs4370878
Imputed
G
DOMINANT
0.0001382
0.0001382
1.6143
1.6143
0.3748
0


rs4436200
Imputed
C
ADDITIVE
0.00342
0.00342
0.6695
0.6695
0.4811
0


rs4444612
Imputed
G
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs4444612
Imputed
G
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs4450660
Imputed
C
DOMINANT
5.07E−05
5.07E−05
1.6768
1.6768
0.885
0


rs4463950
Imputed
C
DOMINANT
9.57E−05
9.57E−05
0.5933
0.5933
0.705
0


rs4509702
Imputed
C
DOMINANT
0.0001382
0.0001382
1.6143
1.6143
0.3748
0


rs4533379
Imputed
G
ADDITIVE
3.75E−05
3.75E−05
1.5121
1.5121
0.6724
0


rs4569984
Imputed
A
DOMINANT
7.78E−05
7.78E−05
0.5998
0.5998
0.4464
0


rs4570530
Imputed
C
DOMINANT
0.0001225
0.0001225
1.6207
1.6207
0.3622
0


rs4571583
Imputed
T
DOMINANT
9.79E−05
9.79E−05
0.6041
0.6041
0.5
0


rs4586678
Imputed
A
DOMINANT
6.09E−05
6.09E−05
1.6655
1.6655
0.8543
0


rs4615971
Imputed
C
DOMINANT
0.0001283
0.0006247
1.6223
1.612
0.275
16.09


rs4629229
Imputed
G
DOMINANT
6.31E−05
6.31E−05
0.5711
0.5711
0.3613
0


rs4632512
Imputed
T
GENOTYPIC
9.78E−05
9.78E−05
3.572
3.572
0.5084
0


rs4641552
Imputed
A
ADDITIVE
0.0002608
0.0002608
0.5241
0.5241
0.9002
0


rs4682527
Imputed
C
DOMINANT
8.72E−05
8.72E−05
1.6904
1.6904
0.7615
0


rs4688632
Imputed
G
RECESSIVE
0.0003309
0.0003309
0.5825
0.5825
0.5195
0


rs4702720
Imputed
A
ADDITIVE
0.0001627
0.0001627
0.6287
0.6287
0.5601
0


rs4702720
Imputed
A
DOMINANT
0.0004444
0.0004444
0.5961
0.5961
0.3979
0


rs4714484
Imputed
A
ADDITIVE
6.98E−05
6.98E−05
0.6183
0.6183
0.8333
0


rs4714484
Imputed
A
DOMINANT
5.02E−05
5.02E−05
0.5696
0.5696
0.55
0


rs4725142
Genotyped
G
RECESSIVE
7.87E−05
7.87E−05
0.4243
0.4243
0.7642
0


rs4725144
Imputed
G
RECESSIVE
6.02E−05
6.02E−05
0.4125
0.4125
0.8332
0


rs4760785
Imputed
A
ADDITIVE
0.0006364
0.0006364
0.728
0.728
0.7009
0


rs4760785
Imputed
A
DOMINANT
0.0001126
0.0001126
0.5881
0.5881
0.915
0


rs4760894
Imputed
T
ADDITIVE
0.0006364
0.0006364
0.728
0.728
0.7009
0


rs4760894
Imputed
T
DOMINANT
0.0001126
0.0001126
0.5881
0.5881
0.915
0


rs4760895
Imputed
A
ADDITIVE
0.0006364
0.0006364
0.728
0.728
0.7009
0


rs4760895
Imputed
A
DOMINANT
0.0001126
0.0001126
0.5881
0.5881
0.915
0


rs4767184
Imputed
C
ADDITIVE
0.0002343
0.0002343
0.7168
0.7168
0.7754
0


rs4767184
Imputed
C
GENOTYPIC
0.0008747
0.0008747
0.5298
0.5298
0.5351
0


rs4773487
Imputed
T
ADDITIVE
9.48E−05
9.48E−05
0.5543
0.5543
0.9938
0


rs4780547
Imputed
G
GENOTYPIC
0.002606
0.002606
0.3778
0.3778
0.4518
0


rs4780547
Imputed
G
RECESSIVE
0.002641
0.002641
0.3832
0.3832
0.5083
0


rs483159
Imputed
T
DOMINANT
0.001618
0.01337
1.5311
1.5114
0.2239
32.38


rs4836502
Imputed
T
DOMINANT
1.37E−05
1.37E−05
0.5753
0.5753
0.7855
0


rs4836507
Imputed
C
DOMINANT
1.68E−05
1.68E−05
0.5765
0.5765
0.7813
0


rs4851531
Imputed
T
DOMINANT
0.00133
0.00133
0.6585
0.6585
0.3468
0


rs4879931
Imputed
G
ADDITIVE
0.0002697
0.0002697
0.7001
0.7001
0.5714
0


rs489441
Imputed
G
ADDITIVE
6.35E−05
6.35E−05
1.5268
1.5268
0.8611
0


rs489441
Imputed
G
DOMINANT
5.90E−05
5.90E−05
1.6921
1.6921
0.6161
0


rs4976276
Imputed
T
ADDITIVE
8.75E−05
8.75E−05
1.4687
1.4687
0.8689
0


rs4977681
Imputed
C
RECESSIVE
9.61E−05
9.61E−05
2.314
2.314
0.6823
0


rs4986197
Imputed
G
ADDITIVE
3.97E−05
3.97E−05
1.5105
1.5105
0.6441
0


rs4986220
Imputed
T
ADDITIVE
5.91E−05
5.91E−05
1.5005
1.5005
0.7465
0


rs525462
Imputed
A
GENOTYPIC
0.0007973
0.004961
0.5445
0.5308
0.2306
30.4


rs552006
Imputed
G
GENOTYPIC
9.06E−05
9.06E−05
2.4662
2.4662
0.4679
0


rs5756669
Imputed
C
DOMINANT
7.71E−05
7.71E−05
1.7362
1.7362
0.7477
0


rs581905
Imputed
T
DOMINANT
0.008112
0.008112
1.5819
1.5819
0.4663
0


rs6033138
Imputed
C
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs6033138
Imputed
C
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs6040619
Imputed
C
ADDITIVE
0.000474
0.000474
1.3729
1.3729
0.7285
0


rs6040619
Imputed
C
GENOTYPIC
0.0005591
0.0005591
1.9442
1.9442
0.9167
0


rs6040625
Imputed
T
ADDITIVE
0.0003079
0.0003079
1.3859
1.3859
0.7073
0


rs6040625
Imputed
T
GENOTYPIC
0.000416
0.000416
1.9717
1.9717
0.9604
0


rs6040630
Imputed
A
ADDITIVE
0.0003026
0.0003026
1.3874
1.3874
0.7384
0


rs6040630
Imputed
A
GENOTYPIC
0.0004609
0.0004609
1.9676
1.9676
0.9146
0


rs6040633
Imputed
A
ADDITIVE
0.0003456
0.0003456
1.3823
1.3823
0.78
0


rs6040633
Imputed
A
GENOTYPIC
0.0005613
0.0005613
1.945
1.945
0.8535
0


rs6040634
Imputed
T
ADDITIVE
0.00085
0.00085
1.3491
1.3491
0.6301
0


rs6040634
Imputed
T
GENOTYPIC
0.001411
0.001411
1.8378
1.8378
0.9672
0


rs6040636
Imputed
T
ADDITIVE
0.0007597
0.0007597
1.3531
1.3531
0.6477
0


rs6040636
Imputed
T
GENOTYPIC
0.001336
0.001336
1.8436
1.8436
0.9771
0


rs6040638
Imputed
C
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs6040638
Imputed
C
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs6040644
Imputed
A
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs6040644
Imputed
A
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs6040667
Imputed
T
ADDITIVE
0.0002261
0.0002261
1.4034
1.4034
0.9253
0


rs6040667
Imputed
T
GENOTYPIC
0.0003915
0.0003915
2.0113
2.0113
0.742
0


rs6040668
Imputed
C
ADDITIVE
0.0002261
0.0002261
1.4034
1.4034
0.9253
0


rs6040668
Imputed
C
GENOTYPIC
0.0003915
0.0003915
2.0113
2.0113
0.742
0


rs6053005
Imputed
C
DOMINANT
0.00111
0.01291
0.5203
0.5059
0.1794
44.53


rs6054405
Imputed
A
RECESSIVE
5.03E−05
5.03E−05
2.0846
2.0846
0.5572
0


rs6054427
Genotyped
G
GENOTYPIC
9.31E−05
9.31E−05
2.1425
2.1425
0.5656
0


rs6075186
Imputed
G
DOMINANT
6.31E−05
6.31E−05
0.5711
0.5711
0.3613
0


rs608278
Imputed
A
ADDITIVE
7.01E−05
7.01E−05
0.6797
0.6797
0.6622
0


rs6111540
Imputed
A
ADDITIVE
8.63E−05
8.63E−05
0.6872
0.6872
0.3404
0


rs6131206
Imputed
C
ADDITIVE
0.001921
0.001921
1.3434
1.3434
0.4914
0


rs6131208
Imputed
T
ADDITIVE
0.0002261
0.0002261
1.4034
1.4034
0.9253
0


rs6131208
Imputed
T
GENOTYPIC
0.0003915
0.0003915
2.0113
2.0113
0.742
0


rs6131919
Imputed
G
DOMINANT
6.31E−05
6.31E−05
0.5711
0.5711
0.3613
0


rs6134243
Imputed
C
ADDITIVE
0.0005045
0.0005045
1.3708
1.3708
0.7263
0


rs6134243
Imputed
C
GENOTYPIC
0.0006517
0.0006517
1.9308
1.9308
0.8764
0


rs6136020
Imputed
A
DOMINANT
4.47E−05
4.47E−05
0.564
0.564
0.3277
0


rs613799
Imputed
C
DOMINANT
0.0002168
0.0002168
1.6378
1.6378
0.4057
0


rs644041
Imputed
G
ADDITIVE
4.10E−05
4.10E−05
1.5491
1.5491
0.9018
0


rs644041
Imputed
G
DOMINANT
6.67E−05
6.67E−05
1.6947
1.6947
0.6929
0


rs6464377
Imputed
C
DOMINANT
8.03E−05
8.03E−05
2.035
2.035
0.5161
0


rs6474230
Imputed
T
DOMINANT
0.0001096
0.0001096
1.6401
1.6401
0.5183
0


rs6476565
Imputed
A
DOMINANT
7.38E−05
7.38E−05
0.5063
0.5063
0.7702
0


rs6511286
Imputed
T
ADDITIVE
8.56E−05
8.56E−05
1.4548
1.4548
0.3238
0


rs6541829
Genotyped
C
RECESSIVE
0.0008971
0.0008971
2.3027
2.3027
0.4111
0


rs6544721
Imputed
G
DOMINANT
4.51E−05
4.51E−05
1.6786
1.6786
0.7237
0


rs6544728
Imputed
T
DOMINANT
3.81E−05
3.81E−05
1.6924
1.6924
0.7254
0


rs6565910
Imputed
G
DOMINANT
6.35E−05
6.35E−05
0.596
0.596
0.7271
0


rs6581985
Imputed
G
GENOTYPIC
0.0008728
0.0008728
2.1776
2.1776
0.7023
0


rs6581985
Imputed
G
RECESSIVE
0.0003781
0.0003781
2.2212
2.2212
0.8679
0


rs6685186
Imputed
T
ADDITIVE
4.04E−05
4.04E−05
1.4552
1.4552
0.5991
0


rs6685186
Imputed
T
GENOTYPIC
7.87E−05
7.87E−05
2.1208
2.1208
0.5157
0


rs670593
Imputed
A
RECESSIVE
0.004705
0.004705
0.6026
0.6026
0.9153
0


rs6722640
Imputed
T
DOMINANT
0.0009277
0.0009277
0.6505
0.6505
0.4929
0


rs6746170
Imputed
A
DOMINANT
3.13E−05
3.13E−05
1.7022
1.7022
0.7235
0


rs6757316
Imputed
A
GENOTYPIC
0.0002411
0.0002411
1.9498
1.9498
0.7316
0


rs6805139
Imputed
G
DOMINANT
0.000179
0.000179
1.7522
1.7522
0.7218
0


rs6808571
Imputed
G
ADDITIVE
5.06E−05
5.06E−05
1.6529
1.6529
0.3901
0


rs6816479
Imputed
A
RECESSIVE
8.91E−05
8.91E−05
2.0191
2.0191
0.6804
0


rs6865976
Imputed
C
DOMINANT
1.69E−05
1.69E−05
0.5245
0.5245
0.8417
0


rs687047
Imputed
C
ADDITIVE
0.002064
0.002064
0.6519
0.6519
0.6436
0


rs6871041
Imputed
G
DOMINANT
1.86E−05
1.86E−05
0.571
0.571
0.7023
0


rs688358
Imputed
A
ADDITIVE
0.001723
0.001723
0.6472
0.6472
0.7547
0


rs6908481
Imputed
C
RECESSIVE
2.93E−05
2.93E−05
1.9907
1.9907
0.715
0


rs6917224
Imputed
A
ADDITIVE
8.07E−05
8.07E−05
1.4126
1.4126
0.6894
0


rs6917224
Imputed
A
GENOTYPIC
6.12E−05
6.12E−05
2.0516
2.0516
0.8021
0


rs6920677
Imputed
G
DOMINANT
9.74E−05
9.74E−05
0.6022
0.6022
0.3637
0


rs6994498
Imputed
G
DOMINANT
0.0001214
0.0001214
1.6355
1.6355
0.5075
0


rs6998772
Imputed
T
DOMINANT
3.05E−05
3.05E−05
2.6244
2.6244
0.9125
0


rs7022281
Imputed
C
ADDITIVE
0.0008616
0.0008616
0.7327
0.7327
0.9461
0


rs7022281
Imputed
C
GENOTYPIC
0.0008065
0.0008065
0.5109
0.5109
0.8632
0


rs7022281
Imputed
C
RECESSIVE
0.003772
0.003772
0.5858
0.5858
0.653
0


rs7043983
Imputed
T
DOMINANT
7.81E−05
7.81E−05
0.5075
0.5075
0.763
0


rs7077799
Imputed
A
DOMINANT
0.0001618
0.0002489
1.6085
1.6059
0.3065
4.35


rs7088947
Imputed
A
ADDITIVE
0.0002561
0.002122
0.5006
0.4865
0.237
28.49


rs7089661
Imputed
C
DOMINANT
0.0001402
0.0004442
1.6153
1.6079
0.2874
11.66


rs7102072
Imputed
A
DOMINANT
2.00E−05
2.00E−05
0.5832
0.5832
0.7992
0


rs710832
Genotyped
A
RECESSIVE
0.0003556
0.0003556
0.3515
0.3515
0.5598
0


rs712531
Imputed
A
DOMINANT
4.12E−05
4.12E−05
1.7164
1.7164
0.821
0


rs7129817
Imputed
T
ADDITIVE
8.64E−05
8.64E−05
0.6917
0.6917
0.9871
0


rs7134262
Imputed
T
GENOTYPIC
0.000667
0.000667
2.0059
2.0059
0.482
0


rs7134262
Imputed
T
RECESSIVE
1.92E−05
0.0001342
2.2604
2.2418
0.2719
17.17


rs7138300
Imputed
C
ADDITIVE
0.0006364
0.0006364
0.728
0.728
0.7009
0


rs7138300
Imputed
C
DOMINANT
0.0001126
0.0001126
0.5881
0.5881
0.915
0


rs722927
Imputed
G
ADDITIVE
5.34E−05
5.34E−05
0.4718
0.4718
0.7351
0


rs722927
Imputed
G
DOMINANT
5.76E−05
5.76E−05
0.4589
0.4589
0.8222
0


rs726424
Genotyped
G
ADDITIVE
0.0002921
0.0002921
0.7216
0.7216
0.7796
0


rs726424
Genotyped
G
GENOTYPIC
0.0006575
0.0006575
0.5204
0.5204
0.4936
0


rs7295817
Imputed
C
ADDITIVE
4.33E−05
4.33E−05
0.6912
0.6912
0.586
0


rs7295817
Imputed
C
GENOTYPIC
6.93E−05
6.93E−05
0.4694
0.4694
0.3851
0


rs7295817
Imputed
C
RECESSIVE
0.001037
0.01025
0.5648
0.5757
0.2268
31.55


rs7297372
Imputed
A
ADDITIVE
0.0002771
0.0002771
0.7072
0.7072
0.6868
0


rs7297372
Imputed
A
GENOTYPIC
0.0002766
0.0002766
0.4963
0.4963
0.7085
0


rs7298255
Imputed
A
ADDITIVE
0.0006976
0.0006976
0.7332
0.7332
0.8654
0


rs7298255
Imputed
A
DOMINANT
6.68E−05
6.68E−05
0.5792
0.5792
0.9355
0


rs7305832
Imputed
C
GENOTYPIC
0.000667
0.000667
2.0059
2.0059
0.482
0


rs7305832
Imputed
C
RECESSIVE
1.92E−05
0.0001342
2.2604
2.2418
0.2719
17.17


rs737542
Imputed
A
RECESSIVE
0.0006435
0.0007974
2.3828
2.3899
0.3091
3.32


rs742827
Imputed
A
ADDITIVE
0.0002216
0.0002216
1.411
1.411
0.9765
0


rs742827
Imputed
A
GENOTYPIC
0.0004335
0.0004335
2.0079
2.0079
0.73
0


rs7446891
Imputed
G
DOMINANT
1.34E−05
1.34E−05
0.5737
0.5737
0.819
0


rs7448641
Imputed
C
ADDITIVE
2.13E−05
2.13E−05
0.1976
0.1976
0.798
0


rs7448641
Imputed
C
DOMINANT
3.85E−05
3.85E−05
0.2007
0.2007
0.8145
0


rs7460605
Imputed
G
DOMINANT
0.0004965
0.0004965
1.5998
1.5998
0.8118
0


rs7468898
Imputed
T
ADDITIVE
4.70E−05
4.70E−05
1.4562
1.4562
0.6548
0


rs7468898
Imputed
T
GENOTYPIC
5.27E−05
5.27E−05
2.1254
2.1254
0.7376
0


rs7501186
Imputed
A
DOMINANT
0.009359
0.009359
1.4572
1.4572
0.5108
0


rs755117
Imputed
A
DOMINANT
8.93E−05
8.93E−05
1.6937
1.6937
0.8341
0


rs7557560
Imputed
T
GENOTYPIC
1.52E−05
1.52E−05
4.8002
4.8002
0.5006
0


rs7557560
Imputed
T
RECESSIVE
1.73E−05
1.73E−05
4.6869
4.6869
0.4673
0


rs7562462
Imputed
T
DOMINANT
3.98E−05
3.98E−05
1.7863
1.7863
0.5531
0


rs757173
Genotyped
G
DOMINANT
3.67E−05
3.67E−05
0.5903
0.5903
0.3929
0


rs7607447
Imputed
T
RECESSIVE
0.004354
0.004354
1.9039
1.9039
0.9167
0


rs7639053
Imputed
A
ADDITIVE
6.32E−05
6.32E−05
1.5389
1.5389
0.7877
0


rs7648163
Imputed
C
RECESSIVE
4.30E−05
4.30E−05
2.2905
2.2905
0.3422
0


rs7651273
Imputed
A
GENOTYPIC
7.69E−05
7.69E−05
3.6491
3.6491
0.3606
0


rs7653190
Imputed
C
ADDITIVE
5.88E−05
5.88E−05
1.5431
1.5431
0.7499
0


rs7653685
Genotyped
C
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs7684899
Imputed
C
DOMINANT
0.005003
0.005003
0.6963
0.6963
0.8023
0


rs7701604
Imputed
G
ADDITIVE
2.13E−05
2.13E−05
0.1976
0.1976
0.798
0


rs7701604
Imputed
G
DOMINANT
3.85E−05
3.85E−05
0.2007
0.2007
0.8145
0


rs7703676
Imputed
C
ADDITIVE
2.13E−05
2.13E−05
0.1976
0.1976
0.798
0


rs7703676
Imputed
C
DOMINANT
3.85E−05
3.85E−05
0.2007
0.2007
0.8145
0


rs7711358
Imputed
A
DOMINANT
2.03E−05
2.03E−05
0.5813
0.5813
0.7623
0


rs7713251
Imputed
C
RECESSIVE
7.07E−05
7.07E−05
2.2563
2.2563
0.6403
0


rs7737608
Imputed
G
DOMINANT
2.24E−05
2.24E−05
1.7514
1.7514
0.3895
0


rs7755903
Imputed
A
GENOTYPIC
9.90E−05
9.90E−05
0.4763
0.4763
0.3374
0


rs7762993
Imputed
A
ADDITIVE
3.64E−05
3.64E−05
1.5999
1.5999
0.3438
0


rs7762993
Imputed
A
DOMINANT
5.71E−06
5.71E−06
1.8249
1.8249
0.3301
0


rs7767265
Imputed
G
DOMINANT
1.54E−06
9.09E−05
1.8708
1.8488
0.2364
28.66


rs7769415
Imputed
C
GENOTYPIC
0.01222
0.01222
1.7102
1.7102
0.8943
0


rs7771264
Imputed
T
DOMINANT
9.73E−05
9.73E−05
0.6028
0.6028
0.5969
0


rs7795792
Imputed
T
RECESSIVE
0.0002939
0.00425
0.557
0.5415
0.2009
38.87


rs7806481
Imputed
G
RECESSIVE
2.19E−05
9.93E−05
0.5028
0.5057
0.2831
13.22


rs7808536
Imputed
G
DOMINANT
0.0002294
0.00065
1.6124
1.6227
0.2799
14.36


rs7814819
Imputed
G
ADDITIVE
0.000435
0.000435
2.1517
2.1517
0.4796
0


rs7814819
Imputed
G
DOMINANT
0.0002065
0.0002065
2.333
2.333
0.5524
0


rs7815952
Imputed
T
DOMINANT
3.05E−05
3.05E−05
2.6244
2.6244
0.9125
0


rs7834090
Imputed
T
DOMINANT
3.05E−05
3.05E−05
2.6244
2.6244
0.9125
0


rs7859250
Imputed
C
DOMINANT
6.27E−05
6.27E−05
0.5033
0.5033
0.7889
0


rs7863577
Genotyped
A
ADDITIVE
5.37E−05
5.37E−05
0.5145
0.5145
0.5515
0


rs7863577
Genotyped
A
DOMINANT
8.32E−05
8.32E−05
0.5032
0.5032
0.6829
0


rs7902140
Imputed
C
ADDITIVE
8.00E−05
8.00E−05
0.6274
0.6274
0.9605
0


rs7921834
Imputed
C
DOMINANT
0.0001402
0.0004442
1.6153
1.6079
0.2874
11.66


rs7939893
Imputed
C
ADDITIVE
0.001509
0.001509
0.7466
0.7466
0.4075
0


rs7939893
Imputed
C
DOMINANT
0.0007741
0.0007741
0.6536
0.6536
0.8293
0


rs7955901
Imputed
C
ADDITIVE
0.0008458
0.0008458
0.7371
0.7371
0.7791
0


rs7955901
Imputed
C
DOMINANT
7.14E−05
7.14E−05
0.5799
0.5799
0.9786
0


rs7956274
Imputed
T
ADDITIVE
0.001224
0.001224
0.7429
0.7429
0.9488
0


rs7956274
Imputed
T
DOMINANT
0.0001094
0.0001094
0.5876
0.5876
0.8703
0


rs7957932
Imputed
G
ADDITIVE
0.001498
0.001498
0.7467
0.7467
0.8677
0


rs7957932
Imputed
G
DOMINANT
5.69E−05
5.69E−05
0.5706
0.5706
0.9859
0


rs7984294
Imputed
A
DOMINANT
0.00858
0.00858
1.5738
1.5738
0.5291
0


rs7994286
Imputed
A
ADDITIVE
9.63E−05
9.63E−05
0.549
0.549
0.854
0


rs7994286
Imputed
A
DOMINANT
7.82E−05
7.82E−05
0.5161
0.5161
0.7893
0


rs8038229
Genotyped
A
ADDITIVE
0.001259
0.01927
0.7324
0.7157
0.155
50.55


rs8038229
Genotyped
A
DOMINANT
0.0009849
0.007544
0.6614
0.6497
0.2113
36.01


rs8043336
Imputed
C
GENOTYPIC
7.96E−05
7.96E−05
0.3958
0.3958
0.4455
0


rs8043336
Imputed
C
RECESSIVE
8.36E−05
8.36E−05
0.4142
0.4142
0.5943
0


rs8054431
Imputed
T
DOMINANT
2.45E−05
2.45E−05
1.7571
1.7571
0.4329
0


rs8066502
Imputed
T
DOMINANT
0.006801
0.006801
0.683
0.683
0.9956
0


rs8068714
Imputed
T
DOMINANT
0.006941
0.006941
0.6836
0.6836
0.8713
0


rs892575
Imputed
T
ADDITIVE
5.64E−05
5.64E−05
1.4995
1.4995
0.67
0


rs892583
Imputed
G
ADDITIVE
5.66E−05
5.66E−05
1.5024
1.5024
0.7396
0


rs915494
Imputed
A
ADDITIVE
0.0008012
0.008128
1.402
1.3898
0.223
32.66


rs915494
Imputed
A
DOMINANT
0.0001453
0.01549
1.6314
1.5891
0.1486
52.08


rs917295
Imputed
G
DOMINANT
1.41E−05
1.41E−05
0.5759
0.5759
0.7897
0


rs922594
Imputed
T
DOMINANT
0.00224
0.00224
0.6774
0.6774
0.3822
0


rs9301653
Imputed
T
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs9301653
Imputed
T
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs9309988
Imputed
G
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs9309989
Genotyped
C
DOMINANT
3.87E−05
3.87E−05
1.9491
1.9491
0.3231
0


rs9310221
Imputed
A
DOMINANT
9.78E−06
3.80E−05
1.86
1.8519
0.2901
10.65


rs9327555
Imputed
T
DOMINANT
1.37E−05
1.37E−05
0.5753
0.5753
0.7855
0


rs937890
Imputed
G
DOMINANT
0.005817
0.005817
0.6731
0.6731
0.8017
0


rs9454967
Imputed
G
ADDITIVE
7.03E−06
7.03E−06
2.1926
2.1926
0.7348
0


rs9454967
Imputed
G
DOMINANT
1.21E−06
1.21E−06
2.4795
2.4795
0.5648
0


rs9471295
Imputed
T
DOMINANT
0.002076
0.002076
1.5391
1.5391
0.8556
0


rs9477007
Imputed
A
ADDITIVE
5.88E−05
5.88E−05
1.429
1.429
0.6453
0


rs9477007
Imputed
A
GENOTYPIC
5.42E−05
5.42E−05
2.0759
2.0759
0.7341
0


rs9487279
Imputed
T
DOMINANT
9.53E−05
9.53E−05
0.5948
0.5948
0.7903
0


rs949016
Imputed
C
ADDITIVE
4.61E−05
4.61E−05
1.5082
1.5082
0.7183
0


rs9555973
Imputed
G
ADDITIVE
9.09E−05
9.09E−05
0.5479
0.5479
0.8574
0


rs9555973
Imputed
G
DOMINANT
7.60E−05
7.60E−05
0.5157
0.5157
0.808
0


rs9557510
Imputed
G
ADDITIVE
0.0001379
0.0001379
1.6102
1.6102
0.9088
0


rs9557510
Imputed
G
DOMINANT
4.86E−05
4.86E−05
1.7706
1.7706
0.9892
0


rs9560584
Imputed
T
DOMINANT
8.00E−05
8.00E−05
0.512
0.512
0.7127
0


rs9588770
Imputed
T
DOMINANT
8.97E−05
8.97E−05
0.5187
0.5187
0.86
0


rs9588848
Imputed
C
ADDITIVE
6.55E−05
6.55E−05
0.5369
0.5369
0.7455
0


rs9588848
Imputed
C
DOMINANT
4.31E−05
4.31E−05
0.5009
0.5009
0.6615
0


rs966583
Imputed
A
ADDITIVE
0.00064
0.00064
0.7272
0.7272
0.9721
0


rs966583
Imputed
A
DOMINANT
6.94E−05
6.94E−05
0.5916
0.5916
0.8081
0


rs974130
Genotyped
A
RECESSIVE
9.67E−05
9.67E−05
2.0112
2.0112
0.6677
0


rs977160
Imputed
T
ADDITIVE
1.90E−05
1.90E−05
1.5465
1.5465
0.3814
0


rs9812206
Imputed
G
ADDITIVE
1.27E−06
1.27E−06
0.4469
0.4469
0.5437
0


rs9812206
Imputed
G
DOMINANT
1.72E−06
1.72E−06
0.4369
0.4369
0.61
0


rs9813552
Imputed
G
ADDITIVE
2.01E−06
2.01E−06
0.4493
0.4493
0.4991
0


rs9813552
Imputed
G
DOMINANT
2.40E−06
2.40E−06
0.4387
0.4387
0.5642
0


rs9815037
Imputed
T
ADDITIVE
1.57E−06
1.57E−06
0.4461
0.4461
0.5119
0


rs9815037
Imputed
T
DOMINANT
1.83E−06
1.83E−06
0.4354
0.4354
0.5792
0


rs9825349
Imputed
A
ADDITIVE
1.57E−06
1.57E−06
0.4461
0.4461
0.5119
0


rs9825349
Imputed
A
DOMINANT
1.83E−06
1.83E−06
0.4354
0.4354
0.5792
0


rs9834217
Imputed
T
ADDITIVE
1.61E−06
1.61E−06
0.4466
0.4466
0.5093
0


rs9834217
Imputed
T
DOMINANT
1.89E−06
1.89E−06
0.4359
0.4359
0.5761
0


rs9840460
Imputed
T
ADDITIVE
1.57E−06
1.57E−06
0.4461
0.4461
0.5119
0


rs9840460
Imputed
T
DOMINANT
1.83E−06
1.83E−06
0.4354
0.4354
0.5792
0


rs9840756
Imputed
A
ADDITIVE
1.55E−06
1.55E−06
0.4458
0.4458
0.5071
0


rs9840756
Imputed
A
DOMINANT
1.81E−06
1.81E−06
0.435
0.435
0.5742
0


rs9844801
Imputed
C
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs985375
Imputed
A
GENOTYPIC
6.39E−05
6.39E−05
2.8891
2.8891
0.9861
0


rs9869187
Imputed
C
ADDITIVE
7.35E−06
7.35E−06
0.4651
0.4651
0.7004
0


rs9869187
Imputed
C
DOMINANT
2.02E−05
2.02E−05
0.4704
0.4704
0.6809
0


rs9872327
Imputed
T
DOMINANT
5.30E−05
8.76E−05
1.9326
1.9381
0.3031
5.72


rs9881685
Imputed
A
ADDITIVE
1.31E−06
1.31E−06
0.4438
0.4438
0.4978
0


rs9881685
Imputed
A
DOMINANT
1.61E−06
1.61E−06
0.4332
0.4332
0.5585
0


rs9909499
Imputed
C
DOMINANT
0.002624
0.002624
1.4669
1.4669
0.7269
0


rs9911847
Imputed
G
DOMINANT
0.00547
0.00547
0.6755
0.6755
0.9212
0


rs9946886
Imputed
G
RECESSIVE
5.84E−05
5.84E−05
0.3084
0.3084
0.8937
0


rs9958823
Imputed
A
ADDITIVE
2.61E−05
2.61E−05
1.5292
1.5292
0.6713
0


rs9965248
Imputed
T
ADDITIVE
6.66E−05
6.66E−05
1.4965
1.4965
0.6122
0

























TABLE 13







ALLELE









SNP rs #
SOURCE
(A1)
MODEL
P
P(R)
OR
OR(R)
Q
I
























rs198460
Genotyped
G
RECESSIVE
2.05E−06
2.05E−06
1.8108
1.8108
0.5587
0


rs603940
Genotyped
G
RECESSIVE
7.32E−05
7.32E−05
0.5405
0.5405
0.4588
0


rs10021016
Genotyped
G
GENOTYPIC
5.48E−05
5.48E−05
2.3945
2.3945
0.8903
0


rs1003148
Imputed
C
ADDITIVE
1.19E−05
1.19E−05
0.7154
0.7154
0.9106
0


rs1003148
Imputed
C
GENOTYPIC
8.14E−06
8.14E−06
0.4872
0.4872
0.8101
0


rs1003148
Imputed
C
RECESSIVE
5.89E−05
5.89E−05
0.5541
0.5541
0.5169
0


rs10046799
Imputed
C
ADDITIVE
8.59E−05
8.59E−05
0.7444
0.7444
0.3859
0


rs10046799
Imputed
C
GENOTYPIC
6.10E−05
6.10E−05
0.5427
0.5427
0.4931
0


rs10051148
Imputed
C
DOMINANT
1.16E−06
1.16E−06
0.596
0.596
0.8669
0


rs10054055
Imputed
T
DOMINANT
4.36E−07
4.36E−07
0.5814
0.5814
0.9471
0


rs10067895
Imputed
A
DOMINANT
3.37E−07
3.37E−07
0.5762
0.5762
0.9653
0


rs1008705
Imputed
C
DOMINANT
9.36E−05
9.36E−05
1.6202
1.6202
0.516
0


rs10105871
Imputed
C
DOMINANT
9.54E−05
9.54E−05
1.5752
1.5752
0.7598
0


rs10116807
Imputed
A
GENOTYPIC
2.35E−05
2.35E−05
3.1548
3.1548
0.994
0


rs10116807
Imputed
A
RECESSIVE
4.72E−05
4.72E−05
2.9802
2.9802
0.9943
0


rs10121941
Imputed
C
DOMINANT
3.10E−03
1.47E−01
0.6558
0.6652
0.0252
72.84


rs10128638
Genotyped
G
DOMINANT
7.89E−05
7.89E−05
0.6196
0.6196
0.8513
0


rs1012924
Imputed
G
ADDITIVE
6.22E−02
5.77E−01
0.7882
0.8017
0.0001
89.23


rs1012924
Imputed
G
DOMINANT
6.06E−02
0.5529
0.7739
0.7744
0.0001
89.62


rs1016030
Genotyped
G
ADDITIVE
9.82E−05
9.82E−05
1.3592
1.3592
0.3844
0


rs1016030
Genotyped
G
GENOTYPIC
0.0001503
0.0001808
1.8631
1.8624
0.3605
1.98


rs1017558
Imputed
A
RECESSIVE
3.63E−03
0.1741
1.5611
1.5084
0.0227
73.6


rs10183431
Imputed
T
DOMINANT
1.18E−04
0.0001179
1.5094
1.5094
0.452
0


rs10195401
Imputed
C
DOMINANT
5.75E−04
0.01653
1.4645
1.4526
0.1484
47.59


rs10239416
Imputed
A
DOMINANT
8.79E−03
0.3403
0.7512
0.7725
0.0026
83.15


rs1032188
Imputed
G
GENOTYPIC
3.23E−05
3.23E−05
0.415
0.415
0.4549
0


rs1032188
Imputed
G
RECESSIVE
4.57E−05
4.57E−05
0.4331
0.4331
0.3757
0


rs10468988
Imputed
G
ADDITIVE
1.19E−04
0.005354
1.3915
1.3736
0.1822
41.27


rs10478919
Imputed
G
DOMINANT
3.36E−07
3.36E−07
0.5781
0.5781
0.9145
0


rs10506623
Imputed
C
DOMINANT
4.11E−05
4.11E−05
0.6355
0.6355
0.7566
0


rs10506626
Imputed
A
DOMINANT
4.77E−06
4.77E−06
0.6029
0.6029
0.7652
0


rs10509477
Imputed
T
DOMINANT
5.09E−05
5.09E−05
1.5361
1.5361
0.4725
0


rs10511071
Imputed
C
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs10511072
Imputed
G
DOMINANT
3.65E−03
1.79E−01
1.4802
1.4969
0.0084
79.08


rs10511199
Imputed
C
ADDITIVE
9.12E−04
2.82E−02
1.348
1.3411
0.1188
53.05


rs10513283
Imputed
G
GENOTYPIC
3.27E−04
1.14E−02
2.7233
2.5889
0.1701
43.55


rs10520072
Imputed
T
DOMINANT
4.33E−07
4.33E−07
0.5808
0.5808
0.9574
0


rs1065639
Imputed
C
DOMINANT
5.13E−05
5.13E−05
1.7169
1.7169
0.8785
0


rs10733846
Imputed
G
ADDITIVE
1.71E−05
5.53E−04
0.6464
0.6552
0.2454
28.81


rs10733846
Imputed
G
DOMINANT
5.14E−05
5.14E−05
0.6265
0.6265
0.543
0


rs10737390
Imputed
T
DOMINANT
1.70E−03
0.1499
0.7059
0.7364
0.0305
71.34


rs10749293
Imputed
G
DOMINANT
1.78E−05
1.78E−05
1.5736
1.5736
0.524
0


rs10752159
Imputed
G
DOMINANT
7.32E−05
7.32E−05
1.5394
1.5394
0.5089
0


rs10753760
Imputed
T
ADDITIVE
3.60E−03
0.1365
1.2495
1.2446
0.0275
72.17


rs10753760
Imputed
T
GENOTYPIC
3.73E−03
0.1448
1.579
1.5661
0.0247
72.99


rs10757887
Imputed
C
DOMINANT
2.10E−03
0.09341
0.7185
0.7262
0.048
67.07


rs10758326
Imputed
A
ADDITIVE
3.12E−05
3.12E−05
0.7205
0.7205
0.9344
0


rs10758326
Imputed
A
GENOTYPIC
1.46E−05
1.46E−05
0.4748
0.4748
0.6437
0


rs10758326
Imputed
A
RECESSIVE
9.28E−05
9.28E−05
0.5372
0.5372
0.3903
0


rs10762236
Genotyped
G
ADDITIVE
1.41E−04
1.36E−02
0.6866
0.7015
0.1342
50.22


rs10765769
Imputed
C
ADDITIVE
1.89E−05
1.89E−05
1.3977
1.3977
0.5396
0


rs10765769
Imputed
C
GENOTYPIC
4.04E−05
4.04E−05
1.9329
1.9329
0.5283
0


rs10784891
Imputed
C
ADDITIVE
3.30E−05
3.30E−05
0.7221
0.7221
0.8883
0


rs10784891
Imputed
C
DOMINANT
3.17E−05
3.17E−05
0.6171
0.6171
0.6062
0


rs10787923
Imputed
G
DOMINANT
1.17E−05
1.17E−05
1.5929
1.5929
0.4856
0


rs10787949
Imputed
A
DOMINANT
6.84E−05
6.84E−05
1.5282
1.5282
0.4028
0


rs10787951
Imputed
G
DOMINANT
7.02E−05
7.02E−05
1.5272
1.5272
0.4
0


rs10787983
Imputed
C
DOMINANT
5.52E−05
5.52E−05
1.5334
1.5334
0.4235
0


rs10788380
Imputed
C
ADDITIVE
7.51E−05
7.51E−05
1.3528
1.3528
0.8856
0


rs10788380
Imputed
C
DOMINANT
3.53E−05
3.53E−05
1.6982
1.6982
0.9632
0


rs10788380
Imputed
C
GENOTYPIC
6.34E−05
6.34E−05
1.8532
1.8532
0.9102
0


rs10814418
Imputed
G
DOMINANT
3.49E−03
1.53E−01
0.6592
0.6683
0.0249
72.93


rs10831417
Imputed
A
ADDITIVE
3.85E−05
3.11E−04
1.3868
1.3856
0.2831
20.76


rs10831417
Imputed
A
GENOTYPIC
4.55E−05
6.53E−04
1.9715
1.9609
0.2571
26.37


rs10831422
Imputed
C
ADDITIVE
8.06E−05
8.06E−05
1.366
1.366
0.4125
0


rs10831422
Imputed
C
GENOTYPIC
6.96E−05
6.96E−05
1.9315
1.9315
0.3829
0


rs10862931
Imputed
C
GENOTYPIC
5.74E−02
0.5627
0.7112
0.7348
0.0002
88.45


rs10865197
Imputed
C
DOMINANT
1.16E−04
0.0001158
1.5096
1.5096
0.4518
0


rs10871302
Imputed
A
DOMINANT
1.00E−04
0.0001
1.6031
1.6031
0.379
0


rs10877463
Imputed
C
DOMINANT
6.35E−05
6.35E−05
0.6518
0.6518
0.5839
0


rs10877468
Imputed
C
DOMINANT
7.07E−05
7.07E−05
0.653
0.653
0.5247
0


rs10879240
Imputed
C
ADDITIVE
3.80E−05
3.80E−05
0.6993
0.6993
0.5299
0


rs10879242
Imputed
A
DOMINANT
1.18E−05
1.18E−05
0.6
0.6
0.4258
0


rs10879245
Imputed
G
DOMINANT
1.18E−05
1.18E−05
0.6
0.6
0.4258
0


rs10879249
Imputed
T
DOMINANT
4.34E−05
4.34E−05
0.6359
0.6359
0.7079
0


rs10886452
Imputed
A
DOMINANT
5.56E−05
5.56E−05
1.5358
1.5358
0.4242
0


rs10886463
Imputed
C
DOMINANT
6.07E−05
6.07E−05
1.533
1.533
0.4181
0


rs10886465
Imputed
A
DOMINANT
7.14E−05
7.14E−05
1.5271
1.5271
0.4344
0


rs10886526
Imputed
C
DOMINANT
6.05E−05
6.05E−05
1.5311
1.5311
0.4839
0


rs10902437
Imputed
G
ADDITIVE
6.85E−05
6.85E−05
1.3724
1.3724
0.531
0


rs10941126
Imputed
G
ADDITIVE
8.37E−03
1.24E−01
0.5451
0.3771
0.0037
82.12


rs10941126
Imputed
G
DOMINANT
1.51E−02
1.69E−01
0.5356
0.3959
0.0036
82.2


rs10947871
Imputed
A
DOMINANT
2.83E−05
2.83E−05
1.6668
1.6668
0.5021
0


rs10972978
Imputed
G
DOMINANT
4.09E−03
0.1884
0.6606
0.6715
0.0152
76.11


rs10973012
Imputed
A
DOMINANT
3.10E−03
0.1472
0.6558
0.6652
0.0252
72.84


rs10974028
Genotyped
G
ADDITIVE
6.17E−03
2.38E−01
0.7519
0.7698
0.0127
77.08


rs10974028
Genotyped
G
DOMINANT
1.85E−03
2.16E−01
0.6916
0.7096
0.0051
81.08


rs11021302
Imputed
A
ADDITIVE
9.21E−05
9.21E−05
1.3623
1.3623
0.4193
0


rs11021302
Imputed
A
GENOTYPIC
7.34E−05
7.34E−05
1.9274
1.9274
0.3854
0


rs11099644
Imputed
G
RECESSIVE
3.63E−03
1.74E−01
1.5611
1.5084
0.0227
73.6


rs11138315
Imputed
G
ADDITIVE
5.97E−05
5.97E−05
0.6045
0.6045
0.6837
0


rs11149802
Imputed
T
DOMINANT
1.00E−04
1.00E−04
1.6031
1.6031
0.379
0


rs1116596
Imputed
T
DOMINANT
3.36E−07
3.36E−07
0.5781
0.5781
0.9145
0


rs11178531
Imputed
A
ADDITIVE
5.04E−05
5.04E−05
0.7345
0.7345
0.9113
0


rs11178531
Imputed
A
DOMINANT
1.62E−05
1.62E−05
0.6062
0.6062
0.7273
0


rs11178575
Imputed
C
GENOTYPIC
7.77E−05
7.77E−05
2.0518
2.0518
0.4613
0


rs11178575
Imputed
C
RECESSIVE
8.55E−05
8.55E−05
1.9633
1.9633
0.6307
0


rs11178577
Imputed
T
GENOTYPIC
8.19E−05
8.19E−05
2.0467
2.0467
0.4668
0


rs11178577
Imputed
T
RECESSIVE
8.45E−05
8.45E−05
1.9643
1.9643
0.6423
0


rs11178583
Imputed
A
DOMINANT
3.48E−05
3.48E−05
0.6311
0.6311
0.6157
0


rs11178589
Imputed
T
DOMINANT
6.58E−05
6.58E−05
0.6416
0.6416
0.759
0


rs11178594
Imputed
C
DOMINANT
2.21E−05
2.21E−05
0.6259
0.6259
0.7529
0


rs11178602
Imputed
T
DOMINANT
1.96E−05
1.96E−05
0.6239
0.6239
0.7278
0


rs11178648
Imputed
T
DOMINANT
4.60E−06
4.60E−06
0.6044
0.6044
0.7746
0


rs11198877
Imputed
T
DOMINANT
5.89E−05
5.89E−05
1.5335
1.5335
0.418
0


rs11198942
Imputed
T
DOMINANT
4.04E−05
4.04E−05
1.5455
1.5455
0.4358
0


rs11221075
Imputed
A
ADDITIVE
4.74E−05
4.74E−05
0.6113
0.6113
0.5392
0


rs11242020
Imputed
T
DOMINANT
2.55E−07
2.55E−07
0.5746
0.5746
0.9225
0


rs11242021
Imputed
T
DOMINANT
4.26E−07
4.26E−07
0.5804
0.5804
0.9558
0


rs11242022
Imputed
T
DOMINANT
5.79E−07
5.79E−07
0.5841
0.5841
0.9318
0


rs11242023
Imputed
T
DOMINANT
5.92E−07
5.92E−07
0.5843
0.5843
0.9496
0


rs1149350
Imputed
A
DOMINANT
2.45E−03
1.30E−01
1.3997
1.3907
0.0257
72.68


rs1150143
Imputed
G
DOMINANT
6.34E−04
3.31E−02
1.4503
1.4366
0.0937
57.77


rs11576627
Imputed
T
ADDITIVE
4.22E−05
4.22E−05
1.5665
1.5665
0.6281
0


rs11576627
Imputed
T
DOMINANT
3.05E−05
3.05E−05
1.6676
1.6676
0.7461
0


rs11602189
Imputed
A
DOMINANT
1.82E−04
0.001317
0.6717
0.6744
0.2718
23.24


rs11605163
Imputed
A
DOMINANT
0.000708
0.02749
1.6562
1.6712
0.0948
57.56


rs11615214
Imputed
G
ADDITIVE
5.75E−06
5.75E−06
0.7047
0.7047
0.5765
0


rs11615214
Imputed
G
GENOTYPIC
2.91E−06
2.91E−06
0.4566
0.4566
0.4781
0


rs11642394
Imputed
C
DOMINANT
9.69E−05
9.69E−05
1.6046
1.6046
0.3847
0


rs11644943
Imputed
A
ADDITIVE
6.34E−05
6.34E−05
1.4362
1.4362
0.687
0


rs11656608
Imputed
T
DOMINANT
5.19E−05
5.19E−05
0.6191
0.6191
0.5685
0


rs11661309
Imputed
A
ADDITIVE
3.44E−05
3.44E−05
0.6656
0.6656
0.471
0


rs11661309
Imputed
A
DOMINANT
2.13E−04
8.96E−04
0.6556
0.657
0.2991
17.16


rs11666131
Imputed
A
ADDITIVE
3.25E−04
6.19E−03
1.3849
1.3772
0.1964
38.55


rs11743355
Imputed
C
ADDITIVE
1.07E−02
1.27E−01
0.5495
0.3573
0.0028
82.99


rs11743355
Imputed
C
DOMINANT
1.87E−02
1.70E−01
0.5389
0.3746
0.0027
83.11


rs11746806
Imputed
T
ADDITIVE
8.22E−03
0.1202
0.5498
0.3996
0.0061
80.4


rs11746806
Imputed
T
DOMINANT
1.56E−02
1.68E−01
0.5436
0.4204
0.006
80.44


rs11746959
Imputed
T
ADDITIVE
8.37E−03
1.24E−01
0.5451
0.3771
0.0037
82.12


rs11746959
Imputed
T
DOMINANT
1.51E−02
1.69E−01
0.5356
0.3959
0.0036
82.2


rs11749272
Imputed
T
DOMINANT
3.75E−07
3.75E−07
0.5789
0.5789
0.9197
0


rs11901899
Imputed
A
DOMINANT
5.05E−05
5.05E−05
1.5436
1.5436
0.6491
0


rs11926319
Imputed
G
ADDITIVE
2.62E−05
3.51E−02
0.5502
0.5519
0.0242
73.13


rs11926319
Imputed
G
DOMINANT
4.50E−05
0.04527
0.5488
0.5505
0.0199
74.48


rs11956952
Imputed
C
DOMINANT
8.97E−05
8.97E−05
0.6544
0.6544
0.9288
0


rs12025826
Imputed
G
DOMINANT
9.61E−05
9.61E−05
1.5444
1.5444
0.6337
0


rs1204522
Imputed
C
GENOTYPIC
1.76E−03
0.09323
0.5754
0.5955
0.0532
65.92


rs1204524
Imputed
A
GENOTYPIC
1.75E−03
0.09548
0.5752
0.5962
0.0519
66.2


rs12153185
Imputed
T
DOMINANT
3.02E−07
3.02E−07
0.575
0.575
0.965
0


rs12182651
Imputed
T
ADDITIVE
4.03E−04
6.63E−02
1.6379
1.6775
0.0204
74.32


rs12182651
Imputed
T
DOMINANT
9.90E−05
0.06125
1.8091
1.8433
0.0126
77.13


rs12193568
Imputed
G
DOMINANT
5.33E−05
5.33E−05
1.7043
1.7043
0.4515
0


rs12264914
Imputed
C
DOMINANT
9.89E−05
9.89E−05
0.5796
0.5796
0.4664
0


rs12307767
Imputed
C
DOMINANT
7.20E−05
7.20E−05
0.6476
0.6476
0.5868
0


rs1232298
Imputed
G
RECESSIVE
4.05E−05
4.05E−05
2.0359
2.0359
0.4524
0


rs12407412
Imputed
C
ADDITIVE
4.22E−05
4.22E−05
1.5665
1.5665
0.6281
0


rs12407412
Imputed
C
DOMINANT
3.05E−05
3.05E−05
1.6676
1.6676
0.7461
0


rs12420184
Imputed
G
DOMINANT
1.51E−02
0.4077
0.7481
0.7745
0.0016
84.53


rs12422750
Imputed
A
DOMINANT
9.60E−05
9.60E−05
0.6598
0.6598
0.5137
0


rs12446951
Imputed
A
ADDITIVE
3.93E−05
1.09E−04
2.0253
2.0349
0.3226
11.62


rs12446951
Imputed
A
DOMINANT
4.82E−05
4.82E−05
2.049
2.049
0.3973
0


rs12457400
Imputed
G
DOMINANT
7.89E−05
7.89E−05
0.5854
0.5854
0.8723
0


rs1247340
Imputed
C
DOMINANT
2.05E−03
0.1157
1.4086
1.4002
0.0296
71.6


rs1247341
Imputed
C
DOMINANT
1.57E−03
1.02E−01
1.4213
1.4156
0.0312
71.17


rs12521291
Imputed
G
ADDITIVE
1.87E−03
1.09E−01
0.7805
0.7921
0.04
68.92


rs12526849
Imputed
T
ADDITIVE
7.17E−04
0.03214
1.2878
1.2722
0.1105
54.59


rs12526849
Imputed
T
GENOTYPIC
3.38E−04
5.04E−03
1.7306
1.7075
0.2173
34.49


rs12543110
Imputed
G
DOMINANT
5.89E−05
5.89E−05
1.5358
1.5358
0.5248
0


rs12678600
Imputed
A
DOMINANT
1.00E−04
1.00E−04
0.6602
0.6602
0.5151
0


rs12719415
Imputed
T
DOMINANT
2.53E−07
2.53E−07
0.5739
0.5739
0.9166
0


rs12831292
Imputed
G
DOMINANT
2.63E−05
2.63E−05
0.6278
0.6278
0.7312
0


rs12923993
Imputed
C
DOMINANT
9.69E−05
9.69E−05
1.6046
1.6046
0.3847
0


rs12936964
Imputed
T
DOMINANT
3.11E−04
2.93E−03
1.4884
1.4756
0.2539
27.04


rs12960663
Imputed
G
ADDITIVE
4.89E−05
4.89E−05
0.6695
0.6695
0.515
0


rs13038146
Imputed
C
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs13038146
Imputed
C
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs13134222
Imputed
A
GENOTYPIC
1.96E−02
3.26E−01
0.5583
0.5463
0.0028
82.95


rs13172910
Imputed
A
DOMINANT
7.00E−05
7.00E−05
0.6505
0.6505
0.9366
0


rs13194907
Imputed
A
ADDITIVE
0.0002176
0.02467
1.7666
1.7835
0.0668
63.04


rs13194907
Imputed
A
DOMINANT
6.05E−05
0.01168
1.9281
1.9369
0.0827
59.88


rs13195745
Imputed
A
ADDITIVE
2.18E−04
2.47E−02
1.7666
1.7835
0.0668
63.04


rs13195745
Imputed
A
DOMINANT
6.05E−05
1.17E−02
1.9281
1.9369
0.0827
59.88


rs1321432
Imputed
A
RECESSIVE
8.48E−04
0.08213
1.6508
1.6057
0.0423
68.39


rs1321457
Imputed
G
RECESSIVE
0.001376
0.1001
1.6314
1.5668
0.0465
67.4


rs13265054
Imputed
T
DOMINANT
6.52E−05
6.52E−05
0.6518
0.6518
0.6806
0


rs13282131
Imputed
C
GENOTYPIC
6.27E−05
6.27E−05
1.8345
1.8345
0.9895
0


rs13353526
Imputed
C
DOMINANT
0.004081
0.1849
1.4667
1.4829
0.0079
79.32


rs1336382
Imputed
T
DOMINANT
5.09E−05
5.09E−05
1.5361
1.5361
0.4725
0


rs1336383
Imputed
T
DOMINANT
5.09E−05
5.09E−05
1.5361
1.5361
0.4725
0


rs1336407
Imputed
T
DOMINANT
5.93E−05
5.93E−05
1.5308
1.5308
0.4544
0


rs1336409
Imputed
T
DOMINANT
6.50E−05
6.50E−05
1.5274
1.5274
0.444
0


rs1336596
Imputed
A
DOMINANT
5.26E−04
3.65E−02
0.6858
0.7027
0.0985
56.85


rs1343560
Imputed
T
ADDITIVE
6.41E−02
5.75E−01
0.7895
0.8024
0.0001
89.05


rs1343560
Imputed
T
DOMINANT
6.21E−02
5.51E−01
0.775
0.7751
0.0001
89.44


rs1361987
Imputed
T
GENOTYPIC
2.87E−03
1.52E−01
0.5945
0.6201
0.0307
71.3


rs1386153
Imputed
T
ADDITIVE
0.0001163
0.0001163
0.7313
0.7313
0.4314
0


rs1386153
Imputed
T
DOMINANT
0.0001226
0.0004692
0.6655
0.6672
0.3089
14.88


rs1394015
Imputed
C
DOMINANT
4.04E−05
4.04E−05
1.7398
1.7398
0.8288
0


rs1407038
Imputed
A
RECESSIVE
1.15E−03
0.09526
1.6392
1.5778
0.0445
67.86


rs1407039
Imputed
A
RECESSIVE
1.54E−03
0.08002
1.6009
1.5561
0.0626
63.92


rs1412802
Imputed
T
GENOTYPIC
9.49E−05
9.49E−05
0.4269
0.4269
0.9393
0


rs1414865
Imputed
T
DOMINANT
6.84E−05
6.84E−05
1.5282
1.5282
0.4028
0


rs1414873
Imputed
A
DOMINANT
5.05E−05
5.05E−05
1.5365
1.5365
0.433
0


rs1414876
Imputed
C
DOMINANT
5.05E−05
5.05E−05
1.5365
1.5365
0.433
0


rs1418671
Imputed
C
RECESSIVE
8.77E−05
1.17E−02
1.79
1.752
0.1097
54.76


rs1419490
Genotyped
T
GENOTYPIC
1.69E−03
1.04E−01
0.5757
0.6036
0.051
66.41


rs1434507
Imputed
A
ADDITIVE
3.80E−04
1.15E−02
1.3574
1.3388
0.175
42.63


rs1434508
Imputed
T
ADDITIVE
4.60E−04
1.09E−02
1.3515
1.3341
0.1863
40.49


rs1435205
Imputed
A
ADDITIVE
9.12E−04
2.82E−02
1.348
1.3411
0.1188
53.05


rs1443928
Imputed
C
RECESSIVE
9.45E−04
4.30E−02
0.6717
0.6702
0.0739
61.62


rs1452235
Imputed
G
GENOTYPIC
5.06E−02
5.71E−01
0.7054
0.7381
0.0001
88.72


rs1452236
Imputed
G
GENOTYPIC
4.94E−02
5.70E−01
0.7041
0.7369
0.0001
88.77


rs1452237
Imputed
G
GENOTYPIC
5.06E−02
5.71E−01
0.7054
0.7381
0.0001
88.72


rs1452243
Genotyped
T
GENOTYPIC
5.39E−02
5.77E−01
0.7092
0.7402
0.0001
88.89


rs1463768
Genotyped
G
RECESSIVE
2.87E−05
3.63E−05
1.813
1.8163
0.3578
2.71


rs1463769
Imputed
G
RECESSIVE
2.08E−05
2.08E−05
1.8336
1.8336
0.3916
0


rs1472435
Imputed
A
ADDITIVE
4.20E−05
4.20E−05
0.5101
0.5101
0.5038
0


rs1472435
Imputed
A
DOMINANT
8.16E−05
8.16E−05
0.5146
0.5146
0.4725
0


rs1476714
Imputed
A
DOMINANT
3.69E−07
3.69E−07
0.5781
0.5781
0.9536
0


rs1495159
Imputed
G
ADDITIVE
0.009749
0.3924
0.8068
0.8189
0.0005
86.97


rs1495159
Imputed
G
GENOTYPIC
3.08E−03
1.34E−01
0.5615
0.5708
0.0278
72.1


rs1495375
Imputed
A
DOMINANT
3.20E−05
3.20E−05
0.6273
0.6273
0.709
0


rs1495376
Imputed
T
DOMINANT
2.76E−05
3.75E−04
0.5966
0.5952
0.2528
27.28


rs1495377
Imputed
G
DOMINANT
5.28E−05
0.0006669
0.6086
0.6065
0.2463
28.63


rs1495381
Imputed
T
GENOTYPIC
1.97E−05
1.97E−05
1.9868
1.9868
0.6544
0


rs1495381
Imputed
T
RECESSIVE
3.14E−06
3.14E−06
1.9704
1.9704
0.904
0


rs1498992
Imputed
G
DOMINANT
4.91E−05
4.91E−05
0.6496
0.6496
0.6335
0


rs1499001
Imputed
T
DOMINANT
9.99E−05
9.99E−05
0.6588
0.6588
0.5929
0


rs1512988
Imputed
A
DOMINANT
3.15E−05
3.15E−05
0.6309
0.6309
0.7406
0


rs1512989
Imputed
T
DOMINANT
3.15E−05
3.15E−05
0.6309
0.6309
0.7406
0


rs1512991
Imputed
T
ADDITIVE
4.36E−05
4.36E−05
0.7304
0.7304
0.9674
0


rs1512991
Imputed
T
DOMINANT
2.35E−05
2.35E−05
0.6133
0.6133
0.7725
0


rs1516855
Imputed
G
RECESSIVE
2.16E−04
3.15E−03
1.8266
1.832
0.214
35.15


rs1527450
Imputed
T
ADDITIVE
4.98E−05
0.0004174
1.3805
1.3796
0.2782
21.84


rs1527450
Imputed
T
GENOTYPIC
5.39E−05
0.0005959
1.9591
1.9507
0.2671
24.24


rs1567740
Imputed
T
DOMINANT
3.10E−05
3.10E−05
0.6303
0.6303
0.7208
0


rs1572573
Imputed
A
ADDITIVE
2.29E−04
0.04251
1.4476
1.3911
0.0856
59.31


rs1572573
Imputed
A
DOMINANT
9.40E−05
4.64E−02
1.562
1.5083
0.0429
68.24


rs1584003
Imputed
C
DOMINANT
3.34E−02
0.561
1.2949
1.2466
0.0001
89.29


rs1584005
Imputed
C
DOMINANT
4.02E−02
5.68E−01
1.2838
1.2385
0.0001
89


rs1585771
Imputed
G
ADDITIVE
1.04E−03
0.04355
1.3199
1.3042
0.0982
56.91


rs1592015
Imputed
G
DOMINANT
0.002751
0.1964
0.7042
0.7334
0.018
75.11


rs1594885
Imputed
A
ADDITIVE
0.000164
0.004814
1.3801
1.3638
0.201
37.68


rs1603232
Imputed
A
DOMINANT
6.82E−05
7.72E−05
0.6125
0.6124
0.3627
1.4


rs1614565
Imputed
C
DOMINANT
1.67E−05
2.91E−05
0.5932
0.5932
0.3482
5.22


rs1648200
Imputed
G
ADDITIVE
9.92E−05
9.92E−05
1.428
1.428
0.791
0


rs16877387
Imputed
C
GENOTYPIC
5.85E−04
2.88E−02
1.7999
1.7462
0.1152
53.73


rs16877387
Imputed
C
RECESSIVE
1.06E−04
0.00243
1.8666
1.8409
0.2165
34.65


rs16938626
Imputed
G
DOMINANT
6.97E−05
6.97E−05
0.6537
0.6537
0.5901
0


rs1694334
Imputed
G
ADDITIVE
3.41E−03
1.76E−01
0.7552
0.7708
0.0228
73.54


rs16998821
Imputed
C
DOMINANT
2.75E−03
1.96E−01
0.7042
0.7334
0.018
75.11


rs1700400
Imputed
T
ADDITIVE
2.87E−04
1.62E−02
0.7267
0.7259
0.1095
54.78


rs17007620
Imputed
G
ADDITIVE
0.0002711
0.02062
1.4055
1.3946
0.0989
56.78


rs17007620
Imputed
G
DOMINANT
0.0001384
0.003404
1.5358
1.5258
0.1998
37.9


rs17023290
Imputed
C
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs17047957
Imputed
C
DOMINANT
2.41E−05
2.41E−05
1.6313
1.6313
0.7603
0


rs1705237
Imputed
A
DOMINANT
1.23E−05
3.98E−05
0.5877
0.5877
0.326
10.78


rs1705261
Imputed
A
GENOTYPIC
2.16E−05
2.16E−05
1.9729
1.9729
0.7039
0


rs1705261
Imputed
A
RECESSIVE
3.71E−06
3.71E−06
1.9521
1.9521
0.9207
0


rs17076972
Imputed
C
ADDITIVE
0.0005241
0.01788
1.2997
1.2903
0.1408
48.99


rs17076972
Imputed
C
GENOTYPIC
0.0004395
0.02097
1.7025
1.6732
0.1233
52.23


rs17076972
Imputed
C
RECESSIVE
7.62E−04
4.50E−02
1.5342
1.5023
0.0868
59.08


rs17189710
Imputed
T
ADDITIVE
3.68E−05
3.68E−05
1.3739
1.3739
0.9395
0


rs17189710
Imputed
T
GENOTYPIC
2.19E−05
2.19E−05
2.0119
2.0119
0.9089
0


rs17196143
Imputed
A
ADDITIVE
1.68E−02
4.65E−01
1.2599
1.2043
0.0013
84.9


rs17353809
Imputed
G
ADDITIVE
7.94E−04
4.73E−02
1.3563
1.3441
0.0746
61.48


rs17368986
Imputed
A
GENOTYPIC
0.0003311
0.01194
2.721
2.5843
0.1676
44.02


rs17369097
Imputed
A
GENOTYPIC
2.42E−04
1.85E−03
2.7571
2.7036
0.2673
24.2


rs17434511
Imputed
C
GENOTYPIC
0.0003164
0.0117
2.7302
2.5932
0.1672
44.1


rs17434589
Imputed
C
GENOTYPIC
0.0002946
0.01171
2.7449
2.6054
0.1643
44.62


rs17434603
Imputed
G
GENOTYPIC
0.0003271
0.01143
2.7233
2.5889
0.1701
43.55


rs17434840
Imputed
C
GENOTYPIC
0.0002417
0.001846
2.7571
2.7036
0.2673
24.2


rs17446418
Imputed
G
DOMINANT
0.0005194
0.08804
0.6822
0.714
0.0469
67.33


rs17530747
Imputed
T
DOMINANT
0.0003577
0.0827
0.6735
0.7062
0.0438
68.03


rs17604285
Imputed
C
ADDITIVE
0.0001077
0.01983
0.5857
0.5921
0.0823
59.95


rs17604285
Imputed
C
DOMINANT
0.0001272
0.02188
0.5769
0.5823
0.0746
61.48


rs17662322
Imputed
T
DOMINANT
8.83E−05
8.83E−05
0.6424
0.6424
0.4888
0


rs17769826
Imputed
T
ADDITIVE
0.0008578
0.04731
1.3535
1.3419
0.0766
61.08


rs17821641
Imputed
T
ADDITIVE
0.0009123
0.02815
1.348
1.3411
0.1188
53.05


rs1782328
Imputed
A
ADDITIVE
0.0002285
0.0184
0.687
0.6954
0.116
53.58


rs1796337
Imputed
T
DOMINANT
5.74E−05
5.74E−05
0.6075
0.6075
0.7452
0


rs1798083
Imputed
C
DOMINANT
2.91E−05
2.91E−05
0.602
0.602
0.3963
0


rs1798085
Imputed
T
DOMINANT
1.95E−05
3.15E−05
0.5952
0.5951
0.3506
4.59


rs1798086
Imputed
T
DOMINANT
8.08E−06
1.64E−05
0.5778
0.5781
0.3453
5.95


rs1798089
Imputed
C
GENOTYPIC
9.52E−05
9.52E−05
2.0099
2.0099
0.7968
0


rs1798089
Imputed
C
RECESSIVE
1.73E−05
1.73E−05
1.9885
1.9885
0.8721
0


rs1798090
Imputed
C
GENOTYPIC
8.44E−05
8.44E−05
2.0204
2.0204
0.8325
0


rs1798090
Imputed
C
RECESSIVE
2.27E−05
2.27E−05
1.9652
1.9652
0.894
0


rs1832222
Imputed
G
DOMINANT
5.87E−05
5.87E−05
1.5311
1.5311
0.4163
0


rs1838104
Imputed
A
ADDITIVE
0.0002117
0.003729
0.7525
0.7527
0.2031
37.26


rs1838104
Imputed
A
GENOTYPIC
0.0002138
0.002807
0.5646
0.5645
0.2213
33.7


rs1868616
Imputed
G
ADDITIVE
7.48E−05
0.0004629
0.6753
0.6791
0.2929
18.56


rs1874313
Imputed
A
DOMINANT
3.30E−05
3.30E−05
0.6312
0.6312
0.6562
0


rs1884902
Imputed
C
RECESSIVE
0.001151
0.07621
1.6251
1.5839
0.0555
65.41


rs1913201
Imputed
G
ADDITIVE
1.89E−05
1.89E−05
0.7164
0.7164
0.8808
0


rs1913201
Imputed
G
DOMINANT
2.91E−05
2.91E−05
0.6172
0.6172
0.7641
0


rs1913201
Imputed
G
GENOTYPIC
7.80E−05
7.80E−05
0.5351
0.5351
0.6861
0


rs1944279
Imputed
A
ADDITIVE
0.0001257
0.005478
1.3904
1.3724
0.1829
41.13


rs198461
Imputed
C
DOMINANT
1.66E−06
1.66E−06
0.5498
0.5498
0.6534
0


rs1987179
Imputed
T
DOMINANT
7.08E−05
7.08E−05
0.641
0.641
0.5343
0


rs1990023
Imputed
T
DOMINANT
2.55E−07
2.55E−07
0.5746
0.5746
0.9225
0


rs2016194
Imputed
G
DOMINANT
4.26E−07
4.26E−07
0.5804
0.5804
0.9558
0


rs2024789
Imputed
C
ADDITIVE
0.0008551
0.04722
0.7786
0.789
0.0866
59.13


rs2024789
Imputed
C
GENOTYPIC
0.001077
0.04627
0.6104
0.625
0.0938
57.75


rs2024902
Imputed
A
ADDITIVE
0.0004002
0.02334
1.7111
1.7273
0.0887
58.72


rs2024902
Imputed
A
DOMINANT
9.43E−05
0.01112
1.8804
1.8895
0.0981
56.93


rs2025107
Imputed
A
ADDITIVE
0.0005021
0.06161
1.6166
1.6531
0.0272
72.27


rs2025107
Imputed
A
DOMINANT
0.0001126
0.05784
1.7901
1.8228
0.0156
75.95


rs2025108
Imputed
T
ADDITIVE
0.0005021
0.06161
1.6166
1.6531
0.0272
72.27


rs2025108
Imputed
T
DOMINANT
0.0001126
0.05784
1.7901
1.8228
0.0156
75.95


rs2062448
Imputed
T
ADDITIVE
0.0001197
0.0124
0.5855
0.5897
0.1132
54.1


rs2062448
Imputed
T
DOMINANT
0.0001438
0.01375
0.5765
0.5801
0.1057
55.5


rs2063591
Imputed
C
ADDITIVE
6.31E−05
6.31E−05
0.7382
0.7382
0.9476
0


rs2063591
Imputed
C
DOMINANT
1.50E−05
1.50E−05
0.6047
0.6047
0.7317
0


rs2065604
Imputed
C
DOMINANT
0.003098
0.1472
0.6558
0.6652
0.0252
72.84


rs2066238
Imputed
T
DOMINANT
0.00258
0.1967
0.7027
0.7323
0.0172
75.39


rs2068051
Imputed
G
ADDITIVE
0.0001657
0.004859
0.6917
0.7008
0.2023
37.41


rs2068051
Imputed
G
GENOTYPIC
0.0002673
0.007654
0.4817
0.4968
0.1931
39.2


rs2077702
Genotyped
G
GENOTYPIC
9.79E−05
9.79E−05
2.0248
2.0248
0.5151
0


rs208757
Imputed
G
ADDITIVE
4.49E−05
4.49E−05
1.5013
1.5013
0.8401
0


rs208757
Imputed
G
DOMINANT
9.41E−06
9.41E−06
1.6603
1.6603
0.7321
0


rs2095586
Imputed
A
DOMINANT
5.72E−05
5.72E−05
1.532
1.532
0.4194
0


rs2108426
Imputed
C
DOMINANT
4.02E−07
4.02E−07
0.5797
0.5797
0.9591
0


rs2110664
Imputed
A
DOMINANT
8.67E−05
8.67E−05
1.5394
1.5394
0.8744
0


rs2132242
Imputed
A
DOMINANT
2.72E−05
2.72E−05
0.6282
0.6282
0.7958
0


rs2151644
Imputed
T
DOMINANT
0.003131
0.1517
0.656
0.6657
0.0236
73.31


rs2157752
Genotyped
A
GENOTYPIC
0.0009168
0.05016
0.5431
0.5628
0.0902
58.44


rs2158958
Imputed
A
DOMINANT
4.20E−07
4.20E−07
0.5804
0.5804
0.9556
0


rs2158961
Imputed
G
DOMINANT
1.33E−06
1.33E−06
0.5977
0.5977
0.8737
0


rs2164099
Imputed
G
ADDITIVE
0.0001863
0.006344
1.376
1.3584
0.1883
40.11


rs2173254
Imputed
G
GENOTYPIC
0.002362
0.118
0.5447
0.533
0.0217
73.89


rs2173254
Imputed
G
RECESSIVE
0.002217
0.0789
0.5578
0.5403
0.042
68.46


rs2188079
Imputed
C
ADDITIVE
0.0001838
0.02268
1.3319
1.321
0.0862
59.19


rs2188079
Imputed
C
GENOTYPIC
0.0001122
0.0128
1.8273
1.7987
0.1109
54.53


rs2190304
Imputed
G
RECESSIVE
0.01058
0.4116
0.7116
0.7366
0.0005
86.94


rs2190597
Imputed
T
DOMINANT
9.78E−05
9.78E−05
0.6395
0.6395
0.4926
0


rs2190598
Imputed
T
DOMINANT
4.20E−07
4.20E−07
0.5804
0.5804
0.9556
0


rs2190600
Imputed
A
DOMINANT
3.37E−07
3.37E−07
0.5762
0.5762
0.9653
0


rs2218084
Imputed
T
GENOTYPIC
9.58E−05
9.58E−05
3.531
3.531
0.7772
0


rs2218084
Imputed
T
RECESSIVE
8.93E−05
8.93E−05
3.5234
3.5234
0.8908
0


rs2236290
Genotyped
C
GENOTYPIC
6.42E−05
6.42E−05
0.4993
0.4993
0.9011
0


rs2243860
Imputed
A
GENOTYPIC
7.41E−05
7.41E−05
2.0648
2.0648
0.8032
0


rs2243860
Imputed
A
RECESSIVE
8.56E−05
8.56E−05
1.9204
1.9204
0.6639
0


rs2246564
Imputed
T
DOMINANT
0.003098
0.1472
0.6558
0.6652
0.0252
72.84


rs2248236
Imputed
C
DOMINANT
7.76E−05
7.76E−05
0.6498
0.6498
0.545
0


rs2250340
Imputed
T
DOMINANT
0.003303
0.1528
0.6523
0.6609
0.0229
73.54


rs2257192
Imputed
G
DOMINANT
0.003098
0.1472
0.6558
0.6652
0.0252
72.84


rs2270584
Imputed
A
DOMINANT
4.80E−06
4.80E−06
0.605
0.605
0.7982
0


rs2270586
Imputed
A
DOMINANT
5.31E−06
5.31E−06
0.6041
0.6041
0.7347
0


rs2270589
Imputed
A
ADDITIVE
2.81E−06
2.81E−06
0.6877
0.6877
0.8813
0


rs2270589
Imputed
A
DOMINANT
2.60E−07
2.60E−07
0.5336
0.5336
0.71
0


rs2270589
Imputed
A
GENOTYPIC
1.28E−05
1.28E−05
0.4977
0.4977
0.7794
0


rs2296889
Imputed
C
DOMINANT
0.002588
0.1138
1.4232
1.4076
0.0374
69.56


rs2301346
Imputed
C
ADDITIVE
0.0002178
0.0338
1.3978
1.3772
0.0701
62.37


rs2301346
Imputed
C
DOMINANT
0.0001352
0.02587
1.5644
1.5455
0.0672
62.97


rs2327929
Imputed
G
RECESSIVE
1.06E−05
1.06E−05
1.7928
1.7928
0.4369
0


rs2357486
Imputed
C
RECESSIVE
0.00295
0.1854
1.7126
1.6148
0.024
73.18


rs2373793
Imputed
G
DOMINANT
4.57E−05
4.57E−05
1.617
1.617
0.8752
0


rs2377622
Imputed
T
GENOTYPIC
2.11E−05
2.11E−05
0.3896
0.3896
0.7037
0


rs2377622
Imputed
T
RECESSIVE
2.44E−05
2.44E−05
0.4115
0.4115
0.6397
0


rs2383903
Imputed
G
DOMINANT
3.69E−05
3.69E−05
0.645
0.645
0.6185
0


rs2389866
Imputed
C
DOMINANT
4.60E−05
4.60E−05
0.6408
0.6408
0.6066
0


rs2389869
Imputed
C
DOMINANT
4.60E−05
4.60E−05
0.6408
0.6408
0.6066
0


rs2418541
Imputed
A
DOMINANT
3.36E−07
3.36E−07
0.5781
0.5781
0.9145
0


rs2418542
Imputed
A
DOMINANT
3.36E−07
3.36E−07
0.5781
0.5781
0.9145
0


rs2418548
Imputed
C
DOMINANT
2.36E−06
2.36E−06
0.598
0.598
0.9168
0


rs2476976
Imputed
C
DOMINANT
7.42E−05
7.42E−05
1.5229
1.5229
0.5546
0


rs2483639
Imputed
A
DOMINANT
0.003098
0.1472
0.6558
0.6652
0.0252
72.84


rs2483640
Imputed
A
DOMINANT
0.003098
0.1472
0.6558
0.6652
0.0252
72.84


rs2544780
Imputed
T
RECESSIVE
7.90E−05
7.90E−05
2.0334
2.0334
0.4674
0


rs2586458
Imputed
T
DOMINANT
0.03011
0.336
0.7195
0.6895
0.0016
84.47


rs2593272
Imputed
G
ADDITIVE
0.0002545
0.004989
0.7307
0.7296
0.1874
40.27


rs2593273
Imputed
T
ADDITIVE
0.0005623
0.03
0.7408
0.7417
0.0868
59.09


rs2622499
Imputed
G
DOMINANT
9.25E−05
9.25E−05
0.6531
0.6531
0.5221
0


rs264126
Imputed
C
DOMINANT
8.31E−05
8.31E−05
0.6369
0.6369
0.4319
0


rs264129
Imputed
T
DOMINANT
1.21E−06
1.21E−06
0.5966
0.5966
0.8652
0


rs2656822
Imputed
T
ADDITIVE
0.0002545
0.004989
0.7307
0.7296
0.1874
40.27


rs2656823
Imputed
G
ADDITIVE
0.0002545
0.004989
0.7307
0.7296
0.1874
40.27


rs2656825
Imputed
T
ADDITIVE
0.0008702
0.04621
0.7415
0.7347
0.0581
64.86


rs2764766
Imputed
C
RECESSIVE
8.08E−05
8.08E−05
2.0146
2.0146
0.461
0


rs2793101
Imputed
T
ADDITIVE
0.001506
0.1134
0.6664
0.691
0.0408
68.75


rs2793101
Imputed
T
DOMINANT
0.001377
0.07663
0.6498
0.6704
0.0666
63.09


rs2795871
Imputed
A
ADDITIVE
7.48E−05
7.48E−05
0.5195
0.5195
0.5044
0


rs2795886
Imputed
A
ADDITIVE
4.74E−05
4.74E−05
0.4603
0.4603
0.6122
0


rs2795886
Imputed
A
DOMINANT
7.68E−05
7.68E−05
0.4623
0.4623
0.6008
0


rs2859994
Imputed
C
GENOTYPIC
0.001111
0.04898
1.7472
1.7054
0.0857
59.3


rs2870464
Imputed
G
DOMINANT
9.42E−05
9.42E−05
1.6183
1.6183
0.5381
0


rs2875528
Imputed
T
DOMINANT
0.00249
0.1329
1.4996
1.5256
0.0141
76.54


rs2876227
Imputed
C
ADDITIVE
2.20E−05
2.20E−05
1.3926
1.3926
0.9997
0


rs2876227
Imputed
C
GENOTYPIC
1.68E−05
1.68E−05
2.0556
2.0556
0.8801
0


rs2882097
Imputed
A
DOMINANT
5.09E−05
5.09E−05
1.5361
1.5361
0.4725
0


rs2921983
Imputed
C
ADDITIVE
0.0001118
0.003732
0.7041
0.7047
0.1767
42.31


rs2987537
Imputed
C
DOMINANT
0.03897
0.4969
0.7689
0.776
0.0002
88.03


rs2996416
Imputed
C
ADDITIVE
0.0637
0.5796
0.7893
0.8032
0.0001
89.2


rs2996416
Imputed
C
DOMINANT
0.06194
0.5554
0.775
0.7758
0.0001
89.6


rs3015527
Imputed
C
ADDITIVE
0.07495
0.6564
0.7934
0.8312
0.0001
89.8


rs3015527
Imputed
C
DOMINANT
0.07947
0.6402
0.7832
0.8084
0
90.3


rs3015530
Imputed
C
ADDITIVE
0.06224
0.577
0.7882
0.8017
0.0001
89.23


rs3015530
Imputed
C
DOMINANT
0.06057
0.5529
0.7739
0.7744
0.0001
89.62


rs3015531
Imputed
T
ADDITIVE
0.06224
0.577
0.7882
0.8017
0.0001
89.23


rs3015531
Imputed
T
DOMINANT
0.06057
0.5529
0.7739
0.7744
0.0001
89.62


rs3015535
Imputed
C
ADDITIVE
0.06224
0.577
0.7882
0.8017
0.0001
89.23


rs3015535
Imputed
C
DOMINANT
0.06057
0.5529
0.7739
0.7744
0.0001
89.62


rs3019407
Imputed
A
GENOTYPIC
0.002403
0.1245
0.5457
0.5319
0.0182
75.03


rs3019407
Imputed
A
RECESSIVE
0.001969
0.0794
0.5543
0.5343
0.0367
69.74


rs36071725
Genotyped
C
GENOTYPIC
0.0009841
0.1525
1.8209
1.6916
0.0188
74.82


rs373983
Imputed
G
DOMINANT
1.77E−06
4.87E−05
1.7251
1.7129
0.2675
24.16


rs3756154
Imputed
C
DOMINANT
5.58E−05
5.58E−05
0.638
0.638
0.5323
0


rs3793044
Imputed
C
ADDITIVE
0.0002176
0.02467
1.7666
1.7835
0.0668
63.04


rs3793044
Imputed
C
DOMINANT
6.05E−05
0.01168
1.9281
1.9369
0.0827
59.88


rs3793053
Imputed
C
ADDITIVE
0.0006473
0.05829
1.6129
1.6372
0.0373
69.61


rs3793053
Imputed
C
DOMINANT
0.0001802
0.05295
1.7738
1.7934
0.0253
72.81


rs3796246
Imputed
G
ADDITIVE
4.93E−05
0.03123
0.5626
0.5598
0.033
70.67


rs3796246
Imputed
G
DOMINANT
7.61E−05
0.03997
0.5604
0.5582
0.0279
72.06


rs3805996
Imputed
G
ADDITIVE
0.0004631
0.03555
1.7203
1.7316
0.0645
63.52


rs3805996
Imputed
G
DOMINANT
0.0001039
0.01905
1.8935
1.8966
0.069
62.59


rs3806003
Imputed
A
ADDITIVE
0.0002176
0.02467
1.7666
1.7835
0.0668
63.04


rs3806003
Imputed
A
DOMINANT
6.05E−05
0.01168
1.9281
1.9369
0.0827
59.88


rs3806004
Imputed
T
ADDITIVE
0.0004046
0.06127
1.629
1.6716
0.0232
73.43


rs3806004
Imputed
T
DOMINANT
8.69E−05
0.05774
1.806
1.8451
0.013
76.96


rs3806010
Imputed
T
ADDITIVE
0.0005021
0.06161
1.6166
1.6531
0.0272
72.27


rs3806010
Imputed
T
DOMINANT
0.0001126
0.05784
1.7901
1.8228
0.0156
75.95


rs3806014
Imputed
T
ADDITIVE
0.0003765
0.04916
1.6371
1.6672
0.0355
70.04


rs3806014
Imputed
T
DOMINANT
8.67E−05
0.04874
1.8125
1.8369
0.0201
74.42


rs3806015
Imputed
A
ADDITIVE
0.0004101
0.05336
1.6326
1.6624
0.0328
70.72


rs3806015
Imputed
A
DOMINANT
9.18E−05
0.05129
1.8094
1.8329
0.019
74.77


rs3806018
Imputed
A
ADDITIVE
0.0005021
0.06161
1.6166
1.6531
0.0272
72.27


rs3806018
Imputed
A
DOMINANT
0.0001126
0.05784
1.7901
1.8228
0.0156
75.95


rs3806019
Imputed
A
ADDITIVE
0.0003369
0.06994
1.6486
1.6857
0.017
75.46


rs3806019
Imputed
A
DOMINANT
7.78E−05
0.06342
1.8244
1.854
0.0108
77.94


rs3806024
Imputed
T
ADDITIVE
0.0005633
0.04683
1.6102
1.6476
0.0429
68.25


rs3806024
Imputed
T
DOMINANT
0.0001927
0.05215
1.7603
1.7924
0.0243
73.09


rs3847825
Imputed
G
ADDITIVE
2.82E−05
2.82E−05
0.7256
0.7256
0.8316
0


rs3847825
Imputed
G
GENOTYPIC
1.92E−05
1.92E−05
0.492
0.492
0.6711
0


rs3852001
Genotyped
C
GENOTYPIC
0.0001464
0.003339
2.8436
2.7528
0.2138
35.18


rs3852001
Genotyped
C
RECESSIVE
0.0002312
0.004125
2.7294
2.6501
0.2177
34.41


rs3852002
Imputed
G
GENOTYPIC
0.0001829
0.002345
2.8057
2.7354
0.2427
29.38


rs3852002
Imputed
G
RECESSIVE
0.0003087
0.003378
2.6791
2.6162
0.2416
29.6


rs3852003
Imputed
A
GENOTYPIC
0.0001804
0.002239
2.8085
2.7392
0.2448
28.95


rs3852003
Imputed
A
RECESSIVE
0.0003059
0.003283
2.6808
2.6185
0.243
29.31


rs3942254
Imputed
T
DOMINANT
1.57E−05
1.57E−05
0.6155
0.6155
0.9263
0


rs3945085
Imputed
A
DOMINANT
4.70E−05
4.70E−05
1.5394
1.5394
0.4131
0


rs399485
Imputed
A
DOMINANT
6.74E−05
6.74E−05
1.5257
1.5257
0.824
0


rs4029119
Imputed
G
ADDITIVE
0.009526
0.1165
0.5497
0.3516
0.0037
82.15


rs4029119
Imputed
G
DOMINANT
0.01808
0.1591
0.5432
0.3678
0.0036
82.19


rs412791
Imputed
C
GENOTYPIC
0.001957
0.1114
0.5748
0.6018
0.0485
66.96


rs4146972
Genotyped
T
DOMINANT
5.77E−05
5.77E−05
1.5876
1.5876
0.6206
0


rs4259369
Imputed
C
RECESSIVE
8.16E−05
8.16E−05
0.5849
0.5849
0.3771
0


rs4273613
Imputed
T
ADDITIVE
0.008222
0.1202
0.5498
0.3996
0.0061
80.4


rs4273613
Imputed
T
DOMINANT
0.01557
0.1677
0.5436
0.4204
0.006
80.44


rs4294022
Imputed
C
DOMINANT
0.001643
0.075
0.7108
0.7149
0.0535
65.84


rs4310554
Genotyped
C
DOMINANT
8.90E−05
8.90E−05
1.6571
1.6571
0.9259
0


rs4315598
Imputed
T
ADDITIVE
3.44E−05
3.44E−05
1.3737
1.3737
0.9473
0


rs4315598
Imputed
T
GENOTYPIC
2.26E−05
2.26E−05
2.0022
2.0022
0.9124
0


rs4370878
Imputed
G
DOMINANT
7.67E−05
7.67E−05
1.5204
1.5204
0.455
0


rs4436200
Imputed
C
ADDITIVE
9.10E−05
9.10E−05
0.6326
0.6326
0.5686
0


rs4444612
Imputed
G
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs4444612
Imputed
G
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs4450660
Imputed
C
DOMINANT
4.65E−05
4.65E−05
1.546
1.546
0.4995
0


rs4463950
Imputed
C
DOMINANT
0.0001125
0.0001125
0.6464
0.6464
0.456
0


rs4509702
Imputed
C
DOMINANT
7.67E−05
7.67E−05
1.5204
1.5204
0.455
0


rs4533379
Imputed
G
ADDITIVE
0.0001806
0.006299
1.3772
1.3597
0.1875
40.27


rs4569984
Imputed
A
DOMINANT
0.001158
0.06124
0.7017
0.7047
0.0591
64.65


rs4570530
Imputed
C
DOMINANT
6.91E−05
6.91E−05
1.5246
1.5246
0.4388
0


rs4571583
Imputed
T
DOMINANT
0.001089
0.04319
0.7015
0.7036
0.0837
59.69


rs4586678
Imputed
A
DOMINANT
7.84E−05
7.84E−05
1.5241
1.5241
0.4333
0


rs4615971
Imputed
C
DOMINANT
5.32E−05
5.32E−05
1.5364
1.5364
0.4014
0


rs4629229
Imputed
G
DOMINANT
0.00258
0.1967
0.7027
0.7323
0.0172
75.39


rs4632512
Imputed
T
GENOTYPIC
0.0002417
0.001846
2.7571
2.7036
0.2673
24.2


rs4641552
Imputed
A
ADDITIVE
6.42E−05
6.42E−05
0.5503
0.5503
0.8687
0


rs4682527
Imputed
C
DOMINANT
6.46E−05
6.46E−05
1.7014
1.7014
0.8635
0


rs4688632
Imputed
G
RECESSIVE
9.44E−05
9.44E−05
0.6102
0.6102
0.6914
0


rs4702720
Imputed
A
ADDITIVE
6.79E−05
6.79E−05
0.6668
0.6668
0.5886
0


rs4702720
Imputed
A
DOMINANT
5.81E−05
5.81E−05
0.6111
0.6111
0.6679
0


rs4714484
Imputed
A
ADDITIVE
0.0001156
0.0001156
0.6714
0.6714
0.4129
0


rs4714484
Imputed
A
DOMINANT
0.0001018
0.0005019
0.6342
0.6347
0.2947
18.15


rs4725142
Genotyped
G
RECESSIVE
0.006009
0.1578
0.6241
0.5998
0.0142
76.48


rs4725144
Imputed
G
RECESSIVE
0.003615
0.1263
0.601
0.5821
0.0196
74.58


rs4760785
Imputed
A
ADDITIVE
2.89E−05
2.89E−05
0.7236
0.7236
0.9224
0


rs4760785
Imputed
A
DOMINANT
3.37E−05
3.37E−05
0.6199
0.6199
0.7756
0


rs4760894
Imputed
T
ADDITIVE
2.89E−05
2.89E−05
0.7236
0.7236
0.9224
0


rs4760894
Imputed
T
DOMINANT
3.37E−05
3.37E−05
0.6199
0.6199
0.7756
0


rs4760895
Imputed
A
ADDITIVE
2.89E−05
2.89E−05
0.7236
0.7236
0.9224
0


rs4760895
Imputed
A
DOMINANT
3.37E−05
3.37E−05
0.6199
0.6199
0.7756
0


rs4767184
Imputed
C
ADDITIVE
5.36E−05
5.36E−05
0.7326
0.7326
0.8638
0


rs4767184
Imputed
C
GENOTYPIC
4.89E−05
4.89E−05
0.5118
0.5118
0.7734
0


rs4773487
Imputed
T
ADDITIVE
0.06464
0.5842
0.7937
0.8107
0.0001
88.81


rs4780547
Imputed
G
GENOTYPIC
5.45E−05
5.45E−05
0.3432
0.3432
0.6588
0


rs4780547
Imputed
G
RECESSIVE
5.24E−05
5.24E−05
0.3485
0.3485
0.7035
0


rs483159
Imputed
T
DOMINANT
1.80E−05
9.87E−05
1.6374
1.6337
0.3052
15.73


rs4836502
Imputed
T
DOMINANT
4.20E−07
4.20E−07
0.5804
0.5804
0.9556
0


rs4836507
Imputed
C
DOMINANT
3.81E−07
3.81E−07
0.5776
0.5776
0.9618
0


rs4851531
Imputed
T
DOMINANT
6.05E−05
6.05E−05
0.6433
0.6433
0.6076
0


rs4879931
Imputed
G
ADDITIVE
4.07E−05
4.07E−05
0.7128
0.7128
0.8034
0


rs489441
Imputed
G
ADDITIVE
5.61E−05
5.61E−05
1.4311
1.4311
0.5197
0


rs489441
Imputed
G
DOMINANT
2.23E−05
2.23E−05
1.5959
1.5959
0.6258
0


rs4976276
Imputed
T
ADDITIVE
0.001258
0.05097
1.303
1.2929
0.0811
60.2


rs4977681
Imputed
C
RECESSIVE
0.00128
0.05237
1.78
1.7408
0.0817
60.08


rs4986197
Imputed
G
ADDITIVE
0.0001721
0.0051
1.3789
1.3622
0.1995
37.96


rs4986220
Imputed
T
ADDITIVE
0.0002571
0.00494
1.3704
1.3563
0.2157
34.81


rs525462
Imputed
A
GENOTYPIC
8.63E−05
8.63E−05
0.5509
0.5509
0.4841
0


rs552006
Imputed
G
GENOTYPIC
0.001362
0.0951
1.9014
1.8396
0.056
65.31


rs5756669
Imputed
C
DOMINANT
0.0005154
0.01565
1.5032
1.4817
0.1536
46.63


rs581905
Imputed
T
DOMINANT
9.62E−05
9.62E−05
1.7493
1.7493
0.4492
0


rs6033138
Imputed
C
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs6033138
Imputed
C
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs6040619
Imputed
C
ADDITIVE
1.85E−05
1.85E−05
1.3887
1.3887
0.9157
0


rs6040619
Imputed
C
GENOTYPIC
1.34E−05
1.34E−05
2.0393
2.0393
0.8907
0


rs6040625
Imputed
T
ADDITIVE
1.40E−05
1.40E−05
1.3939
1.3939
0.9254
0


rs6040625
Imputed
T
GENOTYPIC
1.13E−05
1.13E−05
2.049
2.049
0.9295
0


rs6040630
Imputed
A
ADDITIVE
1.64E−05
1.64E−05
1.3913
1.3913
0.9442
0


rs6040630
Imputed
A
GENOTYPIC
1.40E−05
1.40E−05
2.0387
2.0387
0.936
0


rs6040633
Imputed
A
ADDITIVE
2.09E−05
2.09E−05
1.3848
1.3848
0.9611
0


rs6040633
Imputed
A
GENOTYPIC
1.80E−05
1.80E−05
2.0179
2.0179
0.921
0


rs6040634
Imputed
T
ADDITIVE
4.42E−05
4.42E−05
1.3644
1.3644
0.8661
0


rs6040634
Imputed
T
GENOTYPIC
4.35E−05
4.35E−05
1.9421
1.9421
0.8577
0


rs6040636
Imputed
T
ADDITIVE
5.80E−05
5.80E−05
1.3581
1.3581
0.8982
0


rs6040636
Imputed
T
GENOTYPIC
5.08E−05
5.08E−05
1.9311
1.9311
0.8975
0


rs6040638
Imputed
C
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs6040638
Imputed
C
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs6040644
Imputed
A
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs6040644
Imputed
A
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs6040667
Imputed
T
ADDITIVE
9.98E−06
9.98E−06
1.4087
1.4087
0.9927
0


rs6040667
Imputed
T
GENOTYPIC
9.55E−06
9.55E−06
2.0887
2.0887
0.8885
0


rs6040668
Imputed
C
ADDITIVE
1.34E−05
1.34E−05
1.4018
1.4018
0.9954
0


rs6040668
Imputed
C
GENOTYPIC
1.18E−05
1.18E−05
2.0792
2.0792
0.9007
0


rs6053005
Imputed
C
DOMINANT
3.48E−05
3.48E−05
0.4986
0.4986
0.3762
0


rs6054405
Imputed
A
RECESSIVE
0.0009988
0.07764
1.6353
1.5918
0.0508
66.45


rs6054427
Genotyped
G
GENOTYPIC
0.002955
0.1457
1.6159
1.564
0.0304
71.38


rs6075186
Imputed
G
DOMINANT
0.00258
0.1967
0.7027
0.7323
0.0172
75.39


rs608278
Imputed
A
ADDITIVE
0.004256
0.2162
0.7899
0.8041
0.0123
77.26


rs6111540
Imputed
A
ADDITIVE
0.0006805
0.04588
0.7626
0.7772
0.0894
58.58


rs6131206
Imputed
C
ADDITIVE
6.54E−05
6.54E−05
1.3826
1.3826
0.6671
0


rs6131208
Imputed
T
ADDITIVE
1.51E−05
1.51E−05
1.3987
1.3987
0.9933
0


rs6131208
Imputed
T
GENOTYPIC
1.23E−05
1.23E−05
2.0749
2.0749
0.9062
0


rs6131919
Imputed
G
DOMINANT
0.00258
0.1967
0.7027
0.7323
0.0172
75.39


rs6134243
Imputed
C
ADDITIVE
3.11E−05
3.11E−05
1.376
1.376
0.9378
0


rs6134243
Imputed
C
GENOTYPIC
2.11E−05
2.11E−05
2.0071
2.0071
0.9192
0


rs6136020
Imputed
A
DOMINANT
0.001123
0.128
0.6825
0.7095
0.029
71.76


rs613799
Imputed
C
DOMINANT
6.64E−05
6.64E−05
1.5582
1.5582
0.563
0


rs644041
Imputed
G
ADDITIVE
5.13E−05
5.13E−05
1.4383
1.4383
0.434
0


rs644041
Imputed
G
DOMINANT
3.43E−05
3.43E−05
1.5867
1.5867
0.604
0


rs6464377
Imputed
C
DOMINANT
0.0006889
0.03533
1.6713
1.6228
0.1067
55.32


rs6474230
Imputed
T
DOMINANT
5.89E−05
5.89E−05
1.5358
1.5358
0.5248
0


rs6476565
Imputed
A
DOMINANT
0.003196
0.152
0.6555
0.6646
0.0232
73.43


rs6511286
Imputed
T
ADDITIVE
0.0002903
0.007727
1.3303
1.3382
0.1549
46.38


rs6541829
Genotyped
C
RECESSIVE
9.75E−05
9.75E−05
2.1906
2.1906
0.675
0


rs6544721
Imputed
G
DOMINANT
6.03E−05
6.03E−05
1.5337
1.5337
0.3986
0


rs6544728
Imputed
T
DOMINANT
2.14E−05
2.14E−05
1.5769
1.5769
0.5608
0


rs6565910
Imputed
G
DOMINANT
0.001296
0.07989
0.7061
0.72
0.0544
65.66


rs6581985
Imputed
G
GENOTYPIC
2.27E−05
2.27E−05
2.3281
2.3281
0.8
0


rs6581985
Imputed
G
RECESSIVE
1.65E−05
1.65E−05
2.2816
2.2816
0.9608
0


rs6685186
Imputed
T
ADDITIVE
0.0003893
0.03193
1.3177
1.2933
0.1024
56.12


rs6685186
Imputed
T
GENOTYPIC
0.0003148
0.008032
1.8077
1.753
0.2038
37.13


rs670593
Imputed
A
RECESSIVE
9.20E−05
9.20E−05
0.5443
0.5443
0.5165
0


rs6722640
Imputed
T
DOMINANT
3.75E−05
3.75E−05
0.6354
0.6354
0.7462
0


rs6746170
Imputed
A
DOMINANT
1.59E−05
1.59E−05
1.5871
1.5871
0.5677
0


rs6757316
Imputed
A
GENOTYPIC
7.94E−05
7.94E−05
1.8639
1.8639
0.8329
0


rs6805139
Imputed
G
DOMINANT
6.87E−05
6.87E−05
1.6408
1.6408
0.6877
0


rs6808571
Imputed
G
ADDITIVE
0.0001557
0.005296
1.488
1.4637
0.1931
39.2


rs6816479
Imputed
A
RECESSIVE
0.003461
0.1734
1.5638
1.5108
0.0221
73.76


rs6865976
Imputed
C
DOMINANT
0.000638
0.09658
0.6509
0.6693
0.03
71.48


rs687047
Imputed
C
ADDITIVE
8.99E−05
8.99E−05
0.6274
0.6274
0.7784
0


rs6871041
Imputed
G
DOMINANT
1.95E−06
1.95E−06
0.5936
0.5936
0.8021
0


rs688358
Imputed
A
ADDITIVE
9.13E−05
9.13E−05
0.6275
0.6275
0.8668
0


rs6908481
Imputed
C
RECESSIVE
2.63E−05
2.63E−05
1.8066
1.8066
0.4929
0


rs6917224
Imputed
A
ADDITIVE
0.001611
0.08952
1.2619
1.2426
0.0537
65.81


rs6917224
Imputed
A
GENOTYPIC
0.0004783
0.01846
1.6983
1.6636
0.1376
49.58


rs6920677
Imputed
G
DOMINANT
0.0006978
0.02695
0.6902
0.689
0.1022
56.16


rs6994498
Imputed
G
DOMINANT
6.45E−05
6.45E−05
1.5326
1.5326
0.525
0


rs6998772
Imputed
T
DOMINANT
0.0001667
0.007582
2.0855
2.0402
0.1794
41.79


rs7022281
Imputed
C
ADDITIVE
3.37E−05
3.37E−05
0.7208
0.7208
0.9446
0


rs7022281
Imputed
C
GENOTYPIC
1.15E−05
1.15E−05
0.4698
0.4698
0.7053
0


rs7022281
Imputed
C
RECESSIVE
5.13E−05
5.13E−05
0.5256
0.5256
0.4654
0


rs7043983
Imputed
T
DOMINANT
0.002465
0.1237
0.6468
0.6573
0.0334
70.58


rs7077799
Imputed
A
DOMINANT
6.50E−05
6.50E−05
1.5274
1.5274
0.444
0


rs7088947
Imputed
A
ADDITIVE
6.35E−05
6.35E−05
0.5164
0.5164
0.4696
0


rs7089661
Imputed
C
DOMINANT
5.72E−05
5.72E−05
1.532
1.532
0.4194
0


rs7102072
Imputed
A
DOMINANT
0.0002045
0.02025
0.6732
0.6851
0.1048
55.66


rs710832
Genotyped
A
RECESSIVE
9.58E−05
9.58E−05
0.3757
0.3757
0.7653
0


rs712531
Imputed
A
DOMINANT
3.11E−05
3.11E−05
1.7258
1.7258
0.9033
0


rs7129817
Imputed
T
ADDITIVE
0.0004049
0.005979
0.7557
0.7602
0.2144
35.05


rs7134262
Imputed
T
GENOTYPIC
3.73E−05
3.73E−05
2.0446
2.0446
0.769
0


rs7134262
Imputed
T
RECESSIVE
1.57E−06
1.57E−06
2.1811
2.1811
0.5132
0


rs7138300
Imputed
C
ADDITIVE
2.89E−05
2.89E−05
0.7236
0.7236
0.9224
0


rs7138300
Imputed
C
DOMINANT
3.37E−05
3.37E−05
0.6199
0.6199
0.7756
0


rs722927
Imputed
G
ADDITIVE
0.0002059
0.003095
0.5581
0.5621
0.2265
32.66


rs722927
Imputed
G
DOMINANT
0.0002882
0.006064
0.554
0.5592
0.1936
39.11


rs726424
Genotyped
G
ADDITIVE
6.99E−05
6.99E−05
0.7384
0.7384
0.8568
0


rs726424
Genotyped
G
GENOTYPIC
4.04E−05
4.04E−05
0.5084
0.5084
0.769
0


rs7295817
Imputed
C
ADDITIVE
3.56E−06
3.56E−06
0.701
0.701
0.8251
0


rs7295817
Imputed
C
GENOTYPIC
2.94E−06
2.94E−06
0.4697
0.4697
0.6858
0


rs7295817
Imputed
C
RECESSIVE
3.56E−05
3.56E−05
0.5434
0.5434
0.4419
0


rs7297372
Imputed
A
ADDITIVE
2.15E−05
2.15E−05
0.7143
0.7143
0.9056
0


rs7297372
Imputed
A
GENOTYPIC
2.33E−05
2.33E−05
0.5078
0.5078
0.9111
0


rs7298255
Imputed
A
ADDITIVE
5.48E−05
5.48E−05
0.7363
0.7363
0.9823
0


rs7298255
Imputed
A
DOMINANT
3.71E−05
3.71E−05
0.6235
0.6235
0.616
0


rs7305832
Imputed
C
GENOTYPIC
3.46E−05
3.46E−05
2.0496
2.0496
0.7658
0


rs7305832
Imputed
C
RECESSIVE
1.42E−06
1.42E−06
2.1877
2.1877
0.5185
0


rs737542
Imputed
A
RECESSIVE
6.40E−05
6.40E−05
2.2711
2.2711
0.5666
0


rs742827
Imputed
A
ADDITIVE
1.36E−05
1.36E−05
1.4066
1.4066
0.9977
0


rs742827
Imputed
A
GENOTYPIC
1.47E−05
1.47E−05
2.0678
2.0678
0.9063
0


rs7446891
Imputed
G
DOMINANT
4.14E−07
4.14E−07
0.5792
0.5792
0.9644
0


rs7448641
Imputed
C
ADDITIVE
0.008373
0.1243
0.5451
0.3771
0.0037
82.12


rs7448641
Imputed
C
DOMINANT
0.0151
0.1693
0.5356
0.3959
0.0036
82.2


rs7460605
Imputed
G
DOMINANT
9.83E−05
9.83E−05
1.5669
1.5669
0.9301
0


rs7468898
Imputed
T
ADDITIVE
0.0003194
0.01248
1.3212
1.3172
0.1401
49.12


rs7468898
Imputed
T
GENOTYPIC
0.0002964
0.008259
1.7563
1.7465
0.1684
43.86


rs7501186
Imputed
A
DOMINANT
9.69E−05
9.69E−05
1.6046
1.6046
0.3847
0


rs755117
Imputed
A
DOMINANT
0.01024
0.3598
1.3434
1.288
0.0039
81.94


rs7557560
Imputed
T
GENOTYPIC
0.0001246
0.01108
2.8561
3.1286
0.074
61.59


rs7557560
Imputed
T
RECESSIVE
6.13E−05
0.00416
2.9547
3.1843
0.1154
53.69


rs7562462
Imputed
T
DOMINANT
0.01544
0.4455
1.3282
1.2791
0.0007
86.22


rs757173
Genotyped
G
DOMINANT
0.0006476
0.08534
0.6914
0.7167
0.0461
67.51


rs7607447
Imputed
T
RECESSIVE
9.84E−05
9.84E−05
2.0418
2.0418
0.8641
0


rs7639053
Imputed
A
ADDITIVE
0.00063
0.02671
1.3617
1.3527
0.1105
54.61


rs7648163
Imputed
C
RECESSIVE
0.001045
0.07747
1.7344
1.7565
0.0313
71.14


rs7651273
Imputed
A
GENOTYPIC
0.0003041
0.01221
2.7407
2.6004
0.1624
44.99


rs7653190
Imputed
C
ADDITIVE
0.0008578
0.04731
1.3535
1.3419
0.0766
61.08


rs7653685
Genotyped
C
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs7684899
Imputed
C
DOMINANT
9.54E−05
9.54E−05
0.6466
0.6466
0.5013
0


rs7701604
Imputed
G
ADDITIVE
0.008373
0.1243
0.5451
0.3771
0.0037
82.12


rs7701604
Imputed
G
DOMINANT
0.0151
0.1693
0.5356
0.3959
0.0036
82.2


rs7703676
Imputed
C
ADDITIVE
0.008373
0.1243
0.5451
0.3771
0.0037
82.12


rs7703676
Imputed
C
DOMINANT
0.0151
0.1693
0.5356
0.3959
0.0036
82.2


rs7711358
Imputed
A
DOMINANT
6.11E−07
6.11E−07
0.5846
0.5846
0.9519
0


rs7713251
Imputed
C
RECESSIVE
0.0004673
0.01381
1.817
1.8103
0.1436
48.48


rs7737608
Imputed
G
DOMINANT
0.004374
0.3589
1.3752
1.2994
0.0019
83.98


rs7755903
Imputed
A
GENOTYPIC
0.000545
0.01934
0.5737
0.5711
0.1208
52.69


rs7762993
Imputed
A
ADDITIVE
0.0001907
0.02185
1.4428
1.3966
0.1265
51.63


rs7762993
Imputed
A
DOMINANT
5.98E−05
0.0279
1.5641
1.5155
0.0621
64.02


rs7767265
Imputed
G
DOMINANT
1.02E−05
0.01409
1.6165
1.5706
0.0624
63.96


rs7769415
Imputed
C
GENOTYPIC
8.18E−05
8.18E−05
2.0029
2.0029
0.4259
0


rs7771264
Imputed
T
DOMINANT
0.001814
0.07578
0.7128
0.7164
0.055
65.53


rs7795792
Imputed
T
RECESSIVE
8.16E−05
8.16E−05
0.5849
0.5849
0.3771
0


rs7806481
Imputed
G
RECESSIVE
0.01058
0.4116
0.7116
0.7366
0.0005
86.94


rs7808536
Imputed
G
DOMINANT
8.83E−05
8.83E−05
1.5445
1.5445
0.4545
0


rs7814819
Imputed
G
ADDITIVE
1.73E−05
1.73E−05
2.1934
2.1934
0.7688
0


rs7814819
Imputed
G
DOMINANT
5.48E−06
5.48E−06
2.3941
2.3941
0.8199
0


rs7815952
Imputed
T
DOMINANT
0.0001667
0.007582
2.0855
2.0402
0.1794
41.79


rs7834090
Imputed
T
DOMINANT
0.0001667
0.007582
2.0855
2.0402
0.1794
41.79


rs7859250
Imputed
C
DOMINANT
0.002865
0.1511
0.6526
0.6624
0.0221
73.76


rs7863577
Genotyped
A
ADDITIVE
0.001489
0.09537
0.6564
0.6635
0.037
69.66


rs7863577
Genotyped
A
DOMINANT
0.0007401
0.03086
0.6143
0.6263
0.1159
53.59


rs7902140
Imputed
C
ADDITIVE
0.0004487
0.01039
0.7037
0.7112
0.1881
40.15


rs7921834
Imputed
C
DOMINANT
5.72E−05
5.72E−05
1.5321
1.5321
0.4195
0


rs7939893
Imputed
C
ADDITIVE
6.01E−05
6.01E−05
0.7308
0.7308
0.6443
0


rs7939893
Imputed
C
DOMINANT
2.83E−06
2.83E−06
0.607
0.607
0.54
0


rs7955901
Imputed
C
ADDITIVE
4.86E−05
4.86E−05
0.7344
0.7344
0.959
0


rs7955901
Imputed
C
DOMINANT
2.65E−05
2.65E−05
0.617
0.617
0.71
0


rs7956274
Imputed
T
ADDITIVE
5.90E−05
5.90E−05
0.7346
0.7346
0.9732
0


rs7956274
Imputed
T
DOMINANT
3.36E−05
3.36E−05
0.6194
0.6194
0.7678
0


rs7957932
Imputed
G
ADDITIVE
7.64E−05
7.64E−05
0.7393
0.7393
0.9682
0


rs7957932
Imputed
G
DOMINANT
1.49E−05
1.49E−05
0.604
0.604
0.7593
0


rs7984294
Imputed
A
DOMINANT
9.75E−05
9.75E−05
1.7346
1.7346
0.5063
0


rs7994286
Imputed
A
ADDITIVE
0.07908
0.6072
0.8008
0.8163
0.0001
89.29


rs7994286
Imputed
A
DOMINANT
0.08583
0.5854
0.7921
0.7921
0.0001
89.54


rs8038229
Genotyped
A
ADDITIVE
6.08E−05
9.60E−05
0.7204
0.7188
0.3455
5.89


rs8038229
Genotyped
A
DOMINANT
9.63E−05
9.63E−05
0.6627
0.6627
0.4576
0


rs8043336
Imputed
C
GENOTYPIC
0.00137
0.05581
0.5451
0.5279
0.0522
66.13


rs8043336
Imputed
C
RECESSIVE
0.001089
0.03846
0.5559
0.5432
0.0772
60.96


rs8054431
Imputed
T
DOMINANT
8.98E−05
0.00368
1.557
1.5551
0.1739
42.83


rs8066502
Imputed
T
DOMINANT
8.43E−05
8.43E−05
0.6277
0.6277
0.5424
0


rs8068714
Imputed
T
DOMINANT
8.71E−05
8.71E−05
0.6283
0.6283
0.5356
0


rs892575
Imputed
T
ADDITIVE
0.0003596
0.01472
1.3576
1.3374
0.1542
46.51


rs892583
Imputed
G
ADDITIVE
0.0002367
0.004322
1.3734
1.3595
0.2211
33.74


rs915494
Imputed
A
ADDITIVE
5.04E−05
5.04E−05
1.401
1.401
0.4759
0


rs915494
Imputed
A
DOMINANT
1.99E−05
7.05E−05
1.5873
1.5804
0.3261
10.76


rs917295
Imputed
G
DOMINANT
4.33E−07
4.33E−07
0.5808
0.5808
0.9574
0


rs922594
Imputed
T
DOMINANT
5.29E−05
5.29E−05
0.6483
0.6483
0.5564
0


rs9301653
Imputed
T
ADDITIVE
0.06224
0.577
0.7882
0.8017
0.0001
89.23


rs9301653
Imputed
T
DOMINANT
0.06057
0.5529
0.7739
0.7744
0.0001
89.62


rs9309988
Imputed
G
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs9309989
Genotyped
C
DOMINANT
0.005145
0.2346
1.4559
1.4701
0.0036
82.24


rs9310221
Imputed
A
DOMINANT
0.0004892
0.152
1.5136
1.4374
0.0126
77.16


rs9327555
Imputed
T
DOMINANT
4.20E−07
4.20E−07
0.5804
0.5804
0.9556
0


rs937890
Imputed
G
DOMINANT
6.84E−05
6.84E−05
0.6201
0.6201
0.5639
0


rs9454967
Imputed
G
ADDITIVE
0.000403
0.06626
1.6379
1.6775
0.0204
74.32


rs9454967
Imputed
G
DOMINANT
9.90E−05
0.06125
1.8091
1.8433
0.0126
77.13


rs9471295
Imputed
T
DOMINANT
5.22E−05
5.22E−05
1.6081
1.6081
0.834
0


rs9477007
Imputed
A
ADDITIVE
0.0006021
0.03371
1.2928
1.2761
0.1007
56.44


rs9477007
Imputed
A
GENOTYPIC
0.0002564
0.005808
1.7495
1.7219
0.1967
38.49


rs9487279
Imputed
T
DOMINANT
0.002105
0.09969
0.7072
0.7196
0.0492
66.8


rs949016
Imputed
C
ADDITIVE
0.0002405
0.007834
1.372
1.3542
0.1841
40.91


rs9555973
Imputed
G
ADDITIVE
0.07024
0.5911
0.7954
0.8108
0.0001
89


rs9555973
Imputed
G
DOMINANT
0.07631
0.5694
0.7863
0.7867
0.0001
89.22


rs9557510
Imputed
G
ADDITIVE
5.36E−05
5.36E−05
1.5231
1.5231
0.7181
0


rs9557510
Imputed
G
DOMINANT
4.27E−05
4.27E−05
1.6282
1.6282
0.5332
0


rs9560584
Imputed
T
DOMINANT
0.0887
0.5829
0.792
0.7896
0.0001
89.53


rs9588770
Imputed
T
DOMINANT
0.07854
0.5309
0.7885
0.772
0.0001
88.8


rs9588848
Imputed
C
ADDITIVE
0.06224
0.577
0.7882
0.8017
0.0001
89.23


rs9588848
Imputed
C
DOMINANT
0.06057
0.5529
0.7739
0.7744
0.0001
89.62


rs966583
Imputed
A
ADDITIVE
9.26E−05
9.26E−05
0.7367
0.7367
0.9674
0


rs966583
Imputed
A
DOMINANT
1.20E−05
1.20E−05
0.6161
0.6161
0.8284
0


rs974130
Genotyped
A
RECESSIVE
0.002277
0.101
1.5851
1.5579
0.0437
68.05


rs977160
Imputed
T
ADDITIVE
0.0002651
0.05569
1.3742
1.3339
0.0564
65.23


rs9812206
Imputed
G
ADDITIVE
5.56E−05
0.05202
0.5663
0.5775
0.0221
73.76


rs9812206
Imputed
G
DOMINANT
8.50E−05
0.05567
0.5652
0.5728
0.021
74.13


rs9813552
Imputed
G
ADDITIVE
9.05E−05
0.0567
0.5743
0.5799
0.0208
74.16


rs9813552
Imputed
G
DOMINANT
0.0001441
0.07188
0.5733
0.5795
0.0165
75.64


rs9815037
Imputed
T
ADDITIVE
7.92E−05
0.0586
0.5721
0.5786
0.0188
74.84


rs9815037
Imputed
T
DOMINANT
0.0001241
0.07373
0.5708
0.5779
0.0148
76.27


rs9825349
Imputed
A
ADDITIVE
7.92E−05
0.0586
0.5721
0.5786
0.0188
74.84


rs9825349
Imputed
A
DOMINANT
0.0001241
0.07373
0.5708
0.5779
0.0148
76.27


rs9834217
Imputed
T
ADDITIVE
6.37E−05
0.04695
0.5683
0.5735
0.024
73.19


rs9834217
Imputed
T
DOMINANT
9.99E−05
0.05997
0.5668
0.5725
0.0192
74.7


rs9840460
Imputed
T
ADDITIVE
6.24E−05
0.0469
0.5679
0.5732
0.0239
73.23


rs9840460
Imputed
T
DOMINANT
9.77E−05
0.05992
0.5664
0.5721
0.0191
74.75


rs9840756
Imputed
A
ADDITIVE
5.29E−05
0.04056
0.5646
0.5694
0.0275
72.18


rs9840756
Imputed
A
DOMINANT
8.32E−05
0.05269
0.563
0.5684
0.022
73.8


rs9844801
Imputed
C
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs985375
Imputed
A
GENOTYPIC
0.0005024
0.0184
2.1795
2.1225
0.1411
48.93


rs9869187
Imputed
C
ADDITIVE
0.0002129
0.05227
0.587
0.5974
0.0378
69.48


rs9869187
Imputed
C
DOMINANT
0.0005049
0.05719
0.5988
0.6038
0.0436
68.07


rs9872327
Imputed
T
DOMINANT
0.003653
0.1786
1.4802
1.4969
0.0084
79.08


rs9881685
Imputed
A
ADDITIVE
5.96E−05
0.0538
0.5653
0.5735
0.0205
74.27


rs9881685
Imputed
A
DOMINANT
8.36E−05
0.0568
0.5632
0.5683
0.0192
74.71


rs9909499
Imputed
C
DOMINANT
6.59E−05
6.59E−05
1.5349
1.5349
0.7556
0


rs9911847
Imputed
G
DOMINANT
6.59E−05
6.59E−05
0.6229
0.6229
0.5677
0


rs9946886
Imputed
G
RECESSIVE
5.84E−05
5.84E−05
0.3084
0.3084
0.8937
0


rs9958823
Imputed
A
ADDITIVE
0.0001257
0.005478
1.3904
1.3724
0.1829
41.13


rs9965248
Imputed
T
ADDITIVE
0.0006176
0.03664
1.3453
1.3168
0.1086
54.95


























TABLE 14









ALLELE










SNP rs #
SOURCE
(A1)
MODEL
NMISS
OR
SE
L95
U95
STAT
P





rs77638540
Genotyped
T
DOM
800
0.3686
0.3223
0.196
0.6931
−3.097
0.001952


rs72746987
Genotyped
A
DOM
800
0.3351
0.3134
0.1813
0.6195
−3.488
0.000487


rs10021016
Genotyped
G
GEN
800




7.997
0.01834


rs10021016
Genotyped
G
REC
800
2.242
0.2913
1.266
3.967
2.771
0.005589


rs10051148
Imputed
C
DOM
796
0.6544
0.1465
0.491
0.8722
−2.893
0.003813


rs10054055
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs10067895
Imputed
A
DOM
791
0.6716
0.1473
0.5032
0.8964
−2.703
0.006874


rs10100725
Imputed
C
DOM
800
0.5483
0.1594
0.4011
0.7494
−3.769
0.000164


rs10128531
Imputed
T
ADD
742
1.482
0.1557
1.092
2.011
2.526
0.01154


rs10181743
Imputed
G
ADD
762
1.488
0.1083
1.204
1.84
3.673
0.00024


rs10199127
Imputed
T
DOM
780
1.486
0.1462
1.116
1.98
2.712
0.006692


rs10270624
Imputed
G
DOM
750
1.438
0.1529
1.066
1.94
2.375
0.01754


rs1030006
Imputed
G
REC
797
1.663
0.1726
1.186
2.333
2.947
0.003209


rs1031811
Imputed
A
REC
792
1.684
0.2618
1.008
2.813
1.991
0.04646


rs10430870
Genotyped
G
GEN
800




8.659
0.01317


rs10430870
Genotyped
G
REC
800
2.178
0.2884
1.237
3.833
2.698
0.006973


rs10469597
Imputed
A
GEN
739




11.61
0.003011


rs10469597
Imputed
A
REC
739
2.519
0.2716
1.479
4.289
3.401
0.00067


rs10478919
Imputed
G
DOM
797
0.6489
0.1462
0.4872
0.8644
−2.957
0.003109


rs10506623
Imputed
C
ADD
777
0.7349
0.1071
0.5957
0.9066
−2.875
0.004041


rs10506623
Imputed
C
DOM
777
0.6128
0.1531
0.454
0.8273
−3.199
0.001381


rs10506626
Imputed
A
ADD
795
0.7463
0.105
0.6075
0.9169
−2.786
0.005339


rs10506626
Imputed
A
DOM
795
0.5922
0.1495
0.4418
0.7938
−3.504
0.000458


rs10509477
Imputed
T
DOM
800
1.654
0.1456
1.243
2.2
3.456
0.000547


rs10517918
Imputed
G
REC
798
1.697
0.1851
1.181
2.439
2.858
0.004265


rs10517924
Imputed
A
REC
800
1.803
0.1754
1.279
2.543
3.362
0.000773


rs10519362
Imputed
G
DOM
784
1.5
0.1539
1.109
2.028
2.634
0.00844


rs10520072
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs10737390
Imputed
T
DOM
787
0.5772
0.1513
0.4291
0.7764
−3.632
0.000281


rs10742851
Imputed
T
REC
800
0.406
0.2924
0.2289
0.7202
−3.083
0.002051


rs10743685
Imputed
G
GEN
795




12.35
0.002076


rs10743685
Imputed
G
REC
795
1.943
0.1919
1.334
2.831
3.462
0.000536


rs10749293
Imputed
G
DOM
797
1.637
0.1456
1.231
2.178
3.387
0.000706


rs10749294
Imputed
A
DOM
798
1.575
0.1455
1.184
2.095
3.123
0.00179


rs10753760
Imputed
T
ADD
745
1.391
0.1067
1.128
1.715
3.093
0.001984


rs10753760
Imputed
T
GEN
745




9.763
0.007586


rs10772362
Imputed
T
ADD
800
0.6338
0.1259
0.4952
0.8112
−3.621
0.000293


rs10784891
Imputed
C
ADD
765
0.7164
0.1084
0.5792
0.886
−3.077
0.002092


rs10784891
Imputed
C
DOM
765
0.631
0.1608
0.4604
0.8648
−2.863
0.004193


rs10784891
Imputed
C
GEN
765




9.725
0.007731


rs10787923
Imputed
G
DOM
796
1.647
0.1457
1.238
2.191
3.425
0.000616


rs10787924
Imputed
T
DOM
797
1.585
0.1456
1.191
2.109
3.163
0.001564


rs10787949
Imputed
A
DOM
800
1.634
0.1456
1.228
2.173
3.373
0.000745


rs10787951
Imputed
G
DOM
800
1.634
0.1456
1.228
2.173
3.373
0.000745


rs10787983
Imputed
C
DOM
798
1.614
0.1449
1.215
2.144
3.304
0.000953


rs10794733
Imputed
C
ADD
786
0.765
0.1126
0.6135
0.9539
−2.379
0.01734


rs10818280
Imputed
C
DOM
788
0.7042
0.1448
0.5302
0.9353
−2.422
0.01544


rs10860586
Imputed
A
ADD
796
1.322
0.1036
1.079
1.62
2.695
0.007028


rs10860586
Imputed
A
GEN
796




7.298
0.02602


rs10870473
Imputed
A
ADD
371
0.54
0.1831
0.3772
0.773
−3.366
0.000762


rs10870473
Imputed
A
DOM
371
0.4734
0.2198
0.3077
0.7283
−3.402
0.000668


rs10879240
Imputed
C
ADD
791
0.7324
0.1067
0.5942
0.9027
−2.92
0.003505


rs10879240
Imputed
C
GEN
791




8.522
0.0141


rs10879242
Imputed
A
ADD
793
0.741
0.1058
0.6022
0.9117
−2.834
0.0046


rs10879242
Imputed
A
DOM
793
0.6085
0.1511
0.4525
0.8182
−3.288
0.00101


rs10879245
Imputed
G
ADD
793
0.741
0.1058
0.6022
0.9117
−2.834
0.0046


rs10879245
Imputed
G
DOM
793
0.6085
0.1511
0.4525
0.8182
−3.288
0.00101


rs10879249
Imputed
T
ADD
795
0.7264
0.1064
0.5897
0.8947
−3.006
0.00265


rs10879249
Imputed
T
DOM
795
0.6001
0.151
0.4464
0.8068
−3.382
0.00072


rs10886429
Imputed
A
DOM
797
1.634
0.1459
1.228
2.175
3.365
0.000766


rs10886449
Imputed
G
DOM
800
1.594
0.145
1.2
2.119
3.217
0.001297


rs10886451
Imputed
G
DOM
800
1.594
0.145
1.2
2.119
3.217
0.001297


rs10886452
Imputed
A
DOM
800
1.634
0.1456
1.228
2.173
3.373
0.000745


rs10886456
Imputed
G
DOM
800
1.594
0.145
1.2
2.119
3.217
0.001297


rs10886463
Imputed
C
DOM
800
1.624
0.1458
1.221
2.162
3.327
0.000878


rs10886465
Imputed
A
DOM
800
1.664
0.1454
1.251
2.212
3.503
0.000461


rs10886526
Imputed
C
DOM
798
1.614
0.1449
1.215
2.144
3.304
0.000953


rs10922903
Imputed
C
REC
800
0.4885
0.1995
0.3304
0.7222
−3.591
0.000329


rs10941126
Imputed
G
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs10941126
Imputed
G
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs10947980
Imputed
G
ADD
798
0.7397
0.1176
0.5875
0.9314
−2.564
0.01033


rs11059376
Imputed
T
ADD
720
1.559
0.1386
1.188
2.045
3.203
0.001362


rs11072995
Imputed
T
GEN
793




9.167
0.01022


rs11072995
Imputed
T
REC
793
3.578
0.4502
1.481
8.646
2.832
0.004626


rs11081202
Genotyped
G
GEN
800




7.034
0.02969


rs11081202
Genotyped
G
REC
800
1.887
0.2769
1.097
3.248
2.294
0.0218


rs110965
Imputed
C
GEN
737




5.271
0.07169


rs11124962
Imputed
A
DOM
790
1.469
0.1461
1.103
1.956
2.63
0.008532


rs1116596
Imputed
T
DOM
794
0.6531
0.1466
0.49
0.8704
−2.907
0.003646


rs11178531
Imputed
A
ADD
796
0.7599
0.1049
0.6187
0.9334
−2.618
0.008858


rs11178531
Imputed
A
DOM
796
0.6258
0.1604
0.4569
0.857
−2.922
0.003477


rs11178583
Imputed
A
ADD
796
0.7274
0.1063
0.5906
0.896
−2.993
0.002762


rs11178583
Imputed
A
DOM
796
0.6032
0.1509
0.4488
0.8108
−3.35
0.000809


rs11178589
Imputed
T
ADD
787
0.7243
0.1059
0.5885
0.8915
−3.044
0.002334


rs11178589
Imputed
T
DOM
787
0.5988
0.1526
0.444
0.8075
−3.362
0.000775


rs11178594
Imputed
C
ADD
797
0.7305
0.1059
0.5936
0.8991
−2.964
0.003033


rs11178594
Imputed
C
DOM
797
0.5995
0.1509
0.446
0.8058
−3.391
0.000696


rs11178602
Imputed
T
ADD
795
0.7265
0.1059
0.5904
0.8941
−3.018
0.002545


rs11178602
Imputed
T
DOM
795
0.592
0.1508
0.4405
0.7956
−3.476
0.00051


rs11178648
Imputed
T
ADD
794
0.7481
0.1053
0.6086
0.9195
−2.757
0.00584


rs11178648
Imputed
T
DOM
794
0.5905
0.1497
0.4403
0.7918
−3.52
0.000432


rs11198877
Imputed
T
DOM
800
1.634
0.1456
1.228
2.173
3.373
0.000745


rs11198942
Imputed
T
DOM
800
1.654
0.1456
1.243
2.2
3.456
0.000547


rs11221075
Imputed
A
ADD
725
0.6446
0.1613
0.4698
0.8842
−2.723
0.006476


rs11242020
Imputed
T
DOM
798
0.6462
0.1462
0.4852
0.8606
−2.987
0.002819


rs11242021
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs11242022
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs11242023
Imputed
T
DOM
795
0.6676
0.1469
0.5005
0.8904
−2.75
0.00596


rs1149349
Imputed
T
DOM
798
1.696
0.1575
1.245
2.309
3.352
0.000802


rs1149350
Imputed
A
ADD
789
1.592
0.131
1.232
2.058
3.552
0.000383


rs1149350
Imputed
A
DOM
789
1.701
0.1501
1.267
2.282
3.539
0.000401


rs11576627
Imputed
T
ADD
800
1.72
0.1612
1.254
2.358
3.364
0.000769


rs11576627
Imputed
T
DOM
800
1.805
0.1683
1.298
2.51
3.508
0.000451


rs11630050
Imputed
G
GEN
778




8.696
0.01294


rs11630050
Imputed
G
REC
778
3.097
0.3961
1.425
6.731
2.854
0.004317


rs11633024
Imputed
C
GEN
778




8.696
0.01294


rs11633024
Imputed
C
REC
778
3.097
0.3961
1.425
6.731
2.854
0.004317


rs11636298
Imputed
G
GEN
800




9.499
0.008657


rs11636298
Imputed
G
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs11637363
Imputed
C
GEN
774




9.788
0.007493


rs11637363
Imputed
C
REC
774
3.309
0.3942
1.528
7.166
3.035
0.002402


rs11637813
Imputed
A
GEN
778




8.696
0.01294


rs11637813
Imputed
A
REC
778
3.097
0.3961
1.425
6.731
2.854
0.004317


rs11638043
Imputed
C
GEN
777




8.808
0.01223


rs11638043
Imputed
C
REC
777
2.984
0.3815
1.413
6.303
2.866
0.00416


rs11638115
Imputed
A
GEN
793




9.167
0.01022


rs11638115
Imputed
A
REC
793
3.578
0.4502
1.481
8.646
2.832
0.004626


rs11638444
Imputed
C
GEN
799




9.274
0.009687


rs11717157
Imputed
T
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs11717157
Imputed
T
GEN
800




9.972
0.006832


rs11724055
Imputed
A
DOM
798
0.6341
0.1569
0.4662
0.8624
−2.903
0.003694


rs11743355
Imputed
C
ADD
732
0.2056
0.4133
0.0915
0.4623
−3.827
0.00013


rs11743355
Imputed
C
DOM
732
0.2102
0.4294
0.0906
0.4878
−3.632
0.000282


rs11746806
Imputed
T
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs11746806
Imputed
T
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs11746959
Imputed
T
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs11746959
Imputed
T
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs11749272
Imputed
T
DOM
797
0.6489
0.1462
0.4872
0.8644
−2.957
0.003109


rs11839636
Imputed
C
GEN
789




12.4
0.002029


rs11839785
Imputed
C
GEN
782




12.37
0.002065


rs11853619
Imputed
C
GEN
799




9.423
0.008993


rs11853619
Imputed
C
REC
799
3.396
0.4296
1.463
7.882
2.846
0.004433


rs11856780
Imputed
A
GEN
799




9.423
0.008993


rs11856780
Imputed
A
REC
799
3.396
0.4296
1.463
7.882
2.846
0.004433


rs11901899
Imputed
A
DOM
767
1.388
0.1476
1.039
1.853
2.22
0.02644


rs11903290
Imputed
C
REC
793
1.68
0.2618
1.006
2.807
1.982
0.04748


rs11909480
Imputed
G
ADD
797
0.3557
0.3375
0.1836
0.6892
−3.063
0.00219


rs11909480
Imputed
G
DOM
797
0.3552
0.3405
0.1822
0.6924
−3.04
0.002368


rs11910289
Imputed
T
ADD
765
1.705
0.2347
1.077
2.702
2.274
0.02295


rs11910289
Imputed
T
DOM
765
1.77
0.2428
1.1
2.848
2.351
0.01871


rs11920375
Genotyped
C
GEN
800




10.36
0.005635


rs11926319
Imputed
G
DOM
799
0.5553
0.1951
0.3788
0.8139
−3.015
0.002567


rs11933744
Imputed
T
REC
799
2.427
0.2805
1.401
4.206
3.162
0.001567


rs11934919
Imputed
C
REC
799
2.427
0.2805
1.401
4.206
3.162
0.001567


rs11934957
Imputed
C
REC
799
2.427
0.2805
1.401
4.206
3.162
0.001567


rs11959206
Imputed
A
REC
795
0.528
0.177
0.3733
0.7469
−3.609
0.000307


rs12038613
Imputed
C
REC
783
0.4896
0.2003
0.3306
0.7249
−3.566
0.000363


rs12151417
Imputed
T
DOM
763
1.463
0.1495
1.091
1.961
2.545
0.01093


rs12153185
Imputed
T
DOM
792
0.6694
0.1472
0.5016
0.8933
−2.726
0.006403


rs12182651
Imputed
T
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs12235345
Imputed
C
DOM
793
2.195
0.2213
1.423
3.387
3.553
0.000382


rs12324786
Imputed
T
GEN
793




9.167
0.01022


rs12324786
Imputed
T
REC
793
3.578
0.4502
1.481
8.646
2.832
0.004626


rs12336958
Imputed
G
DOM
738
1.777
0.159
1.301
2.427
3.617
0.000298


rs12407412
Imputed
C
ADD
800
1.72
0.1612
1.254
2.358
3.364
0.000769


rs12407412
Imputed
C
DOM
800
1.805
0.1683
1.298
2.51
3.508
0.000451


rs12418971
Imputed
C
GEN
765




9.69
0.007866


rs12418971
Imputed
C
REC
765
2.279
0.2931
1.283
4.048
2.811
0.004945


rs1241967
Imputed
T
REC
798
0.3933
0.2549
0.2387
0.6482
−3.661
0.000252


rs12420184
Imputed
G
DOM
796
0.5503
0.165
0.3982
0.7604
−3.619
0.000295


rs12433968
Imputed
T
DOM
762
0.5602
0.1482
0.419
0.749
−3.91
9.23E−05


rs12445477
Imputed
A
DOM
771
0.5609
0.2128
0.3696
0.8512
−2.717
0.006591


rs12447191
Genotyped
T
ADD
800
0.6857
0.1355
0.5258
0.8943
−2.785
0.005354


rs12447191
Genotyped
T
DOM
800
0.7141
0.1537
0.5284
0.9651
−2.191
0.02846


rs12465349
Imputed
A
REC
781
1.474
0.166
1.065
2.041
2.338
0.01938


rs1247340
Imputed
C
ADD
798
1.541
0.1317
1.191
1.995
3.286
0.001016


rs1247340
Imputed
C
DOM
798
1.679
0.1496
1.252
2.251
3.461
0.000538


rs1247341
Imputed
C
ADD
797
1.534
0.1317
1.185
1.986
3.248
0.001161


rs1247341
Imputed
C
DOM
797
1.668
0.1498
1.244
2.237
3.416
0.000635


rs1247343
Imputed
C
DOM
787
1.673
0.158
1.228
2.281
3.258
0.001121


rs12509758
Imputed
C
DOM
799
1.449
0.1495
1.081
1.942
2.48
0.01313


rs12515472
Imputed
A
DOM
799
1.337
0.1509
0.9948
1.798
1.925
0.0542


rs12548906
Imputed
G
ADD
761
1.308
0.1403
0.9936
1.722
1.914
0.05563


rs12596240
Imputed
G
DOM
800
0.5814
0.1491
0.434
0.7787
−3.637
0.000275


rs12618781
Imputed
A
DOM
792
0.6189
0.1597
0.4526
0.8463
−3.005
0.002655


rs12678600
Imputed
A
DOM
800
0.6105
0.1458
0.4588
0.8125
−3.384
0.000715


rs12692229
Imputed
T
ADD
795
1.248
0.1075
1.011
1.541
2.063
0.03912


rs12713324
Imputed
T
DOM
779
1.464
0.1484
1.094
1.958
2.566
0.01029


rs12719415
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
4.86E−03


rs12820589
Imputed
G
ADD
757
1.483
0.1384
1.13
1.945
2.846
0.004422


rs12820589
Imputed
G
DOM
757
1.498
0.1543
1.107
2.028
2.621
0.008774


rs12831292
Imputed
G
ADD
788
0.73
0.1065
0.5925
0.8994
−2.955
0.003122


rs12831292
Imputed
G
DOM
788
0.5953
0.1521
0.4418
0.802
−3.411
0.000647


rs13012636
Imputed
G
REC
794
1.692
0.2617
1.013
2.827
2.01
0.04442


rs13038146
Imputed
C
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs13038146
Imputed
C
GEN
800




9.956
0.006888


rs13038146
Imputed
C
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs13089860
Imputed
A
DOM
653
0.647
0.1731
0.4609
0.9083
−2.516
0.01188


rs13102419
Imputed
T
REC
779
1.798
0.1756
1.274
2.536
3.339
0.000841


rs13194907
Imputed
A
ADD
800
1.998
0.2096
1.325
3.013
3.302
0.00096


rs13194907
Imputed
A
DOM
800
2.076
0.2229
1.341
3.213
3.276
1.05E−03


rs13195745
Imputed
A
ADD
799
1.993
0.2097
1.322
3.006
3.29
0.001001


rs13195745
Imputed
A
DOM
799
2.07
0.223
1.337
3.204
3.263
0.001101


rs13265054
Imputed
T
DOM
798
0.6161
0.146
0.4628
0.8202
−3.318
0.000908


rs13273002
Imputed
A
GEN
798




12.57
0.001864


rs13282131
Imputed
C
ADD
797
1.33
0.1054
1.081
1.635
2.702
0.006897


rs13282131
Imputed
C
GEN
797




7.883
0.01942


rs13282131
Imputed
C
REC
797
1.605
0.1832
1.121
2.299
2.583
0.009794


rs1330052
Imputed
G
GEN
800




15.12
0.00052


rs1335721
Imputed
A
REC
783
0.4896
0.2003
0.3306
0.7249
−3.566
0.000363


rs1336382
Imputed
T
DOM
795
1.652
0.146
1.241
2.2
3.438
0.000587


rs1336383
Imputed
T
DOM
800
1.654
0.1456
1.243
2.2
3.456
0.000547


rs1336407
Imputed
T
DOM
800
1.62
0.1448
1.22
2.152
3.335
0.000854


rs1336409
Imputed
T
DOM
800
1.62
0.1448
1.22
2.152
3.335
0.000854


rs1336596
Imputed
A
DOM
796
0.5452
0.1487
0.4073
0.7298
−4.078
4.54E−05


rs13387284
Imputed
A
DOM
760
0.6185
0.1611
0.451
0.8482
−2.982
0.002863


rs13401462
Imputed
C
DOM
760
1.748
0.1697
1.254
2.438
3.292
0.000996


rs13409045
Imputed
T
ADD
792
0.7208
0.1088
0.5824
0.8921
−3.01
0.002612


rs1349284
Imputed
C
GEN
800




9.296
0.009578


rs1355715
Imputed
T
ADD
800
0.4791
0.2123
0.316
0.7263
−3.467
0.000527


rs1357696
Imputed
A
GEN
782




10.92
0.004251


rs1357698
Imputed
A
GEN
781




11.09
0.003915


rs1357699
Imputed
T
GEN
781




11.09
0.003915


rs1363273
Imputed
C
REC
780
0.5424
0.1801
0.3811
0.772
−3.397
0.000682


rs1373601
Imputed
A
DOM
731
0.6665
0.1502
0.4966
0.8946
−2.702
0.006895


rs1375829
Imputed
C
GEN
800




9.296
0.009578


rs1395748
Imputed
G
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs1414865
Imputed
T
DOM
800
1.634
0.1456
1.228
2.173
3.373
0.000745


rs1414873
Imputed
A
DOM
800
1.62
0.1448
1.22
2.152
3.335
0.000854


rs1414876
Imputed
C
DOM
800
1.62
0.1448
1.22
2.152
3.335
0.000854


rs1424643
Imputed
G
ADD
778
1.348
0.1253
1.054
1.723
2.38
0.0173


rs1424643
Imputed
G
DOM
778
1.485
0.149
1.109
1.988
2.654
0.007946


rs1424648
Imputed
T
DOM
784
1.357
0.1474
1.017
1.812
2.073
0.03819


rs1429321
Imputed
A
DOM
797
1.456
0.1473
1.091
1.943
2.549
0.01079


rs1429326
Imputed
T
ADD
792
1.336
0.1238
1.048
1.702
2.338
0.01941


rs1429326
Imputed
T
DOM
792
1.48
0.1477
1.108
1.977
2.653
0.007971


rs1444741
Imputed
A
DOM
728
0.6595
0.1504
0.4911
0.8857
−2.767
0.005653


rs1449916
Imputed
C
DOM
588
0.5892
0.1909
0.4052
0.8566
−2.771
0.005596


rs1459523
Imputed
A
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs1459523
Imputed
A
GEN
800




9.972
0.006832


rs1466352
Imputed
T
GEN
797




9.958
0.00688


rs1466353
Imputed
G
GEN
796




10.02
0.006658


rs1476714
Imputed
A
DOM
797
0.6618
0.1469
0.4962
0.8826
−2.81
0.004957


rs1486723
Imputed
C
REC
800
0.4458
0.2394
0.2789
0.7127
−3.375
0.000739


rs1495375
Imputed
A
ADD
793
0.741
0.1058
0.6022
0.9117
−2.834
0.0046


rs1495375
Imputed
A
DOM
793
0.6085
0.1511
0.4525
0.8182
−3.288
0.00101


rs1495381
Imputed
T
GEN
799




8.222
0.01639


rs1495381
Imputed
T
REC
799
1.776
0.2004
1.199
2.631
2.867
0.004141


rs1498061
Imputed
C
ADD
385
0.4939
0.2066
0.3294
0.7405
−3.414
0.00064


rs1498992
Imputed
G
DOM
795
0.5981
0.1449
0.4502
0.7944
−3.549
0.000387


rs1499001
Imputed
T
DOM
763
0.5667
0.1498
0.4225
0.76
−3.793
0.000149


rs1512988
Imputed
A
ADD
795
0.7274
0.1066
0.5903
0.8964
−2.987
0.002819


rs1512988
Imputed
A
DOM
795
0.6077
0.151
0.452
0.817
−3.298
0.000973


rs1512989
Imputed
T
ADD
795
0.7274
0.1066
0.5903
0.8964
−2.987
0.002819


rs1512989
Imputed
T
DOM
795
0.6077
0.151
0.452
0.817
−3.298
0.000973


rs1512991
Imputed
T
ADD
795
0.7286
0.1054
0.5926
0.8957
−3.005
0.002655


rs1512991
Imputed
T
DOM
795
0.6184
0.1596
0.4523
0.8456
−3.011
0.002605


rs1512991
Imputed
T
GEN
795




9.858
0.007235


rs1524303
Imputed
T
GEN
793




9.356
0.009296


rs1524306
Imputed
C
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs1524306
Imputed
C
GEN
800




9.972
0.006832


rs1524310
Imputed
G
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs1524310
Imputed
G
GEN
800




9.972
0.006832


rs1524321
Imputed
C
GEN
796




10.02
0.006673


rs1527059
Imputed
A
DOM
799
0.5689
0.2041
0.3813
0.8488
−2.763
0.005727


rs152707
Imputed
A
ADD
800
0.684
0.1058
0.5559
0.8415
−3.592
0.000328


rs152707
Imputed
A
GEN
800




13.34
0.001266


rs152712
Genotyped
C
ADD
799
0.6783
0.106
0.5511
0.8349
−3.663
0.00025


rs152712
Genotyped
C
GEN
799




14.09
0.00087


rs1533994
Imputed
T
GEN
799




10.31
0.005765


rs1535866
Imputed
G
DOM
793
1.391
0.148
1.041
1.86
2.232
0.02564


rs1563773
Imputed
T
GEN
798




10.17
0.006179


rs1563774
Imputed
T
GEN
794




9.994
0.006759


rs1567740
Imputed
T
ADD
796
0.7274
0.1063
0.5906
0.896
−2.993
0.002762


rs1567740
Imputed
T
DOM
796
0.6032
0.1509
0.4488
0.8108
−3.35
0.000809


rs1572573
Imputed
A
DOM
770
1.748
0.1541
1.292
2.365
3.624
0.00029


rs1577497
Imputed
C
REC
786
0.4912
0.2002
0.3317
0.7272
−3.551
0.000384


rs1581514
Imputed
T
ADD
795
1.353
0.108
1.095
1.671
2.797
0.005152


rs1581514
Imputed
T
GEN
795




9.607
0.008202


rs1582321
Imputed
T
DOM
800
0.5814
0.1491
0.434
0.7787
−3.637
0.000275


rs1582322
Imputed
A
DOM
799
0.5859
0.1493
0.4373
0.785
−3.581
0.000342


rs1582323
Imputed
A
DOM
798
0.5825
0.1494
0.4346
0.7807
−3.617
0.000298


rs1592485
Imputed
C
DOM
799
0.5835
0.15
0.4349
0.7829
−3.592
0.000328


rs1600954
Imputed
T
ADD
759
1.379
0.106
1.12
1.697
3.029
0.002457


rs1600954
Imputed
T
GEN
759




11.97
0.002519


rs16938626
Imputed
G
DOM
797
0.612
0.1451
0.4605
0.8132
−3.385
0.000711


rs16964300
Imputed
G
ADD
800
0.6771
0.135
0.5197
0.8821
−2.889
0.003862


rs16964300
Imputed
G
DOM
800
0.7073
0.1536
0.5234
0.9558
−2.254
0.02418


rs16986282
Imputed
G
DOM
800
0.3124
0.3551
0.1558
0.6267
−3.276
0.001053


rs17007620
Imputed
G
ADD
696
1.421
0.1303
1.101
1.834
2.696
0.007027


rs17007620
Imputed
G
DOM
696
1.572
0.1588
1.152
2.146
2.85
0.004376


rs17014326
Imputed
G
DOM
794
0.5837
0.145
0.4393
0.7755
−3.713
0.000205


rs17047957
Imputed
C
DOM
785
1.47
0.1535
1.088
1.986
2.51
0.01207


rs1705261
Imputed
A
REC
798
1.775
0.1989
1.202
2.622
2.885
0.003908


rs17073341
Imputed
A
ADD
800
2.568
0.2635
1.532
4.305
3.58
0.000344


rs17073341
Imputed
A
DOM
800
2.569
0.2659
1.525
4.326
3.548
0.000388


rs17138702
Imputed
G
ADD
797
0.5527
0.1573
0.406
0.7522
−3.77
0.000163


rs17189710
Imputed
T
ADD
795
1.359
0.1063
1.103
1.673
2.882
0.003957


rs17189710
Imputed
T
GEN
795




10.06
0.006549


rs17189710
Imputed
T
REC
795
1.896
0.2108
1.254
2.866
3.034
0.002411


rs17310176
Imputed
T
ADD
800
0.6381
0.1364
0.4884
0.8336
−3.294
0.000988


rs17310176
Imputed
T
DOM
800
0.5794
0.1584
0.4248
0.7903
−3.446
0.00057


rs17358860
Imputed
A
DOM
800
0.6291
0.1568
0.4626
0.8555
−2.955
0.003129


rs17370541
Imputed
T
GEN
752




13.88
0.000967


rs17370541
Imputed
T
REC
752
2.075
0.2103
1.374
3.133
3.469
0.000522


rs17526574
Imputed
G
GEN
800




11.97
0.002516


rs17530747
Imputed
T
DOM
797
0.5794
0.1476
0.4338
0.7738
−3.698
0.000218


rs17649114
Imputed
C
DOM
800
1.543
0.1498
1.151
2.07
2.898
0.00376


rs17766172
Imputed
A
REC
770
0.3869
0.2703
0.2278
0.6573
−3.512
0.000444


rs1818885
Imputed
G
GEN
794




10.03
0.006649


rs1832222
Imputed
G
DOM
799
1.612
0.1449
1.214
2.142
3.295
0.000984


rs1861327
Imputed
G
DOM
800
0.5814
0.1491
0.434
0.7787
−3.637
0.000275


rs1868581
Imputed
G
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs1868581
Imputed
G
GEN
800




9.972
0.006832


rs1874313
Imputed
A
ADD
797
0.7419
0.1059
0.6029
0.913
−2.819
0.004818


rs1874313
Imputed
A
DOM
797
0.615
0.1508
0.4577
0.8265
−3.224
0.001263


rs1876409
Imputed
C
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs1913201
Imputed
G
ADD
771
0.7218
0.1078
0.5844
0.8916
−3.025
0.002485


rs1913201
Imputed
G
DOM
771
0.6464
0.1598
0.4726
0.8841
−2.731
0.006318


rs1913201
Imputed
G
GEN
771




9.268
0.009717


rs1916922
Imputed
T
GEN
800




9.972
0.006832


rs1936871
Genotyped
G
DOM
800
0.571
0.1536
0.4226
0.7716
−3.647
0.000265


rs1961157
Imputed
T
REC
800
0.6068
0.1891
0.4189
0.8791
−2.642
0.00825


rs1987179
Imputed
T
ADD
800
0.7138
0.1326
0.5504
0.9257
−2.542
0.01103


rs1987179
Imputed
T
DOM
800
0.6634
0.1489
0.4955
0.8883
−2.756
0.005859


rs1990023
Imputed
T
DOM
798
0.6462
0.1462
0.4852
0.8606
−2.987
0.002819


rs1995025
Imputed
C
DOM
775
1.608
0.1638
1.167
2.217
2.901
0.003714


rs2016194
Imputed
G
DOM
799
0.6626
0.1466
0.4971
0.8832
−2.807
0.004996


rs2023651
Imputed
T
ADD
797
0.682
0.1247
0.5341
0.8707
−3.07
0.002139


rs2024902
Imputed
A
ADD
800
1.998
0.2096
1.325
3.013
3.302
0.00096


rs2024902
Imputed
A
DOM
800
2.076
0.2229
1.341
3.213
3.276
0.001053


rs2025107
Imputed
A
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs2025108
Imputed
T
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs2031987
Imputed
T
GEN
795




12.3
0.002134


rs2052428
Imputed
C
DOM
784
0.5903
0.1642
0.4279
0.8144
−3.21
0.001327


rs2053230
Imputed
C
ADD
722
0.5414
0.1548
0.3998
0.7333
−3.964
7.36E−05


rs2062448
Imputed
T
DOM
788
0.5462
0.1963
0.3718
0.8024
−3.081
0.00206


rs2063420
Imputed
C
REC
780
1.755
0.1868
1.217
2.531
3.01
0.002608


rs2063591
Imputed
C
ADD
797
0.7519
0.1046
0.6125
0.9229
−2.727
0.006392


rs2063591
Imputed
C
DOM
797
0.6237
0.1609
0.4551
0.855
−2.934
0.003349


rs208026
Genotyped
A
DOM
800
1.457
0.1466
1.093
1.941
2.565
0.01032


rs208029
Imputed
T
DOM
786
1.41
0.1496
1.052
1.891
2.298
0.02157


rs208757
Imputed
G
DOM
799
1.423
0.1463
1.068
1.895
2.411
0.01592


rs2095586
Imputed
A
DOM
785
1.655
0.1465
1.242
2.205
3.438
0.000586


rs2095606
Imputed
A
DOM
786
0.5466
0.1493
0.4079
0.7324
−4.046
5.20E−05


rs2102374
Imputed
A
ADD
790
0.6269
0.1219
0.4937
0.7961
−3.831
0.000128


rs2102374
Imputed
A
DOM
790
0.5989
0.1465
0.4494
0.798
−3.501
0.000464


rs2108426
Imputed
C
DOM
799
0.6626
0.1466
0.4971
0.8832
−2.807
0.004996


rs2110664
Imputed
A
DOM
744
1.429
0.1493
1.066
1.915
2.391
0.01682


rs2132242
Imputed
A
ADD
793
0.7317
0.1056
0.5948
0.9
−2.957
0.003104


rs2132242
Imputed
A
DOM
793
0.6043
0.1522
0.4484
0.8143
−3.309
0.000936


rs2158958
Imputed
A
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs2158961
Imputed
G
DOM
796
0.6544
0.1465
0.491
0.8722
−2.893
0.003813


rs2163046
Imputed
A
DOM
775
1.474
0.149
1.101
1.973
2.603
0.009245


rs2180286
Imputed
G
DOM
798
0.6211
0.164
0.4503
0.8566
−2.903
0.003694


rs2180684
Imputed
A
DOM
800
1.684
0.1876
1.166
2.433
2.779
0.005451


rs2188079
Imputed
C
ADD
798
1.333
0.1034
1.088
1.632
2.775
0.005514


rs2188079
Imputed
C
GEN
798




10.2
0.006111


rs2190598
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs2190600
Imputed
A
DOM
791
0.6716
0.1473
0.5032
0.8964
−2.703
0.006874


rs2224184
Genotyped
T
DOM
800
0.6357
0.1621
0.4626
0.8735
−2.794
0.005199


rs2247066
Imputed
A
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs2248236
Imputed
C
ADD
728
0.6377
0.1466
0.4784
0.85
−3.068
0.002153


rs2248236
Imputed
C
DOM
728
0.6049
0.1624
0.44
0.8317
−3.095
0.00197


rs2265733
Imputed
C
ADD
790
0.6269
0.1219
0.4937
0.7961
−3.831
0.000128


rs2265733
Imputed
C
DOM
790
0.5989
0.1465
0.4494
0.798
−3.501
0.000464


rs2270584
Imputed
A
ADD
796
0.7437
0.1051
0.6052
0.9138
−2.818
0.004834


rs2270584
Imputed
A
DOM
796
0.5859
0.1496
0.437
0.7855
−3.574
0.000351


rs2270586
Imputed
A
ADD
795
0.7444
0.1051
0.6059
0.9147
−2.808
0.004978


rs2270586
Imputed
A
DOM
795
0.5879
0.1496
0.4385
0.7883
−3.55
0.000385


rs229775
Imputed
A
REC
798
0.3933
0.2549
0.2387
0.6482
−3.661
0.000252


rs229815
Imputed
T
REC
762
0.4053
0.2727
0.2375
0.6916
−3.312
0.000925


rs229829
Imputed
C
REC
797
0.5066
0.2182
0.3303
0.7769
−3.117
0.001827


rs229831
Imputed
A
REC
797
0.3945
0.2549
0.2394
0.6501
−3.65
0.000263


rs2317057
Imputed
T
ADD
623
0.7125
0.1358
0.546
0.9298
−2.496
0.01256


rs2322100
Genotyped
T
REC
800
1.768
0.28
1.021
3.061
2.035
0.04187


rs2322101
Imputed
A
REC
799
1.764
0.28
1.019
3.053
2.026
0.04276


rs2327929
Imputed
G
REC
799
1.996
0.1838
1.392
2.862
3.761
0.000169


rs2332844
Imputed
A
ADD
681
1.802
0.1484
1.347
2.41
3.969
7.22E−05


rs2332844
Imputed
A
REC
681
1.849
0.1698
1.326
2.579
3.62
0.000295


rs2349170
Imputed
G
DOM
797
1.638
0.1487
1.224
2.192
3.319
0.000903


rs2356722
Imputed
G
DOM
798
0.5863
0.1447
0.4416
0.7785
−3.691
0.000223


rs2364956
Imputed
T
ADD
772
1.439
0.1382
1.098
1.887
2.634
0.008429


rs2373793
Imputed
G
ADD
792
1.379
0.1411
1.046
1.818
2.279
0.02264


rs2373793
Imputed
G
DOM
792
1.446
0.1627
1.051
1.989
2.265
0.0235


rs238252
Imputed
G
ADD
799
1.66
0.1458
1.248
2.209
3.478
0.000505


rs238252
Imputed
G
DOM
799
1.848
0.1687
1.328
2.573
3.642
0.000271


rs2383903
Imputed
G
DOM
797
0.6249
0.1456
0.4698
0.8313
−3.229
0.001242


rs2387945
Imputed
G
DOM
792
1.587
0.1626
1.154
2.182
2.84
0.004513


rs2389863
Imputed
A
DOM
784
0.6722
0.1503
0.5007
0.9025
−2.643
0.008221


rs2389866
Imputed
C
DOM
800
0.6634
0.1489
0.4955
0.8883
−2.756
0.005859


rs2389869
Imputed
C
DOM
800
0.6634
0.1489
0.4955
0.8883
−2.756
0.005859


rs2389870
Genotyped
C
DOM
800
0.6413
0.1561
0.4723
0.8709
−2.846
0.004433


rs2418494
Imputed
G
ADD
777
0.8166
0.101
0.67
0.9953
−2.006
0.04483


rs2418494
Imputed
G
GEN
777




4.805
0.0905


rs2418541
Imputed
A
DOM
798
0.6462
0.1462
0.4852
0.8606
−2.987
0.002819


rs2418542
Imputed
A
DOM
797
0.6489
0.1462
0.4872
0.8644
−2.957
0.003109


rs2423556
Imputed
C
DOM
796
0.6175
0.1654
0.4465
0.8539
−2.915
0.003556


rs2437688
Imputed
C
ADD
799
1.457
0.1639
1.056
2.008
2.294
0.02177


rs2456809
Imputed
G
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs2456811
Imputed
T
ADD
789
0.6292
0.1219
0.4955
0.799
−3.8
0.000144


rs2456811
Imputed
T
DOM
789
0.6017
0.1465
0.4515
0.8019
−3.466
0.000527


rs2476976
Imputed
C
DOM
799
1.596
0.1449
1.201
2.12
3.225
0.001258


rs2484911
Imputed
A
DOM
797
1.56
0.1448
1.175
2.073
3.071
0.002132


rs2488557
Imputed
C
DOM
787
0.5503
0.1765
0.3894
0.7777
−3.384
0.000713


rs250162
Imputed
C
ADD
777
0.7333
0.1252
0.5738
0.9373
−2.477
0.01324


rs250162
Imputed
C
DOM
777
0.6818
0.1495
0.5086
0.9139
−2.562
0.0104


rs2560708
Imputed
T
ADD
770
0.6815
0.1471
0.5108
0.9092
−2.607
0.009133


rs2617841
Imputed
G
DOM
737
0.679
0.1512
0.5048
0.9132
−2.56
0.01045


rs2622499
Imputed
G
DOM
798
0.6691
0.149
0.4996
0.8961
−2.696
0.007022


rs264129
Imputed
T
DOM
798
0.653
0.1461
0.4904
0.8695
−2.917
0.003536


rs2642936
Imputed
T
ADD
767
1.403
0.1248
1.098
1.791
2.712
0.006694


rs2660633
Imputed
A
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs2660634
Imputed
C
DOM
800
0.6151
0.1445
0.4634
0.8164
−3.364
0.000769


rs2660648
Imputed
A
ADD
790
0.6269
0.1219
0.4937
0.7961
−3.831
0.000128


rs2660648
Imputed
A
DOM
790
0.5989
0.1465
0.4494
0.798
−3.501
0.000464


rs2681505
Imputed
T
ADD
800
0.6338
0.1259
0.4952
0.8112
−3.621
0.000293


rs277411
Imputed
G
DOM
797
0.346
0.3255
0.1828
0.6549
−3.261
0.001112


rs2832634
Imputed
G
ADD
767
1.706
0.2347
1.077
2.702
2.276
0.02282


rs2832637
Imputed
T
ADD
767
1.706
0.2347
1.077
2.702
2.276
0.02282


rs2843167
Imputed
A
DOM
789
0.5976
0.1456
0.4493
0.795
−3.536
0.000406


rs2876227
Imputed
C
ADD
780
1.336
0.1077
1.082
1.65
2.692
0.007104


rs2876227
Imputed
C
GEN
780




9.11
0.01051


rs2882097
Imputed
A
DOM
800
1.654
0.1456
1.243
2.2
3.456
0.000547


rs2909862
Imputed
G
DOM
680
1.87
0.1696
1.341
2.608
3.692
0.000223


rs3001945
Imputed
T
DOM
792
1.587
0.1626
1.154
2.182
2.84
0.004513


rs3011020
Imputed
C
DOM
791
1.591
0.1626
1.157
2.188
2.856
0.004284


rs36071725
Genotyped
C
ADD
800
1.524
0.1104
1.228
1.892
3.818
0.000134


rs36071725
Genotyped
C
GEN
800




18.94
7.72E−05


rs373983
Imputed
G
DOM
782
1.553
0.154
1.148
2.1
2.858
0.004263


rs3743794
Imputed
G
DOM
797
0.587
0.1492
0.4382
0.7864
−3.571
0.000356


rs3756154
Imputed
C
ADD
800
0.7138
0.1326
0.5504
0.9257
−2.542
0.01103


rs3756154
Imputed
C
DOM
800
0.6634
0.1489
0.4955
0.8883
−2.756
0.005859


rs3775850
Imputed
A
DOM
797
0.6253
0.1569
0.4598
0.8505
−2.992
0.002768


rs3775851
Imputed
C
DOM
798
0.6341
0.1569
0.4662
0.8624
−2.903
0.003694


rs3793044
Imputed
C
ADD
800
1.998
0.2096
1.325
3.013
3.302
0.00096


rs3793044
Imputed
C
DOM
800
2.076
0.2229
1.341
3.213
3.276
0.001053


rs3793053
Imputed
C
DOM
784
1.878
0.1992
1.271
2.775
3.163
0.001559


rs3796246
Imputed
G
DOM
797
0.5889
0.193
0.4034
0.8595
−2.744
0.006063


rs3806003
Imputed
A
ADD
800
1.998
0.2096
1.325
3.013
3.302
0.00096


rs3806003
Imputed
A
DOM
800
2.076
0.2229
1.341
3.213
3.276
0.001053


rs3806004
Imputed
T
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs3806010
Imputed
T
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs3806014
Imputed
T
DOM
796
1.865
0.1984
1.264
2.752
3.143
0.001675


rs3806015
Imputed
A
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs3806018
Imputed
A
DOM
790
1.834
0.1988
1.242
2.708
3.051
0.002279


rs3806019
Imputed
A
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs3806024
Imputed
T
DOM
784
1.878
0.1992
1.271
2.775
3.163
0.001559


rs3915080
Imputed
A
GEN
785




10.95
0.004188


rs3942254
Imputed
T
ADD
789
0.7293
0.107
0.5913
0.8995
−2.95
0.003182


rs3942254
Imputed
T
DOM
789
0.6079
0.1519
0.4513
0.8187
−3.277
0.00105


rs3945085
Imputed
A
DOM
797
1.637
0.1456
1.231
2.178
3.387
0.000706


rs3976737
Imputed
G
ADD
753
0.5945
0.1454
0.4471
0.7905
−3.577
0.000348


rs399485
Imputed
A
DOM
794
1.449
0.145
1.09
1.925
2.556
0.01057


rs4029119
Imputed
G
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs4029119
Imputed
G
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs4076201
Imputed
G
GEN
776




8.852
0.01196


rs4076201
Imputed
G
REC
776
2.978
0.3815
1.41
6.29
2.86
0.004234


rs41395945
Imputed
G
ADD
767
1.706
0.2347
1.077
2.702
2.276
0.02282


rs41395945
Imputed
G
DOM
767
1.77
0.2427
1.1
2.849
2.353
0.0186


rs4146972
Genotyped
T
DOM
800
1.441
0.1516
1.071
1.94
2.41
0.01594


rs4238087
Imputed
G
DOM
789
0.719
0.1681
0.5172
0.9995
−1.963
0.04968


rs4251569
Imputed
T
ADD
791
0.7164
0.1513
0.5325
0.9637
−2.204
0.02753


rs4251569
Imputed
T
DOM
791
0.7189
0.1681
0.5171
0.9993
−1.964
0.04952


rs4273613
Imputed
T
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs4273613
Imputed
T
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs4291049
Imputed
T
REC
798
0.5495
0.1747
0.3902
0.7739
−3.428
0.000609


rs4315598
Imputed
T
ADD
799
1.348
0.1061
1.095
1.66
2.813
0.004904


rs4315598
Imputed
T
GEN
799




9.777
0.007533


rs4315598
Imputed
T
REC
799
1.885
0.2107
1.247
2.849
3.009
0.002624


rs4321395
Imputed
A
DOM
760
0.6185
0.1611
0.451
0.8482
−2.982
0.002863


rs4321596
Genotyped
T
REC
800
2.132
0.296
1.194
3.809
2.559
0.0105


rs4324417
Imputed
T
DOM
800
1.724
0.1627
1.254
2.372
3.349
0.000812


rs4328619
Genotyped
G
DOM
800
0.6851
0.1653
0.4955
0.9472
−2.288
0.02212


rs4338909
Imputed
T
ADD
798
1.366
0.1028
1.116
1.67
3.031
0.002435


rs4370878
Imputed
G
DOM
798
1.625
0.1458
1.221
2.162
3.327
0.000877


rs4379434
Genotyped
T
DOM
800
1.624
0.1546
1.199
2.199
3.136
0.001712


rs4416407
Imputed
T
DOM
791
1.831
0.1801
1.287
2.606
3.359
0.000782


rs4417899
Imputed
C
REC
793
0.544
0.18
0.3823
0.7742
−3.382
0.000721


rs4442732
Imputed
A
ADD
658
0.6071
0.133
0.4678
0.7879
−3.752
0.000176


rs4444612
Imputed
G
ADD
795
1.36
0.1064
1.104
1.675
2.888
0.003879


rs4444612
Imputed
G
GEN
795




10.03
0.006632


rs4444612
Imputed
G
REC
795
1.891
0.2107
1.251
2.858
3.023
0.002503


rs4450660
Imputed
C
DOM
791
1.503
0.1459
1.129
2
2.791
0.005256


rs4509702
Imputed
C
DOM
798
1.625
0.1458
1.221
2.162
3.327
0.000877


rs4526920
Imputed
G
GEN
795




12.3
0.002134


rs4533145
Imputed
T
DOM
788
0.4949
0.1927
0.3392
0.7219
−3.652
0.000261


rs4557006
Imputed
A
DOM
753
0.6286
0.1619
0.4577
0.8634
−2.867
0.00414


rs4570530
Imputed
C
DOM
798
1.625
0.1458
1.221
2.162
3.327
0.000877


rs4615971
Imputed
C
DOM
798
1.614
0.1449
1.215
2.144
3.304
0.000953


rs4628119
Imputed
A
DOM
800
0.6745
0.1474
0.5052
0.9004
−2.672
0.007537


rs4664443
Imputed
G
ADD
799
0.7174
0.1085
0.5799
0.8874
−3.06
0.002211


rs4688259
Imputed
T
DOM
792
1.832
0.1801
1.287
2.608
3.363
0.000772


rs4688632
Imputed
G
REC
797
0.5583
0.1725
0.3981
0.783
−3.378
0.000731


rs4695284
Imputed
A
ADD
469
2.105
0.2029
1.414
3.133
3.667
0.000245


rs4700302
Imputed
A
ADD
725
0.5167
0.1985
0.3501
0.7624
−3.327
0.000879


rs4702720
Imputed
A
ADD
628
0.6094
0.1416
0.4617
0.8044
−3.497
0.00047


rs4702720
Imputed
A
DOM
628
0.5402
0.171
0.3863
0.7553
−3.601
0.000317


rs4711091
Genotyped
G
GEN
800




13.3
0.001292


rs4714484
Imputed
A
ADD
799
0.6694
0.1425
0.5063
0.8852
−2.816
0.004864


rs4736802
Imputed
G
DOM
794
1.64
0.1547
1.211
2.221
3.196
0.001395


rs4760785
Imputed
A
ADD
771
0.7218
0.1078
0.5844
0.8916
−3.025
0.002485


rs4760785
Imputed
A
DOM
771
0.6464
0.1598
0.4726
0.8841
−2.731
0.006318


rs4760785
Imputed
A
GEN
771




9.268
0.009717


rs4760894
Imputed
T
ADD
771
0.7218
0.1078
0.5844
0.8916
−3.025
0.002485


rs4760894
Imputed
T
DOM
771
0.6464
0.1598
0.4726
0.8841
−2.731
0.006318


rs4760894
Imputed
T
GEN
771




9.268
0.009717


rs4760895
Imputed
A
ADD
771
0.7218
0.1078
0.5844
0.8916
−3.025
0.002485


rs4760895
Imputed
A
DOM
771
0.6464
0.1598
0.4726
0.8841
−2.731
0.006318


rs4760895
Imputed
A
GEN
771




9.268
0.009717


rs4764738
Imputed
A
ADD
785
1.331
0.1042
1.085
1.633
2.742
0.0061


rs4764738
Imputed
A
GEN
785




7.557
0.02286


rs4764974
Imputed
T
ADD
796
1.322
0.1036
1.079
1.62
2.695
0.007028


rs4764974
Imputed
T
GEN
796




7.298
0.02602


rs4798366
Imputed
G
REC
780
1.597
0.2447
0.9889
2.58
1.915
0.05555


rs483159
Imputed
T
DOM
718
1.425
0.1565
1.048
1.936
2.262
0.0237


rs4836502
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs4836507
Imputed
C
DOM
791
0.6716
0.1473
0.5032
0.8964
−2.703
0.006874


rs4836744
Imputed
A
ADD
797
0.7163
0.1117
0.5755
0.8916
−2.988
0.002809


rs4836744
Imputed
A
DOM
797
0.6971
0.144
0.5257
0.9245
−2.505
0.01224


rs4848944
Genotyped
C
REC
800
0.6741
0.1744
0.4789
0.9488
−2.261
0.02373


rs4851529
Imputed
A
DOM
798
0.6968
0.1498
0.5195
0.9346
−2.411
0.0159


rs4851531
Imputed
T
DOM
785
0.7275
0.1515
0.5406
0.9789
−2.101
0.03565


rs4858046
Genotyped
T
GEN
800




9.709
0.007792


rs4878214
Imputed
A
ADD
628
0.5979
0.1405
0.454
0.7875
−3.661
0.000252


rs4880803
Imputed
A
ADD
789
0.7753
0.1121
0.6223
0.9658
−2.27
0.02319


rs489441
Imputed
G
ADD
748
1.446
0.1212
1.14
1.834
3.044
0.002335


rs489441
Imputed
G
DOM
748
1.584
0.1496
1.181
2.123
3.074
0.002112


rs4896568
Imputed
T
DOM
774
0.6713
0.1492
0.5011
0.8993
−2.672
0.007546


rs4938851
Imputed
T
DOM
800
1.543
0.1498
1.151
2.07
2.898
0.00376


rs4964416
Imputed
C
DOM
799
0.598
0.1645
0.4332
0.8256
−3.125
0.001776


rs5756669
Imputed
C
DOM
800
1.724
0.1627
1.254
2.372
3.349
0.000812


rs6033138
Imputed
C
ADD
796
1.371
0.105
1.116
1.685
3.008
0.002629


rs6033138
Imputed
C
GEN
796




10.23
0.005998


rs6033138
Imputed
C
REC
796
1.836
0.2034
1.232
2.736
2.987
0.002813


rs6040619
Imputed
C
ADD
800
1.337
0.1054
1.088
1.644
2.757
0.005839


rs6040619
Imputed
C
GEN
800




9.282
0.009648


rs6040619
Imputed
C
REC
800
1.844
0.2095
1.223
2.78
2.92
0.003504


rs6040625
Imputed
T
ADD
800
1.343
0.1053
1.093
1.651
2.802
0.005079


rs6040625
Imputed
T
GEN
800




9.403
0.009081


rs6040625
Imputed
T
REC
800
1.844
0.2095
1.223
2.78
2.92
0.003504


rs6040630
Imputed
A
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs6040630
Imputed
A
GEN
800




9.956
0.006888


rs6040630
Imputed
A
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs6040633
Imputed
A
ADD
799
1.35
0.1061
1.096
1.662
2.826
0.004712


rs6040633
Imputed
A
GEN
799




9.841
0.007297


rs6040633
Imputed
A
REC
799
1.888
0.2106
1.249
2.853
3.016
0.002559


rs6040634
Imputed
T
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs6040634
Imputed
T
GEN
800




9.956
0.006888


rs6040634
Imputed
T
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs6040636
Imputed
T
ADD
799
1.359
0.1061
1.103
1.673
2.888
0.00388


rs6040636
Imputed
T
GEN
799




10.05
0.006571


rs6040636
Imputed
T
REC
799
1.892
0.2107
1.252
2.859
3.027
0.002467


rs6040638
Imputed
C
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs6040638
Imputed
C
GEN
800




9.956
0.006888


rs6040638
Imputed
C
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs6040644
Imputed
A
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs6040644
Imputed
A
GEN
800




9.956
0.006888


rs6040644
Imputed
A
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs6040667
Imputed
T
ADD
787
1.352
0.1076
1.095
1.67
2.804
0.005046


rs6040667
Imputed
T
GEN
787




9.469
0.008785


rs6040667
Imputed
T
REC
787
1.878
0.2152
1.232
2.864
2.93
0.003389


rs6040668
Imputed
C
ADD
787
1.352
0.1076
1.095
1.67
2.804
0.005046


rs6040668
Imputed
C
GEN
787




9.469
0.008785


rs6040668
Imputed
C
REC
787
1.878
0.2152
1.232
2.864
2.93
0.003389


rs6043066
Genotyped
G
DOM
800
1.67
0.1467
1.253
2.227
3.497
0.000471


rs6048146
Imputed
G
DOM
800
2.46
0.3199
1.314
4.605
2.814
0.004893


rs6082725
Genotyped
T
DOM
800
2.46
0.3199
1.314
4.605
2.814
0.004893


rs6131206
Imputed
C
ADD
778
1.252
0.1109
1.007
1.556
2.026
0.04277


rs6131208
Imputed
T
ADD
788
1.358
0.1075
1.1
1.676
2.846
0.004434


rs6131208
Imputed
T
GEN
788




9.654
0.00801


rs6131208
Imputed
T
REC
788
1.885
0.2151
1.237
2.874
2.948
0.0032


rs6134243
Imputed
C
ADD
800
1.353
0.1061
1.099
1.666
2.854
0.004317


rs6134243
Imputed
C
GEN
800




9.956
0.006888


rs6134243
Imputed
C
REC
800
1.892
0.2107
1.252
2.859
3.026
0.002474


rs6136020
Imputed
A
DOM
799
0.5431
0.1594
0.3974
0.7422
−3.831
0.000128


rs613799
Imputed
C
DOM
686
1.64
0.1564
1.207
2.228
3.161
0.00157


rs644041
Imputed
G
ADD
736
1.415
0.1215
1.116
1.796
2.86
0.004237


rs644041
Imputed
G
DOM
736
1.556
0.1508
1.158
2.092
2.932
0.003363


rs647645
Imputed
C
ADD
796
0.6924
0.1019
0.567
0.8454
−3.608
0.000308


rs647645
Imputed
C
GEN
796




13.04
0.001476


rs647645
Imputed
C
REC
796
0.5812
0.182
0.4068
0.8303
−2.982
0.002867


rs6495554
Imputed
C
GEN
800




9.326
0.009436


rs6495554
Imputed
C
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs6495555
Imputed
C
GEN
800




9.326
0.009436


rs6495555
Imputed
C
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs6544728
Imputed
T
DOM
794
1.526
0.1458
1.147
2.032
2.901
0.003725


rs6550705
Imputed
C
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs6550705
Imputed
C
GEN
800




9.972
0.006832


rs6550707
Imputed
T
GEN
797




9.958
0.00688


rs658108
Imputed
A
DOM
798
1.56
0.1448
1.174
2.071
3.069
0.002149


rs6593441
Imputed
A
DOM
785
1.577
0.1691
1.132
2.196
2.693
0.007076


rs668732
Imputed
A
DOM
787
1.778
0.1671
1.281
2.467
3.444
0.000574


rs671041
Imputed
A
DOM
798
1.56
0.1448
1.174
2.071
3.069
0.002149


rs6719700
Imputed
A
ADD
695
1.427
0.1498
1.064
1.914
2.374
0.01759


rs6719700
Imputed
A
DOM
695
1.536
0.1676
1.106
2.133
2.559
0.01049


rs6722640
Imputed
T
DOM
797
0.682
0.1502
0.5081
0.9154
−2.548
0.01082


rs6743092
Imputed
T
ADD
789
1.36
0.1049
1.108
1.671
2.935
0.003334


rs6743092
Imputed
T
GEN
789




8.823
0.01214


rs6743092
Imputed
T
REC
789
1.57
0.1704
1.124
2.192
2.646
0.008151


rs6744759
Imputed
G
REC
794
1.692
0.2617
1.013
2.827
2.01
0.04442


rs6746170
Imputed
A
DOM
797
1.528
0.1455
1.149
2.032
2.914
0.003568


rs6759922
Imputed
A
DOM
760
0.6185
0.1611
0.451
0.8482
−2.982
0.002863


rs6769864
Imputed
T
GEN
800




9.838
0.007307


rs6773932
Imputed
C
GEN
782




10.92
0.004251


rs6774353
Imputed
A
GEN
800




9.838
0.007307


rs6781670
Imputed
C
GEN
800




9.296
0.009578


rs6786431
Imputed
A
GEN
782




10.92
0.004251


rs6789091
Imputed
T
GEN
782




10.92
0.004251


rs6791296
Imputed
T
ADD
757
0.6225
0.164
0.4514
0.8586
−2.889
0.00386


rs6792662
Imputed
G
DOM
792
1.844
0.1801
1.296
2.624
3.398
0.000678


rs6797574
Imputed
G
GEN
782




10.92
0.004251


rs6797882
Imputed
G
GEN
776




11.03
0.004027


rs6805139
Imputed
G
DOM
797
1.812
0.1727
1.292
2.542
3.442
0.000577


rs6806043
Imputed
C
ADD
800
1.366
0.1079
1.105
1.688
2.889
0.00386


rs6806043
Imputed
C
GEN
800




9.972
0.006832


rs6850716
Imputed
C
GEN
799




12.52
0.001916


rs6867153
Imputed
A
REC
795
0.528
0.177
0.3733
0.7469
−3.609
0.000307


rs687047
Imputed
C
ADD
800
0.6526
0.1561
0.4806
0.8861
−2.734
0.006248


rs6871041
Imputed
G
DOM
666
0.6
0.1598
0.4387
0.8207
−3.196
0.001391


rs688358
Imputed
A
ADD
795
0.6534
0.156
0.4812
0.8872
−2.727
0.006386


rs6888012
Imputed
A
REC
795
0.528
0.177
0.3733
0.7469
−3.609
0.000307


rs6908481
Imputed
C
REC
784
1.96
0.1947
1.338
2.871
3.458
0.000545


rs7032231
Imputed
A
ADD
789
1.212
0.1105
0.9756
1.504
1.737
0.08246


rs7067638
Imputed
T
DOM
795
1.6
0.1731
1.14
2.247
2.717
0.00659


rs7077799
Imputed
A
DOM
745
1.625
0.1513
1.208
2.185
3.208
0.001335


rs7082163
Imputed
A
ADD
800
1.58
0.1552
1.166
2.142
2.948
0.003195


rs7082163
Imputed
A
DOM
800
1.684
0.1729
1.2
2.364
3.014
0.002574


rs7089661
Imputed
C
DOM
800
1.62
0.1448
1.22
2.152
3.335
0.000854


rs7101319
Imputed
C
ADD
797
1.567
0.1554
1.156
2.125
2.891
0.003836


rs7101319
Imputed
C
DOM
797
1.667
0.1733
1.187
2.341
2.95
0.003178


rs710832
Genotyped
A
GEN
800




10.04
0.006605


rs710832
Genotyped
A
REC
800
0.3805
0.3178
0.2041
0.7092
−3.041
0.002357


rs7134262
Imputed
T
GEN
796




18.44
9.88E−05


rs7134262
Imputed
T
REC
796
2.449
0.2188
1.595
3.76
4.092
4.27E−05


rs7134671
Imputed
T
GEN
786




6.843
0.03266


rs7138300
Imputed
C
ADD
771
0.7218
0.1078
0.5844
0.8916
−3.025
0.002485


rs7138300
Imputed
C
DOM
771
0.6464
0.1598
0.4726
0.8841
−2.731
0.006318


rs7138300
Imputed
C
GEN
771




9.268
0.009717


rs7163931
Imputed
G
GEN
800




9.326
0.009436


rs7163931
Imputed
G
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs7171486
Genotyped
G
DOM
800
0.7681
0.1448
0.5783
1.02
−1.821
0.06855


rs7172611
Imputed
G
GEN
800




9.499
0.008657


rs7172611
Imputed
G
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs7172689
Imputed
T
GEN
800




9.499
0.008657


rs7172689
Imputed
T
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs7175701
Imputed
C
GEN
799




8.043
0.01793


rs7180245
Imputed
A
GEN
800




9.499
0.008657


rs7180245
Imputed
A
REC
800
3.433
0.4298
1.478
7.972
2.87
0.004111


rs7220603
Genotyped
A
ADD
800
0.7182
0.1147
0.5737
0.8992
−2.886
0.003898


rs7282518
Imputed
T
ADD
673
1.688
0.1538
1.249
2.283
3.405
0.000662


rs7283476
Imputed
T
ADD
800
0.3701
0.3146
0.1998
0.6857
−3.159
0.001582


rs7283476
Imputed
T
DOM
800
0.3345
0.3297
0.1753
0.6385
−3.321
0.000898


rs7295817
Imputed
C
GEN
795




10.28
0.005851


rs7298255
Imputed
A
ADD
800
0.7363
0.1048
0.5997
0.9041
−2.922
0.003477


rs7298255
Imputed
A
DOM
800
0.6348
0.1584
0.4654
0.8659
−2.87
0.004111


rs7305832
Imputed
C
GEN
798




18.44
9.88E−05


rs7305832
Imputed
C
REC
798
2.46
0.2188
1.602
3.777
4.113
3.91E−05


rs7331467
Imputed
A
GEN
800




15.12
0.00052


rs7392620
Imputed
C
ADD
783
0.7778
0.1122
0.6242
0.9691
−2.239
0.02513


rs742827
Imputed
A
ADD
727
1.41
0.1113
1.134
1.754
3.087
0.002021


rs742827
Imputed
A
GEN
727




10.58
0.005035


rs742827
Imputed
A
REC
727
1.914
0.2166
1.252
2.926
2.998
0.002718


rs7446891
Imputed
G
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs7448641
Imputed
C
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs7448641
Imputed
C
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs7484728
Imputed
T
GEN
788




6.971
0.03064


rs7499402
Genotyped
A
ADD
800
1.746
0.1907
1.202
2.538
2.924
0.00346


rs7529851
Imputed
A
ADD
800
0.7957
0.1062
0.6462
0.9799
−2.151
0.03144


rs7529851
Imputed
A
GEN
800




5.275
0.07153


rs7573951
Imputed
G
ADD
799
0.7174
0.1085
0.5799
0.8874
−3.06
0.002211


rs7599198
Imputed
T
DOM
717
0.6201
0.1648
0.4489
0.8565
−2.9
0.003737


rs7600050
Imputed
C
ADD
763
1.294
0.1099
1.043
1.605
2.343
0.01915


rs7607712
Imputed
T
ADD
784
1.401
0.1287
1.088
1.803
2.618
0.008843


rs7607712
Imputed
T
DOM
784
1.477
0.1494
1.102
1.979
2.609
0.009089


rs7613492
Imputed
G
GEN
792




9.987
0.006783


rs7621663
Imputed
G
ADD
749
1.413
0.113
1.132
1.763
3.057
0.002237


rs7621663
Imputed
G
GEN
749




12.37
0.002057


rs7621663
Imputed
G
REC
749
2.257
0.239
1.413
3.606
3.406
0.000658


rs7626584
Imputed
G
ADD
799
0.4778
0.2123
0.3152
0.7244
−3.478
0.000505


rs7684899
Imputed
C
ADD
800
0.7138
0.1326
0.5504
0.9257
−2.542
0.01103


rs7684899
Imputed
C
DOM
800
0.6634
0.1489
0.4955
0.8883
−2.756
0.005859


rs7701604
Imputed
G
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs7701604
Imputed
G
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs7703676
Imputed
C
ADD
800
0.2198
0.3906
0.1022
0.4726
−3.878
0.000105


rs7703676
Imputed
C
DOM
800
0.2258
0.4052
0.102
0.4995
−3.673
0.00024


rs7708491
Imputed
C
REC
797
0.5462
0.1754
0.3873
0.7703
−3.448
0.000565


rs7711358
Imputed
A
DOM
797
0.6489
0.1462
0.4872
0.8644
−2.957
0.003109


rs7719448
Imputed
G
REC
796
0.525
0.1769
0.3712
0.7425
−3.643
0.000269


rs7724761
Imputed
T
REC
795
0.528
0.177
0.3733
0.7469
−3.609
0.000307


rs7742476
Imputed
T
DOM
734
1.752
0.1551
1.293
2.374
3.615
0.0003


rs7762993
Imputed
A
ADD
797
1.568
0.1276
1.221
2.013
3.524
0.000425


rs7762993
Imputed
A
DOM
797
1.808
0.1517
1.343
2.434
3.904
9.47E−05


rs7767265
Imputed
G
ADD
794
1.626
0.1195
1.287
2.056
4.068
4.74E−05


rs7767265
Imputed
G
DOM
794
1.904
0.1484
1.424
2.547
4.34
1.43E−05


rs7768128
Imputed
G
REC
768
0.3796
0.3438
0.1935
0.7448
−2.817
0.004846


rs7771264
Imputed
T
DOM
769
0.6735
0.1496
0.5024
0.9029
−2.643
0.008215


rs7773151
Genotyped
C
DOM
800
0.6804
0.1475
0.5096
0.9086
−2.61
0.009059


rs7773210
Genotyped
A
DOM
800
0.6745
0.1474
0.5052
0.9004
−2.672
0.007537


rs7808536
Imputed
G
DOM
793
1.395
0.1494
1.041
1.87
2.231
0.02571


rs7843510
Genotyped
G
DOM
800
1.623
0.1544
1.199
2.197
3.137
0.001708


rs7894867
Imputed
T
DOM
795
1.6
0.1731
1.14
2.247
2.717
0.00659


rs7921834
Imputed
C
DOM
798
1.614
0.1449
1.215
2.144
3.304
0.000953


rs7939893
Imputed
C
ADD
792
0.7358
0.1051
0.5988
0.904
−2.92
0.003502


rs7939893
Imputed
C
DOM
792
0.6755
0.145
0.5084
0.8976
−2.705
0.006832


rs7944513
Imputed
T
GEN
790




13.06
0.001463


rs7944513
Imputed
T
REC
790
3.574
0.3533
1.788
7.143
3.605
0.000313


rs7949720
Imputed
G
ADD
756
0.57
0.1619
0.415
0.7828
−3.472
0.000516


rs7949720
Imputed
G
DOM
756
0.5191
0.1768
0.3671
0.7341
−3.708
0.000209


rs7955901
Imputed
C
ADD
786
0.7383
0.1058
0.6
0.9085
−2.867
0.004143


rs7955901
Imputed
C
DOM
786
0.6461
0.1592
0.4729
0.8826
−2.744
0.006061


rs7956274
Imputed
T
ADD
795
0.7286
0.1054
0.5926
0.8957
−3.005
0.002655


rs7956274
Imputed
T
DOM
795
0.6184
0.1596
0.4523
0.8456
−3.011
0.002605


rs7956274
Imputed
T
GEN
795




9.858
0.007235


rs7957932
Imputed
G
ADD
796
0.7518
0.1046
0.6125
0.9228
−2.729
0.006355


rs7957932
Imputed
G
DOM
796
0.6254
0.1609
0.4562
0.8572
−2.918
0.003526


rs7984504
Imputed
C
GEN
800




11.72
0.002847


rs7999518
Imputed
A
REC
738
0.6515
0.1778
0.4598
0.9232
−2.409
0.01598


rs8026245
Imputed
G
GEN
778




8.696
0.01294


rs8026245
Imputed
G
REC
778
3.097
0.3961
1.425
6.731
2.854
0.004317


rs8060725
Genotyped
A
ADD
800
0.7255
0.1166
0.5772
0.9118
−2.752
0.005931


rs8103016
Genotyped
A
ADD
800
1.537
0.1267
1.199
1.97
3.391
0.000697


rs8103016
Genotyped
A
DOM
800
1.604
0.1508
1.194
2.156
3.135
0.001718


rs8104182
Imputed
G
ADD
799
1.45
0.1279
1.129
1.863
2.906
0.00366


rs8104182
Imputed
G
DOM
799
1.504
0.1519
1.117
2.025
2.686
0.007239


rs8129461
Imputed
G
ADD
800
0.3701
0.3146
0.1998
0.6857
−3.159
0.001582


rs8129461
Imputed
G
DOM
800
0.3345
0.3297
0.1753
0.6385
−3.321
0.000898


rs8130021
Imputed
G
ADD
800
0.3701
0.3146
0.1998
0.6857
−3.159
0.001582


rs8130021
Imputed
G
DOM
800
0.3345
0.3297
0.1753
0.6385
−3.321
0.000898


rs879961
Imputed
T
ADD
791
0.6288
0.1219
0.4951
0.7985
−3.805
0.000142


rs879961
Imputed
T
DOM
791
0.6015
0.1465
0.4513
0.8016
−3.469
0.000522


rs906353
Imputed
A
DOM
795
0.622
0.1448
0.4683
0.8261
−3.279
0.001041


rs915491
Imputed
C
DOM
800
1.594
0.145
1.2
2.119
3.217
0.001297


rs915493
Imputed
T
DOM
800
1.594
0.145
1.2
2.119
3.217
0.001297


rs915494
Imputed
A
ADD
796
1.39
0.114
1.112
1.738
2.888
0.003875


rs915494
Imputed
A
DOM
796
1.637
0.146
1.229
2.179
3.375
0.000738


rs917295
Imputed
G
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs9284851
Imputed
A
GEN
794




10.63
0.004929


rs9293464
Imputed
T
REC
796
0.525
0.1769
0.3712
0.7425
−3.643
0.000269


rs9295154
Genotyped
G
DOM
800
1.438
0.161
1.049
1.972
2.255
0.02411


rs9310221
Imputed
A
DOM
747
1.847
0.1614
1.346
2.534
3.801
0.000144


rs9310699
Genotyped
T
GEN
800




9.296
0.009578


rs9310700
Imputed
C
ADD
771
1.383
0.1116
1.111
1.721
2.907
0.003644


rs9310700
Imputed
C
GEN
771




10.95
0.004186


rs9310701
Imputed
G
GEN
797




9.958
0.00688


rs9310704
Imputed
G
GEN
784




11.11
0.003861


rs9319185
Imputed
C
GEN
790




12.94
0.001552


rs9319186
Imputed
T
GEN
795




12.3
0.002134


rs9327555
Imputed
T
DOM
800
0.6617
0.1466
0.4964
0.882
−2.816
0.004859


rs9403367
Imputed
C
DOM
800
0.6745
0.1474
0.5052
0.9004
−2.672
0.007537


rs9419608
Imputed
G
REC
797
1.836
0.1694
1.317
2.559
3.586
0.000336


rs9426437
Imputed
T
DOM
760
0.5666
0.1548
0.4183
0.7675
−3.669
0.000244


rs9454967
Imputed
G
DOM
799
1.856
0.1976
1.26
2.734
3.131
0.001743


rs9635511
Imputed
T
DOM
791
0.5772
0.1505
0.4297
0.7753
−3.651
0.000262


rs966583
Imputed
A
ADD
795
0.7274
0.1066
0.5903
0.8964
−2.987
0.002819


rs966583
Imputed
A
DOM
795
0.6077
0.151
0.452
0.817
−3.298
0.000973


rs980263
Imputed
T
GEN
796




10.4
0.00552


rs980264
Imputed
T
GEN
796




10.4
0.00552


rs9812206
Imputed
G
ADD
799
0.526
0.1802
0.3695
0.7488
−3.565
0.000364


rs9812206
Imputed
G
DOM
799
0.4862
0.1936
0.3327
0.7106
−3.725
0.000196


rs9813552
Imputed
G
ADD
800
0.5703
0.1786
0.4019
0.8093
−3.145
0.001661


rs9813552
Imputed
G
DOM
800
0.5318
0.191
0.3657
0.7733
−3.306
0.000946


rs9815037
Imputed
T
ADD
799
0.5621
0.1845
0.3915
0.8069
−3.123
0.001792


rs9815037
Imputed
T
DOM
799
0.5176
0.1969
0.3519
0.7613
−3.345
0.000822


rs9819583
Imputed
T
GEN
798




9.421
0.008999


rs9825349
Imputed
A
ADD
798
0.5607
0.1845
0.3906
0.8049
−3.136
0.001712


rs9825349
Imputed
A
DOM
798
0.5163
0.1969
0.351
0.7593
−3.358
0.000784


rs9833118
Imputed
G
ADD
794
1.352
0.1082
1.094
1.672
2.791
0.005247


rs9833118
Imputed
G
GEN
794




9.638
0.008076


rs9834217
Imputed
T
ADD
799
0.5621
0.1845
0.3915
0.8069
−3.123
0.001792


rs9834217
Imputed
T
DOM
799
0.5176
0.1969
0.3519
0.7613
−3.345
0.000822


rs9838563
Imputed
C
GEN
797




9.958
0.00688


rs9840460
Imputed
T
ADD
799
0.5621
0.1845
0.3915
0.8069
−3.123
0.001792


rs9840460
Imputed
T
DOM
799
0.5176
0.1969
0.3519
0.7613
−3.345
0.000822


rs9840756
Imputed
A
ADD
799
0.5621
0.1845
0.3915
0.8069
−3.123
0.001792


rs9840756
Imputed
A
DOM
799
0.5176
0.1969
0.3519
0.7613
−3.345
0.000822


rs9847999
Imputed
C
GEN
794




10.29
0.005829


rs9864769
Imputed
C
GEN
797




9.958
0.00688


rs9866421
Genotyped
C
REC
800
0.5528
0.191
0.3802
0.8038
−3.104
0.00191


rs987296
Imputed
T
GEN
800




9.296
0.009578


rs9881685
Imputed
A
ADD
799
0.526
0.1802
0.3695
0.7488
−3.565
0.000364


rs9881685
Imputed
A
DOM
799
0.4862
0.1936
0.3327
0.7106
−3.725
0.000196


rs992695
Imputed
C
ADD
790
0.6317
0.1218
0.4976
0.8019
−3.773
0.000161


rs992695
Imputed
C
DOM
790
0.6056
0.1463
0.4546
0.8068
−3.427
0.00061


rs9936999
Imputed
G
DOM
485
1.885
0.192
1.294
2.746
3.302
0.000961










PRAVA_


PLACEBO_

PLACEBO_





PRAVA_
PLACEBO_
A1_
PRAVA_
PRAVA_
A1_
PLACEBO_
A2_



HW_
ALLELE_
ALLELE_
ALLELE_
HZ_
HET_
A2_HZ
HZ_
HET_
HZ_


SNP rs #
PVALUE
FREQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT





rs77638540
0.3047
0.0375
0.021008
0.05079
1
13
343
1
43
399


rs72746987
1
0.04
0.019608
0.056433
0
14
343
1
48
394


rs10021016
0.8563
0.26563
0.294118
0.242664
35
140
182
20
175
248


rs10021016
0.8563
0.26563
0.294118
0.242664
35
140
182
20
175
248


rs10051148
0.8139
0.34296
0.315493
0.365079
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0.0147
0.03563
0.015406
0.051919
0
11
346
4
38
401


rs7708491
1
0.48934
0.443662
0.526018
64
187
104
127
211
104


rs7711358
0.7533
0.34316
0.314607
0.366213
44
136
176
52
219
170


rs7719448
1
0.48807
0.440678
0.526018
62
188
104
127
211
104


rs7724761
1
0.48805
0.44051
0.526018
62
187
104
127
211
104


rs7742476
0.1575
0.21662
0.255319
0.185185
20
128
181
21
108
276


rs7762993
0.3626
0.19322
0.232394
0.161765
17
131
207
17
109
316


rs7762993
0.3626
0.19322
0.232394
0.161765
17
131
207
17
109
316


rs7767265
0.1075
0.22922
0.27762
0.190476
27
142
184
23
122
296


rs7767265
0.1075
0.22922
0.27762
0.190476
27
142
184
23
122
296


rs7768128
0.2237
0.23112
0.222063
0.238663
12
131
206
35
130
254


rs7771264
0.5527
0.23927
0.209677
0.26285
18
107
216
29
167
232


rs7773151
0.3706
0.23063
0.20028
0.255079
17
109
231
30
166
247


rs7773210
0.4259
0.23125
0.20028
0.256208
17
109
231
30
167
246


rs7808536
0.5044
0.19924
0.21875
0.183673
11
132
209
17
128
296


rs7843510
0.6638
0.42125
0.446779
0.400677
63
193
101
82
191
170


rs7894867
0.4039
0.12075
0.142655
0.103175
7
87
260
7
77
357


rs7921834
0.8644
0.29261
0.32493
0.26644
30
172
155
37
161
243


rs7939893
0.01403
0.33965
0.3
0.371854
38
137
180
69
187
181


rs7939893
0.01403
0.33965
0.3
0.371854
38
137
180
69
187
181


rs7944513
0.5615
0.24304
0.271307
0.22032
31
129
192
12
169
257


rs7944513
0.5615
0.24304
0.271307
0.22032
31
129
192
12
169
257


rs7949720
0.8773
0.13624
0.102985
0.162708
5
59
271
8
121
292


rs7949720
0.8773
0.13624
0.102985
0.162708
5
59
271
8
121
292


rs7955901
0.389
0.4542
0.416193
0.485023
60
173
119
96
229
109


rs7955901
0.389
0.4542
0.416193
0.485023
60
173
119
96
229
109


rs7956274
0.4324
0.46101
0.421127
0.493182
63
173
119
100
234
106


rs7956274
0.4324
0.46101
0.421127
0.493182
63
173
119
100
234
106


rs7956274
0.4324
0.46101
0.421127
0.493182
63
173
119
100
234
106


rs7957932
0.5703
0.47173
0.435211
0.501134
69
171
115
104
234
103


rs7957932
0.5703
0.47173
0.435211
0.501134
69
171
115
104
234
103


rs7984504
0.1757
0.2975
0.341737
0.261851
45
154
158
34
164
245


rs7999518
0.2381
0.48238
0.459877
0.5
65
168
91
115
184
115


rs8026245
1
0.20373
0.227666
0.184455
22
114
211
10
139
282


rs8026245
1
0.20373
0.227666
0.184455
22
114
211
10
139
282


rs8060725
0.09267
0.30125
0.266106
0.329571
18
154
185
44
204
195


rs8103016
0.5109
0.2025
0.239496
0.172686
22
127
208
14
125
304


rs8103016
0.5109
0.2025
0.239496
0.172686
22
127
208
14
125
304


rs8104182
0.4289
0.19462
0.226124
0.1693
20
121
215
14
122
307


rs8104182
0.4289
0.19462
0.226124
0.1693
20
121
215
14
122
307


rs8129461
0.3047
0.0375
0.019608
0.051919
1
12
344
1
44
398


rs8129461
0.3047
0.0375
0.019608
0.051919
1
12
344
1
44
398


rs8130021
0.3047
0.0375
0.019608
0.051919
1
12
344
1
44
398


rs8130021
0.3047
0.0375
0.019608
0.051919
1
12
344
1
44
398


rs879961
0.8526
0.2579
0.210826
0.295455
14
120
217
37
186
217


rs879961
0.8526
0.2579
0.210826
0.295455
14
120
217
37
186
217


rs906353
0.6019
0.28428
0.239496
0.320776
19
133
205
42
197
199


rs915491
0.7887
0.27188
0.302521
0.247178
25
166
166
32
155
256


rs915493
0.7887
0.27188
0.302521
0.247178
25
166
166
32
155
256


rs915494
0.932
0.2946
0.329577
0.26644
32
170
153
36
163
242


rs915494
0.932
0.2946
0.329577
0.26644
32
170
153
36
163
242


rs917295
0.8149
0.34563
0.317927
0.367946
44
139
174
53
220
170


rs9284851
0.7057
0.3772
0.415014
0.346939
65
163
125
45
216
180


rs9293464
1
0.48807
0.440678
0.526018
62
188
104
127
211
104


rs9295154
0.5656
0.14375
0.165266
0.126411
8
102
247
6
100
337


rs9310221
0.2965
0.42838
0.465774
0.39781
66
181
89
78
171
162


rs9310699
0.7594
0.36125
0.397759
0.331828
60
164
133
42
210
191


rs9310700
0.4286
0.35019
0.390671
0.317757
54
160
129
35
202
191


rs9310700
0.4286
0.35019
0.390671
0.317757
54
160
129
35
202
191


rs9310701
0.821
0.37641
0.412676
0.347285
65
163
127
46
215
181


rs9310704
0.6466
0.37181
0.410511
0.340278
63
163
126
42
210
180


rs9319185
0.3434
0.29177
0.338028
0.254023
43
154
158
30
161
244


rs9319186
0.2253
0.28616
0.331461
0.249431
42
152
162
30
159
250


rs9327555
0.8149
0.34563
0.317927
0.367946
44
139
174
53
220
170


rs9403367
0.4259
0.23125
0.20028
0.256208
17
109
231
30
167
246


rs9419608
0.9435
0.48996
0.533708
0.454649
108
164
84
84
233
124


rs9426437
0.5994
0.40921
0.3739
0.437947
59
137
145
72
223
124


rs9454967
0.8332
0.09199
0.115169
0.073363
4
74
278
3
59
381


rs9635511
0.7663
0.39444
0.351275
0.429224
50
148
155
75
226
137


rs966583
1
0.39371
0.355932
0.424036
49
154
151
74
226
141


rs966583
1
0.39371
0.355932
0.424036
49
154
151
74
226
141


rs980263
0.7627
0.37563
0.412676
0.345805
65
163
127
45
215
181


rs980264
0.7627
0.37563
0.412676
0.345805
65
163
127
45
215
181


rs9812206
0.4346
0.10075
0.070028
0.125566
3
44
310
7
97
338


rs9812206
0.4346
0.10075
0.070028
0.125566
3
44
310
7
97
338


rs9813552
0.6984
0.10125
0.07423
0.123025
3
47
307
6
97
340


rs9813552
0.6984
0.10125
0.07423
0.123025
3
47
307
6
97
340


rs9815037
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9815037
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9819583
0.7593
0.36153
0.398876
0.331448
60
164
132
42
209
191


rs9825349
0.6792
0.09461
0.06882
0.115385
3
43
310
5
92
345


rs9825349
0.6792
0.09461
0.06882
0.115385
3
43
310
5
92
345


rs9833118
0.4927
0.3665
0.404494
0.335616
60
168
128
42
210
186


rs9833118
0.4927
0.3665
0.404494
0.335616
60
168
128
42
210
186


rs9834217
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9834217
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9838563
0.821
0.37641
0.412676
0.347285
65
163
127
46
215
181


rs9840460
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9840460
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9840756
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9840756
0.6789
0.09449
0.06882
0.115124
3
43
310
5
92
346


rs9847999
0.7623
0.37657
0.412429
0.347727
65
162
127
45
216
179


rs9864769
0.821
0.37641
0.412676
0.347285
65
163
127
46
215
181


rs9866421
0.6672
0.44063
0.411765
0.463883
50
194
113
102
207
134


rs987296
0.7594
0.36125
0.397759
0.331828
60
164
133
42
210
191


rs9881685
0.4346
0.10075
0.070028
0.125566
3
44
310
7
97
338


rs9881685
0.4346
0.10075
0.070028
0.125566
3
44
310
7
97
338


rs992695
0.7811
0.25949
0.212857
0.296591
14
121
215
37
187
216


rs992695
0.7811
0.25949
0.212857
0.296591
14
121
215
37
187
216


rs9936999
0.4247
0.35052
0.389952
0.320652
22
119
68
33
111
132


























TABLE 15









ALLELE










SNP rs #
SOURCE
(A1)
MODEL
NMISS
OR
SE
L95
U95
STAT
P





rs77638540
Genotyped
T
DOM
431
0.6846
0.4051
0.3095
1.515
−0.935
0.3497


rs72746987
Genotyped
A
DOM
431
0.3415
0.4723
0.1353
0.8617
−2.275
0.02291


rs10021016
Genotyped
G
GEN
431




4.358
0.1131


rs10021016
Genotyped
G
REC
431
2.151
0.4014
0.9794
4.724
1.908
0.05637


rs10051148
Imputed
C
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs10054055
Imputed
T
DOM
431
0.7019
0.1964
0.4777
1.031
−1.803
0.0714


rs10067895
Imputed
A
DOM
423
0.6884
0.1986
0.4665
1.016
−1.88
0.0601


rs10100725
Imputed
C
DOM
431
0.6909
0.2229
0.4464
1.069
−1.659
0.09719


rs10128531
Imputed
T
ADD
422
1.446
0.1929
0.9906
2.11
1.911
0.05601


rs10181743
Imputed
G
ADD
419
1.259
0.1434
0.9504
1.668
1.605
0.1084


rs10199127
Imputed
T
DOM
426
1.892
0.1994
1.28
2.797
3.197
0.00139


rs10270624
Imputed
G
DOM
426
1.873
0.2081
1.245
2.816
3.014
0.00258


rs1030006
Imputed
G
REC
431
1.973
0.2532
1.201
3.24
2.684
0.00728


rs1031811
Imputed
A
REC
425
1.901
0.3376
0.9811
3.684
1.903
0.057


rs10430870
Genotyped
G
GEN
431




1.662
0.4357


rs10430870
Genotyped
G
REC
431
1.672
0.4618
0.6765
4.134
1.114
0.2654


rs10469597
Imputed
A
GEN
397




5.33
0.06962


rs10469597
Imputed
A
REC
397
2.363
0.3863
1.108
5.039
2.226
0.02598


rs10478919
Imputed
G
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs10506623
Imputed
C
ADD
431
0.6851
0.1503
0.5103
0.9198
−2.516
0.01187


rs10506623
Imputed
C
DOM
431
0.6216
0.2072
0.4141
0.9329
−2.295
0.02171


rs10506626
Imputed
A
ADD
430
0.644
0.1506
0.4794
0.8651
−2.922
0.00348


rs10506626
Imputed
A
DOM
430
0.5681
0.2056
0.3796
0.85
−2.75
0.00596


rs10509477
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs10517918
Imputed
G
REC
424
2.104
0.2569
1.272
3.481
2.896
0.00378


rs10517924
Imputed
A
REC
430
1.646
0.2374
1.033
2.621
2.098
0.03593


rs10519362
Imputed
G
DOM
431
1.479
0.2285
0.9448
2.314
1.711
0.087


rs10520072
Imputed
T
DOM
429
0.6749
0.197
0.4587
0.993
−1.996
0.04596


rs10737390
Imputed
T
DOM
426
0.6833
0.203
0.459
1.017
−1.876
0.06061


rs10742851
Imputed
T
REC
431
0.2879
0.5067
0.1066
0.7773
−2.457
0.014


rs10743685
Imputed
G
GEN
431




4.792
0.0911


rs10743685
Imputed
G
REC
431
1.602
0.2855
0.9156
2.803
1.651
0.09875


rs10749293
Imputed
G
DOM
431
1.52
0.1971
1.033
2.237
2.125
0.03357


rs10749294
Imputed
A
DOM
431
1.505
0.1973
1.022
2.216
2.073
0.03821


rs10753760
Imputed
T
ADD
406
1.468
0.1459
1.103
1.954
2.632
0.00849


rs10753760
Imputed
T
GEN
406




6.957
0.03085


rs10772362
Imputed
T
ADD
431
0.6724
0.1684
0.4834
0.9355
−2.356
0.01848


rs10784891
Imputed
C
ADD
429
0.7576
0.1448
0.5705
1.006
−1.918
0.05515


rs10784891
Imputed
C
DOM
429
0.5886
0.2107
0.3895
0.8896
−2.516
0.01189


rs10784891
Imputed
C
GEN
429




6.516
0.03846


rs10787923
Imputed
G
DOM
430
1.509
0.1972
1.025
2.221
2.086
0.03699


rs10787924
Imputed
T
DOM
431
1.505
0.1973
1.022
2.216
2.073
0.03821


rs10787949
Imputed
A
DOM
430
1.433
0.1969
0.9742
2.108
1.827
0.06765


rs10787951
Imputed
G
DOM
430
1.433
0.1969
0.9742
2.108
1.827
0.06765


rs10787983
Imputed
C
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs10794733
Imputed
C
ADD
421
0.7588
0.1519
0.5634
1.022
−1.818
0.06914


rs10818280
Imputed
C
DOM
426
0.6701
0.1985
0.4541
0.9889
−2.016
0.04375


rs10860586
Imputed
A
ADD
430
1.512
0.1414
1.146
1.995
2.923
0.00347


rs10860586
Imputed
A
GEN
430




8.948
0.0114


rs10870473
Imputed
A
ADD
182
0.6204
0.2357
0.3909
0.9846
−2.026
0.04278


rs10870473
Imputed
A
DOM
182
0.4859
0.3065
0.2665
0.886
−2.355
0.01853


rs10879240
Imputed
C
ADD
430
0.7653
0.1438
0.5773
1.014
−1.86
0.06286


rs10879240
Imputed
C
GEN
430




6.525
0.03829


rs10879242
Imputed
A
ADD
431
0.6996
0.1493
0.5222
0.9374
−2.393
0.0167


rs10879242
Imputed
A
DOM
431
0.6354
0.2073
0.4232
0.9539
−2.188
0.02869


rs10879245
Imputed
G
ADD
431
0.6996
0.1493
0.5222
0.9374
−2.393
0.0167


rs10879245
Imputed
G
DOM
431
0.6354
0.2073
0.4232
0.9539
−2.188
0.02869


rs10879249
Imputed
T
ADD
430
0.6776
0.1506
0.5044
0.9103
−2.584
0.00976


rs10879249
Imputed
T
DOM
430
0.6103
0.2074
0.4065
0.9164
−2.381
0.01726


rs10886429
Imputed
A
DOM
429
1.47
0.1974
0.9985
2.165
1.952
0.05092


rs10886449
Imputed
G
DOM
430
1.441
0.1971
0.9794
2.121
1.854
0.06367


rs10886451
Imputed
G
DOM
430
1.441
0.1971
0.9794
2.121
1.854
0.06367


rs10886452
Imputed
A
DOM
430
1.433
0.1969
0.9742
2.108
1.827
0.06765


rs10886456
Imputed
G
DOM
430
1.441
0.1971
0.9794
2.121
1.854
0.06367


rs10886463
Imputed
C
DOM
431
1.444
0.1968
0.9818
2.123
1.867
0.06193


rs10886465
Imputed
A
DOM
431
1.444
0.1968
0.9818
2.123
1.867
0.06193


rs10886526
Imputed
C
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs10922903
Imputed
C
REC
430
0.6266
0.2724
0.3674
1.069
−1.716
0.08622


rs10941126
Imputed
G
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs10941126
Imputed
G
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs10947980
Imputed
G
ADD
431
0.6089
0.157
0.4476
0.8282
−3.161
0.00157


rs11059376
Imputed
T
ADD
412
1.592
0.1898
1.097
2.309
2.45
0.01428


rs11072995
Imputed
T
GEN
430




5.185
0.07483


rs11072995
Imputed
T
REC
430
2.796
0.4515
1.154
6.774
2.277
0.0228


rs11081202
Genotyped
G
GEN
431




6.987
0.0304


rs11081202
Genotyped
G
REC
431
2.426
0.3357
1.256
4.684
2.64
0.00829


rs110965
Imputed
C
GEN
413




4.153
0.1254


rs11124962
Imputed
A
DOM
431
1.812
0.2023
1.219
2.693
2.937
0.00331


rs1116596
Imputed
T
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs11178531
Imputed
A
ADD
431
0.7781
0.1437
0.5871
1.031
−1.746
0.0808


rs11178531
Imputed
A
DOM
431
0.6138
0.212
0.4051
0.93
−2.303
0.0213


rs11178583
Imputed
A
ADD
430
0.6776
0.1506
0.5044
0.9103
−2.584
0.00976


rs11178583
Imputed
A
DOM
430
0.6103
0.2074
0.4065
0.9164
−2.381
0.01726


rs11178589
Imputed
T
ADD
431
0.6759
0.1506
0.5031
0.908
−2.601
0.0093


rs11178589
Imputed
T
DOM
431
0.6066
0.2072
0.4042
0.9105
−2.413
0.01583


rs11178594
Imputed
C
ADD
431
0.6841
0.1503
0.5096
0.9184
−2.527
0.01152


rs11178594
Imputed
C
DOM
431
0.62
0.207
0.4133
0.9302
−2.31
0.0209


rs11178602
Imputed
T
ADD
431
0.6841
0.1503
0.5096
0.9184
−2.527
0.01152


rs11178602
Imputed
T
DOM
431
0.62
0.207
0.4133
0.9302
−2.31
0.0209


rs11178648
Imputed
T
ADD
431
0.6858
0.1487
0.5125
0.9178
−2.537
0.01119


rs11178648
Imputed
T
DOM
431
0.6021
0.2055
0.4025
0.9008
−2.468
0.01358


rs11198877
Imputed
T
DOM
431
1.444
0.1968
0.9818
2.123
1.867
0.06193


rs11198942
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs11221075
Imputed
A
ADD
426
0.7175
0.2252
0.4614
1.116
−1.474
0.1405


rs11242020
Imputed
T
DOM
430
0.7107
0.1967
0.4834
1.045
−1.736
0.08258


rs11242021
Imputed
T
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs11242022
Imputed
T
DOM
428
0.6944
0.1971
0.4719
1.022
−1.85
0.06431


rs11242023
Imputed
T
DOM
428
0.6944
0.1971
0.4719
1.022
−1.85
0.06431


rs1149349
Imputed
T
DOM
431
1.606
0.2234
1.037
2.489
2.122
0.03382


rs1149350
Imputed
A
ADD
430
1.546
0.1741
1.099
2.176
2.504
0.0123


rs1149350
Imputed
A
DOM
430
1.835
0.2102
1.215
2.77
2.886
0.0039


rs11576627
Imputed
T
ADD
427
1.4
0.1931
0.9592
2.045
1.744
0.08112


rs11576627
Imputed
T
DOM
427
1.426
0.2259
0.9158
2.22
1.571
0.1162


rs11630050
Imputed
G
GEN
431




6.07
0.04808


rs11630050
Imputed
G
REC
431
2.977
0.4471
1.239
7.15
2.44
0.01469


rs11633024
Imputed
C
GEN
431




6.07
0.04808


rs11633024
Imputed
C
REC
431
2.977
0.4471
1.239
7.15
2.44
0.01469


rs11636298
Imputed
G
GEN
431




6.084
0.04773


rs11636298
Imputed
G
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs11637363
Imputed
C
GEN
430




6.108
0.04718


rs11637363
Imputed
C
REC
430
2.964
0.4471
1.234
7.119
2.43
0.01509


rs11637813
Imputed
A
GEN
431




6.07
0.04808


rs11637813
Imputed
A
REC
431
2.977
0.4471
1.239
7.15
2.44
0.01469


rs11638043
Imputed
C
GEN
430




6.108
0.04718


rs11638043
Imputed
C
REC
430
2.964
0.4471
1.234
7.119
2.43
0.01509


rs11638115
Imputed
A
GEN
430




5.185
0.07483


rs11638115
Imputed
A
REC
430
2.796
0.4515
1.154
6.774
2.277
0.0228


rs11638444
Imputed
C
GEN
431




6.093
0.04752


rs11682946
Imputed
A
ADD
96
5.356
0.4472
2.229
12.87
3.753
0.00018


rs11682946
Imputed
A
DOM
96
5.538
0.4642
2.23
13.76
3.688
0.00023


rs11717157
Imputed
T
ADD
430
1.45
0.1393
1.104
1.906
2.67
0.00759


rs11717157
Imputed
T
GEN
430




7.13
0.0283


rs11724055
Imputed
A
DOM
431
0.7804
0.2073
0.5199
1.172
−1.196
0.2317


rs11743355
Imputed
C
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11743355
Imputed
C
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11746806
Imputed
T
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11746806
Imputed
T
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11746959
Imputed
T
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11746959
Imputed
T
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs11749272
Imputed
T
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs11839636
Imputed
C
GEN
431




7.984
0.01846


rs11839785
Imputed
C
GEN
431




7.984
0.01846


rs11853619
Imputed
C
GEN
431




6.084
0.04773


rs11853619
Imputed
C
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs11856780
Imputed
A
GEN
431




6.084
0.04773


rs11856780
Imputed
A
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs11901899
Imputed
A
DOM
426
1.822
0.199
1.234
2.692
3.016
0.00256


rs11903290
Imputed
C
REC
425
1.901
0.3376
0.9811
3.684
1.903
0.057


rs11909480
Imputed
G
ADD
431
0.5964
0.404
0.2701
1.317
−1.279
0.2008


rs11909480
Imputed
G
DOM
431
0.61
0.4187
0.2685
1.386
−1.181
0.2377


rs11910289
Imputed
T
ADD
428
2.254
0.3513
1.132
4.487
2.313
0.02074


rs11910289
Imputed
T
DOM
428
2.226
0.3621
1.095
4.527
2.21
0.02707


rs11920375
Genotyped
C
GEN
431




6.381
0.04115


rs11926319
Imputed
G
DOM
429
0.5229
0.2621
0.3128
0.874
−2.474
0.01336


rs11933744
Imputed
T
REC
431
3.01
0.47
1.198
7.563
2.345
0.01904


rs11934919
Imputed
C
REC
431
3.01
0.47
1.198
7.563
2.345
0.01904


rs11934957
Imputed
C
REC
431
3.01
0.47
1.198
7.563
2.345
0.01904


rs11959206
Imputed
A
REC
428
0.5862
0.2628
0.3502
0.9812
−2.032
0.04213


rs12038613
Imputed
C
REC
429
0.5999
0.2756
0.3495
1.03
−1.854
0.06381


rs12151417
Imputed
T
DOM
428
1.573
0.1977
1.067
2.317
2.29
0.02204


rs12153185
Imputed
T
DOM
426
0.6973
0.1977
0.4733
1.027
−1.824
0.06815


rs12182651
Imputed
T
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs12235345
Imputed
C
DOM
430
1.42
0.2727
0.8321
2.423
1.286
0.1985


rs12324786
Imputed
T
GEN
430




5.185
0.07483


rs12324786
Imputed
T
REC
430
2.796
0.4515
1.154
6.774
2.277
0.0228


rs12336958
Imputed
G
DOM
403
1.46
0.211
0.9657
2.208
1.794
0.07276


rs12407412
Imputed
C
ADD
431
1.382
0.1928
0.9468
2.016
1.676
0.09367


rs12407412
Imputed
C
DOM
431
1.401
0.2256
0.9007
2.181
1.496
0.1346


rs12418971
Imputed
C
GEN
423




1.464
0.481


rs12418971
Imputed
C
REC
423
1.699
0.4623
0.6866
4.204
1.147
0.2515


rs1241967
Imputed
T
REC
431
0.5915
0.3332
0.3078
1.136
−1.576
0.115


rs12420184
Imputed
G
DOM
430
0.6518
0.2209
0.4227
1.005
−1.938
0.05266


rs12433968
Imputed
T
DOM
396
0.7213
0.2052
0.4825
1.078
−1.592
0.1114


rs12445477
Imputed
A
DOM
423
0.4063
0.2966
0.2272
0.7267
−3.036
0.0024


rs12447191
Genotyped
T
ADD
431
0.6489
0.1758
0.4598
0.9158
−2.461
0.01387


rs12447191
Genotyped
T
DOM
431
0.5081
0.2092
0.3372
0.7656
−3.237
0.00121


rs12465349
Imputed
A
REC
426
1.587
0.2245
1.022
2.464
2.056
0.03975


rs1247340
Imputed
C
ADD
431
1.51
0.1734
1.075
2.122
2.377
0.01746


rs1247340
Imputed
C
DOM
431
1.767
0.2092
1.173
2.663
2.721
0.0065


rs1247341
Imputed
C
ADD
430
1.524
0.1738
1.084
2.143
2.426
0.01527


rs1247341
Imputed
C
DOM
430
1.795
0.2098
1.19
2.707
2.788
0.0053


rs1247343
Imputed
C
DOM
430
1.681
0.2249
1.081
2.612
2.308
0.02099


rs12509758
Imputed
C
DOM
430
1.856
0.204
1.244
2.768
3.03
0.00245


rs12515472
Imputed
A
DOM
431
1.531
0.205
1.024
2.287
2.076
0.03785


rs12548906
Imputed
G
ADD
420
1.496
0.1799
1.052
2.129
2.241
0.02504


rs12596240
Imputed
G
DOM
430
0.6708
0.2061
0.4479
1.005
−1.937
0.05268


rs12618781
Imputed
A
DOM
407
0.5446
0.2216
0.3528
0.8408
−2.743
0.00609


rs12678600
Imputed
A
DOM
431
0.6479
0.1972
0.4402
0.9536
−2.201
0.02773


rs12692229
Imputed
T
ADD
430
1.315
0.1467
0.9861
1.753
1.864
0.06226


rs12713324
Imputed
T
DOM
427
1.584
0.1981
1.074
2.335
2.321
0.02028


rs12719415
Imputed
T
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs12820589
Imputed
G
ADD
418
1.758
0.1836
1.227
2.519
3.073
0.00212


rs12820589
Imputed
G
DOM
418
1.936
0.214
1.273
2.946
3.088
0.00202


rs12831292
Imputed
G
ADD
431
0.6841
0.1503
0.5096
0.9184
−2.527
0.01152


rs12831292
Imputed
G
DOM
431
0.62
0.207
0.4133
0.9302
−2.31
0.0209


rs13012636
Imputed
G
REC
425
1.901
0.3376
0.9811
3.684
1.903
0.057


rs13038146
Imputed
C
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs13038146
Imputed
C
GEN
431




6.605
0.0368


rs13038146
Imputed
C
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs13089860
Imputed
A
DOM
358
0.6221
0.23
0.3963
0.9764
−2.064
0.03904


rs13102419
Imputed
T
REC
429
1.668
0.2387
1.045
2.663
2.144
0.03201


rs13194907
Imputed
A
ADD
431
1.964
0.3063
1.077
3.579
2.203
0.02757


rs13194907
Imputed
A
DOM
431
2.136
0.3162
1.15
3.97
2.401
0.01635


rs13195745
Imputed
A
ADD
431
1.964
0.3063
1.077
3.579
2.203
0.02757


rs13195745
Imputed
A
DOM
431
2.136
0.3162
1.15
3.97
2.401
0.01635


rs13265054
Imputed
T
DOM
421
0.6754
0.199
0.4573
0.9976
−1.972
0.04863


rs13273002
Imputed
A
GEN
429




3.598
0.1655


rs13282131
Imputed
C
ADD
431
1.415
0.1363
1.084
1.849
2.549
0.0108


rs13282131
Imputed
C
GEN
431




6.498
0.03882


rs13282131
Imputed
C
REC
431
1.595
0.2279
1.02
2.493
2.048
0.04058


rs1330052
Imputed
G
GEN
431




11.32
0.00349


rs1335721
Imputed
A
REC
429
0.5999
0.2756
0.3495
1.03
−1.854
0.06381


rs1336382
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1336383
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1336407
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1336409
Imputed
T
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1336596
Imputed
A
DOM
430
0.6728
0.2004
0.4543
0.9965
−1.978
0.04797


rs13387284
Imputed
A
DOM
400
0.5278
0.2223
0.3414
0.816
−2.875
0.00404


rs13401462
Imputed
C
DOM
424
2.137
0.2339
1.351
3.38
3.245
0.00117


rs13409045
Imputed
T
ADD
431
0.6931
0.1457
0.521
0.9221
−2.517
0.01184


rs1349284
Imputed
C
GEN
431




7.563
0.02279


rs1355715
Imputed
T
ADD
430
0.5755
0.3625
0.2828
1.171
−1.524
0.1275


rs1357696
Imputed
A
GEN
426




5.96
0.05078


rs1357698
Imputed
A
GEN
426




5.96
0.05078


rs1357699
Imputed
T
GEN
426




5.96
0.05078


rs1363273
Imputed
C
REC
404
0.5817
0.2679
0.344
0.9834
−2.023
0.04312


rs1373601
Imputed
A
DOM
400
0.5287
0.2065
0.3527
0.7925
−3.086
0.00203


rs1375829
Imputed
C
GEN
431




7.563
0.02279


rs1395748
Imputed
G
DOM
431
0.6603
0.1967
0.4491
0.9708
−2.11
0.03482


rs1414865
Imputed
T
DOM
430
1.433
0.1969
0.9742
2.108
1.827
0.06765


rs1414873
Imputed
A
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1414876
Imputed
C
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1424643
Imputed
G
ADD
423
1.554
0.1651
1.124
2.148
2.669
0.00761


rs1424643
Imputed
G
DOM
423
1.592
0.199
1.078
2.351
2.336
0.01947


rs1424648
Imputed
T
DOM
431
1.619
0.1972
1.1
2.383
2.444
0.01451


rs1429321
Imputed
A
DOM
426
1.545
0.1979
1.048
2.277
2.198
0.02793


rs1429326
Imputed
T
ADD
423
1.514
0.1654
1.094
2.093
2.505
0.01223


rs1429326
Imputed
T
DOM
423
1.573
0.1984
1.066
2.321
2.284
0.02236


rs1444741
Imputed
A
DOM
407
0.5155
0.205
0.3449
0.7703
−3.233
0.00122


rs1449916
Imputed
C
DOM
338
0.4287
0.2519
0.2617
0.7025
−3.362
0.00077


rs1459523
Imputed
A
ADD
430
1.45
0.1393
1.104
1.906
2.67
0.00759


rs1459523
Imputed
A
GEN
430




7.13
0.0283


rs1466352
Imputed
T
GEN
431




6.792
0.0335


rs1466353
Imputed
G
GEN
431




6.792
0.0335


rs1476714
Imputed
A
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs1486723
Imputed
C
REC
431
0.6161
0.3308
0.3222
1.178
−1.464
0.1431


rs1495375
Imputed
A
ADD
431
0.6996
0.1493
0.5222
0.9374
−2.393
0.0167


rs1495375
Imputed
A
DOM
431
0.6354
0.2073
0.4232
0.9539
−2.188
0.02869


rs1495381
Imputed
T
GEN
431




4.34
0.1142


rs1495381
Imputed
T
REC
431
1.661
0.2511
1.015
2.717
2.021
0.04331


rs1498061
Imputed
C
ADD
201
0.614
0.2646
0.3655
1.031
−1.843
0.06527


rs1498992
Imputed
G
DOM
430
0.7209
0.1965
0.4905
1.06
−1.666
0.09577


rs1499001
Imputed
T
DOM
428
0.7112
0.1982
0.4823
1.049
−1.719
0.08562


rs1512988
Imputed
A
ADD
429
0.6768
0.1508
0.5037
0.9096
−2.589
0.00964


rs1512988
Imputed
A
DOM
429
0.6068
0.2078
0.4038
0.9117
−2.405
0.01618


rs1512989
Imputed
T
ADD
429
0.6768
0.1508
0.5037
0.9096
−2.589
0.00964


rs1512989
Imputed
T
DOM
429
0.6068
0.2078
0.4038
0.9117
−2.405
0.01618


rs1512991
Imputed
T
ADD
431
0.7609
0.1446
0.5731
1.01
−1.89
0.05873


rs1512991
Imputed
T
DOM
431
0.5996
0.2103
0.3971
0.9055
−2.432
0.01501


rs1512991
Imputed
T
GEN
431




6.036
0.04889


rs1524303
Imputed
T
GEN
429




6.951
0.03095


rs1524306
Imputed
C
ADD
431
1.457
0.1392
1.109
1.914
2.705
0.00682


rs1524306
Imputed
C
GEN
431




7.32
0.02573


rs1524310
Imputed
G
ADD
428
1.471
0.1406
1.117
1.937
2.744
0.00606


rs1524310
Imputed
G
GEN
428




7.531
0.02315


rs1524321
Imputed
C
GEN
423




7.53
0.02317


rs1527059
Imputed
A
DOM
428
0.7558
0.266
0.4487
1.273
−1.052
0.2927


rs152707
Imputed
A
ADD
431
0.7681
0.1426
0.5808
1.016
−1.85
0.06428


rs152707
Imputed
A
GEN
431




3.606
0.1648


rs152712
Genotyped
C
ADD
431
0.7606
0.1429
0.5748
1.007
−1.914
0.05557


rs152712
Genotyped
C
GEN
431




3.917
0.1411


rs1533994
Imputed
T
GEN
431




6.792
0.0335


rs1535866
Imputed
G
DOM
431
1.83
0.206
1.222
2.74
2.933
0.00336


rs1563773
Imputed
T
GEN
429




6.416
0.04044


rs1563774
Imputed
T
GEN
431




6.792
0.0335


rs1567740
Imputed
T
ADD
430
0.6776
0.1506
0.5044
0.9103
−2.584
0.00976


rs1567740
Imputed
T
DOM
430
0.6103
0.2074
0.4065
0.9164
−2.381
0.01726


rs1572573
Imputed
A
DOM
413
1.458
0.2093
0.9676
2.198
1.802
0.07148


rs1577497
Imputed
C
REC
429
0.5999
0.2756
0.3495
1.03
−1.854
0.06381


rs1581514
Imputed
T
ADD
418
1.482
0.1411
1.124
1.954
2.79
0.00527


rs1581514
Imputed
T
GEN
418




7.786
0.02039


rs1582321
Imputed
T
DOM
431
0.6673
0.206
0.4456
0.9992
−1.964
0.04955


rs1582322
Imputed
A
DOM
426
0.6832
0.2069
0.4554
1.025
−1.841
0.06568


rs1582323
Imputed
A
DOM
427
0.6891
0.2068
0.4595
1.034
−1.8
0.07179


rs1592485
Imputed
C
DOM
430
0.6849
0.2064
0.4571
1.026
−1.834
0.06669


rs1600954
Imputed
T
ADD
418
1.458
0.1435
1.1
1.931
2.627
0.00863


rs1600954
Imputed
T
GEN
418




7.629
0.02204


rs16938626
Imputed
G
DOM
417
0.6482
0.201
0.4371
0.9612
−2.157
0.03103


rs16964300
Imputed
G
ADD
431
0.6489
0.1758
0.4598
0.9158
−2.461
0.01387


rs16964300
Imputed
G
DOM
431
0.5081
0.2092
0.3372
0.7656
−3.237
0.00121


rs16986282
Imputed
G
DOM
429
0.6518
0.4222
0.2849
1.491
−1.014
0.3106


rs17007620
Imputed
G
ADD
387
1.684
0.1701
1.206
2.35
3.063
0.00219


rs17007620
Imputed
G
DOM
387
1.898
0.2093
1.259
2.861
3.062
0.0022


rs17014326
Imputed
G
DOM
429
0.6773
0.1968
0.4605
0.9961
−1.98
0.04771


rs17047957
Imputed
C
DOM
430
1.575
0.2288
1.006
2.466
1.986
0.047


rs1705261
Imputed
A
REC
430
1.6
0.2523
0.9755
2.623
1.862
0.06263


rs17073341
Imputed
A
ADD
431
1.335
0.3929
0.618
2.883
0.735
0.4624


rs17073341
Imputed
A
DOM
431
1.335
0.3929
0.618
2.883
0.735
0.4624


rs17138702
Imputed
G
ADD
429
0.7112
0.2144
0.4672
1.083
−1.59
0.1119


rs17189710
Imputed
T
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs17189710
Imputed
T
GEN
431




6.605
0.0368


rs17189710
Imputed
T
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs17310176
Imputed
T
ADD
431
0.8153
0.1969
0.5542
1.199
−1.037
0.2997


rs17310176
Imputed
T
DOM
431
0.8122
0.2102
0.5379
1.226
−0.989
0.3224


rs17358860
Imputed
A
DOM
431
0.7804
0.2073
0.5199
1.172
−1.196
0.2317


rs17370541
Imputed
T
GEN
417




4.709
0.09495


rs17370541
Imputed
T
REC
417
1.782
0.2901
1.009
3.147
1.991
0.04643


rs17526574
Imputed
G
GEN
431




7.984
0.01846


rs17530747
Imputed
T
DOM
422
0.7249
0.1996
0.4902
1.072
−1.612
0.107


rs17649114
Imputed
C
DOM
429
1.27
0.2011
0.8563
1.884
1.189
0.2346


rs17766172
Imputed
A
REC
419
0.6013
0.3147
0.3245
1.114
−1.616
0.1061


rs1818885
Imputed
G
GEN
431




7.055
0.02938


rs1832222
Imputed
G
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs1861327
Imputed
G
DOM
431
0.6673
0.206
0.4456
0.9992
−1.964
0.04955


rs1868581
Imputed
G
ADD
431
1.471
0.1402
1.117
1.936
2.75
0.00596


rs1868581
Imputed
G
GEN
431




7.563
0.02279


rs1874313
Imputed
A
ADD
430
0.671
0.151
0.4991
0.9022
−2.642
0.00825


rs1874313
Imputed
A
DOM
430
0.5994
0.208
0.3987
0.9009
−2.462
0.01383


rs1876409
Imputed
C
DOM
428
0.6523
0.1975
0.443
0.9607
−2.163
0.03053


rs1913201
Imputed
G
ADD
429
0.7714
0.144
0.5817
1.023
−1.803
0.07146


rs1913201
Imputed
G
DOM
429
0.5986
0.2106
0.3961
0.9045
−2.436
0.01484


rs1913201
Imputed
G
GEN
429




6.21
0.04484


rs1916922
Imputed
T
GEN
415




6.677
0.03549


rs1936871
Genotyped
G
DOM
431
0.7159
0.1987
0.485
1.057
−1.682
0.09248


rs1961157
Imputed
T
REC
431
0.4785
0.2451
0.296
0.7736
−3.007
0.00264


rs1987179
Imputed
T
ADD
431
0.7399
0.1691
0.5312
1.031
−1.782
0.07475


rs1987179
Imputed
T
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs1990023
Imputed
T
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs1995025
Imputed
C
DOM
431
1.335
0.2271
0.8555
2.084
1.273
0.203


rs2016194
Imputed
G
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs2023651
Imputed
T
ADD
429
0.5946
0.1842
0.4144
0.8532
−2.822
0.00477


rs2024902
Imputed
A
ADD
431
1.964
0.3063
1.077
3.579
2.203
0.02757


rs2024902
Imputed
A
DOM
431
2.136
0.3162
1.15
3.97
2.401
0.01635


rs2025107
Imputed
A
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs2025108
Imputed
T
DOM
431
2.069
0.3044
1.14
3.758
2.389
0.01687


rs2031987
Imputed
T
GEN
431




7.984
0.01846


rs2052428
Imputed
C
DOM
426
0.6505
0.2223
0.4208
1.006
−1.935
0.05303


rs2053230
Imputed
C
ADD
269
0.6927
0.629
0.2019
2.376
−0.584
0.5594


rs2062448
Imputed
T
DOM
429
0.5357
0.2593
0.3223
0.8905
−2.407
0.01607


rs2063420
Imputed
C
REC
430
1.886
0.2499
1.156
3.079
2.54
0.01109


rs2063591
Imputed
C
ADD
429
0.7822
0.144
0.5899
1.037
−1.705
0.08815


rs2063591
Imputed
C
DOM
429
0.6108
0.2122
0.403
0.9258
−2.324
0.02015


rs208026
Genotyped
A
DOM
431
1.516
0.1978
1.029
2.233
2.102
0.03554


rs208029
Imputed
T
DOM
426
1.45
0.2007
0.9788
2.15
1.853
0.06389


rs208757
Imputed
G
DOM
425
1.473
0.2014
0.9925
2.186
1.923
0.05453


rs2095586
Imputed
A
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs2095606
Imputed
A
DOM
424
0.6502
0.2018
0.4378
0.9657
−2.133
0.03293


rs2102374
Imputed
A
ADD
431
0.7364
0.156
0.5424
0.9998
−1.961
0.04987


rs2102374
Imputed
A
DOM
431
0.6065
0.198
0.4114
0.894
−2.526
0.01155


rs2108426
Imputed
C
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs2110664
Imputed
A
DOM
421
1.806
0.2004
1.219
2.675
2.95
0.00318


rs2132242
Imputed
A
ADD
431
0.6841
0.1503
0.5096
0.9184
−2.527
0.01152


rs2132242
Imputed
A
DOM
431
0.62
0.207
0.4133
0.9302
−2.31
0.0209


rs2158958
Imputed
A
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs2158961
Imputed
G
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs2163046
Imputed
A
DOM
430
1.511
0.1971
1.027
2.224
2.095
0.0362


rs2180286
Imputed
G
DOM
431
0.7195
0.2291
0.4592
1.127
−1.437
0.1507


rs2180684
Imputed
A
DOM
427
1.612
0.2668
0.9556
2.719
1.79
0.07349


rs2188079
Imputed
C
ADD
430
1.535
0.1452
1.154
2.04
2.948
0.00319


rs2188079
Imputed
C
GEN
430




8.853
0.01196


rs2190598
Imputed
T
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs2190600
Imputed
A
DOM
423
0.6884
0.1986
0.4665
1.016
−1.88
0.0601


rs2224184
Genotyped
T
DOM
431
0.7175
0.2276
0.4593
1.121
−1.458
0.1447


rs2247066
Imputed
A
DOM
431
0.6603
0.1967
0.4491
0.9708
−2.11
0.03482


rs2248236
Imputed
C
ADD
430
0.7444
0.1691
0.5344
1.037
−1.746
0.08088


rs2248236
Imputed
C
DOM
430
0.6416
0.2031
0.431
0.9552
−2.186
0.02885


rs2265733
Imputed
C
ADD
431
0.7364
0.156
0.5424
0.9998
−1.961
0.04987


rs2265733
Imputed
C
DOM
431
0.6065
0.198
0.4114
0.894
−2.526
0.01155


rs2270584
Imputed
A
ADD
431
0.6858
0.1487
0.5125
0.9178
−2.537
0.01119


rs2270584
Imputed
A
DOM
431
0.6021
0.2055
0.4025
0.9008
−2.468
0.01358


rs2270586
Imputed
A
ADD
431
0.6858
0.1487
0.5125
0.9178
−2.537
0.01119


rs2270586
Imputed
A
DOM
431
0.6021
0.2055
0.4025
0.9008
−2.468
0.01358


rs229775
Imputed
A
REC
431
0.5915
0.3332
0.3078
1.136
−1.576
0.115


rs229815
Imputed
T
REC
428
0.5493
0.3402
0.282
1.07
−1.761
0.07822


rs229829
Imputed
C
REC
431
0.6223
0.2965
0.3481
1.113
−1.6
0.1096


rs229831
Imputed
A
REC
431
0.646
0.3469
0.3273
1.275
−1.26
0.2077


rs2317057
Imputed
T
ADD
363
0.7197
0.1827
0.5031
1.029
−1.801
0.07173


rs2322100
Genotyped
T
REC
431
2.767
0.3609
1.364
5.612
2.82
0.0048


rs2322101
Imputed
A
REC
429
2.779
0.3611
1.369
5.639
2.83
0.00465


rs2327929
Imputed
G
REC
431
1.493
0.244
0.9255
2.408
1.642
0.1005


rs2332844
Imputed
A
ADD
240
1.78
0.4323
0.7629
4.154
1.334
0.1823


rs2332844
Imputed
A
REC
240
1.78
0.4323
0.7629
4.154
1.334
0.1823


rs2349170
Imputed
G
DOM
430
1.327
0.204
0.8895
1.979
1.386
0.1657


rs2356722
Imputed
G
DOM
431
0.6675
0.1966
0.4541
0.9812
−2.057
0.03972


rs2364956
Imputed
T
ADD
423
1.693
0.1737
1.204
2.379
3.031
0.00244


rs2373793
Imputed
G
ADD
430
1.58
0.174
1.124
2.223
2.629
0.00855


rs2373793
Imputed
G
DOM
430
1.878
0.2064
1.253
2.815
3.055
0.00225


rs238252
Imputed
G
ADD
427
1.531
0.1916
1.052
2.229
2.223
0.02622


rs238252
Imputed
G
DOM
427
1.593
0.2148
1.046
2.427
2.169
0.03007


rs2383903
Imputed
G
DOM
430
0.6499
0.1976
0.4413
0.9572
−2.181
0.02915


rs2387945
Imputed
G
DOM
431
1.335
0.2271
0.8555
2.084
1.273
0.203


rs2389863
Imputed
A
DOM
426
0.6341
0.2035
0.4255
0.9449
−2.238
0.0252


rs2389866
Imputed
C
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs2389869
Imputed
C
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs2389870
Genotyped
C
DOM
431
0.7988
0.2067
0.5327
1.198
−1.087
0.2772


rs2418494
Imputed
G
ADD
423
0.7065
0.1402
0.5367
0.93
−2.477
0.01323


rs2418494
Imputed
G
GEN
423




8.762
0.01252


rs2418541
Imputed
A
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs2418542
Imputed
A
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs2423556
Imputed
C
DOM
431
0.7195
0.2291
0.4592
1.127
−1.437
0.1507


rs2437688
Imputed
C
ADD
431
1.486
0.2416
0.9251
2.385
1.638
0.1014


rs2456809
Imputed
G
DOM
426
0.6547
0.1977
0.4444
0.9645
−2.143
0.03215


rs2456811
Imputed
T
ADD
431
0.7364
0.156
0.5424
0.9998
−1.961
0.04987


rs2456811
Imputed
T
DOM
431
0.6065
0.198
0.4114
0.894
−2.526
0.01155


rs2476976
Imputed
C
DOM
429
1.409
0.1971
0.9578
2.074
1.741
0.08162


rs2484911
Imputed
A
DOM
431
1.477
0.1971
1.004
2.173
1.979
0.04785


rs2488557
Imputed
C
DOM
428
0.6282
0.2326
0.3982
0.991
−1.999
0.04561


rs250162
Imputed
C
ADD
425
0.5822
0.1715
0.416
0.8149
−3.153
0.00162


rs250162
Imputed
C
DOM
425
0.5055
0.2024
0.3399
0.7517
−3.37
0.00075


rs2560708
Imputed
T
ADD
427
0.5918
0.2008
0.3992
0.8772
−2.612
0.00899


rs2617841
Imputed
G
DOM
397
0.5505
0.2134
0.3623
0.8365
−2.797
0.00516


rs2622499
Imputed
G
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs264129
Imputed
T
DOM
414
0.7088
0.2008
0.4781
1.051
−1.714
0.08655


rs2642936
Imputed
T
ADD
427
1.703
0.1807
1.195
2.427
2.947
0.00321


rs2660633
Imputed
A
DOM
428
0.6523
0.1975
0.443
0.9607
−2.163
0.03053


rs2660634
Imputed
C
DOM
428
0.6523
0.1975
0.443
0.9607
−2.163
0.03053


rs2660648
Imputed
A
ADD
431
0.7364
0.156
0.5424
0.9998
−1.961
0.04987


rs2660648
Imputed
A
DOM
431
0.6065
0.198
0.4114
0.894
−2.526
0.01155


rs2681505
Imputed
T
ADD
431
0.6724
0.1684
0.4834
0.9355
−2.356
0.01848


rs277411
Imputed
G
DOM
430
0.2825
0.5064
0.1047
0.7621
−2.496
0.01254


rs2832634
Imputed
G
ADD
430
2.272
0.3513
1.141
4.523
2.335
0.01952


rs2832637
Imputed
T
ADD
430
2.272
0.3513
1.141
4.523
2.335
0.01952


rs2843167
Imputed
A
DOM
430
0.6655
0.1968
0.4525
0.9788
−2.069
0.03855


rs2876227
Imputed
C
ADD
420
1.382
0.142
1.046
1.825
2.277
0.02278


rs2876227
Imputed
C
GEN
420




5.885
0.05274


rs2882097
Imputed
A
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs2909862
Imputed
G
DOM
381
1.471
0.2415
0.9162
2.361
1.597
0.1102


rs3001945
Imputed
T
DOM
408
1.39
0.2492
0.8531
2.266
1.323
0.186


rs3011020
Imputed
C
DOM
431
1.335
0.2271
0.8555
2.084
1.273
0.203


rs36071725
Genotyped
C
ADD
431
1.458
0.1473
1.093
1.946
2.562
0.01039


rs36071725
Genotyped
C
GEN
431




7.178
0.02762


rs373983
Imputed
G
DOM
424
1.332
0.2094
0.8836
2.008
1.369
0.171


rs3743794
Imputed
G
DOM
426
0.6969
0.2073
0.4642
1.046
−1.742
0.08148


rs3756154
Imputed
C
ADD
431
0.7399
0.1691
0.5312
1.031
−1.782
0.07475


rs3756154
Imputed
C
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs3775850
Imputed
A
DOM
431
0.7804
0.2073
0.5199
1.172
−1.196
0.2317


rs3775851
Imputed
C
DOM
431
0.7804
0.2073
0.5199
1.172
−1.196
0.2317


rs3793044
Imputed
C
ADD
431
1.892
0.308
1.035
3.461
2.071
0.0384


rs3793044
Imputed
C
DOM
431
2.057
0.3182
1.102
3.838
2.266
0.02342


rs3793053
Imputed
C
DOM
425
2.254
0.3145
1.217
4.175
2.583
0.00979


rs3796246
Imputed
G
DOM
431
0.4542
0.2717
0.2667
0.7737
−2.904
0.00368


rs3806003
Imputed
A
ADD
431
1.892
0.308
1.035
3.461
2.071
0.0384


rs3806003
Imputed
A
DOM
431
2.057
0.3182
1.102
3.838
2.266
0.02342


rs3806004
Imputed
T
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806010
Imputed
T
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806014
Imputed
T
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806015
Imputed
A
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806018
Imputed
A
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806019
Imputed
A
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs3806024
Imputed
T
DOM
425
2.254
0.3145
1.217
4.175
2.583
0.00979


rs3915080
Imputed
A
GEN
426




6.343
0.04195


rs3942254
Imputed
T
ADD
423
0.6915
0.1524
0.513
0.9322
−2.421
0.01549


rs3942254
Imputed
T
DOM
423
0.6256
0.2108
0.4139
0.9456
−2.225
0.02605


rs3945085
Imputed
A
DOM
431
1.52
0.1971
1.033
2.237
2.125
0.03357


rs3976737
Imputed
G
ADD
430
0.6593
0.2103
0.4366
0.9956
−1.981
0.0476


rs399485
Imputed
A
DOM
431
1.467
0.1973
0.9965
2.159
1.942
0.05212


rs4029119
Imputed
G
ADD
429
0.361
0.577
0.1165
1.118
−1.766
0.0774


rs4029119
Imputed
G
DOM
429
0.361
0.577
0.1165
1.118
−1.766
0.0774


rs4076201
Imputed
G
GEN
430




6.108
0.04718


rs4076201
Imputed
G
REC
430
2.964
0.4471
1.234
7.119
2.43
0.01509


rs41395945
Imputed
G
ADD
430
2.272
0.3513
1.141
4.523
2.335
0.01952


rs41395945
Imputed
G
DOM
430
2.245
0.362
1.104
4.564
2.234
0.02549


rs4146972
Genotyped
T
DOM
431
1.557
0.2271
0.9976
2.43
1.949
0.05125


rs4238087
Imputed
G
DOM
425
0.5314
0.2341
0.3358
0.8408
−2.7
0.00692


rs4251569
Imputed
T
ADD
425
0.5471
0.2243
0.3525
0.8491
−2.689
0.00716


rs4251569
Imputed
T
DOM
425
0.5314
0.2341
0.3358
0.8408
−2.7
0.00692


rs4273613
Imputed
T
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs4273613
Imputed
T
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs4291049
Imputed
T
REC
428
0.5862
0.2628
0.3502
0.9812
−2.032
0.04213


rs4315598
Imputed
T
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs4315598
Imputed
T
GEN
431




6.605
0.0368


rs4315598
Imputed
T
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs4321395
Imputed
A
DOM
400
0.5278
0.2223
0.3414
0.816
−2.875
0.00404


rs4321596
Genotyped
T
REC
431
3.01
0.5138
1.099
8.238
2.145
0.03199


rs4324417
Imputed
T
DOM
431
1.541
0.2104
1.02
2.328
2.055
0.03989


rs4328619
Genotyped
G
DOM
431
0.6446
0.2226
0.4167
0.9973
−1.972
0.04857


rs4338909
Imputed
T
ADD
431
1.42
0.1425
1.074
1.878
2.462
0.01381


rs4370878
Imputed
G
DOM
431
1.497
0.197
1.017
2.202
2.046
0.04075


rs4379434
Genotyped
T
DOM
431
1.603
0.203
1.077
2.386
2.323
0.02015


rs4416407
Imputed
T
DOM
429
1.502
0.2225
0.9712
2.324
1.829
0.06743


rs4417899
Imputed
C
REC
429
0.6657
0.2225
0.4304
1.03
−1.829
0.06743


rs4442732
Imputed
A
ADD
335
0.7543
0.1867
0.5231
1.088
−1.511
0.1309


rs4444612
Imputed
G
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs4444612
Imputed
G
GEN
431




6.605
0.0368


rs4444612
Imputed
G
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs4450660
Imputed
C
DOM
430
1.776
0.2015
1.196
2.636
2.849
0.00438


rs4509702
Imputed
C
DOM
431
1.497
0.197
1.017
2.202
2.046
0.04075


rs4526920
Imputed
G
GEN
431




7.984
0.01846


rs4533145
Imputed
T
DOM
430
0.6617
0.2453
0.4092
1.07
−1.683
0.09231


rs4557006
Imputed
A
DOM
395
0.5409
0.225
0.348
0.8407
−2.731
0.00631


rs4570530
Imputed
C
DOM
431
1.497
0.197
1.017
2.202
2.046
0.04075


rs4615971
Imputed
C
DOM
429
1.474
0.1973
1.001
2.17
1.965
0.04937


rs4628119
Imputed
A
DOM
431
0.5304
0.202
0.357
0.7881
−3.139
0.0017


rs4664443
Imputed
G
ADD
431
0.6931
0.1457
0.521
0.9221
−2.517
0.01184


rs4688259
Imputed
T
DOM
429
1.502
0.2225
0.9712
2.324
1.829
0.06743


rs4688632
Imputed
G
REC
426
0.6718
0.2217
0.435
1.038
−1.794
0.07285


rs4695284
Imputed
A
ADD
231
1.566
0.2722
0.9182
2.669
1.647
0.09965


rs4700302
Imputed
A
ADD
368
0.5418
0.2966
0.303
0.9689
−2.067
0.03877


rs4702720
Imputed
A
ADD
363
0.7075
0.1961
0.4817
1.039
−1.765
0.07759


rs4702720
Imputed
A
DOM
363
0.7149
0.2239
0.461
1.109
−1.499
0.1339


rs4711091
Genotyped
G
GEN
431




3.583
0.1667


rs4714484
Imputed
A
ADD
431
0.5609
0.1882
0.3879
0.8112
−3.071
0.00213


rs4736802
Imputed
G
DOM
430
1.614
0.2031
1.084
2.404
2.357
0.01841


rs4760785
Imputed
A
ADD
429
0.7714
0.144
0.5817
1.023
−1.803
0.07146


rs4760785
Imputed
A
DOM
429
0.5986
0.2106
0.3961
0.9045
−2.436
0.01484


rs4760785
Imputed
A
GEN
429




6.21
0.04484


rs4760894
Imputed
T
ADD
429
0.7714
0.144
0.5817
1.023
−1.803
0.07146


rs4760894
Imputed
T
DOM
429
0.5986
0.2106
0.3961
0.9045
−2.436
0.01484


rs4760894
Imputed
T
GEN
429




6.21
0.04484


rs4760895
Imputed
A
ADD
429
0.7714
0.144
0.5817
1.023
−1.803
0.07146


rs4760895
Imputed
A
DOM
429
0.5986
0.2106
0.3961
0.9045
−2.436
0.01484


rs4760895
Imputed
A
GEN
429




6.21
0.04484


rs4764738
Imputed
A
ADD
425
1.555
0.1426
1.176
2.056
3.095
0.00197


rs4764738
Imputed
A
GEN
425




9.814
0.00739


rs4764974
Imputed
T
ADD
430
1.512
0.1414
1.146
1.995
2.923
0.00347


rs4764974
Imputed
T
GEN
430




8.948
0.0114


rs4798366
Imputed
G
REC
426
2.304
0.315
1.243
4.271
2.65
0.00806


rs483159
Imputed
T
DOM
418
1.412
0.2046
0.9455
2.108
1.686
0.09181


rs4836502
Imputed
T
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs4836507
Imputed
C
DOM
423
0.6884
0.1986
0.4665
1.016
−1.88
0.0601


rs4836744
Imputed
A
ADD
429
0.7704
0.1539
0.5698
1.042
−1.694
0.09021


rs4836744
Imputed
A
DOM
429
0.6637
0.1983
0.4499
0.979
−2.067
0.03872


rs4848944
Genotyped
C
REC
431
0.464
0.245
0.287
0.75
−3.134
0.00172


rs4851529
Imputed
A
DOM
431
0.5663
0.2029
0.3805
0.8429
−2.802
0.00507


rs4851531
Imputed
T
DOM
430
0.5588
0.2033
0.3751
0.8325
−2.862
0.00421


rs4858046
Genotyped
T
GEN
431




6.792
0.0335


rs4878214
Imputed
A
ADD
343
0.7413
0.1824
0.5185
1.06
−1.641
0.1007


rs4880803
Imputed
A
ADD
421
0.7588
0.1519
0.5634
1.022
−1.818
0.06914


rs489441
Imputed
G
ADD
408
1.6
0.1627
1.163
2.2
2.888
0.00387


rs489441
Imputed
G
DOM
408
1.651
0.2035
1.108
2.46
2.463
0.01378


rs4896568
Imputed
T
DOM
430
0.5426
0.2032
0.3643
0.8081
−3.008
0.00263


rs4938851
Imputed
T
DOM
431
1.301
0.2004
0.8785
1.927
1.313
0.1891


rs4964416
Imputed
C
DOM
428
0.6799
0.2267
0.436
1.06
−1.702
0.08872


rs5756669
Imputed
C
DOM
431
1.541
0.2104
1.02
2.328
2.055
0.03989


rs6033138
Imputed
C
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6033138
Imputed
C
GEN
431




6.605
0.0368


rs6033138
Imputed
C
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040619
Imputed
C
ADD
427
1.488
0.1435
1.123
1.972
2.771
0.00559


rs6040619
Imputed
C
GEN
427




7.811
0.02013


rs6040619
Imputed
C
REC
427
1.688
0.2858
0.964
2.956
1.832
0.06702


rs6040625
Imputed
T
ADD
425
1.479
0.1442
1.115
1.962
2.714
0.00665


rs6040625
Imputed
T
GEN
425




7.591
0.02248


rs6040625
Imputed
T
REC
425
1.634
0.2879
0.9294
2.873
1.706
0.08806


rs6040630
Imputed
A
ADD
431
1.42
0.1417
1.076
1.875
2.476
0.01327


rs6040630
Imputed
A
GEN
431




6.71
0.03491


rs6040630
Imputed
A
REC
431
1.462
0.2807
0.8433
2.534
1.353
0.1762


rs6040633
Imputed
A
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6040633
Imputed
A
GEN
431




6.605
0.0368


rs6040633
Imputed
A
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040634
Imputed
T
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6040634
Imputed
T
GEN
431




6.605
0.0368


rs6040634
Imputed
T
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040636
Imputed
T
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6040636
Imputed
T
GEN
431




6.605
0.0368


rs6040636
Imputed
T
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040638
Imputed
C
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6040638
Imputed
C
GEN
431




6.605
0.0368


rs6040638
Imputed
C
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040644
Imputed
A
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6040644
Imputed
A
GEN
431




6.605
0.0368


rs6040644
Imputed
A
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6040667
Imputed
T
ADD
427
1.391
0.1412
1.055
1.835
2.338
0.0194


rs6040667
Imputed
T
GEN
427




6.078
0.04788


rs6040667
Imputed
T
REC
427
1.416
0.2791
0.8195
2.447
1.247
0.2125


rs6040668
Imputed
C
ADD
422
1.386
0.1419
1.049
1.83
2.3
0.02147


rs6040668
Imputed
C
GEN
422




5.936
0.05141


rs6040668
Imputed
C
REC
422
1.401
0.2794
0.8101
2.422
1.206
0.2277


rs6043066
Genotyped
G
DOM
431
1.208
0.1979
0.8196
1.781
0.955
0.3397


rs6048146
Imputed
G
DOM
431
3.484
0.6015
1.072
11.33
2.075
0.03796


rs6082725
Genotyped
T
DOM
431
3.484
0.6015
1.072
11.33
2.075
0.03796


rs6131206
Imputed
C
ADD
429
1.424
0.1456
1.07
1.894
2.425
0.01529


rs6131208
Imputed
T
ADD
429
1.398
0.1412
1.06
1.843
2.371
0.01776


rs6131208
Imputed
T
GEN
429




6.201
0.04504


rs6131208
Imputed
T
REC
429
1.431
0.2791
0.828
2.472
1.284
0.1993


rs6134243
Imputed
C
ADD
431
1.407
0.1412
1.067
1.855
2.418
0.01561


rs6134243
Imputed
C
GEN
431




6.605
0.0368


rs6134243
Imputed
C
REC
431
1.414
0.279
0.8186
2.444
1.243
0.214


rs6136020
Imputed
A
DOM
431
0.7169
0.227
0.4595
1.119
−1.466
0.1426


rs613799
Imputed
C
DOM
414
1.45
0.2012
0.9772
2.15
1.845
0.06502


rs644041
Imputed
G
ADD
401
1.555
0.164
1.127
2.144
2.69
0.00715


rs644041
Imputed
G
DOM
401
1.611
0.2049
1.078
2.407
2.327
0.01999


rs647645
Imputed
C
ADD
430
0.7227
0.1429
0.5462
0.9563
−2.273
0.02304


rs647645
Imputed
C
GEN
430




8.278
0.01594


rs647645
Imputed
C
REC
430
0.4895
0.2484
0.3008
0.7965
−2.876
0.00403


rs6495554
Imputed
C
GEN
431




6.084
0.04773


rs6495554
Imputed
C
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs6495555
Imputed
C
GEN
431




6.084
0.04773


rs6495555
Imputed
C
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs6544728
Imputed
T
DOM
429
1.888
0.2031
1.268
2.811
3.128
0.00176


rs6550705
Imputed
C
ADD
430
1.45
0.1393
1.104
1.906
2.67
0.00759


rs6550705
Imputed
C
GEN
430




7.13
0.0283


rs6550707
Imputed
T
GEN
430




6.869
0.03224


rs658108
Imputed
A
DOM
431
1.477
0.1971
1.004
2.173
1.979
0.04785


rs6593441
Imputed
A
DOM
404
1.885
0.2414
1.175
3.026
2.627
0.00862


rs668732
Imputed
A
DOM
431
1.56
0.2218
1.01
2.409
2.004
0.04506


rs671041
Imputed
A
DOM
431
1.507
0.1971
1.024
2.217
2.08
0.03752


rs6719700
Imputed
A
ADD
412
1.583
0.1792
1.114
2.249
2.562
0.0104


rs6719700
Imputed
A
DOM
412
1.517
0.2015
1.022
2.252
2.07
0.03845


rs6722640
Imputed
T
DOM
431
0.5555
0.2033
0.373
0.8273
−2.892
0.00382


rs6743092
Imputed
T
ADD
431
1.365
0.1398
1.038
1.796
2.226
0.02603


rs6743092
Imputed
T
GEN
431




4.984
0.08273





rs6743092
Imputed
T
REC
431
1.555
0.2336
0.9841
2.458
1.891
0.05858


rs6744759
Imputed
G
REC
424
1.89
0.3377
0.9751
3.664
1.885
0.0594


rs6746170
Imputed
A
DOM
425
1.805
0.2035
1.211
2.69
2.901
0.00372


rs6759922
Imputed
A
DOM
399
0.537
0.2229
0.3469
0.8311
−2.79
0.00527


rs6769864
Imputed
T
GEN
431




7.055
0.02938


rs6773932
Imputed
C
GEN
426




5.96
0.05078


rs6774353
Imputed
A
GEN
431




7.055
0.02938


rs6781670
Imputed
C
GEN
431




7.563
0.02279


rs6786431
Imputed
A
GEN
426




5.96
0.05078


rs6789091
Imputed
T
GEN
426




5.96
0.05078


rs6791296
Imputed
T
ADD
414
0.6404
0.2337
0.4051
1.012
−1.907
0.05647


rs6792662
Imputed
G
DOM
429
1.502
0.2225
0.9712
2.324
1.829
0.06743


rs6797574
Imputed
G
GEN
426




5.96
0.05078


rs6797882
Imputed
G
GEN
426




5.96
0.05078


rs6805139
Imputed
G
DOM
428
1.519
0.2225
0.9819
2.348
1.878
0.06041


rs6806043
Imputed
C
ADD
430
1.47
0.1394
1.118
1.931
2.761
0.00577


rs6806043
Imputed
C
GEN
430




7.621
0.02214


rs6850716
Imputed
C
GEN
431




4.671
0.09677


rs6867153
Imputed
A
REC
428
0.5862
0.2628
0.3502
0.9812
−2.032
0.04213


rs687047
Imputed
C
ADD
431
0.7129
0.2248
0.4589
1.107
−1.506
0.1321


rs6871041
Imputed
G
DOM
425
0.6929
0.1978
0.4702
1.021
−1.855
0.06367


rs688358
Imputed
A
ADD
427
0.6788
0.2285
0.4338
1.062
−1.695
0.08999


rs6888012
Imputed
A
REC
428
0.5862
0.2628
0.3502
0.9812
−2.032
0.04213


rs6908481
Imputed
C
REC
428
1.658
0.2609
0.9942
2.764
1.938
0.05267


rs7032231
Imputed
A
ADD
429
1.467
0.1469
1.1
1.957
2.609
0.00908


rs7067638
Imputed
T
DOM
431
1.82
0.2397
1.138
2.911
2.498
0.01249


rs7077799
Imputed
A
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs7082163
Imputed
A
ADD
430
1.817
0.2063
1.213
2.722
2.895
0.0038


rs7082163
Imputed
A
DOM
430
1.875
0.239
1.173
2.995
2.629
0.00856


rs7089661
Imputed
C
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs7101319
Imputed
C
ADD
430
1.817
0.2063
1.213
2.722
2.895
0.0038


rs7101319
Imputed
C
DOM
430
1.875
0.239
1.173
2.995
2.629
0.00856


rs710832
Genotyped
A
GEN
431




6.307
0.0427


rs710832
Genotyped
A
REC
431
0.256
0.5608
0.0853
0.7684
−2.43
0.01511


rs7134262
Imputed
T
GEN
418




3.095
0.2128


rs7134262
Imputed
T
REC
418
1.627
0.2899
0.9217
2.871
1.679
0.09319


rs7134671
Imputed
T
GEN
428




10.66
0.00484


rs7138300
Imputed
C
ADD
429
0.7714
0.144
0.5817
1.023
−1.803
0.07146


rs7138300
Imputed
C
DOM
429
0.5986
0.2106
0.3961
0.9045
−2.436
0.01484


rs7138300
Imputed
C
GEN
429




6.21
0.04484


rs7163931
Imputed
G
GEN
431




6.084
0.04773


rs7163931
Imputed
G
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs7171486
Genotyped
G
DOM
431
0.5774
0.203
0.3878
0.8595
−2.706
0.00681


rs7172611
Imputed
G
GEN
431




6.084
0.04773


rs7172611
Imputed
G
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs7172689
Imputed
T
GEN
431




6.084
0.04773


rs7172689
Imputed
T
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs7175701
Imputed
C
GEN
431




6.07
0.04808


rs7180245
Imputed
A
GEN
431




6.084
0.04773


rs7180245
Imputed
A
REC
431
3.183
0.4709
1.265
8.011
2.459
0.01395


rs7220603
Genotyped
A
ADD
431
0.6302
0.1616
0.4591
0.865
−2.857
0.00428


rs7282518
Imputed
T
ADD
375
1.518
0.1836
1.06
2.176
2.275
0.02291


rs7283476
Imputed
T
ADD
429
0.6337
0.4061
0.2859
1.405
−1.123
0.2614


rs7283476
Imputed
T
DOM
429
0.6518
0.4222
0.2849
1.491
−1.014
0.3106


rs7295817
Imputed
C
GEN
427




1.689
0.4298


rs7298255
Imputed
A
ADD
430
0.7591
0.1447
0.5717
1.008
−1.905
0.05677


rs7298255
Imputed
A
DOM
430
0.594
0.2105
0.3932
0.8973
−2.475
0.01332


rs7305832
Imputed
C
GEN
431




3.043
0.2184


rs7305832
Imputed
C
REC
431
1.616
0.2891
0.9169
2.847
1.66
0.09694


rs7331467
Imputed
A
GEN
431




11.32
0.00349


rs7392620
Imputed
C
ADD
421
0.7494
0.1521
0.5562
1.01
−1.896
0.05801


rs742827
Imputed
A
ADD
423
1.374
0.1417
1.041
1.814
2.245
0.02479


rs742827
Imputed
A
GEN
423




5.635
0.05977


rs742827
Imputed
A
REC
423
1.393
0.2794
0.8055
2.408
1.186
0.2357


rs7446891
Imputed
G
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs7448641
Imputed
C
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7448641
Imputed
C
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7484728
Imputed
T
GEN
429




10.78
0.00456


rs7499402
Genotyped
A
ADD
431
1.39
0.2523
0.8476
2.279
1.305
0.1919


rs7529851
Imputed
A
ADD
412
0.6637
0.1466
0.498
0.8846
−2.796
0.00517


rs7529851
Imputed
A
GEN
412




7.96
0.01868


rs7573951
Imputed
G
ADD
431
0.6931
0.1457
0.521
0.9221
−2.517
0.01184


rs7599198
Imputed
T
DOM
373
0.5474
0.2267
0.351
0.8537
−2.658
0.00787


rs7600050
Imputed
C
ADD
408
1.511
0.1483
1.13
2.02
2.782
0.00541


rs7607712
Imputed
T
ADD
416
1.551
0.1747
1.101
2.185
2.513
0.01197


rs7607712
Imputed
T
DOM
416
1.544
0.2007
1.042
2.289
2.165
0.03037


rs7613492
Imputed
G
GEN
430




7.139
0.02817


rs7621663
Imputed
G
ADD
431
1.447
0.1393
1.102
1.901
2.655
0.00794


rs7621663
Imputed
G
GEN
431




7.055
0.02938


rs7621663
Imputed
G
REC
431
1.785
0.2775
1.036
3.075
2.089
0.03675


rs7626584
Imputed
G
ADD
431
0.5782
0.3624
0.2842
1.176
−1.511
0.1307


rs7684899
Imputed
C
ADD
431
0.7399
0.1691
0.5312
1.031
−1.782
0.07475


rs7684899
Imputed
C
DOM
431
0.6359
0.2028
0.4273
0.9464
−2.232
0.02564


rs7701604
Imputed
G
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7701604
Imputed
G
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7703676
Imputed
C
ADD
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7703676
Imputed
C
DOM
431
0.309
0.5694
0.1012
0.9434
−2.062
0.03918


rs7708491
Imputed
C
REC
428
0.5862
0.2628
0.3502
0.9812
−2.032
0.04213


rs7711358
Imputed
A
DOM
431
0.7035
0.1964
0.4787
1.034
−1.791
0.07336


rs7719448
Imputed
G
REC
429
0.5823
0.2627
0.348
0.9745
−2.058
0.03958


rs7724761
Imputed
T
REC
418
0.5608
0.2705
0.3301
0.953
−2.138
0.03252


rs7742476
Imputed
T
DOM
420
1.408
0.2046
0.9428
2.103
1.672
0.09449


rs7762993
Imputed
A
ADD
431
1.384
0.1852
0.963
1.99
1.756
0.07907


rs7762993
Imputed
A
DOM
431
1.506
0.206
1.006
2.255
1.987
0.04689


rs7767265
Imputed
G
ADD
423
1.375
0.168
0.9889
1.91
1.894
0.05828


rs7767265
Imputed
G
DOM
423
1.584
0.2032
1.064
2.359
2.263
0.02363


rs7768128
Imputed
G
REC
407
0.4807
0.4606
0.1949
1.186
−1.59
0.1118


rs7771264
Imputed
T
DOM
431
0.5289
0.2031
0.3552
0.7874
−3.137
0.00171


rs7773151
Genotyped
C
DOM
431
0.5304
0.202
0.357
0.7881
−3.139
0.0017


rs7773210
Genotyped
A
DOM
431
0.5304
0.202
0.357
0.7881
−3.139
0.0017


rs7808536
Imputed
G
DOM
429
1.939
0.2082
1.289
2.916
3.18
0.00147


rs7843510
Genotyped
G
DOM
431
1.603
0.203
1.077
2.386
2.323
0.02015


rs7894867
Imputed
T
DOM
430
1.833
0.2398
1.146
2.932
2.527
0.01151


rs7921834
Imputed
C
DOM
430
1.458
0.197
0.9908
2.145
1.913
0.05576


rs7939893
Imputed
C
ADD
431
0.8337
0.1482
0.6235
1.115
−1.227
0.22


rs7939893
Imputed
C
DOM
431
0.7294
0.1979
0.4949
1.075
−1.594
0.1109


rs7944513
Imputed
T
GEN
410




5.096
0.07823


rs7944513
Imputed
T
REC
410
2.257
0.4179
0.9952
5.12
1.949
0.05135


rs7949720
Imputed
G
ADD
406
0.6348
0.2219
0.4109
0.9807
−2.048
0.0406


rs7949720
Imputed
G
DOM
406
0.6285
0.2538
0.3822
1.034
−1.83
0.06728


rs7955901
Imputed
C
ADD
429
0.7576
0.1448
0.5705
1.006
−1.918
0.05515


rs7955901
Imputed
C
DOM
429
0.5886
0.2107
0.3895
0.8896
−2.516
0.01189


rs7956274
Imputed
T
ADD
429
0.7688
0.1449
0.5788
1.021
−1.815
0.06949


rs7956274
Imputed
T
DOM
429
0.6074
0.2105
0.402
0.9176
−2.369
0.01786


rs7956274
Imputed
T
GEN
429




5.764
0.05601


rs7957932
Imputed
G
ADD
429
0.7693
0.1441
0.58
1.02
−1.819
0.06884


rs7957932
Imputed
G
DOM
429
0.5936
0.2123
0.3915
0.8999
−2.457
0.01402


rs7984504
Imputed
C
GEN
431




7.984
0.01846


rs7999518
Imputed
A
REC
385
0.6295
0.2746
0.3675
1.078
−1.686
0.09185


rs8026245
Imputed
G
GEN
431




6.07
0.04808


rs8026245
Imputed
G
REC
431
2.977
0.4471
1.239
7.15
2.44
0.01469


rs8060725
Genotyped
A
ADD
431
0.7775
0.173
0.5539
1.091
−1.455
0.1456


rs8103016
Genotyped
A
ADD
431
1.589
0.1785
1.12
2.254
2.594
0.0095


rs8103016
Genotyped
A
DOM
431
1.683
0.2037
1.129
2.508
2.555
0.01061


rs8104182
Imputed
G
ADD
431
1.613
0.1788
1.136
2.289
2.672
0.00754


rs8104182
Imputed
G
DOM
431
1.716
0.204
1.151
2.56
2.648
0.00811


rs8129461
Imputed
G
ADD
429
0.6337
0.4061
0.2859
1.405
−1.123
0.2614


rs8129461
Imputed
G
DOM
429
0.6518
0.4222
0.2849
1.491
−1.014
0.3106


rs8130021
Imputed
G
ADD
429
0.6337
0.4061
0.2859
1.405
−1.123
0.2614


rs8130021
Imputed
G
DOM
429
0.6518
0.4222
0.2849
1.491
−1.014
0.3106


rs879961
Imputed
T
ADD
430
0.7316
0.1563
0.5386
0.9938
−2
0.04552


rs879961
Imputed
T
DOM
430
0.5986
0.1985
0.4057
0.8831
−2.586
0.00971


rs906353
Imputed
A
DOM
431
0.6603
0.1967
0.4491
0.9708
−2.11
0.03482


rs915491
Imputed
C
DOM
431
1.452
0.1969
0.9867
2.135
1.892
0.0585


rs915493
Imputed
T
DOM
431
1.452
0.1969
0.9867
2.135
1.892
0.0585


rs915494
Imputed
A
ADD
392
1.279
0.1636
0.9278
1.762
1.502
0.1331


rs915494
Imputed
A
DOM
392
1.409
0.207
0.9389
2.114
1.656
0.0978


rs917295
Imputed
G
DOM
429
0.6749
0.197
0.4587
0.993
−1.996
0.04596


rs9284851
Imputed
A
GEN
426




6.343
0.04195


rs9293464
Imputed
T
REC
429
0.5823
0.2627
0.348
0.9745
−2.058
0.03958


rs9295154
Genotyped
G
DOM
431
1.917
0.2188
1.249
2.943
2.974
0.00294


rs9310221
Imputed
A
DOM
389
1.407
0.2186
0.917
2.16
1.563
0.118


rs9310699
Genotyped
T
GEN
431




7.563
0.02279


rs9310700
Imputed
C
ADD
431
1.447
0.1393
1.102
1.901
2.655
0.00794


rs9310700
Imputed
C
GEN
431




7.055
0.02938


rs9310701
Imputed
G
GEN
430




6.869
0.03224


rs9310704
Imputed
G
GEN
426




6.343
0.04195


rs9319185
Imputed
C
GEN
431




7.984
0.01846


rs9319186
Imputed
T
GEN
431




7.984
0.01846


rs9327555
Imputed
T
DOM
429
0.6887
0.197
0.4682
1.013
−1.893
0.05831


rs9403367
Imputed
C
DOM
431
0.5304
0.202
0.357
0.7881
−3.139
0.0017


rs9419608
Imputed
G
REC
427
1.589
0.2251
1.022
2.47
2.059
0.03954


rs9426437
Imputed
T
DOM
426
0.6833
0.203
0.459
1.017
−1.876
0.06061


rs9454967
Imputed
G
DOM
431
2.24
0.3143
1.21
4.147
2.566
0.0103


rs9635511
Imputed
T
DOM
427
0.7034
0.2071
0.4687
1.055
−1.699
0.08928


rs966583
Imputed
A
ADD
431
0.6846
0.1496
0.5106
0.9178
−2.533
0.01131


rs966583
Imputed
A
DOM
431
0.6092
0.2075
0.4056
0.915
−2.388
0.01694


rs980263
Imputed
T
GEN
431




6.792
0.0335


rs980264
Imputed
T
GEN
431




6.792
0.0335


rs9812206
Imputed
G
ADD
431
0.4853
0.2571
0.2932
0.8033
−2.812
0.00493


rs9812206
Imputed
G
DOM
431
0.4903
0.2646
0.2919
0.8236
−2.693
0.00707


rs9813552
Imputed
G
ADD
431
0.5098
0.2537
0.3101
0.8382
−2.656
0.00792


rs9813552
Imputed
G
DOM
431
0.5166
0.2615
0.3095
0.8625
−2.526
0.01154


rs9815037
Imputed
T
ADD
430
0.4609
0.2606
0.2765
0.7681
−2.972
0.00296


rs9815037
Imputed
T
DOM
430
0.4643
0.2679
0.2746
0.7848
−2.864
0.00418


rs9819583
Imputed
T
GEN
431




7.563
0.02279


rs9825349
Imputed
A
ADD
431
0.4629
0.2606
0.2778
0.7715
−2.955
0.00312


rs9825349
Imputed
A
DOM
431
0.4664
0.2679
0.2759
0.7884
−2.847
0.00441


rs9833118
Imputed
G
ADD
419
1.479
0.1411
1.122
1.95
2.774
0.00554


rs9833118
Imputed
G
GEN
419




7.693
0.02135


rs9834217
Imputed
T
ADD
430
0.4658
0.2606
0.2795
0.7764
−2.931
0.00338


rs9834217
Imputed
T
DOM
430
0.4695
0.2679
0.2777
0.7937
−2.822
0.00477


rs9838563
Imputed
C
GEN
430




6.869
0.03224


rs9840460
Imputed
T
ADD
431
0.4629
0.2606
0.2778
0.7715
−2.955
0.00312


rs9840460
Imputed
T
DOM
431
0.4664
0.2679
0.2759
0.7884
−2.847
0.00441


rs9840756
Imputed
A
ADD
431
0.4629
0.2606
0.2778
0.7715
−2.955
0.00312


rs9840756
Imputed
A
DOM
431
0.4664
0.2679
0.2759
0.7884
−2.847
0.00441


rs9847999
Imputed
C
GEN
426




6.343
0.04195


rs9864769
Imputed
C
GEN
431




6.792
0.0335


rs9866421
Genotyped
C
REC
431
0.6994
0.2578
0.4219
1.159
−1.387
0.1655


rs987296
Imputed
T
GEN
430




7.666
0.02164


rs9881685
Imputed
A
ADD
431
0.4853
0.2571
0.2932
0.8033
−2.812
0.00493


rs9881685
Imputed
A
DOM
431
0.4903
0.2646
0.2919
0.8236
−2.693
0.00707


rs992695
Imputed
C
ADD
431
0.7364
0.156
0.5424
0.9998
−1.961
0.04987


rs992695
Imputed
C
DOM
431
0.6065
0.198
0.4114
0.894
−2.526
0.01155


rs9936999
Imputed
G
DOM
249
1.779
0.2695
1.049
3.017
2.137
0.03256










PRAVA_


PLACEBO_

PLACEBO_





PRAVA_
PLACEBO_
A1_
PRAVA_
PRAVA_
A1_
PLACEBO_
A2_



HW_
ALLELE_
ALLELE_
ALLELE_
HZ_
HET_
A2_HZ
HZ_
HET_
HZ_


SNP rs #
PVALUE
FREQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT





rs77638540
0.407
0.0348
0.02717
0.04049
0
10
174
1
18
228


rs72746987
0.01335
0.03596
0.02174
0.04656
2
4
178
1
21
225


rs10021016
0.8982
0.25174
0.28533
0.22672
17
71
96
11
90
146


rs10021016
0.8982
0.25174
0.28533
0.22672
17
71
96
11
90
146


rs10051148
0.8246
0.31903
0.29348
0.33806
19
70
95
26
115
106


rs10054055
0.9114
0.31439
0.28804
0.33401
18
70
96
25
115
107


rs10067895
0.8235
0.32151
0.29444
0.34156
19
68
93
26
114
103


rs10100725
1
0.14849
0.11957
0.17004
1
42
141
8
68
171


rs10128531
0.04404
0.17773
0.20718
0.1556
5
65
111
2
71
168


rs10181743
0.7667
0.44511
0.47727
0.42181
42
84
50
39
127
77


rs10199127
0.2788
0.277
0.32692
0.23975
14
91
77
14
89
141


rs10270624
0.8741
0.18662
0.22826
0.15496
7
70
107
7
61
174


rs1030006
0.6962
0.43387
0.47826
0.40081
45
86
53
34
130
83


rs1031811
0.909
0.30471
0.32597
0.28893
23
72
86
17
107
120


rs10430870
0.1902
0.24246
0.24457
0.24089
11
68
105
9
101
137


rs10430870
0.1902
0.24246
0.24457
0.24089
11
68
105
9
101
137


rs10469597
0.4689
0.29471
0.32941
0.26872
19
74
77
12
98
117


rs10469597
0.4689
0.29471
0.32941
0.26872
19
74
77
12
98
117


rs10478919
0.7398
0.32019
0.2962
0.33806
20
69
95
26
115
106


rs10506623
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs10506623
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs10506626
0.2655
0.39186
0.33424
0.43496
19
85
80
41
132
73


rs10506626
0.2655
0.39186
0.33424
0.43496
19
85
80
41
132
73


rs10509477
0.4158
0.29419
0.32065
0.27439
18
82
84
23
89
134


rs10517918
0.765
0.42099
0.46448
0.38797
45
80
58
32
123
86


rs10517924
0.9228
0.46512
0.49454
0.44332
48
85
50
44
131
72


rs10519362
0.1367
0.13109
0.15489
0.11336
6
45
133
5
46
196


rs10520072
1
0.31585
0.28689
0.3374
18
69
96
25
116
105


rs10737390
0.7588
0.38498
0.35714
0.40574
25
80
77
36
126
82


rs10742851
0.8969
0.2471
0.2038
0.27935
5
65
114
22
94
131


rs10743685
0.9175
0.36543
0.40217
0.33806
30
88
66
28
111
108


rs10743685
0.9175
0.36543
0.40217
0.33806
30
88
66
28
111
108


rs10749293
0.4125
0.29002
0.32065
0.26721
18
82
84
22
88
137


rs10749294
0.3324
0.27262
0.29891
0.25304
15
80
89
21
83
143


rs10753760
0.6768
0.39039
0.44253
0.35129
35
84
55
29
105
98


rs10753760
0.6768
0.39039
0.44253
0.35129
35
84
55
29
105
98


rs10772362
0.6967
0.24594
0.20652
0.2753
7
62
115
17
102
128


rs10784891
0.4895
0.42657
0.38736
0.45547
30
81
71
44
137
66


rs10784891
0.4895
0.42657
0.38736
0.45547
30
81
71
44
137
66


rs10784891
0.4895
0.42657
0.38736
0.45547
30
81
71
44
137
66


rs10787923
0.4129
0.2907
0.32065
0.26829
18
82
84
22
88
136


rs10787924
0.3324
0.27262
0.29891
0.25304
15
80
89
21
83
143


rs10787949
0.4183
0.29535
0.32337
0.27439
19
81
84
22
91
133


rs10787951
0.4183
0.29535
0.32337
0.27439
19
81
84
22
91
133


rs10787983
0.4158
0.29419
0.32065
0.27439
18
82
84
23
89
134


rs10794733
0.9124
0.33017
0.29558
0.35625
13
81
87
32
107
101


rs10818280
0.2268
0.32864
0.30055
0.34979
17
76
90
23
124
96


rs10860586
1
0.49186
0.55163
0.44715
57
89
38
47
126
73


rs10860586
1
0.49186
0.55163
0.44715
57
89
38
47
126
73


rs10870473
0.4798
0.2967
0.2439
0.34
7
26
49
11
46
43


rs10870473
0.4798
0.2967
0.2439
0.34
7
26
49
11
46
43


rs10879240
5.55E−01
0.42674
0.38859
0.45528
31
81
72
44
136
66


rs10879240
0.5549
0.42674
0.38859
0.45528
31
81
72
44
136
66


rs10879242
0.1622
0.40371
0.35598
0.43927
21
89
74
42
133
72


rs10879242
0.1622
0.40371
0.35598
0.43927
21
89
74
42
133
72


rs10879245
0.1622
0.40371
0.35598
0.43927
21
89
74
42
133
72


rs10879245
0.1622
0.40371
0.35598
0.43927
21
89
74
42
133
72


rs10879249
0.1092
0.40116
0.35054
0.43902
20
89
75
41
134
71


rs10879249
0.1092
0.40116
0.35054
0.43902
20
89
75
41
134
71


rs10886429
0.4134
0.29138
0.31967
0.27033
18
81
84
22
89
135


rs10886449
0.3355
0.27674
0.30163
0.25813
16
79
89
21
85
140


rs10886451
0.3355
0.27674
0.30163
0.25813
16
79
89
21
85
140


rs10886452
0.4183
0.29535
0.32337
0.27439
19
81
84
22
91
133


rs10886456
0.3355
0.27674
0.30163
0.25813
16
79
89
21
85
140


rs10886463
0.4176
0.29466
0.32337
0.27328
19
81
84
22
91
134


rs10886465
0.3545
0.29582
0.32337
0.2753
19
81
84
23
90
134


rs10886526
0.4158
0.29419
0.32065
0.27439
18
82
84
23
89
134


rs10922903
0.7664
0.41395
0.39946
0.4248
25
97
62
47
115
84


rs10941126
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs10941126
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs10947980
0.3433
0.28422
0.22554
0.32794
15
53
116
24
114
109


rs11059376
0.8625
0.17233
0.21023
0.14407
7
60
109
4
60
172


rs11072995
0.5795
0.22209
0.2459
0.20445
15
60
108
8
85
154


rs11072995
0.5795
0.22209
0.2459
0.20445
15
60
108
8
85
154


rs11081202
0.2973
0.29466
0.33152
0.26721
26
70
88
16
100
131


rs11081202
0.2973
0.29466
0.33152
0.26721
26
70
88
16
100
131


rs110965
0.739
0.3293
0.36782
0.30126
22
84
68
21
102
116


rs11124962
0.7696
0.20766
0.24728
0.17814
7
77
100
10
68
169


rs1116596
0.7398
0.32019
0.2962
0.33806
20
69
95
26
115
106


rs11178531
0.4337
0.43735
0.40217
0.46356
32
84
68
46
137
64


rs11178531
0.4337
0.43735
0.40217
0.46356
32
84
68
46
137
64


rs11178583
0.1092
0.40116
0.35054
0.43902
20
89
75
41
134
71


rs11178583
0.1092
0.40116
0.35054
0.43902
20
89
75
41
134
71


rs11178589
0.1086
0.40139
0.35054
0.43927
20
89
75
41
135
71


rs11178589
0.1086
0.40139
0.35054
0.43927
20
89
75
41
135
71


rs11178594
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs11178594
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs11178602
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs11178602
0.132
0.40023
0.35054
0.43725
20
89
75
41
134
72


rs11178648
0.3138
0.39559
0.34511
0.4332
21
85
78
41
132
74


rs11178648
0.3138
0.39559
0.34511
0.4332
21
85
78
41
132
74


rs11198877
0.4176
0.29466
0.32337
0.27328
19
81
84
22
91
134


rs11198942
0.4158
0.29419
0.32065
0.27439
18
82
84
23
89
134


rs11221075
0.8093
0.11385
0.09669
0.12653
2
31
148
4
54
187


rs11242020
0.7399
0.32093
0.29781
0.33806
20
69
94
26
115
106


rs11242021
1
0.31702
0.28962
0.3374
18
70
95
25
116
105


rs11242022
1
0.31659
0.28962
0.33673
18
70
95
25
115
105


rs11242023
1
0.31659
0.28962
0.33673
18
70
95
25
115
105


rs1149349
1
0.13689
0.16033
0.11943
2
55
127
6
47
194


rs1149350
0.1416
0.1814
0.22283
0.15041
9
64
111
10
54
182


rs1149350
0.1416
0.1814
0.22283
0.15041
9
64
111
10
54
182


rs11576627
0.1506
0.13817
0.16298
0.11992
7
45
129
5
49
192


rs11576627
0.1506
0.13817
0.16298
0.11992
7
45
129
5
49
192


rs11630050
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11630050
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11633024
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11633024
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11636298
0.8893
0.22274
0.25
0.20243
15
62
107
7
86
154


rs11636298
0.8893
0.22274
0.25
0.20243
15
62
107
7
86
154


rs11637363
0.893
0.23372
0.25272
0.21951
16
61
107
8
92
146


rs11637363
0.893
0.23372
0.25272
0.21951
16
61
107
8
92
146


rs11637813
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11637813
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs11638043
0.893
0.23372
0.25272
0.21951
16
61
107
8
92
146


rs11638043
0.893
0.23372
0.25272
0.21951
16
61
107
8
92
146


rs11638115
0.5795
0.22209
0.2459
0.20445
15
60
108
8
85
154


rs11638115
0.5795
0.22209
0.2459
0.20445
15
60
108
8
85
154


rs11638444
1
0.22506
0.25272
0.20445
15
63
106
7
87
153


rs11682946
1
0.19792
0.32927
0.1
3
21
17
0
11
44


rs11682946
1
0.19792
0.32927
0.1
3
21
17
0
11
44


rs11717157
0.02491
0.34535
0.39946
0.30488
34
79
71
28
94
124


rs11717157
0.02491
0.34535
0.39946
0.30488
34
79
71
28
94
124


rs11724055
0.6351
0.18794
0.1712
0.2004
5
53
126
8
83
156


rs11743355
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs11743355
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs11746806
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs11746806
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs11746959
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs11746959
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


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228


rs7295817
0.9199
0.40281
0.37912
0.42041
28
82
72
42
122
81


rs7298255
0.4311
0.42674
0.38798
0.45547
30
82
71
44
137
66


rs7298255
0.4311
0.42674
0.38798
0.45547
30
82
71
44
137
66


rs7305832
0.471
0.37355
0.3913
0.36032
30
84
70
26
126
95


rs7305832
0.471
0.37355
0.3913
0.36032
30
84
70
26
126
95


rs7331467
0.4097
0.37007
0.39674
0.3502
38
70
76
25
123
99


rs7392620
0.8266
0.33135
0.29558
0.35833
13
81
87
32
108
100


rs742827
0.1106
0.35461
0.3956
0.32365
30
84
68
31
94
116


rs742827
0.1106
0.35461
0.3956
0.32365
30
84
68
31
94
116


rs742827
0.1106
0.35461
0.3956
0.32365
30
84
68
31
94
116


rs7446891
1
0.31702
0.28962
0.3374
18
70
95
25
116
105


rs7448641
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7448641
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7484728
0.03857
0.37063
0.4235
0.3313
42
71
70
27
109
110


rs7499402
0.7458
0.08005
0.09511
0.06883
2
31
151
1
32
214


rs7529851
0.8387
0.41141
0.35593
0.45319
23
80
74
48
117
70


rs7529851
0.8387
0.41141
0.35593
0.45319
23
80
74
48
117
70


rs7573951
0.6898
0.40371
0.35598
0.43927
22
87
75
46
125
76


rs7599198
0.599
0.42895
0.37742
0.4656
23
71
61
43
117
58


rs7600050
0.6132
0.42892
0.48295
0.38793
41
88
47
31
118
83


rs7607712
0.00491
0.25962
0.30114
0.22917
11
84
81
6
98
136


rs7607712
0.00491
0.25962
0.30114
0.22917
11
84
81
6
98
136


rs7613492
0.02491
0.34535
0.39946
0.30488
34
79
71
28
94
124


rs7621663
0.02563
0.34571
0.39946
0.30567
34
79
71
28
95
124


rs7621663
0.02563
0.34571
0.39946
0.30567
34
79
71
28
95
124


rs7621663
0.02563
0.34571
0.39946
0.30567
34
79
71
28
95
124


rs7626584
1
0.04524
0.03261
0.05466
0
12
172
0
27
220


rs7684899
0.8902
0.2239
0.19565
0.24494
10
52
122
12
97
138


rs7684899
0.8902
0.2239
0.19565
0.24494
10
52
122
12
97
138


rs7701604
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7701604
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7703676
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7703676
1
0.0232
0.01087
0.03239
0
4
180
0
16
231


rs7708491
0.3793
0.44509
0.42896
0.45714
26
105
52
54
116
75


rs7711358
0.7398
0.32019
0.2962
0.33806
20
69
95
26
115
106


rs7719448
0.3789
0.44522
0.42935
0.45714
26
106
52
54
116
75


rs7724761
0.4268
0.439
0.42179
0.45188
24
103
52
52
112
75


rs7742476
0.6585
0.20952
0.23333
0.19167
9
66
105
11
70
159


rs7762993
0.2535
0.18097
0.20652
0.16194
4
68
112
6
68
173


rs7762993
0.2535
0.18097
0.20652
0.16194
4
68
112
6
68
173


rs7767265
0.6667
0.21513
0.24586
0.19215
9
71
101
12
69
161


rs7767265
0.6667
0.21513
0.24586
0.19215
9
71
101
12
69
161


rs7768128
0.4044
0.23219
0.21637
0.24364
7
60
104
18
79
139


rs7771264
0.1775
0.23318
0.19022
0.26518
7
56
121
11
109
127


rs7773151
0.1465
0.24014
0.20109
0.26923
9
56
119
10
113
124


rs7773210
0.1465
0.24014
0.20109
0.26923
9
56
119
10
113
124


rs7808536
1
0.18531
0.22951
0.15244
7
70
106
7
61
178


rs7843510
0.6081
0.37471
0.4375
0.32794
38
85
61
25
112
110


rs7894867
0.03174
0.11744
0.15574
0.08907
8
41
134
3
38
206


rs7921834
0.4158
0.29419
0.32065
0.27439
18
82
84
23
89
134


rs7939893
0.6712
0.34455
0.32337
0.36032
21
77
86
28
122
97


rs7939893
0.6712
0.34455
0.32337
0.36032
21
77
86
28
122
97


rs7944513
0.8957
0.25
0.28902
0.22152
16
68
89
10
85
142


rs7944513
0.8957
0.25
0.28902
0.22152
16
68
89
10
85
142


rs7949720
0.09887
0.12192
0.09281
0.14226
2
27
138
8
52
179


rs7949720
0.09887
0.12192
0.09281
0.14226
2
27
138
8
52
179


rs7955901
0.4895
0.42657
0.38736
0.45547
30
81
71
44
137
66


rs7955901
0.4895
0.42657
0.38736
0.45547
30
81
71
44
137
66


rs7956274
0.3761
0.42541
0.38859
0.45306
30
83
71
43
136
66


rs7956274
0.3761
0.42541
0.38859
0.45306
30
83
71
43
136
66


rs7956274
0.3761
0.42541
0.38859
0.45306
30
83
71
43
136
66


rs7957932
0.4321
0.4359
0.39946
0.46327
32
83
69
45
137
63


rs7957932
0.4321
0.4359
0.39946
0.46327
32
83
69
45
137
63


rs7984504
0.5855
0.32831
0.3587
0.30567
30
72
82
19
113
115


rs7999518
0.305
0.45065
0.42857
0.46652
24
90
47
49
111
64


rs8026245
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs8026245
0.7883
0.23202
0.25272
0.2166
16
61
107
8
91
148


rs8060725
0.774
0.21346
0.19022
0.23077
4
62
118
14
86
147


rs8103016
0.4503
0.19722
0.23641
0.16802
8
71
105
6
71
170


rs8103016
0.4503
0.19722
0.23641
0.16802
8
71
105
6
71
170


rs8104182
0.5407
0.19606
0.23641
0.16599
8
71
105
6
70
171


rs8104182
0.5407
0.19606
0.23641
0.16599
8
71
105
6
70
171


rs8129461
0.3657
0.03263
0.02459
0.03862
0
9
174
1
17
228


rs8129461
0.3657
0.03263
0.02459
0.03862
0
9
174
1
17
228


rs8130021
0.3657
0.03263
0.02459
0.03862
0
9
174
1
17
228


rs8130021
0.3657
0.03263
0.02459
0.03862
0
9
174
1
17
228


rs879961
0.5449
0.27442
0.2377
0.30162
15
57
111
20
109
118


rs879961
0.5449
0.27442
0.2377
0.30162
15
57
111
20
109
118


rs906353
0.6452
0.29698
0.26902
0.31781
18
63
103
22
113
112


rs915491
0.3349
0.2761
0.30163
0.25709
16
79
89
21
85
141


rs915493
0.3349
0.2761
0.30163
0.25709
16
79
89
21
85
141


rs915494
0.5983
0.25765
0.28485
0.23789
13
68
84
15
78
134


rs915494
0.5983
0.25765
0.28485
0.23789
13
68
84
15
78
134


rs917295
1
0.31585
0.28689
0.3374
18
69
96
25
116
105


rs9284851
0.03262
0.34859
0.39946
0.30992
34
79
71
28
94
120


rs9293464
0.3789
0.44522
0.42935
0.45714
26
106
52
54
116
75


rs9295154
0.274
0.15777
0.19022
0.1336
5
60
119
9
48
190


rs9310221
1
0.40746
0.41768
0.4
23
91
50
41
98
86


rs9310699
0.04132
0.34107
0.39674
0.2996
33
80
71
27
94
126


rs9310700
0.02563
0.34571
0.39946
0.30567
34
79
71
28
95
124


rs9310700
0.02563
0.34571
0.39946
0.30567
34
79
71
28
95
124


rs9310701
0.03283
0.34651
0.39946
0.30691
34
79
71
28
95
123


rs9310704
0.03262
0.34859
0.39946
0.30992
34
79
71
28
94
120


rs9319185
0.5855
0.32831
0.3587
0.30567
30
72
82
19
113
115


rs9319186
0.5855
0.32831
0.3587
0.30567
30
72
82
19
113
115


rs9327555
1
0.31702
0.28962
0.3374
18
70
95
25
116
105


rs9403367
0.1465
0.24014
0.20109
0.26923
9
56
119
10
113
124


rs9419608
0.08119
0.48595
0.51381
0.46545
55
76
50
55
119
72


rs9426437
0.7588
0.38498
0.35714
0.40574
25
80
77
36
126
82


rs9454967
0.1777
0.05916
0.08152
0.04251
1
28
155
2
17
228


rs9635511
0.108
0.40281
0.38525
0.41598
28
85
70
33
137
74


rs966583
0.1622
0.40371
0.35326
0.4413
21
88
75
42
134
71


rs966583
0.1622
0.40371
0.35326
0.4413
21
88
75
42
134
71


rs980263
0.0334
0.34687
0.39946
0.30769
34
79
71
28
96
123


rs980264
0.0334
0.34687
0.39946
0.30769
34
79
71
28
96
123


rs9812206
0.7864
0.09977
0.06793
0.12348
0
25
159
3
55
189


rs9812206
0.7864
0.09977
0.06793
0.12348
0
25
159
3
55
189


rs9813552
0.6016
0.10093
0.07065
0.12348
0
26
158
3
55
189


rs9813552
0.6016
0.10093
0.07065
0.12348
0
26
158
3
55
189


rs9815037
0.785
0.09884
0.06522
0.12398
0
24
160
3
55
188


rs9815037
0.785
0.09884
0.06522
0.12398
0
24
160
3
55
188


rs9819583
0.04132
0.34107
0.39674
0.2996
33
80
71
27
94
126


rs9825349
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9825349
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9833118
0.02381
0.34964
0.4073
0.30705
34
77
67
28
92
121


rs9833118
0.02381
0.34964
0.4073
0.30705
34
77
67
28
92
121


rs9834217
0.785
0.09884
0.06557
0.12348
0
24
159
3
55
189


rs9834217
0.785
0.09884
0.06557
0.12348
0
24
159
3
55
189


rs9838563
0.03283
0.34651
0.39946
0.30691
34
79
71
28
95
123


rs9840460
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9840460
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9840756
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9840756
0.7849
0.09861
0.06522
0.12348
0
24
160
3
55
189


rs9847999
0.03262
0.34859
0.39946
0.30992
34
79
71
28
94
120


rs9864769
0.0334
0.34687
0.39946
0.30769
34
79
71
28
96
123


rs9866421
0.8452
0.43387
0.44022
0.42915
29
104
51
51
110
86


rs987296
0.03184
0.3407
0.39674
0.29878
33
80
71
27
93
126


rs9881685
0.7864
0.09977
0.06793
0.12348
0
25
159
3
55
189


rs9881685
0.7864
0.09977
0.06793
0.12348
0
25
159
3
55
189


rs992695
0.5472
0.27494
0.23913
0.30162
15
58
111
20
109
118


rs992695
0.5472
0.27494
0.23913
0.30162
15
58
111
20
109
118


rs9936999
0.6862
0.37349
0.42991
0.33099
18
56
33
15
64
63


























TABLE 16







ALLELE










SNP rs #
SOURCE
(A1)
MODEL
NMISS
OR
SE
L95
U95
STAT
P

























rs77638540
Genotyped
T
DOM
443
0.3879
0.3691
0.1881
0.7996
−2.566
0.0103


rs72746987
Genotyped
A
DOM
443
1.033
0.3495
0.5209
2.05
0.09422
0.9249


rs10021016
Genotyped
G
GEN
443




6.477
0.03922


rs10021016
Genotyped
G
REC
443
2.482
0.3826
1.172
5.253
2.375
0.01753


rs10051148
Imputed
C
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187


rs10054055
Imputed
T
DOM
440
0.5872
0.2006
0.3963
0.8702
−2.653
0.007974


rs10067895
Imputed
A
DOM
440
0.577
0.2025
0.388
0.8581
−2.716
0.006612


rs10100725
Imputed
C
DOM
443
1.055
0.2111
0.6977
1.596
0.2549
0.7988


rs10128531
Imputed
T
ADD
415
1.662
0.2062
1.11
2.49
2.465
0.0137


rs10181743
Imputed
G
ADD
417
1.137
0.1442
0.8575
1.509
0.8934
0.3716


rs10199127
Imputed
T
DOM
431
1.032
0.2018
0.6945
1.532
0.1537
0.8779


rs10270624
Imputed
G
DOM
409
1.374
0.2138
0.904
2.09
1.488
0.1368


rs1030006
Imputed
G
REC
434
0.87
0.2356
0.5483
1.381
−0.591
0.5545


rs1031811
Imputed
A
REC
434
2.698
0.3294
1.415
5.145
3.013
0.002589


rs10430870
Genotyped
G
GEN
443




8.277
0.01594


rs10430870
Genotyped
G
REC
443
3.43
0.4334
1.467
8.021
2.84E+00
0.004451


rs10469597
Imputed
A
GEN
411




2.673
0.2627


rs10469597
Imputed
A
REC
411
1.249
0.4024
0.5677
2.749
0.5528
0.5804


rs10478919
Imputed
G
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs10506623
Imputed
C
ADD
442
0.7806
0.1427
0.5901
1.033
−1.735
0.08266


rs10506623
Imputed
C
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051


rs10506626
Imputed
A
ADD
443
0.7544
0.1415
0.5717
0.9954
−1.992
0.04634


rs10506626
Imputed
A
DOM
443
0.6807
0.2015
0.4586
1.01
−1.909
0.05621


rs10509477
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131


rs10517918
Imputed
G
REC
433
0.972
0.2598
0.5841
1.618
−0.1092
0.9131


rs10517924
Imputed
A
REC
442
1.079
0.2382
0.6766
1.721
0.3198
0.7491


rs10519362
Imputed
G
DOM
434
1.656
0.2162
1.084
2.529
2.333
0.01967


rs10520072
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs10737390
Imputed
T
DOM
418
1.128
0.213
0.7431
1.712
0.5659
0.5715


rs10742851
Imputed
T
REC
443
1.673
0.3727
0.8057
3.473
1.38
0.1675


rs10743685
Imputed
G
GEN
435




1.895
0.3878


rs10743685
Imputed
G
REC
435
1.446
0.2691
0.8531
2.45
1.37
0.1708


rs10749293
Imputed
G
DOM
441
1.442
0.1947
0.9847
2.113
1.881
0.05998


rs10749294
Imputed
A
DOM
443
1.341
0.1934
0.9176
1.959
1.516
0.1296


rs10753760
Imputed
T
ADD
423
0.9252
0.1361
0.7085
1.208
−0.5713
0.5678


rs10753760
Imputed
T
GEN
423




0.3766
0.8284


rs10772362
Imputed
T
ADD
443
0.8356
0.1722
0.5962
1.171
−1.043
0.297


rs10784891
Imputed
C
ADD
422
0.7472
0.1404
0.5675
0.9839
−2.076
0.03794


rs10784891
Imputed
C
DOM
422
0.7374
0.2125
0.4862
1.118
−1.433
0.1518


rs10784891
Imputed
C
GEN
422




4.661
0.09727


rs10787923
Imputed
G
DOM
439
1.448
0.1952
0.9878
2.123
1.897
0.05785


rs10787924
Imputed
T
DOM
443
1.341
0.1934
0.9176
1.959
1.516
0.1296


rs10787949
Imputed
A
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272


rs10787951
Imputed
G
DOM
441
1.349
0.1976
0.9157
1.987
1.514
0.1299


rs10787983
Imputed
C
DOM
441
1.351
0.1964
0.9194
1.986
1.532
0.1255


rs10794733
Imputed
C
ADD
439
0.6594
0.1519
0.4896
0.888
−2.742
0.006112


rs10818280
Imputed
C
DOM
432
0.6208
0.201
0.4186
0.9206
−2.371
0.01772


rs10860586
Imputed
A
ADD
431
0.9019
0.1389
0.6869
1.184
−0.7436
0.4571


rs10860586
Imputed
A
GEN
431




0.568
0.7528


rs10870473
Imputed
A
ADD
177
1.273
0.2526
0.7757
2.088
0.9544
0.3399


rs10870473
Imputed
A
DOM
177
1.887
0.3386
0.9717
3.664
1.875
0.06077


rs10879240
Imputed
C
ADD
428
0.7296
0.1403
0.5542
0.9605
−2.247
0.02462


rs10879240
Imputed
C
GEN
428




5.7
0.05785


rs10879242
Imputed
A
ADD
421
0.7715
0.1445
0.5812
1.024
−1.795
0.07269


rs10879242
Imputed
A
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001


rs10879245
Imputed
G
ADD
421
0.7715
0.1445
0.5812
1.024
−1.795
0.07269


rs10879245
Imputed
G
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001


rs10879249
Imputed
T
ADD
440
0.7823
0.1427
0.5914
1.035
−1.72
0.08541


rs10879249
Imputed
T
DOM
440
0.7247
0.2038
0.486
1.081
−1.58
0.1141


rs10886429
Imputed
A
DOM
441
1.296
0.1967
0.8811
1.905
1.316
0.1881


rs10886449
Imputed
G
DOM
440
1.337
0.1968
0.9089
1.966
1.475
0.1403


rs10886451
Imputed
G
DOM
440
1.337
0.1968
0.9089
1.966
1.475
0.1403


rs10886452
Imputed
A
DOM
440
1.376
0.1972
0.9349
2.025
1.619
0.1055


rs10886456
Imputed
G
DOM
440
1.337
0.1968
0.9089
1.966
1.475
0.1403


rs10886463
Imputed
C
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272


rs10886465
Imputed
A
DOM
441
1.355
0.1976
0.9197
1.995
1.536
0.1245


rs10886526
Imputed
C
DOM
439
1.364
0.197
0.9275
2.007
1.578
0.1146


rs10922903
Imputed
C
REC
440
0.9678
0.2533
0.5891
1.59
−0.1294
0.897


rs10941126
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs10941126
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs10947980
Imputed
G
ADD
439
1.004
0.1592
0.7347
1.371
0.0233
0.9814


rs11059376
Imputed
T
ADD
401
1.086
0.1953
0.7409
1.593
0.424
0.6716


rs11072995
Imputed
T
GEN
439




3.28
0.194


rs11072995
Imputed
T
REC
439
2.198
0.4614
0.8897
5.43
1.707
0.08787


rs11081202
Genotyped
G
GEN
443




8.643
0.01328


rs11081202
Genotyped
G
REC
443
3.218
0.3982
1.475
7.022
2.935
0.003332


rs110965
Imputed
C
GEN
420




11.84
0.002689


rs11124962
Imputed
A
DOM
437
1.26
0.1969
0.8568
1.854
1.175
0.2401


rs1116596
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs11178531
Imputed
A
ADD
439
0.7197
0.1371
0.5501
0.9416
−2.399
0.01643


rs11178531
Imputed
A
DOM
439
0.6936
0.2116
0.4581
1.05
−1.729
0.08386


rs11178583
Imputed
A
ADD
443
0.7883
0.1424
0.5963
1.042
−1.671
0.09473


rs11178583
Imputed
A
DOM
443
0.7338
0.2032
0.4927
1.093
−1.523
0.1277


rs11178589
Imputed
T
ADD
437
0.7796
0.1432
0.5888
1.032
−1.739
0.08199


rs11178589
Imputed
T
DOM
437
0.7215
0.2047
0.4831
1.078
−1.595
0.1108


rs11178594
Imputed
C
ADD
441
0.7716
0.1422
0.584
1.02
−1.824
0.06814


rs11178594
Imputed
C
DOM
441
0.7044
0.202
0.4741
1.046
−1.735
0.08274


rs11178602
Imputed
T
ADD
439
0.7699
0.1424
0.5824
1.018
−1.836
0.06634


rs11178602
Imputed
T
DOM
439
0.7005
0.2027
0.4709
1.042
−1.757
0.079


rs11178648
Imputed
T
ADD
440
0.754
0.1419
0.5709
0.9958
−1.99
0.04664


rs11178648
Imputed
T
DOM
440
0.6786
0.2027
0.4561
1.01
−1.912
0.05581


rs11198877
Imputed
T
DOM
441
1.369
0.1971
0.9302
2.014
1.593
0.1113


rs11198942
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131


rs11221075
Imputed
A
ADD
417
0.4912
0.2448
0.304
0.7936
−2.904
0.003685


rs11242020
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs11242021
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs11242022
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs11242023
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs1149349
Imputed
T
DOM
434
1.154
0.221
0.7482
1.779
0.6474
0.5174


rs1149350
Imputed
A
ADD
443
0.7733
0.1679
0.5564
1.075
−1.531
0.1258


rs1149350
Imputed
A
DOM
443
0.8901
0.2092
0.5906
1.341
−0.5566
0.5778


rs11576627
Imputed
T
ADD
441
1.439
0.1975
0.977
2.119
1.842
0.06547


rs11576627
Imputed
T
DOM
441
1.57
0.2354
0.9899
2.491
1.917
0.05525


rs11630050
Imputed
G
GEN
442




2.296
0.3173


rs11630050
Imputed
G
REC
442
1.888
0.4309
0.8114
4.394
1.475
0.1402


rs11633024
Imputed
C
GEN
442




2.296
0.3173


rs11633024
Imputed
C
REC
442
1.888
0.4309
0.8114
4.394
1.475
0.1402


rs11636298
Imputed
G
GEN
443




2.593
0.2734


rs11636298
Imputed
G
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs11637363
Imputed
C
GEN
420




2.573
0.2762


rs11637363
Imputed
C
REC
420
1.982
0.4368
0.842
4.666
1.566
0.1173


rs11637813
Imputed
A
GEN
442




2.296
0.3173


rs11637813
Imputed
A
REC
442
1.888
0.4309
0.8114
4.394
1.475
0.1402


rs11638043
Imputed
C
GEN
420




2.573
0.2762


rs11638043
Imputed
C
REC
420
1.982
0.4368
0.842
4.666
1.566
0.1173


rs11638115
Imputed
A
GEN
439




3.28
0.194


rs11638115
Imputed
A
REC
439
2.198
0.4614
0.8897
5.43
1.707
0.08787


rs11638444
Imputed
C
GEN
442




2.07
0.3552


rs11682946
Imputed
A
ADD
86
3.591
0.6209
1.063
12.13
2.059
0.03949


rs11682946
Imputed
A
DOM
86
3.591
0.6209
1.063
12.13
2.059
0.03949


rs11717157
Imputed
T
ADD
442
1.051
0.1481
0.786
1.405
0.3342
0.7382


rs11717157
Imputed
T
GEN
442




0.8899
0.6408


rs11724055
Imputed
A
DOM
443
0.5373
0.2207
0.3486
0.828
−2.816
0.004869


rs11743355
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs11743355
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs11746806
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs11746806
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs11746959
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs11746959
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs11749272
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs11839636
Imputed
C
GEN
441




0.9349
0.6266


rs11839785
Imputed
C
GEN
441




0.9349
0.6266


rs11853619
Imputed
C
GEN
440




2.44
0.2953


rs11853619
Imputed
C
REC
440
1.946
0.4474
0.8098
4.677
1.488
0.1367


rs11856780
Imputed
A
GEN
440




2.44
0.2953


rs11856780
Imputed
A
REC
440
1.946
0.4474
0.8098
4.677
1.488
0.1367


rs11901899
Imputed
A
DOM
426
1.452
0.1995
0.9821
2.147
1.869
0.06157


rs11903290
Imputed
C
REC
434
2.698
0.3294
1.415
5.145
3.013
0.002589


rs11909480
Imputed
G
ADD
439
0.4305
0.3702
0.2084
0.8894
−2.277
0.02282


rs11909480
Imputed
G
DOM
439
0.3714
0.3963
0.1708
0.8077
−2.499
0.01246


rs11910289
Imputed
T
ADD
440
1.815
0.2555
1.1
2.995
2.334
0.01959


rs11910289
Imputed
T
DOM
440
1.911
0.2846
1.094
3.339
2.276
0.02285


rs11920375
Genotyped
C
GEN
443




1.788
0.4089


rs11926319
Imputed
G
DOM
443
1.007
0.269
0.5945
1.706
0.02639
0.9789


rs11933744
Imputed
T
REC
440
0.8701
0.3394
0.4473
1.692
−0.4099
0.6819


rs11934919
Imputed
C
REC
441
0.8636
0.341
0.4426
1.685
−0.43
0.6672


rs11934957
Imputed
C
REC
441
0.8636
0.341
0.4426
1.685
−0.43
0.6672


rs11959206
Imputed
A
REC
434
1.201
0.2381
0.7533
1.916
0.7701
0.4412


rs12038613
Imputed
C
REC
404
0.8998
0.2554
0.5454
1.484
−0.4136
0.6791


rs12151417
Imputed
T
DOM
442
1.517
0.199
1.027
2.241
2.095
0.03616


rs12153185
Imputed
T
DOM
441
0.5728
0.2023
0.3853
0.8516
−2.754
0.005893


rs12182651
Imputed
T
DOM
441
0.9744
0.2621
0.583
1.629
−0.09893
0.9212


rs12235345
Imputed
C
DOM
443
1.768
0.3192
0.9457
3.305
1.785
0.07424


rs12324786
Imputed
T
GEN
439




3.28
0.194


rs12324786
Imputed
T
REC
439
2.198
0.4614
0.8897
5.43
1.707
0.08787


rs12336958
Imputed
G
DOM
407
0.7989
0.209
0.5304
1.203
−1.074
0.2826


rs12407412
Imputed
C
ADD
441
1.439
0.1975
0.977
2.119
1.842
0.06547


rs12407412
Imputed
C
DOM
441
1.57
0.2354
0.9899
2.491
1.917
0.05525


rs12418971
Imputed
C
GEN
436




8.323
0.01558


rs12418971
Imputed
C
REC
436
3.381
0.4338
1.445
7.911
2.808
0.004979


rs1241967
Imputed
T
REC
443
0.6598
0.3096
0.3596
1.211
−1.343
0.1794


rs12420184
Imputed
G
DOM
438
1.429
0.2168
0.9343
2.185
1.647
0.09966


rs12433968
Imputed
T
DOM
419
1.059
0.1998
0.7158
1.566
0.2862
0.7747


rs12445477
Imputed
A
DOM
427
0.7231
0.2709
0.4252
1.23
−1.197
0.2315


rs12447191
Genotyped
T
ADD
443
0.7641
0.1931
0.5233
1.116
−1.393
0.1636


rs12447191
Genotyped
T
DOM
443
0.6902
0.216
0.452
1.054
−1.716
0.08611


rs12465349
Imputed
A
REC
434
1.865
0.2195
1.213
2.867
2.839
0.004525


rs1247340
Imputed
C
ADD
441
0.7681
0.1723
0.548
1.077
−1.531
0.1257


rs1247340
Imputed
C
DOM
441
0.9041
0.2098
0.5993
1.364
−0.4802
0.6311


rs1247341
Imputed
C
ADD
441
0.7805
0.1735
0.5555
1.097
−1.428
0.1532


rs1247341
Imputed
C
DOM
441
0.919
0.2102
0.6087
1.387
−0.4021
0.6876


rs1247343
Imputed
C
DOM
441
1.064
0.2203
0.6907
1.638
0.2798
0.7797


rs12509758
Imputed
C
DOM
436
1.34
0.2022
0.9013
1.991
1.446
0.1481


rs12515472
Imputed
A
DOM
443
1.913
0.2164
1.252
2.923
2.997
0.002728


rs12548906
Imputed
G
ADD
415
1.763
0.1813
1.236
2.516
3.128
0.00176


rs12596240
Imputed
G
DOM
443
0.9009
0.205
0.6028
1.346
−0.509
0.6107


rs12618781
Imputed
A
DOM
440
1.082
0.2178
0.7061
1.658
0.3618
0.7175


rs12678600
Imputed
A
DOM
439
0.7992
0.198
0.5421
1.178
−1.132
0.2575


rs12692229
Imputed
T
ADD
443
1.608
0.1488
1.202
2.153
3.194
0.001404


rs12713324
Imputed
T
DOM
443
1.501
0.1987
1.017
2.215
2.043
0.04105


rs12719415
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs12820589
Imputed
G
ADD
418
0.882
0.1789
0.6212
1.252
−0.7022
0.4826


rs12820589
Imputed
G
DOM
418
0.926
0.2078
0.6162
1.392
−0.3697
0.7116


rs12831292
Imputed
G
ADD
436
0.7739
0.1429
0.5848
1.024
−1.794
0.0728


rs12831292
Imputed
G
DOM
436
0.7047
0.2039
0.4725
1.051
−1.716
0.08609


rs13012636
Imputed
G
REC
433
2.717
0.3295
1.424
5.183
3.034
0.002417


rs13038146
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs13038146
Imputed
C
GEN
443




6.692
0.03523


rs13038146
Imputed
C
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs13089860
Imputed
A
DOM
364
0.5987
0.2307
0.3809
0.941
−2.224
0.02617


rs13102419
Imputed
T
REC
439
1.104
0.2389
0.6915
1.764
0.4158
0.6775


rs13194907
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367


rs13194907
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923


rs13195745
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367


rs13195745
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923


rs13265054
Imputed
T
DOM
434
0.7541
0.1998
0.5098
1.116
−1.413
0.1577


rs13273002
Imputed
A
GEN
443




0.08764
0.9571


rs13282131
Imputed
C
ADD
440
1.295
0.1396
0.9848
1.702
1.85
0.06426


rs13282131
Imputed
C
GEN
440




6.641
0.03614


rs13282131
Imputed
C
REC
440
1.884
0.247
1.161
3.057
2.564
0.01034


rs1330052
Imputed
G
GEN
443




1.596
0.4502


rs1335721
Imputed
A
REC
406
0.8982
0.2552
0.5447
1.481
−0.4207
0.674


rs1336382
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131


rs1336383
Imputed
T
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131


rs1336407
Imputed
T
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs1336409
Imputed
T
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs1336596
Imputed
A
DOM
440
0.9849
0.205
0.659
1.472
−0.07439
0.9407


rs13387284
Imputed
A
DOM
408
1.094
0.2214
0.7089
1.689
0.4062
0.6846


rs13401462
Imputed
C
DOM
417
0.8697
0.2292
0.555
1.363
−0.609
0.5425


rs13409045
Imputed
T
ADD
442
1.009
0.1374
0.7712
1.321
0.06836
0.9455


rs1349284
Imputed
C
GEN
443




0.308
0.8573


rs1355715
Imputed
T
ADD
442
0.6617
0.3179
0.3549
1.234
−1.299
0.1939


rs1357696
Imputed
A
GEN
434




2.08
0.3535


rs1357698
Imputed
A
GEN
436




1.977
0.3722


rs1357699
Imputed
T
GEN
436




1.977
0.3722


rs1363273
Imputed
C
REC
421
0.9417
0.2317
0.598
1.483
−0.2592
0.7955


rs1373601
Imputed
A
DOM
404
0.9323
0.2122
0.6151
1.413
−0.3303
0.7412


rs1375829
Imputed
C
GEN
443




0.308
0.8573


rs1395748
Imputed
G
DOM
441
1.231
0.195
0.8402
1.804
1.067
0.2859


rs1414865
Imputed
T
DOM
442
1.352
0.1976
0.9177
1.991
1.525
0.1272


rs1414873
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs1414876
Imputed
C
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs1424643
Imputed
G
ADD
430
1.447
0.1648
1.048
1.999
2.244
0.02486


rs1424643
Imputed
G
DOM
430
1.694
0.2023
1.14
2.518
2.606
0.009171


rs1424648
Imputed
T
DOM
438
1.609
0.2007
1.085
2.384
2.368
0.01786


rs1429321
Imputed
A
DOM
432
1.519
0.2006
1.025
2.251
2.084
0.03713


rs1429326
Imputed
T
ADD
433
1.404
0.1719
1.003
1.967
1.975
0.04831


rs1429326
Imputed
T
DOM
433
1.574
0.2049
1.053
2.352
2.213
0.02687


rs1444741
Imputed
A
DOM
407
0.9777
0.2088
0.6493
1.472
−0.1082
0.9138


rs1449916
Imputed
C
DOM
270
0.7246
0.2903
0.4102
1.28
−1.11
0.2671


rs1459523
Imputed
A
ADD
442
1.051
0.1481
0.786
1.405
0.3342
0.7382


rs1459523
Imputed
A
GEN
442




0.8899
0.6408


rs1466352
Imputed
T
GEN
443




1.33
0.5142


rs1466353
Imputed
G
GEN
443




1.33
0.5142


rs1476714
Imputed
A
DOM
439
0.5924
0.2025
0.3983
0.8811
−2.585
0.009742


rs1486723
Imputed
C
REC
434
0.5711
0.3144
0.3084
1.058
−1.782
0.07477


rs1495375
Imputed
A
ADD
421
0.7715
0.1445
0.5812
1.024
−1.795
0.07269


rs1495375
Imputed
A
DOM
421
0.7102
0.2081
0.4724
1.068
−1.644
0.1001


rs1495381
Imputed
T
GEN
442




7.762
0.02063


rs1495381
Imputed
T
REC
442
2.08
0.2834
1.194
3.626
2.584
0.009753


rs1498061
Imputed
C
ADD
200
0.6227
0.2741
0.3639
1.066
−1.728
0.084


rs1498992
Imputed
G
DOM
428
0.7274
0.1999
0.4916
1.076
−1.592
0.1114


rs1499001
Imputed
T
DOM
437
0.7573
0.1974
0.5144
1.115
−1.409
0.159


rs1512988
Imputed
A
ADD
442
0.7806
0.1427
0.5901
1.033
−1.735
0.08266


rs1512988
Imputed
A
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051


rs1512989
Imputed
T
ADD
442
0.7806
0.1427
0.5901
1.033
−1.735
0.08266


rs1512989
Imputed
T
DOM
442
0.7185
0.204
0.4817
1.072
−1.621
0.1051


rs1512991
Imputed
T
ADD
425
0.7106
0.1399
0.5401
0.9348
−2.442
0.01462


rs1512991
Imputed
T
DOM
425
0.6965
0.2131
0.4587
1.057
−1.698
0.08957


rs1512991
Imputed
T
GEN
425




6.384
0.0411


rs1524303
Imputed
T
GEN
436




1.005
0.6051


rs1524306
Imputed
C
ADD
441
1.05
0.1481
0.7851
1.403
0.3265
0.744


rs1524306
Imputed
C
GEN
441




0.8672
0.6482


rs1524310
Imputed
G
ADD
438
1.063
0.1488
0.7944
1.424
0.4133
0.6794


rs1524310
Imputed
G
GEN
438




0.7768
0.6781


rs1524321
Imputed
C
GEN
441




1.192
0.5511


rs1527059
Imputed
A
DOM
441
0.4524
0.2645
0.2693
0.7598
−2.999
0.002712


rs152707
Imputed
A
ADD
443
1.066
0.1385
0.8128
1.399
0.4637
0.6429


rs152707
Imputed
A
GEN
443




0.2887
0.8656


rs152712
Genotyped
C
ADD
443
1.066
0.1385
0.8128
1.399
0.4637
0.6429


rs152712
Genotyped
C
GEN
443




0.2887
0.8656


rs1533994
Imputed
T
GEN
443




1.33
0.5142


rs1535866
Imputed
G
DOM
440
1.405
0.2003
0.9487
2.081
1.697
0.08971


rs1563773
Imputed
T
GEN
439




1.172
0.5564


rs1563774
Imputed
T
GEN
439




1.172
0.5564


rs1567740
Imputed
T
ADD
439
0.7805
0.1427
0.59
1.032
−1.736
0.08253


rs1567740
Imputed
T
DOM
439
0.7204
0.2038
0.4831
1.074
−1.609
0.1076


rs1572573
Imputed
A
DOM
396
1.019
0.2128
0.6715
1.546
0.08849
0.9295


rs1577497
Imputed
C
REC
408
0.899
0.2549
0.5455
1.481
−0.418
0.676


rs1581514
Imputed
T
ADD
429
1.06
0.1488
0.7919
1.419
0.3912
0.6957


rs1581514
Imputed
T
GEN
429




1.004
0.6052


rs1582321
Imputed
T
DOM
443
0.9009
0.205
0.6028
1.346
−0.509
0.6107


rs1582322
Imputed
A
DOM
438
0.8697
0.2066
0.5801
1.304
−0.6757
0.4992


rs1582323
Imputed
A
DOM
437
0.8751
0.2067
0.5836
1.312
−0.6457
0.5185


rs1592485
Imputed
C
DOM
443
0.8723
0.2093
0.5787
1.315
−0.653
0.5138


rs1600954
Imputed
T
ADD
423
1.193
0.1389
0.909
1.567
1.273
0.203


rs1600954
Imputed
T
GEN
423




1.735
0.4199


rs16938626
Imputed
G
DOM
435
0.7689
0.1982
0.5213
1.134
−1.326
0.1849


rs16964300
Imputed
G
ADD
439
0.7656
0.1898
0.5278
1.111
−1.407
0.1593


rs16964300
Imputed
G
DOM
439
0.6717
0.2145
0.4411
1.023
−1.855
0.06358


rs16986282
Imputed
G
DOM
442
0.3565
0.3985
0.1632
0.7784
−2.589
0.009634


rs17007620
Imputed
G
ADD
408
1.033
0.1717
0.7377
1.446
0.1877
0.8511


rs17007620
Imputed
G
DOM
408
1.127
0.206
0.7523
1.687
0.5784
0.563


rs17014326
Imputed
G
DOM
441
1.215
0.196
0.8276
1.785
0.9949
0.3198


rs17047957
Imputed
C
DOM
439
1.801
0.2129
1.187
2.734
2.765
0.005699


rs1705261
Imputed
A
REC
442
2.005
0.2767
1.166
3.449
2.514
0.01192


rs17073341
Imputed
A
ADD
441
2.051
0.3685
0.9962
4.224
1.95
0.05123


rs17073341
Imputed
A
DOM
441
2.316
0.4002
1.057
5.074
2.098
0.03591


rs17138702
Imputed
G
ADD
443
1.127
0.1808
0.7906
1.606
0.6601
0.5092


rs17189710
Imputed
T
ADD
430
1.382
0.1457
1.039
1.839
2.22
0.02639


rs17189710
Imputed
T
GEN
430




6.752
0.03418


rs17189710
Imputed
T
REC
430
2.127
0.2957
1.192
3.797
2.553
0.01069


rs17310176
Imputed
T
ADD
443
0.6446
0.1904
0.4438
0.9362
−2.306
0.02109


rs17310176
Imputed
T
DOM
443
0.6022
0.2152
0.395
0.9182
−2.357
0.01845


rs17358860
Imputed
A
DOM
416
0.5513
0.2173
0.3601
0.844
−2.74
0.006139


rs17370541
Imputed
T
GEN
397




0.1403
0.9322


rs17370541
Imputed
T
REC
397
1.119
0.3013
0.62
2.02
0.3735
0.7088


rs17526574
Imputed
G
GEN
443




0.4224
0.8096


rs17530747
Imputed
T
DOM
374
1.033
0.2172
0.6751
1.582
0.1511
0.8799


rs17649114
Imputed
C
DOM
440
1.776
0.2066
1.185
2.663
2.781
0.00542


rs17766172
Imputed
A
REC
428
0.5776
0.3128
0.3129
1.066
−1.755
0.07928


rs1818885
Imputed
G
GEN
443




0.8065
0.6682


rs1832222
Imputed
G
DOM
443
1.344
0.1965
0.9144
1.975
1.504
0.1325


rs1861327
Imputed
G
DOM
433
0.8914
0.2099
0.5908
1.345
−0.5476
0.584


rs1868581
Imputed
G
ADD
436
1.033
0.1486
0.7722
1.383
0.2208
0.8253


rs1868581
Imputed
G
GEN
436




0.5916
0.7439


rs1874313
Imputed
A
ADD
443
0.7883
0.1424
0.5963
1.042
−1.671
0.09473


rs1874313
Imputed
A
DOM
443
0.7338
0.2032
0.4927
1.093
−1.523
0.1277


rs1876409
Imputed
C
DOM
443
1.204
0.1943
0.8227
1.762
0.9553
0.3394


rs1913201
Imputed
G
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572


rs1913201
Imputed
G
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546


rs1913201
Imputed
G
GEN
432




6.276
0.04338


rs1916922
Imputed
T
GEN
435




0.5208
0.7707


rs1936871
Genotyped
G
DOM
443
0.7975
0.2097
0.5287
1.203
−1.079
0.2807


rs1961157
Imputed
T
REC
442
1.145
0.2401
0.7152
1.833
0.5643
0.5725


rs1987179
Imputed
T
ADD
417
0.617
0.1957
0.4205
0.9055
−2.467
0.01361


rs1987179
Imputed
T
DOM
417
0.5176
0.2237
0.3339
0.8024
−2.944
0.00324


rs1990023
Imputed
T
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs1995025
Imputed
C
DOM
433
1.717
0.216
1.124
2.621
2.501
0.01238


rs2016194
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs2023651
Imputed
T
ADD
429
1.235
0.1824
0.864
1.766
1.159
0.2466


rs2024902
Imputed
A
ADD
442
1.087
0.2583
0.655
1.803
0.3216
0.7477


rs2024902
Imputed
A
DOM
442
1.157
0.2804
0.6678
2.005
0.52
0.6031


rs2025107
Imputed
A
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446


rs2025108
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446


rs2031987
Imputed
T
GEN
443




0.4224
0.8096


rs2052428
Imputed
C
DOM
427
0.7089
0.2176
0.4628
1.086
−1.581
0.1138


rs2053230
Imputed
C
ADD
391
0.8193
0.2084
0.5446
1.233
−0.9565
0.3388


rs2062448
Imputed
T
DOM
442
0.913
0.2688
0.5391
1.546
−0.3387
0.7348


rs2063420
Imputed
C
REC
442
0.8647
0.2574
0.5221
1.432
−0.5649
0.5721


rs2063591
Imputed
C
ADD
441
0.7255
0.1363
0.5554
0.9478
−2.353
0.01861


rs2063591
Imputed
C
DOM
441
0.6936
0.2125
0.4573
1.052
−1.722
0.08515


rs208026
Genotyped
A
DOM
443
1.559
0.1973
1.059
2.295
2.25
0.02446


rs208029
Imputed
T
DOM
422
1.924
0.2083
1.279
2.894
3.142
0.001679


rs208757
Imputed
G
DOM
435
1.858
0.2057
1.241
2.78
3.011
0.002601


rs2095586
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs2095606
Imputed
A
DOM
436
0.9481
0.2038
0.6359
1.414
−0.2614
0.7938


rs2102374
Imputed
A
ADD
437
1.135
0.1587
0.8318
1.549
0.7991
0.4242


rs2102374
Imputed
A
DOM
437
1.187
0.1949
0.8099
1.739
0.8784
0.3797


rs2108426
Imputed
C
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs2110664
Imputed
A
DOM
399
1.47
0.2058
0.9818
2.2
1.871
0.06136


rs2132242
Imputed
A
ADD
440
0.7679
0.1423
0.5811
1.015
−1.856
0.06344


rs2132242
Imputed
A
DOM
440
0.6978
0.2022
0.4695
1.037
−1.78
0.07505


rs2158958
Imputed
A
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs2158961
Imputed
G
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187


rs2163046
Imputed
A
DOM
436
1.529
0.2
1.033
2.263
2.124
0.03363


rs2180286
Imputed
G
DOM
443
0.587
0.2201
0.3813
0.9037
−2.42
0.01553


rs2180684
Imputed
A
DOM
433
1.876
0.2393
1.174
2.999
2.629
0.00857


rs2188079
Imputed
C
ADD
443
1.028
0.1399
0.7818
1.353
0.2006
0.841


rs2188079
Imputed
C
GEN
443




1.2
0.5489


rs2190598
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs2190600
Imputed
A
DOM
440
0.577
0.2025
0.388
0.8581
−2.716
0.006612


rs2224184
Genotyped
T
DOM
443
0.587
0.2201
0.3813
0.9037
−2.42
0.01553


rs2247066
Imputed
A
DOM
441
1.231
0.195
0.8402
1.804
1.067
0.2859


rs2248236
Imputed
C
ADD
443
0.6625
0.1753
0.4699
0.9342
−2.348
0.01888


rs2248236
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.002602


rs2265733
Imputed
C
ADD
437
1.135
0.1587
0.8318
1.549
0.7991
0.4242


rs2265733
Imputed
C
DOM
437
1.187
0.1949
0.8099
1.739
0.8784
0.3797


rs2270584
Imputed
A
ADD
441
0.7517
0.1419
0.5692
0.9927
−2.011
0.04429


rs2270584
Imputed
A
DOM
441
0.6747
0.2026
0.4536
1.004
−1.942
0.05211


rs2270586
Imputed
A
ADD
442
0.7586
0.1416
0.5748
1.001
−1.952
0.05099


rs2270586
Imputed
A
DOM
442
0.6883
0.2018
0.4634
1.022
−1.851
0.06423


rs229775
Imputed
A
REC
443
0.6598
0.3096
0.3596
1.211
−1.343
0.1794


rs229815
Imputed
T
REC
432
0.6306
0.295
0.3537
1.124
−1.563
0.1181


rs229829
Imputed
C
REC
413
0.5855
0.2981
0.3264
1.05
−1.795
0.07258


rs229831
Imputed
A
REC
441
0.6194
0.315
0.3341
1.148
−1.521
0.1283


rs2317057
Imputed
T
ADD
368
0.5936
0.1943
0.4056
0.8687
−2.685
0.007256


rs2322100
Genotyped
T
REC
443
2.61
0.3935
1.207
5.644
2.438
0.01477


rs2322101
Imputed
A
REC
440
2.67
0.3944
1.233
5.784
2.491
0.01275


rs2327929
Imputed
G
REC
441
1.411
0.2475
0.8684
2.291
1.39
0.1645


rs2332844
Imputed
A
ADD
282
1.301
0.2435
0.807
2.096
1.079
0.2804


rs2332844
Imputed
A
REC
282
1.427
0.2711
0.8386
2.427
1.311
0.19


rs2349170
Imputed
G
DOM
443
1.414
0.198
0.9594
2.085
1.751
0.07997


rs2356722
Imputed
G
DOM
443
1.255
0.1956
0.8553
1.841
1.161
0.2457


rs2364956
Imputed
T
ADD
415
1.168
0.1854
0.8122
1.68
0.838
0.402


rs2373793
Imputed
G
ADD
435
1.56
0.1996
1.055
2.307
2.227
0.02596


rs2373793
Imputed
G
DOM
435
1.599
0.2233
1.032
2.477
2.103
0.03546


rs238252
Imputed
G
ADD
434
1.155
0.2029
0.7763
1.72
0.712
0.4765


rs238252
Imputed
G
DOM
434
1.191
0.2236
0.7681
1.846
0.7803
0.4352


rs2383903
Imputed
G
DOM
443
0.7568
0.1968
0.5146
1.113
−1.416
0.1569


rs2387945
Imputed
G
DOM
436
1.747
0.2151
1.146
2.663
2.593
0.009513


rs2389863
Imputed
A
DOM
432
0.5655
0.2068
0.377
0.8481
−2.756
0.005845


rs2389866
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.002602


rs2389869
Imputed
C
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.002602


rs2389870
Genotyped
C
DOM
443
0.5285
0.2176
0.345
0.8096
−2.931
0.003382


rs2418494
Imputed
G
ADD
423
0.6959
0.1462
0.5225
0.9268
−2.48
0.01314


rs2418494
Imputed
G
GEN
423




6.342
0.04195


rs2418541
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs2418542
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs2423556
Imputed
C
DOM
433
0.5931
0.2244
0.382
0.9206
−2.328
0.01989


rs2437688
Imputed
C
ADD
443
2.041
0.2367
1.284
3.247
3.014
0.002576


rs2456809
Imputed
G
DOM
438
1.173
0.1954
0.7998
1.721
0.8168
0.414


rs2456811
Imputed
T
ADD
436
1.146
0.1589
0.8394
1.565
0.8588
0.3905


rs2456811
Imputed
T
DOM
436
1.202
0.1953
0.8198
1.763
0.9425
0.346


rs2476976
Imputed
C
DOM
442
1.391
0.1963
0.9466
2.044
1.68
0.09288


rs2484911
Imputed
A
DOM
443
1.347
0.1959
0.9174
1.977
1.52
0.1285


rs2488557
Imputed
C
DOM
431
0.924
0.2286
0.5904
1.446
−0.3457
0.7296


rs250162
Imputed
C
ADD
429
0.6714
0.1771
0.4745
0.9501
−2.249
0.02451


rs250162
Imputed
C
DOM
429
0.6417
0.2018
0.4321
0.953
−2.199
0.02791


rs2560708
Imputed
T
ADD
436
0.7416
0.1846
0.5164
1.065
−1.619
0.1054


rs2617841
Imputed
G
DOM
412
0.7326
0.2034
0.4917
1.092
−1.53
0.1261


rs2622499
Imputed
G
DOM
443
0.5404
0.2044
0.362
0.8067
−3.011
0.002602


rs264129
Imputed
T
DOM
443
0.6399
0.1948
0.4368
0.9373
−2.293
0.02187


rs2642936
Imputed
T
ADD
428
0.9768
0.1833
0.682
1.399
−0.1281
0.8981


rs2660633
Imputed
A
DOM
443
1.204
0.1943
0.8227
1.762
0.9553
0.3394


rs2660634
Imputed
C
DOM
443
1.204
0.1943
0.8227
1.762
0.9553
0.3394


rs2660648
Imputed
A
ADD
437
1.135
0.1587
0.8318
1.549
0.7991
0.4242


rs2660648
Imputed
A
DOM
437
1.187
0.1949
0.8099
1.739
0.8784
0.3797


rs2681505
Imputed
T
ADD
443
0.8499
0.1719
0.6068
1.19
−0.9458
0.3442


rs277411
Imputed
G
DOM
442
1.109
0.3436
0.5658
2.175
0.3022
0.7625


rs2832634
Imputed
G
ADD
442
1.764
0.2529
1.075
2.896
2.245
0.02478


rs2832637
Imputed
T
ADD
442
1.764
0.2529
1.075
2.896
2.245
0.02478


rs2843167
Imputed
A
DOM
442
1.111
0.1972
0.7547
1.635
0.5327
0.5943


rs2876227
Imputed
C
ADD
442
1.389
0.1445
1.046
1.843
2.272
0.02309


rs2876227
Imputed
C
GEN
442




6.593
0.03701


rs2882097
Imputed
A
DOM
443
1.364
0.1959
0.9291
2.003
1.584
0.1131


rs2909862
Imputed
G
DOM
416
1.083
0.2178
0.7067
1.659
0.3656
0.7146


rs3001945
Imputed
T
DOM
435
1.72
0.2156
1.127
2.625
2.515
0.0119


rs3011020
Imputed
C
DOM
436
1.747
0.2151
1.146
2.663
2.593
0.009513


rs36071725
Genotyped
C
ADD
443
0.9696
0.1509
0.7214
1.303
−0.2047
0.8378


rs36071725
Genotyped
C
GEN
443




0.6419
0.7255


rs373983
Imputed
G
DOM
414
1.954
0.2168
1.277
2.988
3.089
0.002005


rs3743794
Imputed
G
DOM
434
0.8871
0.2078
0.5903
1.333
−0.5765
0.5643


rs3756154
Imputed
C
ADD
416
0.6137
0.1939
0.4196
0.8975
−2.518
0.01182


rs3756154
Imputed
C
DOM
416
0.5162
0.2209
0.3348
0.7959
−2.993
0.00276


rs3775850
Imputed
A
DOM
443
0.5373
0.2207
0.3486
0.828
−2.816
0.004869


rs3775851
Imputed
C
DOM
443
0.5373
0.2207
0.3486
0.828
−2.816
0.004869


rs3793044
Imputed
C
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367


rs3793044
Imputed
C
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923


rs3793053
Imputed
C
DOM
436
0.9919
0.2675
0.5872
1.676
−0.03035
0.9758


rs3796246
Imputed
G
DOM
442
0.9829
0.2682
0.5811
1.663
−0.06425
0.9488


rs3806003
Imputed
A
ADD
443
1.091
0.2583
0.6574
1.81
0.3362
0.7367


rs3806003
Imputed
A
DOM
443
1.162
0.2804
0.6707
2.013
0.5355
0.5923


rs3806004
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446


rs3806010
Imputed
T
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446


rs3806014
Imputed
T
DOM
430
1.002
0.2658
0.5954
1.688
0.00889
0.9929


rs3806015
Imputed
A
DOM
426
0.9945
0.2663
0.5902
1.676
−0.02059
0.9836


rs3806018
Imputed
A
DOM
442
0.982
0.2619
0.5877
1.641
−0.06944
0.9446


rs3806019
Imputed
A
DOM
438
0.9676
0.2625
0.5784
1.619
−0.1255
0.9001


rs3806024
Imputed
T
DOM
442
1.001
0.2605
0.601
1.669
0.00521
0.9958


rs3915080
Imputed
A
GEN
436




1.977
0.3722


rs3942254
Imputed
T
ADD
420
0.7577
0.1442
0.5712
1.005
−1.925
0.05425


rs3942254
Imputed
T
DOM
420
0.6591
0.2081
0.4383
0.991
−2.004
0.04512


rs3945085
Imputed
A
DOM
441
1.324
0.1969
0.9003
1.948
1.427
0.1537


rs3976737
Imputed
G
ADD
377
1.239
0.1939
0.8469
1.811
1.103
0.27


rs399485
Imputed
A
DOM
437
1.648
0.1968
1.12
2.423
2.538
0.01116


rs4029119
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs4029119
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs4076201
Imputed
G
GEN
420




2.573
0.2762


rs4076201
Imputed
G
REC
420
1.982
0.4368
0.842
4.666
1.566
0.1173


rs41395945
Imputed
G
ADD
441
1.822
0.2555
1.104
3.006
2.348
0.01887


rs41395945
Imputed
G
DOM
441
1.919
0.2846
1.099
3.352
2.29
0.022


rs4146972
Genotyped
T
DOM
443
1.832
0.2123
1.208
2.777
2.851
0.004361


rs4238087
Imputed
G
DOM
402
0.5579
0.251
0.3411
0.9125
−2.325
0.02009


rs4251569
Imputed
T
ADD
441
0.645
0.2176
0.4211
0.9882
−2.015
0.04394


rs4251569
Imputed
T
DOM
441
0.5571
0.243
0.346
0.897
−2.407
0.01607


rs4273613
Imputed
T
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs4273613
Imputed
T
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs4291049
Imputed
T
REC
432
1.16
0.2386
0.727
1.852
0.6237
0.5328


rs4315598
Imputed
T
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs4315598
Imputed
T
GEN
443




6.692
0.03523


rs4315598
Imputed
T
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs4321395
Imputed
A
DOM
408
1.094
0.2214
0.7089
1.689
0.4062
0.6846


rs4321596
Genotyped
T
REC
443
2.583
0.4532
1.063
6.278
2.094
0.03627


rs4324417
Imputed
T
DOM
443
1.061
0.217
0.6932
1.623
0.2716
0.7859


rs4328619
Genotyped
G
DOM
443
0.5613
0.2195
0.365
0.8631
−2.631
0.008525


rs4338909
Imputed
T
ADD
440
0.998
0.1323
0.7701
1.293
−0.01507
0.988


rs4370878
Imputed
G
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682


rs4379434
Genotyped
T
DOM
443
0.9929
0.2031
0.6669
1.478
−0.03512
0.972


rs4416407
Imputed
T
DOM
437
1.387
0.2325
0.8796
2.188
1.408
0.1591


rs4417899
Imputed
C
REC
437
0.7208
0.2325
0.457
1.137
−1.408
0.1591


rs4442732
Imputed
A
ADD
335
0.9155
0.1782
0.6456
1.298
−0.4952
0.6205


rs4444612
Imputed
G
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs4444612
Imputed
G
GEN
443




6.692
0.03523


rs4444612
Imputed
G
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs4450660
Imputed
C
DOM
438
1.275
0.1965
0.8675
1.874
1.236
0.2163


rs4509702
Imputed
C
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682


rs4526920
Imputed
G
GEN
443




0.4224
0.8096


rs4533145
Imputed
T
DOM
441
1.764
0.2281
1.128
2.759
2.489
0.0128


rs4557006
Imputed
A
DOM
401
1.096
0.2227
0.7085
1.696
0.4124
0.6801


rs4570530
Imputed
C
DOM
440
1.312
0.1971
0.8916
1.931
1.378
0.1682


rs4615971
Imputed
C
DOM
440
1.347
0.1965
0.9164
1.98
1.516
0.1296


rs4628119
Imputed
A
DOM
442
1.055
0.1992
0.7139
1.559
0.268
0.7887


rs4664443
Imputed
G
ADD
442
1.009
0.1374
0.7712
1.321
0.06836
0.9455


rs4688259
Imputed
T
DOM
438
1.386
0.2325
0.8791
2.187
1.405
0.1599


rs4688632
Imputed
G
REC
429
0.6822
0.2335
0.4316
1.078
−1.638
0.1014


rs4695284
Imputed
A
ADD
194
1.444
0.3862
0.6775
3.079
0.9518
0.3412


rs4700302
Imputed
A
ADD
399
1.136
0.2485
0.6982
1.85
0.5147
0.6067


rs4702720
Imputed
A
ADD
359
0.757
0.1808
0.5311
1.079
−1.54
0.1236


rs4702720
Imputed
A
DOM
359
0.6462
0.2205
0.4194
0.9956
−1.98
0.04769


rs4711091
Genotyped
G
GEN
443




1.334
0.5133


rs4714484
Imputed
A
ADD
439
0.8396
0.1992
0.5682
1.241
−0.8775
0.3802


rs4736802
Imputed
G
DOM
442
0.9844
0.2032
0.661
1.466
−0.07725
0.9384


rs4760785
Imputed
A
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572


rs4760785
Imputed
A
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546


rs4760785
Imputed
A
GEN
432




6.276
0.04338


rs4760894
Imputed
T
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572


rs4760894
Imputed
T
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546


rs4760894
Imputed
T
GEN
432




6.276
0.04338


rs4760895
Imputed
A
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572


rs4760895
Imputed
A
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546


rs4760895
Imputed
A
GEN
432




6.276
0.04338


rs4764738
Imputed
A
ADD
430
0.9549
0.142
0.723
1.261
−0.3248
0.7454


rs4764738
Imputed
A
GEN
430




0.6545
0.7209


rs4764974
Imputed
T
ADD
431
0.9019
0.1389
0.6869
1.184
−0.7436
0.4571


rs4764974
Imputed
T
GEN
431




0.568
0.7528


rs4798366
Imputed
G
REC
429
2.754
0.3596
1.361
5.574
2.817
0.004844


rs483159
Imputed
T
DOM
386
1.953
0.219
1.271
2.999
3.056
0.002245


rs4836502
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs4836507
Imputed
C
DOM
442
0.5803
0.2019
0.3906
0.862
−2.696
0.007028


rs4836744
Imputed
A
ADD
443
0.7176
0.155
0.5296
0.9724
−2.141
0.03229


rs4836744
Imputed
A
DOM
443
0.6515
0.1952
0.4444
0.9552
−2.195
0.02818


rs4848944
Genotyped
C
REC
443
0.7027
0.2417
0.4375
1.128
−1.46
0.1443


rs4851529
Imputed
A
DOM
442
0.6342
0.203
0.426
0.944
−2.244
0.02485


rs4851531
Imputed
T
DOM
442
0.6071
0.2055
0.4058
0.9082
−2.428
0.01517


rs4858046
Genotyped
T
GEN
443




1.33
0.5142


rs4878214
Imputed
A
ADD
261
0.7554
0.1893
0.5212
1.095
−1.481
0.1385


rs4880803
Imputed
A
ADD
439
0.6594
0.1519
0.4896
0.888
−2.742
0.006112


rs489441
Imputed
G
ADD
409
1.224
0.1644
0.8866
1.689
1.228
0.2195


rs489441
Imputed
G
DOM
409
1.384
0.2043
0.9276
2.066
1.592
0.1114


rs4896568
Imputed
T
DOM
410
1.056
0.2054
0.7057
1.579
0.2631
0.7925


rs4938851
Imputed
T
DOM
443
1.781
0.2035
1.195
2.654
2.835
0.004584


rs4964416
Imputed
C
DOM
443
0.6905
0.2178
0.4506
1.058
−1.701
0.08902


rs5756669
Imputed
C
DOM
443
1.061
0.217
0.6932
1.623
0.2716
0.7859


rs6033138
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs6033138
Imputed
C
GEN
443




6.692
0.03523


rs6033138
Imputed
C
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs6040619
Imputed
C
ADD
439
1.429
0.1436
1.079
1.894
2.487
0.01287


rs6040619
Imputed
C
GEN
439




7.276
0.02631


rs6040619
Imputed
C
REC
439
2.094
0.2899
1.186
3.695
2.549
0.01081


rs6040625
Imputed
T
ADD
442
1.414
0.1431
1.068
1.871
2.419
0.01557


rs6040625
Imputed
T
GEN
442




6.967
0.0307


rs6040625
Imputed
T
REC
442
2.067
0.2898
1.171
3.646
2.505
0.01224


rs6040630
Imputed
A
ADD
441
1.401
0.1436
1.058
1.857
2.349
0.01881


rs6040630
Imputed
A
GEN
441




6.767
0.03392


rs6040630
Imputed
A
REC
441
2.062
0.2897
1.168
3.637
2.497
0.01252


rs6040633
Imputed
A
ADD
442
1.391
0.1433
1.05
1.842
2.302
0.02133


rs6040633
Imputed
A
GEN
442




6.683
0.03539


rs6040633
Imputed
A
REC
442
2.063
0.2897
1.169
3.641
2.5
0.01242


rs6040634
Imputed
T
ADD
441
1.404
0.1433
1.06
1.859
2.368
0.01791


rs6040634
Imputed
T
GEN
441




6.855
0.03246


rs6040634
Imputed
T
REC
441
2.069
0.2898
1.173
3.652
2.509
0.0121


rs6040636
Imputed
T
ADD
443
1.371
0.1435
1.034
1.816
2.196
0.0281


rs6040636
Imputed
T
GEN
443




6.529
0.03821


rs6040636
Imputed
T
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs6040638
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs6040638
Imputed
C
GEN
443




6.692
0.03523


rs6040638
Imputed
C
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs6040644
Imputed
A
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs6040644
Imputed
A
GEN
443




6.692
0.03523


rs6040644
Imputed
A
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs6040667
Imputed
T
ADD
424
1.422
0.1447
1.071
1.888
2.432
0.01502


rs6040667
Imputed
T
GEN
424




7.201
0.02731


rs6040667
Imputed
T
REC
424
2.108
0.2894
1.195
3.717
2.576
0.009982


rs6040668
Imputed
C
ADD
440
1.398
0.1448
1.053
1.857
2.314
0.02064


rs6040668
Imputed
C
GEN
440




6.796
0.03345


rs6040668
Imputed
C
REC
440
2.097
0.2944
1.178
3.735
2.516
0.01186


rs6043066
Genotyped
G
DOM
443
1.485
0.2038
0.9963
2.215
1.942
0.05215


rs6048146
Imputed
G
DOM
443
2.548
0.4417
1.072
6.055
2.117
0.03423


rs6082725
Genotyped
T
DOM
443
2.548
0.4417
1.072
6.055
2.117
0.03423


rs6131206
Imputed
C
ADD
424
1.493
0.1554
1.101
2.025
2.581
0.009855


rs6131208
Imputed
T
ADD
440
1.387
0.1445
1.045
1.841
2.263
0.02364


rs6131208
Imputed
T
GEN
440




6.748
0.03426


rs6131208
Imputed
T
REC
440
2.109
0.2945
1.184
3.756
2.534
0.01129


rs6134243
Imputed
C
ADD
443
1.389
0.1433
1.049
1.839
2.291
0.02197


rs6134243
Imputed
C
GEN
443




6.692
0.03523


rs6134243
Imputed
C
REC
443
2.069
0.2898
1.172
3.65
2.508
0.01214


rs6136020
Imputed
A
DOM
441
1.061
0.2134
0.6982
1.612
0.2765
0.7822


rs613799
Imputed
C
DOM
420
1.391
0.2013
0.9378
2.065
1.641
0.1008


rs644041
Imputed
G
ADD
402
1.202
0.1659
0.8685
1.664
1.111
0.2667


rs644041
Imputed
G
DOM
402
1.351
0.2068
0.9007
2.026
1.454
0.1459


rs647645
Imputed
C
ADD
441
0.9195
0.1447
0.6925
1.221
−0.5801
0.5619


rs647645
Imputed
C
GEN
441




2.764
0.2511


rs647645
Imputed
C
REC
441
1.143
0.2499
0.7005
1.866
0.5357
0.5922


rs6495554
Imputed
C
GEN
443




2.593
0.2734


rs6495554
Imputed
C
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs6495555
Imputed
C
GEN
443




2.593
0.2734


rs6495555
Imputed
C
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs6544728
Imputed
T
DOM
439
1.333
0.197
0.9058
1.961
1.458
0.1448


rs6550705
Imputed
C
ADD
443
1.048
0.1481
0.7837
1.401
0.3148
0.7529


rs6550705
Imputed
C
GEN
443




0.8065
0.6682


rs6550707
Imputed
T
GEN
442




1.263
0.5317


rs658108
Imputed
A
DOM
443
1.347
0.1959
0.9174
1.977
1.52
0.1285


rs6593441
Imputed
A
DOM
412
1.402
0.2318
0.89
2.208
1.457
0.1451


rs668732
Imputed
A
DOM
442
0.9925
0.2194
0.6457
1.526
−0.0343
0.9726


rs671041
Imputed
A
DOM
443
1.347
0.1959
0.9174
1.977
1.52
0.1285


rs6719700
Imputed
A
ADD
434
1.378
0.1747
0.9785
1.941
1.836
0.06643


rs6719700
Imputed
A
DOM
434
1.551
0.207
1.034
2.327
2.121
0.03391


rs6722640
Imputed
T
DOM
441
0.5987
0.207
0.399
0.8983
−2.478
0.01322


rs6743092
Imputed
T
ADD
434
1.239
0.1411
0.9401
1.634
1.522
0.128


rs6743092
Imputed
T
GEN
434




9.618
0.008155


rs6743092
Imputed
T
REC
434
1.9
0.2284
1.214
2.973
2.809
0.004962


rs6744759
Imputed
G
REC
436
2.691
0.3293
1.411
5.132
3.006
0.002648


rs6746170
Imputed
A
DOM
442
1.346
0.196
0.9168
1.977
1.517
0.1293


rs6759922
Imputed
A
DOM
408
1.094
0.2214
0.7089
1.689
0.4062
0.6846


rs6769864
Imputed
T
GEN
436




1.045
0.5932


rs6773932
Imputed
C
GEN
436




1.977
0.3722


rs6774353
Imputed
A
GEN
443




0.8065
0.6682


rs6781670
Imputed
C
GEN
443




0.308
0.8573


rs6786431
Imputed
A
GEN
436




1.977
0.3722


rs6789091
Imputed
T
GEN
436




1.977
0.3722


rs6791296
Imputed
T
ADD
426
0.6456
0.2242
0.416
1.002
−1.952
0.05092


rs6792662
Imputed
G
DOM
434
1.389
0.2326
0.8802
2.191
1.411
0.1581


rs6797574
Imputed
G
GEN
436




1.977
0.3722


rs6797882
Imputed
G
GEN
436




1.977
0.3722


rs6805139
Imputed
G
DOM
442
1.417
0.2237
0.9138
2.197
1.557
0.1194


rs6806043
Imputed
C
ADD
441
1.05
0.1481
0.7851
1.403
0.3265
0.744


rs6806043
Imputed
C
GEN
441




0.8672
0.6482


rs6850716
Imputed
C
GEN
443




1.373
0.5034


rs6867153
Imputed
A
REC
434
1.201
0.2381
0.7533
1.916
0.7701
0.4412


rs687047
Imputed
C
ADD
443
0.5642
0.2311
0.3587
0.8876
−2.476
0.01329


rs6871041
Imputed
G
DOM
418
0.6503
0.2006
0.4389
0.9635
−2.145
0.03192


rs688358
Imputed
A
ADD
427
0.5756
0.2319
0.3653
0.9068
−2.382
0.01723


rs6888012
Imputed
A
REC
432
1.203
0.2383
0.7542
1.919
0.7764
0.4375


rs6908481
Imputed
C
REC
400
1.391
0.2704
0.8186
2.363
1.22
0.2226


rs7032231
Imputed
A
ADD
423
1.514
0.148
1.133
2.023
2.802
0.005072


rs7067638
Imputed
T
DOM
442
1.413
0.2274
0.905
2.207
1.521
0.1283


rs7077799
Imputed
A
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs7082163
Imputed
A
ADD
440
1.236
0.2162
0.809
1.888
0.9797
0.3273


rs7082163
Imputed
A
DOM
440
1.386
0.2298
0.8837
2.175
1.422
0.1551


rs7089661
Imputed
C
DOM
442
1.347
0.1964
0.9168
1.98
1.518
0.129


rs7101319
Imputed
C
ADD
431
1.259
0.2167
0.8235
1.926
1.064
0.2873


rs7101319
Imputed
C
DOM
431
1.425
0.2303
0.9076
2.239
1.539
0.1238


rs710832
Genotyped
A
GEN
443




3.803
0.1494


rs710832
Genotyped
A
REC
443
0.4518
0.4871
0.1739
1.174
−1.631
0.1029


rs7134262
Imputed
T
GEN
438




5.456
0.06536


rs7134262
Imputed
T
REC
438
1.986
0.3091
1.084
3.641
2.22
0.02641


rs7134671
Imputed
T
GEN
443




1.45
0.4843


rs7138300
Imputed
C
ADD
432
0.7137
0.1396
0.5429
0.9384
−2.415
0.01572


rs7138300
Imputed
C
DOM
432
0.7026
0.2117
0.464
1.064
−1.667
0.09546


rs7138300
Imputed
C
GEN
432




6.276
0.04338


rs7163931
Imputed
G
GEN
443




2.593
0.2734


rs7163931
Imputed
G
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs7171486
Genotyped
G
DOM
443
0.591
0.1997
0.3996
0.8741
−2.634
0.008445


rs7172611
Imputed
G
GEN
443




2.593
0.2734


rs7172611
Imputed
G
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs7172689
Imputed
T
GEN
443




2.593
0.2734


rs7172689
Imputed
T
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs7175701
Imputed
C
GEN
440




2.427
0.2972


rs7180245
Imputed
A
GEN
443




2.593
0.2734


rs7180245
Imputed
A
REC
443
1.965
0.4472
0.8177
4.72
1.51
0.1311


rs7220603
Genotyped
A
ADD
443
1.419
0.1547
1.048
1.921
2.261
0.02374


rs7282518
Imputed
T
ADD
387
1.054
0.205
0.7055
1.576
0.2585
0.796


rs7283476
Imputed
T
ADD
441
0.413
0.3729
0.1989
0.8579
−2.371
0.01774


rs7283476
Imputed
T
DOM
441
0.3545
0.3985
0.1623
0.7741
−2.602
0.009257


rs7295817
Imputed
C
GEN
424




6.629
0.03635


rs7298255
Imputed
A
ADD
443
0.7433
0.1356
0.5699
0.9696
−2.188
0.02869


rs7298255
Imputed
A
DOM
443
0.74
0.2089
0.4914
1.114
−1.442
0.1493


rs7305832
Imputed
C
GEN
442




5.607
0.06061


rs7305832
Imputed
C
REC
442
2.008
0.3089
1.096
3.678
2.256
0.02404


rs7331467
Imputed
A
GEN
443




1.596
0.4502


rs7392620
Imputed
C
ADD
437
0.6521
0.1533
0.4829
0.8807
−2.789
0.005287


rs742827
Imputed
A
ADD
437
1.396
0.145
1.051
1.855
2.3
0.02146


rs742827
Imputed
A
GEN
437




6.499
0.03879


rs742827
Imputed
A
REC
437
2.051
0.2943
1.152
3.652
2.441
0.01464


rs7446891
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs7448641
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs7448641
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs7484728
Imputed
T
GEN
443




1.45
0.4843


rs7499402
Genotyped
A
ADD
443
2.08
0.2847
1.191
3.634
2.573
0.01008


rs7529851
Imputed
A
ADD
401
0.7324
0.1517
0.544
0.986
−2.053
0.04006


rs7529851
Imputed
A
GEN
401




4.232
0.1205


rs7573951
Imputed
G
ADD
442
1.009
0.1374
0.7712
1.321
0.06836
0.9455


rs7599198
Imputed
T
DOM
371
0.9895
0.2386
0.6199
1.579
−0.04427
0.9647


rs7600050
Imputed
C
ADD
416
1.316
0.1481
0.9845
1.759
1.855
0.06365


rs7607712
Imputed
T
ADD
441
1.357
0.1708
0.9708
1.897
1.787
0.074


rs7607712
Imputed
T
DOM
441
1.496
0.2035
1.004
2.23
1.98
0.04765


rs7613492
Imputed
G
GEN
443




0.8065
0.6682


rs7621663
Imputed
G
ADD
443
1.048
0.1481
0.7837
1.401
0.3148
0.7529


rs7621663
Imputed
G
GEN
443




0.8065
0.6682


rs7621663
Imputed
G
REC
443
0.8874
0.3167
0.4771
1.651
−0.3773
0.706


rs7626584
Imputed
G
ADD
442
0.6617
0.3179
0.3549
1.234
−1.299
0.1939


rs7684899
Imputed
C
ADD
417
0.617
0.1957
0.4205
0.9055
−2.467
0.01361


rs7684899
Imputed
C
DOM
417
0.5176
0.2237
0.3339
0.8024
−2.944
0.00324


rs7701604
Imputed
G
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs7701604
Imputed
G
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs7703676
Imputed
C
ADD
443
0.9741
0.2886
0.5532
1.715
−0.09096
0.9275


rs7703676
Imputed
C
DOM
443
1.136
0.3415
0.5817
2.218
0.3732
0.709


rs7708491
Imputed
C
REC
435
1.179
0.2374
0.7405
1.878
0.6947
0.4872


rs7711358
Imputed
A
DOM
443
0.593
0.2016
0.3994
0.8804
−2.592
0.009541


rs7719448
Imputed
G
REC
436
1.235
0.2366
0.777
1.965
0.8936
0.3715


rs7724761
Imputed
T
REC
435
1.207
0.2381
0.7571
1.925
0.791
0.429


rs7742476
Imputed
T
DOM
386
1.23
0.2098
0.8155
1.856
0.988
0.3231


rs7762993
Imputed
A
ADD
431
1.066
0.1948
0.7276
1.561
0.3271
0.7436


rs7762993
Imputed
A
DOM
431
1.079
0.2057
0.7207
1.614
0.3676
0.7132


rs7767265
Imputed
G
ADD
430
1.18
0.1729
0.8411
1.656
0.9587
0.3377


rs7767265
Imputed
G
DOM
430
1.155
0.1977
0.7839
1.702
0.7283
0.4664


rs7768128
Imputed
G
REC
439
0.3066
0.5174
0.1112
0.8451
−2.285
0.0223


rs7771264
Imputed
T
DOM
441
1.051
0.1977
0.7133
1.548
0.251
0.8018


rs7773151
Genotyped
C
DOM
443
1.038
0.1992
0.7027
1.534
0.1891
0.85


rs7773210
Genotyped
A
DOM
443
1.038
0.1992
0.7027
1.534
0.1891
0.85


rs7808536
Imputed
G
DOM
409
1.374
0.2138
0.904
2.09
1.488
0.1368


rs7843510
Genotyped
G
DOM
443
0.9929
0.2031
0.6669
1.478
−0.03512
0.972


rs7894867
Imputed
T
DOM
441
1.426
0.2276
0.9129
2.228
1.559
0.1189


rs7921834
Imputed
C
DOM
440
1.347
0.1965
0.9164
1.98
1.516
0.1296


rs7939893
Imputed
C
ADD
441
0.6916
0.1478
0.5177
0.924
−2.495
0.01261


rs7939893
Imputed
C
DOM
441
0.506
0.1982
0.3431
0.7463
−3.437
0.000589


rs7944513
Imputed
T
GEN
418




4.036
0.1329


rs7944513
Imputed
T
REC
418
1.787
0.3844
0.8411
3.795
1.51
0.1311


rs7949720
Imputed
G
ADD
418
1.485
0.2216
0.9616
2.292
1.783
0.07457


rs7949720
Imputed
G
DOM
418
1.52
0.2398
0.9502
2.433
1.747
0.08065


rs7955901
Imputed
C
ADD
440
0.7285
0.1367
0.5573
0.9524
−2.316
0.02054


rs7955901
Imputed
C
DOM
440
0.7139
0.2105
0.4726
1.078
−1.601
0.1093


rs7956274
Imputed
T
ADD
426
0.7156
0.1398
0.5441
0.9412
−2.394
0.01667


rs7956274
Imputed
T
DOM
426
0.7031
0.2129
0.4633
1.067
−1.655
0.098


rs7956274
Imputed
T
GEN
426




6.165
0.04584


rs7957932
Imputed
G
ADD
439
0.7234
0.1368
0.5533
0.9459
−2.366
0.01797


rs7957932
Imputed
G
DOM
439
0.6888
0.212
0.4546
1.044
−1.758
0.07871


rs7984504
Imputed
C
GEN
443




0.4224
0.8096


rs7999518
Imputed
A
REC
423
0.4462
0.248
0.2745
0.7255
−3.254
0.001137


rs8026245
Imputed
G
GEN
442




2.296
0.3173


rs8026245
Imputed
G
REC
442
1.888
0.4309
0.8114
4.394
1.475
0.1402


rs8060725
Genotyped
A
ADD
443
0.6772
0.162
0.493
0.9303
−2.406
0.01613


rs8103016
Genotyped
A
ADD
443
1.223
0.1622
0.8901
1.681
1.242
0.2142


rs8103016
Genotyped
A
DOM
443
1.343
0.1996
0.9084
1.987
1.479
0.1391


rs8104182
Imputed
G
ADD
440
1.298
0.1657
0.9382
1.796
1.575
0.1152


rs8104182
Imputed
G
DOM
440
1.4
0.1997
0.9468
2.071
1.686
0.09175


rs8129461
Imputed
G
ADD
441
0.3726
0.3715
0.1799
0.7717
−2.657
0.007877


rs8129461
Imputed
G
DOM
441
0.3187
0.3953
0.1469
0.6915
−2.893
0.003814


rs8130021
Imputed
G
ADD
442
0.4152
0.3729
0.1999
0.8624
−2.357
0.01842


rs8130021
Imputed
G
DOM
442
0.3565
0.3985
0.1632
0.7784
−2.589
0.009634


rs879961
Imputed
T
ADD
440
1.178
0.1585
0.8634
1.607
1.033
0.3014


rs879961
Imputed
T
DOM
440
1.245
0.1948
0.8502
1.825
1.127
0.2598


rs906353
Imputed
A
DOM
434
1.22
0.1967
0.8295
1.794
1.01
0.3127


rs915491
Imputed
C
DOM
441
1.329
0.1967
0.9042
1.955
1.448
0.1476


rs915493
Imputed
T
DOM
441
1.329
0.1967
0.9042
1.955
1.448
0.1476


rs915494
Imputed
A
ADD
422
1.399
0.1473
1.048
1.868
2.281
0.02256


rs915494
Imputed
A
DOM
422
1.486
0.1999
1.004
2.199
1.982
0.0475


rs917295
Imputed
G
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs9284851
Imputed
A
GEN
436




1.977
0.3722


rs9293464
Imputed
T
REC
435
1.207
0.2381
0.7571
1.925
0.791
0.429


rs9295154
Genotyped
G
DOM
443
1.463
0.2215
0.9479
2.259
1.719
0.08569


rs9310221
Imputed
A
DOM
393
0.8966
0.2237
0.5784
1.39
−0.4881
0.6255


rs9310699
Genotyped
T
GEN
443




0.308
0.8573


rs9310700
Imputed
C
ADD
443
1.048
0.1481
0.7837
1.401
0.3148
0.7529


rs9310700
Imputed
C
GEN
443




0.8065
0.6682


rs9310701
Imputed
G
GEN
443




1.33
0.5142


rs9310704
Imputed
G
GEN
436




1.977
0.3722


rs9319185
Imputed
C
GEN
441




0.9349
0.6266


rs9319186
Imputed
T
GEN
443




0.4224
0.8096


rs9327555
Imputed
T
DOM
443
0.5934
0.2016
0.3997
0.881
−2.589
0.009637


rs9403367
Imputed
C
DOM
443
1.038
0.1992
0.7027
1.534
0.1891
0.85


rs9419608
Imputed
G
REC
430
0.5885
0.2576
0.3552
0.9749
−2.059
0.03953


rs9426437
Imputed
T
DOM
424
1.067
0.2164
0.6984
1.631
0.3009
0.7635


rs9454967
Imputed
G
DOM
441
0.9744
0.2621
0.583
1.629
−0.09893
0.9212


rs9635511
Imputed
T
DOM
436
0.8692
0.2057
0.5809
1.301
−0.6814
0.4956


rs966583
Imputed
A
ADD
439
0.7596
0.1431
0.5738
1.005
−1.922
0.05464


rs966583
Imputed
A
DOM
439
0.6781
0.203
0.4555
1.01
−1.913
0.0557


rs980263
Imputed
T
GEN
443




1.33
0.5142


rs980264
Imputed
T
GEN
443




1.33
0.5142


rs9812206
Imputed
G
ADD
442
1.042
0.2668
0.6177
1.758
0.1545
0.8772


rs9812206
Imputed
G
DOM
442
1.042
0.2668
0.6177
1.758
0.1545
0.8772


rs9813552
Imputed
G
ADD
442
1.042
0.2623
0.6235
1.743
0.1586
0.874


rs9813552
Imputed
G
DOM
442
1.077
0.2681
0.6368
1.821
0.2766
0.7821


rs9815037
Imputed
T
ADD
443
1.048
0.2622
0.6267
1.752
0.1778
0.8589


rs9815037
Imputed
T
DOM
443
1.083
0.2681
0.6401
1.831
0.2958
0.7674


rs9819583
Imputed
T
GEN
443




0.308
0.8573


rs9825349
Imputed
A
ADD
443
1.048
0.2622
0.6267
1.752
0.1778
0.8589


rs9825349
Imputed
A
DOM
443
1.083
0.2681
0.6401
1.831
0.2958
0.7674


rs9833118
Imputed
G
ADD
443
1.048
0.1481
0.7837
1.401
0.3148
0.7529


rs9833118
Imputed
G
GEN
443




0.8065
0.6682


rs9834217
Imputed
T
ADD
443
1.017
0.2611
0.6096
1.696
0.06425
0.9488


rs9834217
Imputed
T
DOM
443
1.049
0.2668
0.6218
1.77
0.179
0.858


rs9838563
Imputed
C
GEN
437




1.084
0.5817


rs9840460
Imputed
T
ADD
443
1.017
0.2611
0.6096
1.696
0.06425
0.9488


rs9840460
Imputed
T
DOM
443
1.049
0.2668
0.6218
1.77
0.179
0.858


rs9840756
Imputed
A
ADD
437
0.9995
0.2614
0.5988
1.668
−0.00192
0.9985


rs9840756
Imputed
A
DOM
437
1.031
0.2671
0.6105
1.74
0.1127
0.9103


rs9847999
Imputed
C
GEN
436




1.977
0.3722


rs9864769
Imputed
C
GEN
443




1.33
0.5142


rs9866421
Genotyped
C
REC
443
0.5895
0.2541
0.3583
0.9701
−2.08
0.03756


rs987296
Imputed
T
GEN
441




0.3297
0.848


rs9881685
Imputed
A
ADD
440
1.041
0.2668
0.6172
1.756
0.151
0.88


rs9881685
Imputed
A
DOM
440
1.041
0.2668
0.6172
1.756
0.151
0.88


rs992695
Imputed
C
ADD
442
1.16
0.158
0.8507
1.581
0.9366
0.3489


rs992695
Imputed
C
DOM
442
1.216
0.194
0.8313
1.778
1.008
0.3136


rs9936999
Imputed
G
DOM
266
0.7758
0.254
0.4716
1.276
−0.9992
0.3177








ATORVA_
PRAVA_
ATORVA_
ATORVA_
ATORVA_
PRAVA_
PRAVA_
PRAVA_



HW_
ALLELE_
ALLELE_
ALLELE_
HZ_
HET_
A2_HZ_
A1_HZ_
HET_
A2_HZ_


SNP rs #
PVALUE
FREQ
FREQ
FREQ
COUNT
COUNT
COUNT
COUNT
COUNT
COUNT





rs77638540
0.3489
0.05305
0.0314
0.0694
1
10
180
1
33
218


rs72746987
1
0.04176
0.0419
0.0417
0
16
175
0
21
231


rs10021016
0.7144
0.26298
0.2984
0.2361
20
74
97
12
95
145


rs10021016
0.7144
0.26298
0.2984
0.2361
20
74
97
12
95
145


rs10051148
0.8242
0.30813
0.2801
0.3294
20
67
104
23
120
109


rs10054055
0.3313
0.32841
0.2937
0.3546
23
65
101
29
120
102


rs10067895
0.07522
0.34886
0.3132
0.376
27
65
98
35
118
97


rs10100725
0.3323
0.17833
0.1859
0.1726
9
53
129
8
71
173


rs10128531
0.677
0.13735
0.1742
0.1097
6
50
122
3
46
188


rs10181743
0.6902
0.43046
0.4469
0.4181
35
90
54
40
119
79


rs10199127
0.3263
0.32831
0.3155
0.3381
17
84
86
34
97
113


rs10270624
0.7448
0.18582
0.2095
0.1674
8
59
112
7
63
160


rs1030006
0.7002
0.47005
0.4599
0.4777
40
92
55
58
120
69


rs1031811
0.7388
0.31567
0.361
0.2814
29
77
81
16
107
124


rs10430870
0.7024
0.24831
0.2853
0.2202
20
69
102
9
93
150


rs10430870
0.7024
0.24831
0.2853
0.2202
20
69
102
9
93
150


rs10469597
0.5359
0.27494
0.2599
0.2863
13
66
98
15
104
115


rs10469597
0.5359
0.27494
0.2599
0.2863
13
66
98
15
104
115


rs10478919
0.1134
0.34312
0.3089
0.369
26
66
99
34
118
100


rs10506623
0.6908
0.3948
0.3632
0.4187
26
86
78
45
121
86


rs10506623
0.6908
0.3948
0.3632
0.4187
26
86
78
45
121
86


rs10506626
0.5504
0.39391
0.356
0.4226
26
84
81
46
121
85


rs10506626
0.5504
0.39391
0.356
0.4226
26
84
81
46
121
85


rs10509477
0.1655
0.33409
0.3691
0.3075
29
83
79
27
101
124


rs10517918
0.4917
0.42725
0.4309
0.4245
32
98
58
43
122
80


rs10517924
1
0.46154
0.466
0.4582
42
94
55
52
126
73


rs10519362
0.5877
0.15668
0.1882
0.1331
6
58
122
6
54
188


rs10520072
0.1134
0.34312
0.3115
0.3671
27
65
99
33
119
100


rs10737390
0.3626
0.40909
0.419
0.4017
30
90
59
35
122
82


rs10742851
0.4903
0.29007
0.3037
0.2798
18
80
93
16
109
127


rs10743685
0.1663
0.41379
0.4335
0.3988
34
95
59
33
131
83


rs10743685
0.1663
0.41379
0.4335
0.3988
34
95
59
33
131
83


rs10749293
0.1901
0.322
0.3579
0.2948
26
84
80
26
96
129


rs10749294
0.2987
0.29007
0.3246
0.2639
23
78
90
19
95
138


rs10753760
0.01675
0.41844
0.4108
0.4244
36
80
69
50
102
86


rs10753760
0.01675
0.41844
0.4108
0.4244
36
80
69
50
102
86


rs10772362
0.5807
0.22122
0.2068
0.2321
7
65
119
12
93
147


rs10784891
0.4305
0.4455
0.4049
0.4769
30
89
65
58
111
69


rs10784891
0.4305
0.4455
0.4049
0.4769
30
89
65
58
111
69


rs10784891
0.4305
0.4455
0.4049
0.4769
30
89
65
58
111
69


rs10787923
0.1572
0.32232
0.359
0.2948
26
83
79
26
96
129


rs10787924
0.2987
0.29007
0.3246
0.2639
23
78
90
19
95
138


rs10787949
0.1377
0.33937
0.3717
0.3147
29
84
78
29
100
122


rs10787951
0.1364
0.339
0.3711
0.3147
29
83
78
29
100
122


rs10787983
0.1642
0.33447
0.3691
0.308
29
83
79
27
100
123


rs10794733
0.578
0.31093
0.2605
0.3494
13
73
104
32
110
107


rs10818280
0.347
0.28588
0.2433
0.3184
10
71
106
21
114
110


rs10860586
0.9232
0.5058
0.4892
0.5183
44
93
48
67
121
58


rs10860586
0.9232
0.5058
0.4892
0.5183
44
93
48
67
121
58


rs10870473
1
0.29944
0.3209
0.2864
4
35
28
12
39
59


rs10870473
1
0.29944
0.3209
0.2864
4
35
28
12
39
59


rs10879240
0.434
0.44743
0.4043
0.4813
30
92
66
60
111
69


rs10879240
0.434
0.44743
0.4043
0.4813
30
92
66
60
111
69


rs10879242
0.9197
0.40855
0.373
0.4364
26
86
73
45
116
75


rs10879242
0.9197
0.40855
0.373
0.4364
26
86
73
45
116
75


rs10879245
0.9197
0.40855
0.373
0.4364
26
86
73
45
116
75


rs10879245
0.9197
0.40855
0.373
0.4364
26
86
73
45
116
75


rs10879249
0.7662
0.39773
0.3658
0.422
26
87
77
45
121
84


rs10879249
0.7662
0.39773
0.3658
0.422
26
87
77
45
121
84


rs10886429
0.1642
0.33447
0.3665
0.31
29
82
80
27
101
122


rs10886449
0.1168
0.30795
0.3474
0.278
28
76
86
21
97
132


rs10886451
0.1168
0.30795
0.3474
0.278
28
76
86
21
97
132


rs10886452
0.1648
0.33523
0.3737
0.306
30
82
78
26
101
123


rs10886456
0.1168
0.30795
0.3474
0.278
28
76
86
21
97
132


rs10886463
0.1118
0.3405
0.3743
0.3147
30
83
78
29
100
122


rs10886465
0.1364
0.339
0.3743
0.312
30
83
78
28
100
122


rs10886526
0.2383
0.33257
0.3677
0.306
28
83
78
26
101
123


rs10922903
0.8458
0.43068
0.4418
0.4223
34
99
56
46
120
85


rs10941126
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs10941126
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs10947980
0.4609
0.2631
0.2632
0.2631
10
80
100
17
97
135


rs11059376
1
0.16459
0.1695
0.1608
3
53
118
8
57
162


rs11072995
0.295
0.19932
0.2237
0.1807
13
59
118
8
74
167


rs11072995
0.295
0.19932
0.2237
0.1807
13
59
118
8
74
167


rs11081202
0.456
0.25621
0.288
0.2321
22
66
103
10
97
145


rs11081202
0.456
0.25621
0.288
0.2321
22
66
103
10
97
145


rs110965
0.9143
0.34643
0.3984
0.3067
34
77
71
17
112
109


rs11124962
0.3787
0.25515
0.2632
0.249
11
78
101
21
81
145


rs1116596
0.1134
0.34312
0.3089
0.369
26
66
99
34
118
100


rs11178531
0.3881
0.46811
0.4211
0.504
34
92
64
67
117
65


rs11178531
0.3881
0.46811
0.4211
0.504
34
92
64
67
117
65


rs11178583
0.6922
0.39503
0.3639
0.4187
26
87
78
45
121
86


rs11178583
0.6922
0.39503
0.3639
0.4187
26
87
78
45
121
86


rs11178589
0.8419
0.39931
0.3658
0.4251
26
87
77
45
120
82


rs11178589
0.8419
0.39931
0.3658
0.4251
26
87
77
45
120
82


rs11178594
1
0.40249
0.3684
0.4283
26
88
76
45
125
81


rs11178594
1
0.40249
0.3684
0.4283
26
88
76
45
125
81


rs11178602
1
0.40205
0.3677
0.428
26
87
76
45
124
81


rs11178602
1
0.40205
0.3677
0.428
26
87
76
45
124
81


rs11178648
0.4852
0.39432
0.3571
0.4223
26
83
80
46
120
85


rs11178648
0.4852
0.39432
0.3571
0.4223
26
83
80
46
120
85


rs11198877
0.1996
0.3356
0.3737
0.3068
30
82
78
26
102
123


rs11198942
0.1655
0.33409
0.3691
0.3075
29
83
79
27
101
124


rs11221075
1
0.11391
0.0754
0.1429
0
27
152
5
58
175


rs11242020
0.1134
0.34312
0.3089
0.369
26
66
99
34
118
100


rs11242021
0.1134
0.34312
0.3115
0.3671
27
65
99
33
119
100


rs11242022
0.1134
0.34312
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rs6908481
0.7579
0.41875
0.4327
0.4083
35
78
58
37
113
79


rs7032231
0.09405
0.32033
0.3736
0.2801
31
74
77
20
95
126


rs7067638
0.1751
0.11991
0.1342
0.1091
0
51
139
3
49
200


rs7077799
0.1663
0.33484
0.3691
0.3088
29
83
79
27
101
123


rs7082163
0.49
0.11818
0.1303
0.1091
0
49
139
4
47
201


rs7082163
0.49
0.11818
0.1303
0.1091
0
49
139
4
47
201


rs7089661
0.3355
0.33145
0.3665
0.3048
28
84
79
25
103
123


rs7101319
0.3713
0.12065
0.1344
0.1102
0
50
136
4
46
195


rs7101319
0.3713
0.12065
0.1344
0.1102
0
50
136
4
46
195


rs710832
0.4404
0.24492
0.2147
0.2679
6
70
115
17
101
134


rs710832
0.4404
0.24492
0.2147
0.2679
6
70
115
17
101
134


rs7134262
1
0.3379
0.3763
0.3085
29
85
76
21
111
116


rs7134262
1
0.3379
0.3763
0.3085
29
85
76
21
111
116


rs7134671
1
0.38939
0.4058
0.377
29
97
65
38
114
100


rs7138300
0.438
0.4537
0.4054
0.4899
30
90
65
63
116
68


rs7138300
0.438
0.4537
0.4054
0.4899
30
90
65
63
116
68


rs7138300
0.438
0.4537
0.4054
0.4899
30
90
65
63
116
68


rs7163931
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7163931
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7171486
0.7558
0.35553
0.2984
0.3988
15
84
92
39
123
90


rs7172611
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7172611
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7172689
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7172689
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7175701
1
0.23409
0.254
0.2191
14
68
107
10
90
151


rs7180245
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7180245
0.5733
0.21332
0.2356
0.1964
13
64
114
9
81
162


rs7220603
0.3685
0.30135
0.3403
0.2718
19
92
80
17
103
132


rs7282518
0.7019
0.15504
0.1605
0.1511
3
46
113
5
58
162


rs7283476
0.237
0.04649
0.0262
0.062
1
8
182
1
29
220


rs7283476
0.237
0.04649
0.0262
0.062
1
8
182
1
29
220


rs7295817
1
0.42807
0.3819
0.4628
23
93
66
55
114
73


rs7298255
0.2143
0.46163
0.4188
0.494
34
92
65
67
115
70


rs7298255
0.2143
0.46163
0.4188
0.494
34
92
65
67
115
70


rs7305832
1
0.33597
0.3743
0.3068
29
85
77
21
112
118


rs7305832
1
0.33597
0.3743
0.3068
29
85
77
21
112
118


rs7331467
1
0.34876
0.3325
0.3611
19
89
83
35
112
105


rs7392620
0.7378
0.31121
0.2593
0.3508
12
74
103
32
110
106


rs742827
0.4608
0.34668
0.3895
0.3138
33
82
75
23
109
115


rs742827
0.4608
0.34668
0.3895
0.3138
33
82
75
23
109
115


rs742827
0.4608
0.34668
0.3895
0.3138
33
82
75
23
109
115


rs7446891
0.1134
0.34312
0.3115
0.3671
27
65
99
33
119
100


rs7448641
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7448641
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7484728
1
0.38939
0.4058
0.377
29
97
65
38
114
100


rs7499402
1
0.06546
0.089
0.0476
0
34
157
1
22
229


rs7529851
0.3514
0.40648
0.3571
0.4421
22
76
70
49
108
76


rs7529851
0.3514
0.40648
0.3571
0.4421
22
76
70
49
108
76


rs7573951
0.2878
0.43891
0.4398
0.4382
36
96
59
55
110
86


rs7599198
0.1175
0.46092
0.4565
0.4643
30
87
44
41
113
56


rs7600050
0.9138
0.34736
0.3812
0.3213
27
84
70
24
103
108


rs7607712
0.6555
0.19955
0.2277
0.178
9
69
113
10
69
171


rs7607712
0.6555
0.19955
0.2277
0.178
9
69
113
10
69
171


rs7613492
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs7621663
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs7621663
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs7621663
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs7626584
1
0.05769
0.0471
0.0657
0
18
173
1
31
219


rs7684899
0.8637
0.17266
0.1346
0.2021
6
37
139
7
81
147


rs7684899
0.8637
0.17266
0.1346
0.2021
6
37
139
7
81
147


rs7701604
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7701604
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7703676
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7703676
2.36E−05
0.07336
0.0733
0.0734
3
22
166
7
23
222


rs7708491
0.8472
0.45977
0.4545
0.4637
43
84
60
50
130
68


rs7711358
0.1134
0.34312
0.3089
0.369
26
66
99
34
118
100


rs7719448
0.847
0.45872
0.4574
0.4597
44
84
60
49
130
69


rs7724761
0.9232
0.45862
0.4545
0.4617
43
84
60
49
131
68


rs7742476
0.00424
0.23316
0.2544
0.2166
7
72
90
4
86
127


rs7762993
0.00187
0.18213
0.1855
0.1796
2
65
119
3
82
160


rs7762993
0.00187
0.18213
0.1855
0.1796
2
65
119
3
82
160


rs7767265
0.0128
0.24419
0.2594
0.2325
9
79
99
7
99
137


rs7767265
0.0128
0.24419
0.2594
0.2325
9
79
99
7
99
137


rs7768128
0.7859
0.22779
0.2275
0.228
5
76
108
19
76
155


rs7771264
0.25
0.2483
0.2513
0.246
14
67
108
18
88
146


rs7773151
0.3391
0.2246
0.2225
0.2262
10
65
116
16
82
154


rs7773210
0.3391
0.2246
0.2225
0.2262
10
65
116
16
82
154


rs7808536
0.7448
0.18582
0.2095
0.1674
8
59
112
7
63
160


rs7843510
0.1444
0.42325
0.4293
0.4187
40
84
67
47
117
88


rs7894867
0.1751
0.12018
0.1349
0.1091
0
51
138
3
49
200


rs7921834
0.2375
0.33182
0.3658
0.306
28
83
79
26
101
123


rs7939893
0.3875
0.32653
0.2789
0.3625
22
62
106
29
124
98


rs7939893
0.3875
0.32653
0.2789
0.3625
22
62
106
29
124
98


rs7944513
0.145
0.24522
0.2793
0.2197
17
66
96
14
77
148


rs7944513
0.145
0.24522
0.2793
0.2197
17
66
96
14
77
148


rs7949720
1
0.11603
0.1378
0.0987
3
45
137
2
42
189


rs7949720
1
0.11603
0.1378
0.0987
3
45
137
2
42
189


rs7955901
0.2142
0.46364
0.4184
0.498
34
91
65
67
115
68


rs7955901
0.2142
0.46364
0.4184
0.498
34
91
65
67
115
68


rs7956274
0.3288
0.45423
0.4066
0.4898
30
88
64
63
113
68


rs7956274
0.3288
0.45423
0.4066
0.4898
30
88
64
63
113
68


rs7956274
0.3288
0.45423
0.4066
0.4898
30
88
64
63
113
68


rs7957932
0.3884
0.47039
0.4241
0.506
35
92
64
67
117
64


rs7957932
0.3884
0.47039
0.4241
0.506
35
92
64
67
117
64


rs7984504
0.3222
0.31603
0.3063
0.3234
19
79
93
30
103
119


rs7999518
0.6979
0.49882
0.4385
0.543
29
99
51
74
117
53


rs8026245
1
0.23416
0.2539
0.2191
14
69
108
10
90
151


rs8026245
1
0.23416
0.2539
0.2191
14
69
108
10
90
151


rs8060725
0.8062
0.26298
0.2225
0.2937
11
63
117
18
112
122


rs8103016
0.4981
0.22573
0.2461
0.2103
11
72
108
14
78
160


rs8103016
0.4981
0.22573
0.2461
0.2103
11
72
108
14
78
160


rs8104182
0.8882
0.21591
0.2407
0.1972
10
71
108
11
77
163


rs8104182
0.8882
0.21591
0.2407
0.1972
10
71
108
11
77
163


rs8129461
0.2921
0.04989
0.0262
0.068
1
8
182
1
32
217


rs8129461
0.2921
0.04989
0.0262
0.068
1
8
182
1
32
217


rs8130021
0.2362
0.04638
0.0262
0.0618
1
8
182
1
29
221


rs8130021
0.2362
0.04638
0.0262
0.0618
1
8
182
1
29
221


rs879961
0.1949
0.28182
0.2974
0.27
13
87
90
16
103
131


rs879961
0.1949
0.28182
0.2974
0.27
13
87
90
16
103
131


rs906353
0.651
0.3053
0.3172
0.2964
16
86
84
22
103
123


rs915491
0.1184
0.30839
0.3474
0.2789
28
76
86
21
98
132


rs915493
0.1184
0.30839
0.3474
0.2789
28
76
86
21
98
132


rs915494
0.1185
0.32227
0.3683
0.286
29
79
78
22
91
123


rs915494
0.1185
0.32227
0.3683
0.286
29
79
78
22
91
123


rs917295
0.1134
0.34312
0.3115
0.3671
27
65
99
33
119
100


rs9284851
1
0.34633
0.3537
0.3407
20
93
75
32
105
111


rs9293464
0.9232
0.45862
0.4545
0.4617
43
84
60
49
131
68


rs9295154
0.2326
0.13995
0.1545
0.129
3
53
135
9
47
196


rs9310221
0.1503
0.42875
0.426
0.4308
29
86
54
36
121
67


rs9310699
0.5114
0.31828
0.322
0.3155
20
83
88
28
103
121


rs9310700
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs9310700
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs9310701
0.9151
0.33409
0.3429
0.3274
20
91
80
30
105
117


rs9310704
1
0.34633
0.3537
0.3407
20
93
75
32
105
111


rs9319185
0.4378
0.31293
0.2989
0.3234
17
79
93
30
103
119


rs9319186
0.3222
0.31603
0.3063
0.3234
19
79
93
30
103
119


rs9327555
0.1134
0.34312
0.3115
0.3671
27
65
99
33
119
100


rs9403367
0.3391
0.2246
0.2225
0.2262
10
65
116
16
82
154


rs9419608
0.3324
0.45814
0.4098
0.4939
28
94
61
57
130
60


rs9426437
0.3217
0.43042
0.4355
0.4265
33
96
57
40
123
75


rs9454967
0.07328
0.0907
0.0895
0.0916
3
28
159
4
38
209


rs9635511
0.7678
0.41399
0.3915
0.4312
26
96
67
47
119
81


rs966583
1
0.40091
0.3658
0.4277
26
87
77
44
125
80


rs966583
1
0.40091
0.3658
0.4277
26
87
77
44
125
80


rs980263
0.9151
0.33409
0.3429
0.3274
20
91
80
30
105
117


rs980264
0.9151
0.33409
0.3429
0.3274
20
91
80
30
105
117


rs9812206
0.09556
0.07692
0.0785
0.0757
0
30
161
0
38
213


rs9812206
0.09556
0.07692
0.0785
0.0757
0
30
161
0
38
213


rs9813552
0.4984
0.07692
0.0785
0.0757
0
30
161
1
36
214


rs9813552
0.4984
0.07692
0.0785
0.0757
0
30
161
1
36
214


rs9815037
0.4982
0.07675
0.0785
0.0754
0
30
161
1
36
215


rs9815037
0.4982
0.07675
0.0785
0.0754
0
30
161
1
36
215


rs9819583
0.5114
0.31828
0.322
0.3155
20
83
88
28
103
121


rs9825349
0.4982
0.07675
0.0785
0.0754
0
30
161
1
36
215


rs9825349
0.4982
0.07675
0.0785
0.0754
0
30
161
1
36
215


rs9833118
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs9833118
0.7429
0.31941
0.3246
0.3155
19
86
86
28
103
121


rs9834217
0.5011
0.07788
0.0785
0.0774
0
30
161
1
37
214


rs9834217
0.5011
0.07788
0.0785
0.0774
0
30
161
1
37
214


rs9838563
1
0.33066
0.3413
0.3226
20
89
80
28
104
116


rs9840460
0.5011
0.07788
0.0785
0.0774
0
30
161
1
37
214


rs9840460
0.5011
0.07788
0.0785
0.0774
0
30
161
1
37
214


rs9840756
0.5026
0.07895
0.0789
0.0789
0
30
160
1
37
209


rs9840756
0.5026
0.07895
0.0789
0.0789
0
30
160
1
37
209


rs9847999
1
0.34633
0.3537
0.3407
20
93
75
32
105
111


rs9864769
0.9151
0.33409
0.3429
0.3274
20
91
80
30
105
117


rs9866421
0.2848
0.42551
0.3979
0.4464
29
94
68
57
111
84


rs987296
0.5103
0.31859
0.322
0.316
20
83
88
28
102
120


rs9881685
0.09541
0.07727
0.0789
0.076
0
30
160
0
38
212


rs9881685
0.09541
0.07727
0.0789
0.076
0
30
160
0
38
212


rs992695
0.1596
0.28281
0.2974
0.2718
13
87
90
16
105
131


rs992695
0.1596
0.28281
0.2974
0.2718
13
87
90
16
105
131


rs9936999
0.2862
0.35714
0.3571
0.3571
20
40
52
18
74
62

























TABLE 17





SNP rs #
SOURCE
ALLELE (A1)
MODEL
P
P(R)
OR
OR(R)
Q
I
























rs77638540
Genotyped
T
DOMINANT
2.65E−03
0.0159
0.4686
0.4785
0.2317
30.09


rs72746987
Genotyped
A
DOMINANT
3.12E−05
3.12E−05
0.337
0.337
0.9734
0


rs10021016
Genotyped
G
GENOTYPIC
4.88E−04
0.000488
2.3201
2.3201
0.9885
0


rs10021016
Genotyped
G
RECESSIVE
7.69E−04
0.0007685
2.2102
2.2102
0.9334
0


rs10051148
Imputed
C
DOMINANT
0.000697
0.000697
0.6715
0.6715
0.7678
0


rs10054055
Imputed
T
DOMINANT
0.0008519
0.0008519
0.6758
0.6758
0.8098
0


rs10067895
Imputed
A
DOMINANT
9.99E−04
0.0009994
0.6775
0.6775
0.9204
0


rs10100725
Imputed
C
DOMINANT
5.54E−05
5.54E−05
0.5929
0.5929
0.3989
0


rs10128531
Imputed
T
ADDITIVE
1.54E−03
0.001541
1.4677
1.4677
0.921
0


rs10181743
Imputed
G
ADDITIVE
9.76E−05
9.76E−05
1.4004
1.4004
0.3524
0


rs10199127
Imputed
T
DOMINANT
4.59E−05
4.59E−05
1.6169
1.6169
0.3286
0


rs10270624
Imputed
G
DOMINANT
2.16E−04
0.0003017
1.5776
1.5804
0.3061
4.53


rs1030006
Imputed
G
RECESSIVE
7.93E−05
7.93E−05
1.7557
1.7557
0.577
0


rs1031811
Imputed
A
RECESSIVE
6.16E−03
0.006159
1.7624
1.7624
0.7766
0


rs10430870
Genotyped
G
GENOTYPIC
3.07E−03
3.07E−03
2.094
2.094
0.4823
0


rs10430870
Genotyped
G
RECESSIVE
0.003991
0.003991
2.0223
2.0223
0.6273
0


rs10469597
Imputed
A
GENOTYPIC
4.70E−05
4.70E−05
2.5398
2.5398
0.9742
0


rs10469597
Imputed
A
RECESSIVE
4.85E−05
4.85E−05
2.4663
2.4663
0.8923
0


rs10478919
Imputed
G
DOMINANT
5.77E−04
0.0005772
0.6679
0.6679
0.7414
0


rs10506623
Imputed
C
ADDITIVE
0.0001433
0.0001433
0.7177
0.7177
0.7038
0


rs10506623
Imputed
C
DOMINANT
8.28E−05
8.28E−05
0.6159
0.6159
0.9559
0


rs10506626
Imputed
A
ADDITIVE
7.58E−05
7.58E−05
0.7112
0.7112
0.422
0


rs10506626
Imputed
A
DOMINANT
8.52E−06
8.52E−06
0.5838
0.5838
0.8702
0


rs10509477
Imputed
T
DOMINANT
8.97E−05
8.97E−05
1.5819
1.5819
0.6066
0


rs10517918
Imputed
G
RECESSIVE
6.05E−05
6.05E−05
1.8264
1.8264
0.4972
0


rs10517924
Imputed
A
RECESSIVE
7.80E−05
7.80E−05
1.7459
1.7459
0.7576
0


rs10519362
Imputed
G
DOMINANT
0.001678
0.001678
1.4934
1.4934
0.9592
0


rs10520072
Imputed
T
DOMINANT
0.0005579
0.0005579
0.6664
0.6664
0.9359
0


rs10737390
Imputed
T
DOMINANT
5.50E−05
5.50E−05
0.6131
0.6131
0.5051
0


rs10742851
Imputed
T
RECESSIVE
9.69E−05
9.69E−05
0.3726
0.3726
0.5568
0


rs10743685
Imputed
G
GENOTYPIC
6.86E−05
6.86E−05
2.0019
2.0019
0.8416
0


rs10743685
Imputed
G
RECESSIVE
1.49E−04
0.0001485
1.8297
1.8297
0.5748
0


rs10749293
Imputed
G
DOMINANT
6.75E−05
6.75E−05
1.5947
1.5947
0.7622
0


rs10749294
Imputed
A
DOMINANT
1.82E−04
1.82E−04
1.55
1.55
0.8529
0


rs10753760
Imputed
T
ADDITIVE
5.13E−05
5.13E−05
1.4174
1.4174
0.7656
0


rs10753760
Imputed
T
GENOTYPIC
5.49E−05
5.49E−05
2.0466
2.0466
0.7902
0


rs10772362
Imputed
T
ADDITIVE
1.62E−05
1.62E−05
0.6474
0.6474
0.7786
0


rs10784891
Imputed
C
ADDITIVE
3.04E−04
0.0003039
0.7309
0.7309
0.7572
0


rs10784891
Imputed
C
DOMINANT
1.43E−04
1.43E−04
0.6151
0.6151
0.793
0


rs10784891
Imputed
C
GENOTYPIC
1.13E−03
1.13E−03
0.564
0.564
0.5692
0


rs10787923
Imputed
G
DOMINANT
6.49E−05
6.49E−05
1.5969
1.5969
0.7212
0


rs10787924
Imputed
T
DOMINANT
1.60E−04
0.0001596
1.5563
1.5563
0.8327
0


rs10787949
Imputed
A
DOMINANT
0.0001459
0.0001459
1.5599
1.5599
0.592
0


rs10787951
Imputed
G
DOMINANT
0.0001459
0.0001459
1.5599
1.5599
0.592
0


rs10787983
Imputed
C
DOMINANT
0.0001474
0.0001474
1.5574
1.5574
0.6777
0


rs10794733
Imputed
C
ADDITIVE
0.00276
0.00276
0.7628
0.7628
0.9657
0


rs10818280
Imputed
C
DOMINANT
1.66E−03
0.00166
0.6922
0.6922
0.8399
0


rs10860586
Imputed
A
ADDITIVE
9.56E−05
9.56E−05
1.3855
1.3855
0.4436
0


rs10860586
Imputed
A
GENOTYPIC
9.35E−05
9.35E−05
1.9196
1.9196
0.4483
0


rs10870473
Imputed
A
ADDITIVE
9.61E−05
9.61E−05
0.569
0.569
0.6419
0


rs10870473
Imputed
A
DOMINANT
3.52E−05
3.52E−05
0.4776
0.4776
0.9449
0


rs10879240
Imputed
C
ADDITIVE
5.56E−04
0.0005557
0.7439
0.7439
0.8062
0


rs10879240
Imputed
C
GENOTYPIC
0.001627
0.001627
0.5771
0.5771
0.5726
0


rs10879242
Imputed
A
ADDITIVE
2.20E−04
0.0002198
0.7269
0.7269
0.7534
0


rs10879242
Imputed
A
DOMINANT
7.97E−05
7.97E−05
0.6177
0.6177
0.8661
0


rs10879245
Imputed
G
ADDITIVE
2.20E−04
0.0002198
0.7269
0.7269
0.7534
0


rs10879245
Imputed
G
DOMINANT
7.97E−05
7.97E−05
0.6177
0.6177
0.8661
0


rs10879249
Imputed
T
ADDITIVE
7.98E−05
7.98E−05
0.7098
0.7098
0.7061
0


rs10879249
Imputed
T
DOMINANT
3.54E−05
3.54E−05
0.6036
0.6036
0.9476
0


rs10886429
Imputed
A
DOMINANT
1.10E−04
1.10E−04
1.5741
1.5741
0.6665
0


rs10886449
Imputed
G
DOMINANT
0.0002256
0.0002256
1.5385
1.5385
0.68
0


rs10886451
Imputed
G
DOMINANT
2.26E−04
0.0002256
1.5385
1.5385
0.68
0


rs10886452
Imputed
A
DOMINANT
0.0001459
0.0001459
1.5599
1.5599
0.592
0


rs10886456
Imputed
G
DOMINANT
0.0002256
0.0002256
1.5385
1.5385
0.68
0


rs10886463
Imputed
C
DOMINANT
0.0001545
0.0001545
1.5578
1.5578
0.6315
0


rs10886465
Imputed
A
DOMINANT
8.63E−05
8.63E−05
1.5827
1.5827
0.5622
0


rs10886526
Imputed
C
DOMINANT
1.47E−04
0.0001474
1.5574
1.5574
0.6777
0


rs10922903
Imputed
C
RECESSIVE
9.19E−05
9.19E−05
0.5329
0.5329
0.4609
0


rs10941126
Imputed
G
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs10941126
Imputed
G
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs10947980
Imputed
G
ADDITIVE
7.93E−05
7.93E−05
0.6897
0.6897
0.3212
0


rs11059376
Imputed
T
ADDITIVE
5.53E−05
5.53E−05
1.5704
1.5704
0.929
0


rs11072995
Imputed
T
GENOTYPIC
0.0002433
0.0002433
3.2596
3.2596
0.6428
0


rs11072995
Imputed
T
RECESSIVE
0.0003025
0.0003025
3.164
3.164
0.6989
0


rs11081202
Genotyped
G
GENOTYPIC
2.03E−03
0.002028
1.979
1.979
0.4228
0


rs11081202
Genotyped
G
RECESSIVE
5.63E−04
0.0005629
2.0891
2.0891
0.5637
0


rs110965
Imputed
C
GENOTYPIC
6.88E−03
6.88E−03
1.7493
1.7493
0.9979
0


rs11124962
Imputed
A
DOMINANT
0.000116
0.000116
1.5786
1.5786
0.4004
0


rs1116596
Imputed
T
DOMINANT
6.74E−04
0.000674
0.6707
0.6707
0.7616
0


rs11178531
Imputed
A
ADDITIVE
1.67E−03
1.67E−03
0.7662
0.7662
0.8942
0


rs11178531
Imputed
A
DOMINANT
2.00E−04
0.0001996
0.6214
0.6214
0.9419
0


rs11178583
Imputed
A
ADDITIVE
8.27E−05
8.27E−05
0.7104
0.7104
0.7004
0


rs11178583
Imputed
A
DOMINANT
3.96E−05
3.96E−05
0.6056
0.6056
0.9636
0


rs11178589
Imputed
T
ADDITIVE
6.68E−05
6.68E−05
0.7079
0.7079
0.7072
0


rs11178589
Imputed
T
DOMINANT
3.53E−05
3.53E−05
0.6015
0.6015
0.9599
0


rs11178594
Imputed
C
ADDITIVE
0.0001049
0.0001049
0.7148
0.7148
0.7211
0


rs11178594
Imputed
C
DOMINANT
4.13E−05
4.13E−05
0.6065
0.6065
0.8956
0


rs11178602
Imputed
T
ADDITIVE
8.81E−05
8.81E−05
0.7122
0.7122
0.7436
0


rs11178602
Imputed
T
DOMINANT
3.05E−05
3.05E−05
0.6016
0.6016
0.8568
0


rs11178648
Imputed
T
ADDITIVE
0.0002031
0.0002031
0.7267
0.7267
0.6332
0


rs11178648
Imputed
T
DOMINANT
1.72E−05
1.72E−05
0.5945
0.5945
0.939
0


rs11198877
Imputed
T
DOMINANT
1.33E−04
0.0001326
1.5641
1.5641
0.6136
0


rs11198942
Imputed
T
DOMINANT
8.97E−05
8.97E−05
1.5819
1.5819
0.6066
0


rs11221075
Imputed
A
ADDITIVE
0.002129
0.002129
0.6684
0.6684
0.6989
0


rs11242020
Imputed
T
DOMINANT
0.0005976
0.0005976
0.6685
0.6685
0.6979
0


rs11242021
Imputed
T
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs11242022
Imputed
T
DOMINANT
0.0007669
0.0007669
0.6732
0.6732
0.8443
0


rs11242023
Imputed
T
DOMINANT
0.0009289
0.0009289
0.677
0.677
0.8728
0


rs1149349
Imputed
T
DOMINANT
7.39E−05
7.39E−05
1.6656
1.6656
0.8419
0


rs1149350
Imputed
A
ADDITIVE
1.42E−05
1.42E−05
1.5752
1.5752
0.893
0


rs1149350
Imputed
A
DOMINANT
5.15E−06
5.15E−06
1.7451
1.7451
0.7691
0


rs11576627
Imputed
T
ADDITIVE
0.0002162
0.0002162
1.5806
1.5806
0.4132
0


rs11576627
Imputed
T
DOMINANT
1.75E−04
0.0001751
1.6594
1.6594
0.4028
0


rs11630050
Imputed
G
GENOTYPIC
0.0001769
0.0001769
3.0849
3.0849
0.8542
0


rs11630050
Imputed
G
RECESSIVE
0.0001739
0.0001739
3.0436
3.0436
0.9473
0


rs11633024
Imputed
C
GENOTYPIC
0.0001769
0.0001769
3.0849
3.0849
0.8542
0


rs11633024
Imputed
C
RECESSIVE
0.0001739
0.0001739
3.0436
3.0436
0.9473
0


rs11636298
Imputed
G
GENOTYPIC
0.0001106
0.0001106
3.4591
3.4591
0.8474
0


rs11636298
Imputed
G
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs11637363
Imputed
C
GENOTYPIC
0.0001099
0.0001099
3.1869
3.1869
0.7516
0


rs11637363
Imputed
C
RECESSIVE
0.0001027
0.0001027
3.1534
3.1534
0.8534
0


rs11637813
Imputed
A
GENOTYPIC
0.0001769
0.0001769
3.0849
3.0849
0.8542
0


rs11637813
Imputed
A
RECESSIVE
0.0001739
0.0001739
3.0436
3.0436
0.9473
0


rs11638043
Imputed
C
GENOTYPIC
1.79E−04
0.0001788
3.0118
3.0118
0.8819
0


rs11638043
Imputed
C
RECESSIVE
0.0001717
0.0001717
2.9756
2.9756
0.9909
0


rs11638115
Imputed
A
GENOTYPIC
0.0002433
0.0002433
3.2596
3.2596
0.6428
0


rs11638115
Imputed
A
RECESSIVE
0.0003025
0.0003025
3.164
3.164
0.6989
0


rs11638444
Imputed
C
GENOTYPIC
0.0001194
0.0001194
3.4378
3.4378
0.8647
0


rs11717157
Imputed
T
ADDITIVE
8.91E−05
8.91E−05
1.3969
1.3969
0.7348
0


rs11717157
Imputed
T
GENOTYPIC
5.30E−05
5.30E−05
2.0995
2.0995
0.9749
0


rs11724055
Imputed
A
DOMINANT
0.00239
0.00239
0.6839
0.6839
0.4246
0


rs11743355
Imputed
C
ADDITIVE
1.64E−05
1.64E−05
0.2366
0.2366
0.5626
0


rs11743355
Imputed
C
DOMINANT
3.44E−05
3.44E−05
0.2417
0.2417
0.589
0


rs11746806
Imputed
T
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs11746806
Imputed
T
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs11746959
Imputed
T
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs11746959
Imputed
T
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs11749272
Imputed
T
DOMINANT
0.0005772
0.0005772
0.6679
0.6679
0.7414
0


rs11839636
Imputed
C
GENOTYPIC
7.59E−05
7.59E−05
2.2506
2.2506
0.9705
0


rs11839785
Imputed
C
GENOTYPIC
7.97E−05
7.97E−05
2.2456
2.2456
0.9638
0


rs11853619
Imputed
C
GENOTYPIC
0.0001175
0.0001175
3.4406
3.4406
0.8594
0


rs11853619
Imputed
C
RECESSIVE
0.0001702
0.0001702
3.2975
3.2975
0.9191
0


rs11856780
Imputed
A
GENOTYPIC
0.0001175
0.0001175
3.4406
3.4406
0.8594
0


rs11856780
Imputed
A
RECESSIVE
0.0001702
0.0001702
3.2975
3.2975
0.9191
0


rs11901899
Imputed
A
DOMINANT
3.44E−04
0.001093
1.5287
1.539
0.2722
17.07


rs11903290
Imputed
C
RECESSIVE
0.006295
0.006295
1.7598
1.7598
0.7724
0


rs11909480
Imputed
G
ADDITIVE
0.001521
0.001521
0.4399
0.4399
0.3262
0


rs11909480
Imputed
G
DOMINANT
0.001914
0.001964
0.4405
0.4406
0.3163
0.41


rs11910289
Imputed
T
ADDITIVE
0.001496
0.001496
1.8584
1.8584
0.5088
0


rs11910289
Imputed
T
DOMINANT
0.001453
0.001453
1.9004
1.9004
0.599
0


rs11920375
Genotyped
C
GENOTYPIC
7.94E−05
7.94E−05
2.0435
2.0435
0.8995
0


rs11926319
Imputed
G
DOMINANT
9.79E−05
9.79E−05
0.5435
0.5435
0.854
0


rs11933744
Imputed
T
RECESSIVE
9.01E−05
9.01E−05
2.5682
2.5682
0.6941
0


rs11934919
Imputed
C
RECESSIVE
9.01E−05
9.01E−05
2.5682
2.5682
0.6941
0


rs11934957
Imputed
C
RECESSIVE
9.01E−05
9.01E−05
2.5682
2.5682
0.6941
0


rs11959206
Imputed
A
RECESSIVE
3.66E−05
3.66E−05
0.5455
0.5455
0.7414
0


rs12038613
Imputed
C
RECESSIVE
7.06E−05
7.06E−05
0.5252
0.5252
0.5509
0


rs12151417
Imputed
T
DOMINANT
6.45E−04
0.0006449
1.5021
1.5021
0.7699
0


rs12153185
Imputed
T
DOMINANT
0.001052
0.001052
0.6792
0.6792
0.8684
0


rs12182651
Imputed
T
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs12235345
Imputed
C
DOMINANT
3.59E−04
0.005622
1.8464
1.8177
0.2149
34.98


rs12324786
Imputed
T
GENOTYPIC
0.0002433
0.0002433
3.2596
3.2596
0.6428
0


rs12324786
Imputed
T
RECESSIVE
0.0003025
0.0003025
3.164
3.164
0.6989
0


rs12336958
Imputed
G
DOMINANT
7.27E−05
7.27E−05
1.6549
1.6549
0.457
0


rs12407412
Imputed
C
ADDITIVE
0.0002548
0.0002548
1.5719
1.5719
0.384
0


rs12407412
Imputed
C
DOMINANT
2.10E−04
2.10E−04
1.6487
1.6487
0.368
0


rs12418971
Imputed
C
GENOTYPIC
0.001802
0.001802
2.2011
2.2011
0.4612
0


rs12418971
Imputed
C
RECESSIVE
0.002813
0.002813
2.095
2.095
0.5916
0


rs1241967
Imputed
T
RECESSIVE
0.000111
0.000111
0.4573
0.4573
0.3307
0


rs12420184
Imputed
G
DOMINANT
4.91E−05
4.91E−05
0.5847
0.5847
0.5393
0


rs12433968
Imputed
T
DOMINANT
4.10E−05
4.10E−05
0.6109
0.6109
0.318
0


rs12445477
Imputed
A
DOMINANT
6.95E−05
6.95E−05
0.5027
0.5027
0.3771
0


rs12447191
Genotyped
T
ADDITIVE
0.0002095
0.0002095
0.6717
0.6717
0.8037
0


rs12447191
Genotyped
T
DOMINANT
2.32E−04
0.004396
0.6338
0.6204
0.1898
41.82


rs12465349
Imputed
A
RECESSIVE
0.00192
0.00192
1.513
1.513
0.7914
0


rs1247340
Imputed
C
ADDITIVE
5.07E−05
5.07E−05
1.5296
1.5296
0.9256
0


rs1247340
Imputed
C
DOMINANT
1.08E−05
1.08E−05
1.7083
1.7083
0.8426
0


rs1247341
Imputed
C
ADDITIVE
5.04E−05
5.04E−05
1.5303
1.5303
0.9761
0


rs1247341
Imputed
C
DOMINANT
1.08E−05
1.08E−05
1.7098
1.7098
0.7759
0


rs1247343
Imputed
C
DOMINANT
6.53E−05
6.53E−05
1.6756
1.6756
0.9862
0


rs12509758
Imputed
C
DOMINANT
0.0001489
0.0001489
1.5799
1.5799
0.3277
0


rs12515472
Imputed
A
DOMINANT
0.005408
0.005408
1.4022
1.4022
0.5945
0


rs12548906
Imputed
G
ADDITIVE
3.90E−03
3.90E−03
1.3761
1.3761
0.5561
0


rs12596240
Imputed
G
DOMINANT
4.46E−05
4.46E−05
0.6107
0.6107
0.5739
0


rs12618781
Imputed
A
DOMINANT
5.33E−05
5.33E−05
0.5924
0.5924
0.6396
0


rs12678600
Imputed
A
DOMINANT
5.58E−05
5.58E−05
0.6235
0.6235
0.8084
0


rs12692229
Imputed
T
ADDITIVE
5.68E−03
0.005681
1.271
1.271
0.7737
0


rs12713324
Imputed
T
DOMINANT
0.0005653
0.0005653
1.5061
1.5061
0.7503
0


rs12719415
Imputed
T
DOMINANT
6.99E−04
6.99E−04
0.6712
0.6712
0.8706
0


rs12820589
Imputed
G
ADDITIVE
3.73E−05
3.73E−05
1.5773
1.5773
0.4594
0


rs12820589
Imputed
G
DOMINANT
8.50E−05
8.50E−05
1.6354
1.6354
0.3309
0


rs12831292
Imputed
G
ADDITIVE
1.08E−04
0.0001082
0.7143
0.7143
0.7244
0


rs12831292
Imputed
G
DOMINANT
3.86E−05
3.86E−05
0.6038
0.6038
0.8742
0


rs13012636
Imputed
G
RECESSIVE
0.005887
0.005887
1.7676
1.7676
0.7851
0


rs13038146
Imputed
C
ADDITIVE
0.0001909
0.0001909
1.3722
1.3722
0.8246
0


rs13038146
Imputed
C
GENOTYPIC
0.0002206
0.0002206
1.9531
1.9531
0.7476
0


rs13038146
Imputed
C
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs13089860
Imputed
A
DOMINANT
0.001151
0.001151
0.6379
0.6379
0.8916
0


rs13102419
Imputed
T
RECESSIVE
7.45E−05
7.45E−05
1.7512
1.7512
0.8001
0


rs13194907
Imputed
A
ADDITIVE
7.20E−05
7.20E−05
1.9871
1.9871
0.9631
0


rs13194907
Imputed
A
DOMINANT
4.88E−05
4.88E−05
2.0957
2.0957
0.9413
0


rs13195745
Imputed
A
ADDITIVE
7.54E−05
7.54E−05
1.9837
1.9837
0.9685
0


rs13195745
Imputed
A
DOMINANT
5.13E−05
5.13E−05
2.0917
2.0917
0.9353
0


rs13265054
Imputed
T
DOMINANT
0.0001224
0.0001224
0.6362
0.6362
0.7096
0


rs13273002
Imputed
A
GENOTYPIC
8.64E−05
8.64E−05
0.2714
0.2714
0.8433
0


rs13282131
Imputed
C
ADDITIVE
0.000217
0.000217
1.3612
1.3612
0.7192
0


rs13282131
Imputed
C
GENOTYPIC
0.00017
0.00017
1.8797
1.8797
0.7696
0


rs13282131
Imputed
C
RECESSIVE
0.0009795
0.0009795
1.6011
1.6011
0.9829
0


rs1330052
Imputed
G
GENOTYPIC
8.27E−05
8.27E−05
2.0747
2.0747
0.9516
0


rs1335721
Imputed
A
RECESSIVE
7.06E−05
7.06E−05
0.5252
0.5252
0.5509
0


rs1336382
Imputed
T
DOMINANT
9.54E−05
9.54E−05
1.5804
1.5804
0.6104
0


rs1336383
Imputed
T
DOMINANT
8.97E−05
8.97E−05
1.5819
1.5819
0.6066
0


rs1336407
Imputed
T
DOMINANT
1.35E−04
0.0001345
1.5612
1.5612
0.6665
0


rs1336409
Imputed
T
DOMINANT
0.0001345
0.0001345
1.5612
1.5612
0.6665
0


rs1336596
Imputed
A
DOMINANT
8.41E−06
8.41E−06
0.5875
0.5875
0.3994
0


rs13387284
Imputed
A
DOMINANT
4.10E−05
4.10E−05
0.5856
0.5856
0.5635
0


rs13401462
Imputed
C
DOMINANT
4.87E−06
4.87E−06
1.8734
1.8734
0.4869
0


rs13409045
Imputed
T
ADDITIVE
8.99E−05
8.99E−05
0.7108
0.7108
0.8294
0


rs1349284
Imputed
C
GENOTYPIC
7.91E−05
7.91E−05
2.0683
2.0683
0.8608
0


rs1355715
Imputed
T
ADDITIVE
0.0001691
0.0001691
0.5021
0.5021
0.6625
0


rs1357696
Imputed
A
GENOTYPIC
8.12E−05
8.12E−05
2.0503
2.0503
0.8139
0


rs1357698
Imputed
A
GENOTYPIC
7.29E−05
7.29E−05
2.0604
2.0604
0.7974
0


rs1357699
Imputed
T
GENOTYPIC
7.29E−05
7.29E−05
2.0604
2.0604
0.7974
0


rs1363273
Imputed
C
RECESSIVE
7.91E−05
7.91E−05
0.5543
0.5543
0.8284
0


rs1373601
Imputed
A
DOMINANT
6.34E−05
6.34E−05
0.6152
0.6152
0.3644
0


rs1375829
Imputed
C
GENOTYPIC
7.91E−05
7.91E−05
2.0683
2.0683
0.8608
0


rs1395748
Imputed
G
DOMINANT
7.51E−05
7.51E−05
0.6306
0.6306
0.7714
0


rs1414865
Imputed
T
DOMINANT
1.46E−04
0.0001459
1.5599
1.5599
0.592
0


rs1414873
Imputed
A
DOMINANT
0.0001345
0.0001345
1.5612
1.5612
0.6665
0


rs1414876
Imputed
C
DOMINANT
1.35E−04
1.35E−04
1.5612
1.5612
0.6665
0


rs1424643
Imputed
G
ADDITIVE
4.44E−04
0.0004437
1.4199
1.4199
0.4926
0


rs1424643
Imputed
G
DOMINANT
4.24E−04
0.0004238
1.5226
1.5226
0.7796
0


rs1424648
Imputed
T
DOMINANT
1.80E−03
1.80E−03
1.4456
1.4456
0.4734
0


rs1429321
Imputed
A
DOMINANT
7.84E−04
7.84E−04
1.4871
1.4871
0.8099
0


rs1429326
Imputed
T
ADDITIVE
0.0007358
0.0007358
1.3974
1.3974
0.5449
0


rs1429326
Imputed
T
DOMINANT
0.0004785
0.0004785
1.5125
1.5125
0.8054
0


rs1444741
Imputed
A
DOMINANT
3.42E−05
3.42E−05
0.605
0.605
0.3326
0


rs1449916
Imputed
C
DOMINANT
2.24E−05
2.52E−05
0.5247
0.5244
0.3143
1.22


rs1459523
Imputed
A
ADDITIVE
8.91E−05
8.91E−05
1.3969
1.3969
0.7348
0


rs1459523
Imputed
A
GENOTYPIC
5.30E−05
5.30E−05
2.0995
2.0995
0.9749
0


rs1466352
Imputed
T
GENOTYPIC
7.67E−05
7.67E−05
2.0358
2.0358
0.8969
0


rs1466353
Imputed
G
GENOTYPIC
7.61E−05
7.61E−05
2.0365
2.0365
0.898
0


rs1476714
Imputed
A
DOMINANT
0.0007134
0.0007134
0.6713
0.6713
0.8712
0


rs1486723
Imputed
C
RECESSIVE
0.0003279
0.0003279
0.4982
0.4982
0.4282
0


rs1495375
Imputed
A
ADDITIVE
0.0002198
0.0002198
0.7269
0.7269
0.7534
0


rs1495375
Imputed
A
DOMINANT
7.97E−05
7.97E−05
0.6177
0.6177
0.8661
0


rs1495381
Imputed
T
GENOTYPIC
0.00257
0.00257
1.6918
1.6918
0.6996
0


rs1495381
Imputed
T
RECESSIVE
0.0004641
0.0004641
1.7303
1.7303
0.8349
0


rs1498061
Imputed
C
ADDITIVE
1.30E−04
0.0001304
0.5363
0.5363
0.5167
0


rs1498992
Imputed
G
DOMINANT
1.21E−04
0.0001213
0.6388
0.6388
0.4443
0


rs1499001
Imputed
T
DOMINANT
4.88E−05
4.88E−05
0.6155
0.6155
0.3606
0


rs1512988
Imputed
A
ADDITIVE
8.41E−05
8.41E−05
0.7101
0.7101
0.6962
0


rs1512988
Imputed
A
DOMINANT
4.47E−05
4.47E−05
0.6074
0.6074
0.9954
0


rs1512989
Imputed
T
ADDITIVE
8.41E−05
8.41E−05
0.7101
0.7101
0.6962
0


rs1512989
Imputed
T
DOMINANT
4.47E−05
4.47E−05
0.6074
0.6074
0.9954
0


rs1512991
Imputed
T
ADDITIVE
0.000399
0.000399
0.7396
0.7396
0.8085
0


rs1512991
Imputed
T
DOMINANT
0.0001092
0.0001092
0.6115
0.6115
0.9069
0


rs1512991
Imputed
T
GENOTYPIC
0.001397
0.001397
0.5777
0.5777
0.6436
0


rs1524303
Imputed
T
GENOTYPIC
8.11E−05
8.11E−05
2.0455
2.0455
0.9122
0


rs1524306
Imputed
C
ADDITIVE
8.11E−05
8.11E−05
1.3995
1.3995
0.7142
0


rs1524306
Imputed
C
GENOTYPIC
4.94E−05
4.94E−05
2.1056
2.1056
0.9589
0


rs1524310
Imputed
G
ADDITIVE
7.36E−05
7.36E−05
1.404
1.404
0.6761
0


rs1524310
Imputed
G
GENOTYPIC
4.72E−05
4.72E−05
2.1176
2.1176
0.9271
0


rs1524321
Imputed
C
GENOTYPIC
6.09E−05
6.09E−05
2.0756
2.0756
0.7818
0


rs1527059
Imputed
A
DOMINANT
0.004607
0.004607
0.6321
0.6321
0.3968
0


rs152707
Imputed
A
ADDITIVE
6.74E−05
6.74E−05
0.7127
0.7127
0.5137
0


rs152707
Imputed
A
GENOTYPIC
9.17E−05
9.17E−05
0.4993
0.4993
0.3954
0


rs152712
Genotyped
C
ADDITIVE
4.47E−05
4.47E−05
0.7064
0.7064
0.5198
0


rs152712
Genotyped
C
GENOTYPIC
5.75E−05
5.75E−05
0.4894
0.4894
0.3791
0


rs1533994
Imputed
T
GENOTYPIC
6.29E−05
6.29E−05
2.0565
2.0565
0.9308
0


rs1535866
Imputed
G
DOMINANT
0.0004273
0.001126
1.5272
1.5369
0.2795
14.48


rs1563773
Imputed
T
GENOTYPIC
8.07E−05
8.07E−05
2.0358
2.0358
0.9519
0


rs1563774
Imputed
T
GENOTYPIC
8.07E−05
8.07E−05
2.0374
2.0374
0.8993
0


rs1567740
Imputed
T
ADDITIVE
8.27E−05
8.27E−05
0.7104
0.7104
0.7004
0


rs1567740
Imputed
T
DOMINANT
3.96E−05
3.96E−05
0.6056
0.6056
0.9636
0


rs1572573
Imputed
A
DOMINANT
6.70E−05
6.70E−05
1.64
1.64
0.4852
0


rs1577497
Imputed
C
RECESSIVE
7.41E−05
7.41E−05
0.5263
0.5263
0.5573
0


rs1581514
Imputed
T
ADDITIVE
8.95E−05
8.95E−05
1.3993
1.3993
0.6083
0


rs1581514
Imputed
T
GENOTYPIC
5.07E−05
5.07E−05
2.1081
2.1081
0.8699
0


rs1582321
Imputed
T
DOMINANT
4.17E−05
4.17E−05
0.6096
0.6096
0.5879
0


rs1582322
Imputed
A
DOMINANT
6.86E−05
6.86E−05
0.6175
0.6175
0.5471
0


rs1582323
Imputed
A
DOMINANT
6.70E−05
6.70E−05
0.6171
0.6171
0.5101
0


rs1592485
Imputed
C
DOMINANT
6.80E−05
6.80E−05
0.6167
0.6167
0.53
0


rs1600954
Imputed
T
ADDITIVE
6.34E−05
6.34E−05
1.4064
1.4064
0.7548
0


rs1600954
Imputed
T
GENOTYPIC
5.95E−05
5.95E−05
1.9926
1.9926
0.7001
0


rs16938626
Imputed
G
DOMINANT
6.17E−05
6.17E−05
0.6242
0.6242
0.8167
0


rs16964300
Imputed
G
ADDITIVE
0.0001511
0.0001511
0.6665
0.6665
0.8478
0


rs16964300
Imputed
G
DOMINANT
0.0001894
0.003074
0.6299
0.618
0.2025
38.44


rs16986282
Imputed
G
DOMINANT
0.001578
0.02315
0.4237
0.4355
0.1825
43.73


rs17007620
Imputed
G
ADDITIVE
6.23E−05
6.23E−05
1.5131
1.5131
0.4281
0


rs17007620
Imputed
G
DOMINANT
3.79E−05
3.79E−05
1.684
1.684
0.4732
0


rs17014326
Imputed
G
DOMINANT
3.13E−05
3.13E−05
0.6151
0.6151
0.5429
0


rs17047957
Imputed
C
DOMINANT
0.001421
0.001421
1.5018
1.5018
0.8023
0


rs1705261
Imputed
A
RECESSIVE
0.0006289
0.0006289
1.7058
1.7058
0.7466
0


rs17073341
Imputed
A
ADDITIVE
0.000719
0.03367
2.0963
1.9757
0.1667
47.71


rs17073341
Imputed
A
DOMINANT
0.0008057
0.0341
2.0915
1.9741
0.1677
47.47


rs17138702
Imputed
G
ADDITIVE
6.91E−05
6.91E−05
0.6037
0.6037
0.343
0


rs17189710
Imputed
T
ADDITIVE
0.00017
0.00017
1.3762
1.3762
0.8443
0


rs17189710
Imputed
T
GENOTYPIC
0.000209
0.000209
1.959
1.959
0.738
0


rs17189710
Imputed
T
RECESSIVE
0.001525
0.001525
1.7043
1.7043
0.4016
0


rs17310176
Imputed
T
ADDITIVE
0.0009735
0.001436
0.6909
0.6922
0.3063
4.46


rs17310176
Imputed
T
DOMINANT
0.0008163
0.01496
0.6548
0.6669
0.1994
39.27


rs17358860
Imputed
A
DOMINANT
0.002078
0.002078
0.6804
0.6804
0.407
0


rs17370541
Imputed
T
GENOTYPIC
9.33E−05
9.33E−05
2.055
2.055
0.3333
0


rs17370541
Imputed
T
RECESSIVE
6.92E−05
6.92E−05
1.969
1.969
0.671
0


rs17526574
Imputed
G
GENOTYPIC
7.89E−05
7.89E−05
2.2297
2.2297
0.9421
0


rs17530747
Imputed
T
DOMINANT
8.45E−05
8.45E−05
0.6272
0.6272
0.3668
0


rs17649114
Imputed
C
DOMINANT
0.002429
0.002429
1.4394
1.4394
0.4375
0


rs17766172
Imputed
A
RECESSIVE
0.0002007
0.0005167
0.4665
0.4683
0.2878
11.48


rs1818885
Imputed
G
GENOTYPIC
5.46E−05
5.46E−05
2.1046
2.1046
0.983
0


rs1832222
Imputed
G
DOMINANT
0.0001515
0.0001515
1.5562
1.5562
0.6814
0


rs1861327
Imputed
G
DOMINANT
4.17E−05
4.17E−05
0.6096
0.6096
0.5879
0


rs1868581
Imputed
G
ADDITIVE
7.20E−05
7.20E−05
1.4042
1.4042
0.6755
0


rs1868581
Imputed
G
GENOTYPIC
4.84E−05
4.84E−05
2.1147
2.1147
0.9348
0


rs1874313
Imputed
A
ADDITIVE
0.0001307
0.0001307
0.7177
0.7177
0.586
0


rs1874313
Imputed
A
DOMINANT
5.03E−05
5.03E−05
0.6096
0.6096
0.9203
0


rs1876409
Imputed
C
DOMINANT
6.56E−05
6.56E−05
0.6278
0.6278
0.8104
0


rs1913201
Imputed
G
ADDITIVE
0.0004633
0.0004633
0.7392
0.7392
0.7118
0


rs1913201
Imputed
G
DOMINANT
0.0002642
0.0002642
0.6285
0.6285
0.7714
0


rs1913201
Imputed
G
GENOTYPIC
0.001515
0.001515
0.574
0.574
0.5208
0


rs1916922
Imputed
T
GENOTYPIC
8.22E−05
8.22E−05
2.1096
2.1096
0.9454
0


rs1936871
Genotyped
G
DOMINANT
9.04E−05
9.04E−05
0.6214
0.6214
0.3679
0


rs1961157
Imputed
T
RECESSIVE
8.54E−05
8.54E−05
0.5553
0.5553
0.4429
0


rs1987179
Imputed
T
ADDITIVE
0.001935
0.001935
0.7236
0.7236
0.8673
0


rs1987179
Imputed
T
DOMINANT
0.000396
0.000396
0.6536
0.6536
0.8664
0


rs1990023
Imputed
T
DOMINANT
0.0005303
0.0005303
0.6661
0.6661
0.7286
0


rs1995025
Imputed
C
DOMINANT
0.001961
0.001961
1.5088
1.5088
0.5064
0


rs2016194
Imputed
G
DOMINANT
0.0007182
0.0007182
0.6718
0.6718
0.875
0


rs2023651
Imputed
T
ADDITIVE
3.73E−05
3.73E−05
0.6532
0.6532
0.5375
0


rs2024902
Imputed
A
ADDITIVE
7.20E−05
7.20E−05
1.9871
1.9871
0.9631
0


rs2024902
Imputed
A
DOMINANT
4.88E−05
4.88E−05
2.0957
2.0957
0.9413
0


rs2025107
Imputed
A
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs2025108
Imputed
T
DOMINANT
8.65E−05
8.65E−05
1.9168
1.9168
0.7647
0


rs2031987
Imputed
T
GENOTYPIC
7.93E−05
7.93E−05
2.2431
2.2431
0.9603
0


rs2052428
Imputed
C
DOMINANT
0.0001903
0.0001903
0.6109
0.6109
0.7253
0


rs2053230
Imputed
C
ADDITIVE
6.65E−05
6.65E−05
0.5491
0.5491
0.7036
0


rs2062448
Imputed
T
DOMINANT
9.26E−05
9.26E−05
0.5424
0.5424
0.9524
0


rs2063420
Imputed
C
RECESSIVE
8.43E−05
8.43E−05
1.8009
1.8009
0.8175
0


rs2063591
Imputed
C
ADDITIVE
0.001336
0.001336
0.7622
0.7622
0.8243
0


rs2063591
Imputed
C
DOMINANT
0.0001828
0.0001828
0.619
0.619
0.9374
0


rs208026
Genotyped
A
DOMINANT
0.0009159
0.0009159
1.4777
1.4777
0.8719
0


rs208029
Imputed
T
DOMINANT
0.0032
0.0032
1.4242
1.4242
0.911
0


rs208757
Imputed
G
DOMINANT
0.002063
0.002063
1.4401
1.4401
0.8897
0


rs2095586
Imputed
A
DOMINANT
9.55E−05
9.55E−05
1.582
1.582
0.6057
0


rs2095606
Imputed
A
DOMINANT
6.15E−06
6.15E−06
0.5812
0.5812
0.4893
0


rs2102374
Imputed
A
ADDITIVE
2.38E−05
2.38E−05
0.6664
0.6664
0.4161
0


rs2102374
Imputed
A
DOMINANT
1.59E−05
1.59E−05
0.6016
0.6016
0.9592
0


rs2108426
Imputed
C
DOMINANT
0.0007182
0.0007182
0.6718
0.6718
0.875
0


rs2110664
Imputed
A
DOMINANT
0.0002336
0.0002336
1.5536
1.5536
0.3488
0


rs2132242
Imputed
A
ADDITIVE
0.0001077
0.0001077
0.7156
0.7156
0.7142
0


rs2132242
Imputed
A
DOMINANT
5.48E−05
5.48E−05
0.6098
0.6098
0.9205
0


rs2158958
Imputed
A
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs2158961
Imputed
G
DOMINANT
0.000697
0.000697
0.6715
0.6715
0.7678
0


rs2163046
Imputed
A
DOMINANT
0.0008376
0.0008376
1.4873
1.4873
0.9201
0


rs2180286
Imputed
G
DOMINANT
0.001385
0.001385
0.6528
0.6528
0.6017
0


rs2180684
Imputed
A
DOMINANT
0.0009602
0.0009602
1.6598
1.6598
0.8934
0


rs2188079
Imputed
C
ADDITIVE
7.00E−05
7.00E−05
1.3978
1.3978
0.4286
0


rs2188079
Imputed
C
GENOTYPIC
4.81E−05
4.81E−05
2.0195
2.0195
0.6225
0


rs2190598
Imputed
T
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs2190600
Imputed
A
DOMINANT
0.0009994
0.0009994
0.6775
0.6775
0.9204
0


rs2224184
Genotyped
T
DOMINANT
0.001793
0.001793
0.6621
0.6621
0.6649
0


rs2247066
Imputed
A
DOMINANT
7.51E−05
7.51E−05
0.6306
0.6306
0.7714
0


rs2248236
Imputed
C
ADDITIVE
0.0005358
0.0005358
0.6815
0.6815
0.4894
0


rs2248236
Imputed
C
DOMINANT
0.0001555
0.0001555
0.619
0.619
0.8208
0


rs2265733
Imputed
C
ADDITIVE
2.38E−05
2.38E−05
0.6664
0.6664
0.4161
0


rs2265733
Imputed
C
DOMINANT
1.59E−05
1.59E−05
0.6016
0.6016
0.9592
0


rs2270584
Imputed
A
ADDITIVE
0.0001667
0.0001667
0.7239
0.7239
0.6562
0


rs2270584
Imputed
A
DOMINANT
1.41E−05
1.41E−05
0.5915
0.5915
0.9146
0


rs2270586
Imputed
A
ADDITIVE
0.0001716
0.0001716
0.7243
0.7243
0.6525
0


rs2270586
Imputed
A
DOMINANT
1.54E−05
1.54E−05
0.5928
0.5928
0.9252
0


rs229775
Imputed
A
RECESSIVE
0.000111
0.000111
0.4573
0.4573
0.3307
0


rs229815
Imputed
T
RECESSIVE
0.0002282
0.0002282
0.4565
0.4565
0.4856
0


rs229829
Imputed
C
RECESSIVE
0.0005435
0.0005435
0.5446
0.5446
0.5763
0


rs229831
Imputed
A
RECESSIVE
0.0002275
0.002067
0.469
0.4773
0.2519
23.81


rs2317057
Imputed
T
ADDITIVE
0.002089
0.002089
0.7151
0.7151
0.9648
0


rs2322100
Genotyped
T
RECESSIVE
0.000848
0.000848
2.0921
2.0921
0.3268
0


rs2322101
Imputed
A
RECESSIVE
0.0008488
0.0008488
2.0923
2.0923
0.3199
0


rs2327929
Imputed
G
RECESSIVE
6.56E−05
6.56E−05
1.7968
1.7968
0.3419
0


rs2332844
Imputed
A
ADDITIVE
2.83E−05
2.83E−05
1.7997
1.7997
0.9786
0


rs2332844
Imputed
A
RECESSIVE
0.0001148
0.0001148
1.8396
1.8396
0.9347
0


rs2349170
Imputed
G
DOMINANT
0.0004675
0.0004675
1.5226
1.5226
0.4042
0


rs2356722
Imputed
G
DOMINANT
2.78E−05
2.78E−05
0.6136
0.6136
0.5952
0


rs2364956
Imputed
T
ADDITIVE
7.88E−05
7.88E−05
1.5326
1.5326
0.464
0


rs2373793
Imputed
G
ADDITIVE
0.0006153
0.0006153
1.4555
1.4555
0.5436
0


rs2373793
Imputed
G
DOMINANT
0.0002422
0.0002422
1.5984
1.5984
0.3199
0


rs238252
Imputed
G
ADDITIVE
3.92E−05
3.92E−05
1.6115
1.6115
0.7369
0


rs238252
Imputed
G
DOMINANT
2.65E−05
2.65E−05
1.7462
1.7462
0.5867
0


rs2383903
Imputed
G
DOMINANT
9.89E−05
9.89E−05
0.6336
0.6336
0.873
0


rs2387945
Imputed
G
DOMINANT
0.002288
0.002288
1.4967
1.4967
0.5359
0


rs2389863
Imputed
A
DOMINANT
0.0005489
0.0005489
0.6585
0.6585
0.8176
0


rs2389866
Imputed
C
DOMINANT
0.000396
0.000396
0.6536
0.6536
0.8664
0


rs2389869
Imputed
C
DOMINANT
0.000396
0.000396
0.6536
0.6536
0.8664
0


rs2389870
Genotyped
C
DOMINANT
0.003433
0.003433
0.6945
0.6945
0.3965
0


rs2418494
Imputed
G
ADDITIVE
0.002097
0.002097
0.7772
0.7772
0.4019
0


rs2418494
Imputed
G
GENOTYPIC
0.001772
0.001772
0.5989
0.5989
0.3574
0


rs2418541
Imputed
A
DOMINANT
0.0005303
0.0005303
0.6661
0.6661
0.7286
0


rs2418542
Imputed
A
DOMINANT
0.0005772
0.0005772
0.6679
0.6679
0.7414
0


rs2423556
Imputed
C
DOMINANT
0.001354
0.001354
0.6507
0.6507
0.5885
0


rs2437688
Imputed
C
ADDITIVE
0.004791
0.004791
1.4661
1.4661
0.9462
0


rs2456809
Imputed
G
DOMINANT
6.91E−05
6.91E−05
0.6286
0.6286
0.7989
0


rs2456811
Imputed
T
ADDITIVE
2.64E−05
2.64E−05
0.6679
0.6679
0.4268
0


rs2456811
Imputed
T
DOMINANT
1.79E−05
1.79E−05
0.6034
0.6034
0.9743
0


rs2476976
Imputed
C
DOMINANT
0.0002835
0.0002835
1.5277
1.5277
0.6105
0


rs2484911
Imputed
A
DOMINANT
0.0002659
0.0002659
1.5304
1.5304
0.8231
0


rs2488557
Imputed
C
DOMINANT
9.46E−05
9.46E−05
0.5776
0.5776
0.6502
0


rs250162
Imputed
C
ADDITIVE
0.000113
0.0003838
0.6768
0.6731
0.2772
15.32


rs250162
Imputed
C
DOMINANT
4.84E−05
0.0006095
0.6135
0.6056
0.2344
29.27


rs2560708
Imputed
T
ADDITIVE
0.0002656
0.0002656
0.6487
0.6487
0.5707
0


rs2617841
Imputed
G
DOMINANT
0.0002103
0.0002103
0.633
0.633
0.4225
0


rs2622499
Imputed
G
DOMINANT
0.0004741
0.0004741
0.6573
0.6573
0.8397
0


rs264129
Imputed
T
DOMINANT
0.0007594
0.0007594
0.6718
0.6718
0.7413
0


rs2642936
Imputed
T
ADDITIVE
9.35E−05
9.35E−05
1.4936
1.4936
0.3776
0


rs2660633
Imputed
A
DOMINANT
6.56E−05
6.56E−05
0.6278
0.6278
0.8104
0


rs2660634
Imputed
C
DOMINANT
6.56E−05
6.56E−05
0.6278
0.6278
0.8104
0


rs2660648
Imputed
A
ADDITIVE
2.38E−05
2.38E−05
0.6664
0.6664
0.4161
0


rs2660648
Imputed
A
DOMINANT
1.59E−05
1.59E−05
0.6016
0.6016
0.9592
0


rs2681505
Imputed
T
ADDITIVE
1.62E−05
1.62E−05
0.6474
0.6474
0.7786
0


rs277411
Imputed
G
DOMINANT
4.27E−05
4.27E−05
0.3261
0.3261
0.7363
0


rs2832634
Imputed
G
ADDITIVE
0.001422
0.001422
1.8637
1.8637
0.4977
0


rs2832637
Imputed
T
ADDITIVE
0.001422
0.001422
1.8637
1.8637
0.4977
0


rs2843167
Imputed
A
DOMINANT
4.64E−05
4.64E−05
0.6208
0.6208
0.6602
0


rs2876227
Imputed
C
ADDITIVE
0.0004318
0.0004318
1.3526
1.3526
0.8494
0


rs2876227
Imputed
C
GENOTYPIC
0.0004406
0.0004406
1.9073
1.9073
0.726
0


rs2882097
Imputed
A
DOMINANT
8.97E−05
8.97E−05
1.5819
1.5819
0.6066
0


rs2909862
Imputed
G
DOMINANT
8.19E−05
8.19E−05
1.7275
1.7275
0.4161
0


rs3001945
Imputed
T
DOMINANT
0.001929
0.001929
1.5254
1.5254
0.656
0


rs3011020
Imputed
C
DOMINANT
0.002194
0.002194
1.4992
1.4992
0.5299
0


rs36071725
Genotyped
C
ADDITIVE
4.45E−06
4.45E−06
1.4999
1.4999
0.8099
0


rs36071725
Genotyped
C
GENOTYPIC
2.95E−06
1.95E−05
2.5235
2.5053
0.2811
13.92


rs373983
Imputed
G
DOMINANT
0.001847
0.001847
1.4715
1.4715
0.5548
0


rs3743794
Imputed
G
DOMINANT
9.02E−05
9.02E−05
0.6224
0.6224
0.5016
0


rs3756154
Imputed
C
ADDITIVE
0.001935
0.001935
0.7236
0.7236
0.8673
0


rs3756154
Imputed
C
DOMINANT
0.000396
0.000396
0.6536
0.6536
0.8664
0


rs3775850
Imputed
A
DOMINANT
0.001884
0.001884
0.6779
0.6779
0.3941
0


rs3775851
Imputed
C
DOMINANT
0.00239
0.00239
0.6839
0.6839
0.4246
0


rs3793044
Imputed
C
ADDITIVE
9.83E−05
9.83E−05
1.9638
1.9638
0.8837
0


rs3793044
Imputed
C
DOMINANT
6.76E−05
6.76E−05
2.0697
2.0697
0.9811
0


rs3793053
Imputed
C
DOMINANT
5.01E−05
5.01E−05
1.9787
1.9787
0.624
0


rs3796246
Imputed
G
DOMINANT
8.90E−05
8.90E−05
0.5398
0.5398
0.4358
0


rs3806003
Imputed
A
ADDITIVE
9.83E−05
9.83E−05
1.9638
1.9638
0.8837
0


rs3806003
Imputed
A
DOMINANT
6.76E−05
6.76E−05
2.0697
2.0697
0.9811
0


rs3806004
Imputed
T
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs3806010
Imputed
T
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs3806014
Imputed
T
DOMINANT
5.67E−05
5.67E−05
1.9649
1.9649
0.6221
0


rs3806015
Imputed
A
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs3806018
Imputed
A
DOMINANT
7.82E−05
7.82E−05
1.9419
1.9419
0.5908
0


rs3806019
Imputed
A
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs3806024
Imputed
T
DOMINANT
5.01E−05
5.01E−05
1.9787
1.9787
0.624
0


rs3915080
Imputed
A
GENOTYPIC
5.44E−05
5.44E−05
2.0907
2.0907
0.9248
0


rs3942254
Imputed
T
ADDITIVE
0.0001416
0.0001416
0.7166
0.7166
0.775
0


rs3942254
Imputed
T
DOMINANT
7.52E−05
7.52E−05
0.6139
0.6139
0.912
0


rs3945085
Imputed
A
DOMINANT
6.75E−05
6.75E−05
1.5947
1.5947
0.7622
0


rs3976737
Imputed
G
ADDITIVE
4.73E−05
4.73E−05
0.6147
0.6147
0.6857
0


rs399485
Imputed
A
DOMINANT
0.001322
0.001322
1.4553
1.4553
0.9598
0


rs4029119
Imputed
G
ADDITIVE
2.65E−05
2.65E−05
0.2569
0.2569
0.4764
0


rs4029119
Imputed
G
DOMINANT
5.81E−05
5.81E−05
0.2637
0.2637
0.5057
0


rs4076201
Imputed
G
GENOTYPIC
0.0001779
0.0001779
3.0129
3.0129
0.881
0


rs4076201
Imputed
G
RECESSIVE
0.0001745
0.0001745
2.9721
2.9721
0.9936
0


rs41395945
Imputed
G
ADDITIVE
0.001422
0.001422
1.8637
1.8637
0.4977
0


rs41395945
Imputed
G
DOMINANT
0.001383
0.001383
1.9054
1.9054
0.5854
0


rs4146972
Genotyped
T
DOMINANT
0.002023
0.002023
1.4758
1.4758
0.7768
0


rs4238087
Imputed
G
DOMINANT
0.001528
0.002511
0.6487
0.6459
0.2941
9.14


rs4251569
Imputed
T
ADDITIVE
0.000865
0.000865
0.6585
0.6585
0.319
0


rs4251569
Imputed
T
DOMINANT
0.001524
0.002494
0.6487
0.6458
0.2944
9.05


rs4273613
Imputed
T
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs4273613
Imputed
T
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs4291049
Imputed
T
RECESSIVE
6.91E−05
6.91E−05
0.5605
0.5605
0.8377
0


rs4315598
Imputed
T
ADDITIVE
0.0002132
0.0002132
1.369
1.369
0.8084
0


rs4315598
Imputed
T
GENOTYPIC
0.0002436
0.0002436
1.9445
1.9445
0.7616
0


rs4315598
Imputed
T
RECESSIVE
0.001637
0.001637
1.6981
1.6981
0.4109
0


rs4321395
Imputed
A
DOMINANT
4.10E−05
4.10E−05
0.5856
0.5856
0.5635
0


rs4321596
Genotyped
T
RECESSIVE
0.001013
0.001013
2.3233
2.3233
0.5608
0


rs4324417
Imputed
T
DOMINANT
9.41E−05
9.41E−05
1.6531
1.6531
0.6731
0


rs4328619
Genotyped
G
DOMINANT
0.002587
0.002587
0.6704
0.6704
0.826
0


rs4338909
Imputed
T
ADDITIVE
9.61E−05
9.61E−05
1.3842
1.3842
0.8254
0


rs4370878
Imputed
G
DOMINANT
9.82E−05
9.82E−05
1.5785
1.5785
0.7378
0


rs4379434
Genotyped
T
DOMINANT
9.48E−05
9.48E−05
1.6163
1.6163
0.9593
0


rs4416407
Imputed
T
DOMINANT
0.0001694
0.0001694
1.6929
1.6929
0.489
0


rs4417899
Imputed
C
RECESSIVE
0.000157
0.000157
0.5892
0.5892
0.4805
0


rs4442732
Imputed
A
ADDITIVE
8.41E−05
8.41E−05
0.6531
0.6531
0.3436
0


rs4444612
Imputed
G
ADDITIVE
0.0001677
0.0001677
1.3768
1.3768
0.8476
0


rs4444612
Imputed
G
GENOTYPIC
0.00021
0.00021
1.9589
1.9589
0.738
0


rs4444612
Imputed
G
RECESSIVE
0.001571
0.001571
1.7015
1.7015
0.4057
0


rs4450660
Imputed
C
DOMINANT
8.36E−05
8.36E−05
1.5918
1.5918
0.5023
0


rs4509702
Imputed
C
DOMINANT
9.82E−05
9.82E−05
1.5785
1.5785
0.7378
0


rs4526920
Imputed
G
GENOTYPIC
7.93E−05
7.93E−05
2.2431
2.2431
0.9603
0


rs4533145
Imputed
T
DOMINANT
9.22E−05
9.22E−05
0.5529
0.5529
0.3518
0


rs4557006
Imputed
A
DOMINANT
8.75E−05
8.75E−05
0.5972
0.5972
0.5878
0


rs4570530
Imputed
C
DOMINANT
9.82E−05
9.82E−05
1.5785
1.5785
0.7378
0


rs4615971
Imputed
C
DOMINANT
0.0001298
0.0001298
1.5635
1.5635
0.7109
0


rs4628119
Imputed
A
DOMINANT
6.11E−05
6.11E−05
0.6205
0.6205
0.3365
0


rs4664443
Imputed
G
ADDITIVE
7.56E−05
7.56E−05
0.7086
0.7086
0.8496
0


rs4688259
Imputed
T
DOMINANT
0.0001678
0.0001678
1.6935
1.6935
0.4878
0


rs4688632
Imputed
G
RECESSIVE
0.0001642
0.0001642
0.5987
0.5987
0.51
0


rs4695284
Imputed
A
ADDITIVE
8.64E−05
8.64E−05
1.894
1.894
0.3836
0


rs4700302
Imputed
A
ADDITIVE
9.09E−05
9.09E−05
0.5243
0.5243
0.8943
0


rs4702720
Imputed
A
ADDITIVE
0.0001094
0.0001094
0.6414
0.6414
0.5372
0


rs4702720
Imputed
A
DOMINANT
0.0001621
0.0001621
0.5989
0.5989
0.3199
0


rs4711091
Genotyped
G
GENOTYPIC
9.08E−05
9.08E−05
1.8967
1.8967
0.4866
0


rs4714484
Imputed
A
ADDITIVE
4.13E−05
4.13E−05
0.6276
0.6276
0.4538
0


rs4736802
Imputed
G
DOMINANT
7.12E−05
7.12E−05
1.6304
1.6304
0.9501
0


rs4760785
Imputed
A
ADDITIVE
0.0004633
0.0004633
0.7392
0.7392
0.7118
0


rs4760785
Imputed
A
DOMINANT
0.0002642
0.0002642
0.6285
0.6285
0.7714
0


rs4760785
Imputed
A
GENOTYPIC
0.001515
0.001515
0.574
0.574
0.5208
0


rs4760894
Imputed
T
ADDITIVE
0.0004633
0.0004633
0.7392
0.7392
0.7118
0


rs4760894
Imputed
T
DOMINANT
0.0002642
0.0002642
0.6285
0.6285
0.7714
0


rs4760894
Imputed
T
GENOTYPIC
0.001515
0.001515
0.574
0.574
0.5208
0


rs4760895
Imputed
A
ADDITIVE
0.0004633
0.0004633
0.7392
0.7392
0.7118
0


rs4760895
Imputed
A
DOMINANT
0.0002642
0.0002642
0.6285
0.6285
0.7714
0


rs4760895
Imputed
A
GENOTYPIC
0.001515
0.001515
0.574
0.574
0.5208
0


rs4764738
Imputed
A
ADDITIVE
5.30E−05
5.30E−05
1.4051
1.4051
0.3785
0


rs4764738
Imputed
A
GENOTYPIC
5.29E−05
5.29E−05
1.9728
1.9728
0.3836
0


rs4764974
Imputed
T
ADDITIVE
9.56E−05
9.56E−05
1.3855
1.3855
0.4436
0


rs4764974
Imputed
T
GENOTYPIC
9.35E−05
9.35E−05
1.9196
1.9196
0.4483
0


rs4798366
Imputed
G
RECESSIVE
0.001711
0.001711
1.8332
1.8332
0.3582
0


rs483159
Imputed
T
DOMINANT
0.004772
0.004772
1.4202
1.4202
0.9716
0


rs4836502
Imputed
T
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs4836507
Imputed
C
DOMINANT
0.0009994
0.0009994
0.6775
0.6775
0.9204
0


rs4836744
Imputed
A
ADDITIVE
0.0006425
0.0006425
0.7345
0.7345
0.7018
0


rs4836744
Imputed
A
DOMINANT
0.001186
0.001186
0.6854
0.6854
0.8412
0


rs4848944
Genotyped
C
RECESSIVE
0.0002524
0.003005
0.5945
0.5819
0.2143
35.17


rs4851529
Imputed
A
DOMINANT
0.0003125
0.0003125
0.6476
0.6476
0.4109
0


rs4851531
Imputed
T
DOMINANT
0.000688
0.0011
0.6621
0.6602
0.2981
7.64


rs4858046
Genotyped
T
GENOTYPIC
7.90E−05
7.90E−05
2.0533
2.0533
0.925
0


rs4878214
Imputed
A
ADDITIVE
9.56E−05
9.56E−05
0.6477
0.6477
0.3504
0


rs4880803
Imputed
A
ADDITIVE
0.003664
0.003664
0.7694
0.7694
0.9093
0


rs489441
Imputed
G
ADDITIVE
3.10E−05
3.10E−05
1.4992
1.4992
0.6179
0


rs489441
Imputed
G
DOMINANT
8.27E−05
8.27E−05
1.6072
1.6072
0.8697
0


rs4896568
Imputed
T
DOMINANT
8.36E−05
8.36E−05
0.6231
0.6231
0.3985
0


rs4938851
Imputed
T
DOMINANT
0.001901
0.001901
1.4515
1.4515
0.4953
0


rs4964416
Imputed
C
DOMINANT
0.0004167
0.0004167
0.6251
0.6251
0.6468
0


rs5756669
Imputed
C
DOMINANT
9.41E−05
9.41E−05
1.6531
1.6531
0.6731
0


rs6033138
Imputed
C
ADDITIVE
0.000116
0.000116
1.3837
1.3837
0.8829
0


rs6033138
Imputed
C
GENOTYPIC
0.0001829
0.0001829
1.9484
1.9484
0.7574
0


rs6033138
Imputed
C
RECESSIVE
0.001659
0.001659
1.6769
1.6769
0.4494
0


rs6040619
Imputed
C
ADDITIVE
0.0001132
0.0001132
1.3881
1.3881
0.5479
0


rs6040619
Imputed
C
GENOTYPIC
9.53E−05
9.53E−05
2.0334
2.0334
0.8541
0


rs6040619
Imputed
C
RECESSIVE
0.0005843
0.0005843
1.7879
1.7879
0.803
0


rs6040625
Imputed
T
ADDITIVE
0.0001123
0.0001123
1.3888
1.3888
0.589
0


rs6040625
Imputed
T
GENOTYPIC
0.0001128
0.0001128
2.0214
2.0214
0.9212
0


rs6040625
Imputed
T
RECESSIVE
0.0007645
0.0007645
1.7684
1.7684
0.7342
0


rs6040630
Imputed
A
ADDITIVE
0.0001671
0.0001671
1.3767
1.3767
0.7848
0


rs6040630
Imputed
A
GENOTYPIC
0.0001796
0.0001796
1.9741
1.9741
0.807
0


rs6040630
Imputed
A
RECESSIVE
0.001227
0.001227
1.7241
1.7241
0.4626
0


rs6040633
Imputed
A
ADDITIVE
0.000204
0.000204
1.3703
1.3703
0.8149
0


rs6040633
Imputed
A
GENOTYPIC
0.0002355
0.0002355
1.9475
1.9475
0.7566
0


rs6040633
Imputed
A
RECESSIVE
0.001596
0.001596
1.6999
1.6999
0.4082
0


rs6040634
Imputed
T
ADDITIVE
0.0001909
0.0001909
1.3722
1.3722
0.8246
0


rs6040634
Imputed
T
GENOTYPIC
0.0002206
0.0002206
1.9531
1.9531
0.7476
0


rs6040634
Imputed
T
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs6040636
Imputed
T
ADDITIVE
0.0001672
0.0001672
1.3761
1.3761
0.8442
0


rs6040636
Imputed
T
GENOTYPIC
0.0002085
0.0002085
1.9585
1.9585
0.7388
0


rs6040636
Imputed
T
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs6040638
Imputed
C
ADDITIVE
0.0001909
0.0001909
1.3722
1.3722
0.8246
0


rs6040638
Imputed
C
GENOTYPIC
0.0002206
0.0002206
1.9531
1.9531
0.7476
0


rs6040638
Imputed
C
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs6040644
Imputed
A
ADDITIVE
0.0001909
0.0001909
1.3722
1.3722
0.8246
0


rs6040644
Imputed
A
GENOTYPIC
0.0002206
0.0002206
1.9531
1.9531
0.7476
0


rs6040644
Imputed
A
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs6040667
Imputed
T
ADDITIVE
0.0002664
0.0002664
1.3662
1.3662
0.8727
0


rs6040667
Imputed
T
GENOTYPIC
0.0003065
0.0003065
1.9386
1.9386
0.7287
0


rs6040667
Imputed
T
RECESSIVE
0.002069
0.002069
1.6903
1.6903
0.423
0


rs6040668
Imputed
C
ADDITIVE
0.0002909
0.0002909
1.3643
1.3643
0.8891
0


rs6040668
Imputed
C
GENOTYPIC
0.0003326
0.0003326
1.9325
1.9325
0.7115
0


rs6040668
Imputed
C
RECESSIVE
0.00224
0.00224
1.6839
1.6839
0.406
0


rs6043066
Genotyped
G
DOMINANT
0.000733
0.01784
1.4888
1.4596
0.1886
42.14


rs6048146
Imputed
G
DOMINANT
0.0005426
0.0005426
2.6562
2.6562
0.6095
0


rs6082725
Genotyped
T
DOMINANT
0.0005426
0.0005426
2.6562
2.6562
0.6095
0


rs6131206
Imputed
C
ADDITIVE
0.002048
0.002048
1.3126
1.3126
0.4818
0


rs6131208
Imputed
T
ADDITIVE
0.0002137
0.0002137
1.3725
1.3725
0.8701
0


rs6131208
Imputed
T
GENOTYPIC
0.0002553
0.0002553
1.9551
1.9551
0.7372
0


rs6131208
Imputed
T
RECESSIVE
0.00182
0.00182
1.7011
1.7011
0.4342
0


rs6134243
Imputed
C
ADDITIVE
0.0001909
0.0001909
1.3722
1.3722
0.8246
0


rs6134243
Imputed
C
GENOTYPIC
0.0002206
0.0002206
1.9531
1.9531
0.7476
0


rs6134243
Imputed
C
RECESSIVE
0.00156
0.00156
1.7021
1.7021
0.4049
0


rs6136020
Imputed
A
DOMINANT
6.99E−05
7.15E−05
0.5953
0.5953
0.3168
0.19


rs613799
Imputed
C
DOMINANT
0.0002827
0.0002827
1.5657
1.5657
0.629
0


rs644041
Imputed
G
ADDITIVE
9.69E−05
9.69E−05
1.4631
1.4631
0.6439
0


rs644041
Imputed
G
DOMINANT
0.0001835
0.0001835
1.5751
1.5751
0.8914
0


rs647645
Imputed
C
ADDITIVE
2.08E−05
2.08E−05
0.7025
0.7025
0.8072
0


rs647645
Imputed
C
GENOTYPIC
1.62E−05
1.62E−05
0.4822
0.4822
0.9069
0


rs647645
Imputed
C
RECESSIVE
4.05E−05
4.05E−05
0.5474
0.5474
0.5771
0


rs6495554
Imputed
C
GENOTYPIC
0.0001138
0.0001138
3.4509
3.4509
0.8527
0


rs6495554
Imputed
C
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs6495555
Imputed
C
GENOTYPIC
0.0001138
0.0001138
3.4509
3.4509
0.8527
0


rs6495555
Imputed
C
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs6544728
Imputed
T
DOMINANT
2.92E−05
2.92E−05
1.6406
1.6406
0.3945
0


rs6550705
Imputed
C
ADDITIVE
8.91E−05
8.91E−05
1.3969
1.3969
0.7348
0


rs6550705
Imputed
C
GENOTYPIC
5.30E−05
5.30E−05
2.0995
2.0995
0.9749
0


rs6550707
Imputed
T
GENOTYPIC
7.67E−05
7.67E−05
2.0358
2.0358
0.8969
0


rs658108
Imputed
A
DOMINANT
0.0002659
0.0002659
1.5304
1.5304
0.8231
0


rs6593441
Imputed
A
DOMINANT
0.0002048
0.0002048
1.6724
1.6724
0.545
0


rs668732
Imputed
A
DOMINANT
7.59E−05
7.59E−05
1.6958
1.6958
0.6376
0


rs671041
Imputed
A
DOMINANT
0.0002098
0.0002098
1.5412
1.5412
0.8876
0


rs6719700
Imputed
A
ADDITIVE
0.0005301
0.0005301
1.4892
1.4892
0.6569
0


rs6719700
Imputed
A
DOMINANT
0.0009974
0.0009974
1.5282
1.5282
0.9621
0


rs6722640
Imputed
T
DOMINANT
0.0001647
0.0001647
0.6343
0.6343
0.417
0


rs6743092
Imputed
T
ADDITIVE
0.0002329
0.0002329
1.3618
1.3618
0.9832
0


rs6743092
Imputed
T
GENOTYPIC
0.0002232
0.0002232
1.8571
1.8571
0.9791
0


rs6743092
Imputed
T
RECESSIVE
0.001144
0.001144
1.5648
1.5648
0.9735
0


rs6744759
Imputed
G
RECESSIVE
0.006086
0.006086
1.7637
1.7637
0.7956
0


rs6746170
Imputed
A
DOMINANT
4.95E−05
4.95E−05
1.6166
1.6166
0.5054
0


rs6759922
Imputed
A
DOMINANT
5.10E−05
5.10E−05
0.5892
0.5892
0.6074
0


rs6769864
Imputed
T
GENOTYPIC
5.78E−05
5.78E−05
2.0921
2.0921
0.9627
0


rs6773932
Imputed
C
GENOTYPIC
8.12E−05
8.12E−05
2.0503
2.0503
0.8139
0


rs6774353
Imputed
A
GENOTYPIC
5.78E−05
5.78E−05
2.0921
2.0921
0.9627
0


rs6781670
Imputed
C
GENOTYPIC
7.91E−05
7.91E−05
2.0683
2.0683
0.8608
0


rs6786431
Imputed
A
GENOTYPIC
8.12E−05
8.12E−05
2.0503
2.0503
0.8139
0


rs6789091
Imputed
T
GENOTYPIC
8.12E−05
8.12E−05
2.0503
2.0503
0.8139
0


rs6791296
Imputed
T
ADDITIVE
0.0005376
0.0005376
0.6284
0.6284
0.9209
0


rs6792662
Imputed
G
DOMINANT
0.0001499
0.0001499
1.7002
1.7002
0.4736
0


rs6797574
Imputed
G
GENOTYPIC
8.12E−05
8.12E−05
2.0503
2.0503
0.8139
0


rs6797882
Imputed
G
GENOTYPIC
7.58E−05
7.58E−05
2.0585
2.0585
0.8005
0


rs6805139
Imputed
G
DOMINANT
0.0001083
0.0001083
1.6957
1.6957
0.5312
0


rs6806043
Imputed
C
ADDITIVE
6.97E−05
6.97E−05
1.4041
1.4041
0.6772
0


rs6806043
Imputed
C
GENOTYPIC
4.41E−05
4.41E−05
2.1162
2.1162
0.9314
0


rs6850716
Imputed
C
GENOTYPIC
6.01E−05
6.01E−05
3.2642
3.2642
0.9641
0


rs6867153
Imputed
A
RECESSIVE
3.66E−05
3.66E−05
0.5455
0.5455
0.7414
0


rs687047
Imputed
C
ADDITIVE
0.001907
0.001907
0.6716
0.6716
0.7468
0


rs6871041
Imputed
G
DOMINANT
0.0002601
0.0002601
0.6351
0.6351
0.5713
0


rs688358
Imputed
A
ADDITIVE
0.001332
0.001332
0.6614
0.6614
0.8904
0


rs6888012
Imputed
A
RECESSIVE
3.66E−05
3.66E−05
0.5455
0.5455
0.7414
0


rs6908481
Imputed
C
RECESSIVE
8.53E−05
8.53E−05
1.8461
1.8461
0.6072
0


rs7032231
Imputed
A
ADDITIVE
0.003089
0.004335
1.2986
1.3011
0.2989
7.33


rs7067638
Imputed
T
DOMINANT
0.0002484
0.0002484
1.6722
1.6722
0.663
0


rs7077799
Imputed
A
DOMINANT
0.0002066
0.0002066
1.5609
1.5609
0.6624
0


rs7082163
Imputed
A
ADDITIVE
4.21E−05
4.21E−05
1.6619
1.6619
0.5882
0


rs7082163
Imputed
A
DOMINANT
6.78E−05
6.78E−05
1.7473
1.7473
0.7157
0


rs7089661
Imputed
C
DOMINANT
0.0001345
0.0001345
1.5612
1.5612
0.6665
0


rs7101319
Imputed
C
ADDITIVE
5.11E−05
5.11E−05
1.6533
1.6533
0.5666
0


rs7101319
Imputed
C
DOMINANT
8.45E−05
8.45E−05
1.7359
1.7359
0.6904
0


rs710832
Genotyped
A
GENOTYPIC
0.0003218
0.0003218
0.3641
0.3641
0.5473
0


rs710832
Genotyped
A
RECESSIVE
0.0001214
0.0001214
0.3456
0.3456
0.5387
0


rs7134262
Imputed
T
GENOTYPIC
0.0005116
0.0005116
1.9228
1.9228
0.357
0


rs7134262
Imputed
T
RECESSIVE
1.88E−05
0.0002297
2.1112
2.0864
0.2602
21.12


rs7134671
Imputed
T
GENOTYPIC
8.82E−05
8.82E−05
1.9952
1.9952
0.3861
0


rs7138300
Imputed
C
ADDITIVE
0.0004633
0.0004633
0.7392
0.7392
0.7118
0


rs7138300
Imputed
C
DOMINANT
0.0002642
0.0002642
0.6285
0.6285
0.7714
0


rs7138300
Imputed
C
GENOTYPIC
0.001515
0.001515
0.574
0.574
0.5208
0


rs7163931
Imputed
G
GENOTYPIC
0.0001138
0.0001138
3.4509
3.4509
0.8527
0


rs7163931
Imputed
G
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs7171486
Genotyped
G
DOMINANT
0.002255
0.00726
0.6976
0.69
0.2524
23.66


rs7172611
Imputed
G
GENOTYPIC
0.0001106
0.0001106
3.4591
3.4591
0.8474
0


rs7172611
Imputed
G
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs7172689
Imputed
T
GENOTYPIC
0.0001106
0.0001106
3.4591
3.4591
0.8474
0


rs7172689
Imputed
T
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs7175701
Imputed
C
GENOTYPIC
0.0002485
0.0002485
2.9103
2.9103
0.9903
0


rs7180245
Imputed
A
GENOTYPIC
0.0001106
0.0001106
3.4591
3.4591
0.8474
0


rs7180245
Imputed
A
RECESSIVE
0.0001586
0.0001586
3.317
3.317
0.9056
0


rs7220603
Genotyped
A
ADDITIVE
6.15E−05
6.15E−05
0.6874
0.6874
0.5095
0


rs7282518
Imputed
T
ADDITIVE
4.72E−05
4.72E−05
1.6157
1.6157
0.6576
0


rs7283476
Imputed
T
ADDITIVE
0.001444
0.002668
0.4528
0.4555
0.2951
8.76


rs7283476
Imputed
T
DOMINANT
0.001188
0.01352
0.4307
0.4432
0.213
35.52


rs7295817
Imputed
C
GENOTYPIC
0.001617
0.007423
0.5763
0.5838
0.2587
21.63


rs7298255
Imputed
A
ADDITIVE
0.0004959
0.0004959
0.7441
0.7441
0.8645
0


rs7298255
Imputed
A
DOMINANT
0.0001567
0.0001567
0.6197
0.6197
0.8009
0


rs7305832
Imputed
C
GENOTYPIC
0.0004601
0.0004601
1.9292
1.9292
0.3332
0


rs7305832
Imputed
C
RECESSIVE
1.85E−05
0.0003707
2.1109
2.0804
0.2465
25.55


rs7331467
Imputed
A
GENOTYPIC
8.27E−05
8.27E−05
2.0747
2.0747
0.9516
0


rs7392620
Imputed
C
ADDITIVE
0.003409
0.003409
0.7677
0.7677
0.844
0


rs742827
Imputed
A
ADDITIVE
0.0001374
0.0001374
1.3962
1.3962
0.8859
0


rs742827
Imputed
A
GENOTYPIC
0.0002152
0.0002152
1.9872
1.9872
0.5834
0


rs742827
Imputed
A
RECESSIVE
0.001964
0.001964
1.6988
1.6988
0.3688
0


rs7446891
Imputed
G
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs7448641
Imputed
C
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs7448641
Imputed
C
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs7484728
Imputed
T
GENOTYPIC
8.08E−05
8.08E−05
2.0019
2.0019
0.395
0


rs7499402
Genotyped
A
ADDITIVE
0.001818
0.001818
1.6071
1.6071
0.4709
0


rs7529851
Imputed
A
ADDITIVE
0.0007167
0.0007351
0.7475
0.7475
0.3163
0.4


rs7529851
Imputed
A
GENOTYPIC
0.0007339
0.0007339
0.5463
0.5463
0.4438
0


rs7573951
Imputed
G
ADDITIVE
7.56E−05
7.56E−05
0.7086
0.7086
0.8496
0


rs7599198
Imputed
T
DOMINANT
9.29E−05
9.29E−05
0.5939
0.5939
0.6564
0


rs7600050
Imputed
C
ADDITIVE
0.000398
0.000398
1.3671
1.3671
0.401
0


rs7607712
Imputed
T
ADDITIVE
0.0003189
0.0003189
1.452
1.452
0.6392
0


rs7607712
Imputed
T
DOMINANT
0.0007082
0.0007082
1.5005
1.5005
0.8593
0


rs7613492
Imputed
G
GENOTYPIC
5.46E−05
5.46E−05
2.1046
2.1046
0.983
0


rs7621663
Imputed
G
ADDITIVE
5.19E−05
5.19E−05
1.4264
1.4264
0.8945
0


rs7621663
Imputed
G
GENOTYPIC
1.68E−05
1.68E−05
2.2926
2.2926
0.7204
0


rs7621663
Imputed
G
RECESSIVE
8.03E−05
8.03E−05
2.0424
2.0424
0.5218
0


rs7626584
Imputed
G
ADDITIVE
0.000166
0.000166
0.5017
0.5017
0.6498
0


rs7684899
Imputed
C
ADDITIVE
0.001935
0.001935
0.7236
0.7236
0.8673
0


rs7684899
Imputed
C
DOMINANT
0.000396
0.000396
0.6536
0.6536
0.8664
0


rs7701604
Imputed
G
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs7701604
Imputed
G
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs7703676
Imputed
C
ADDITIVE
1.27E−05
1.27E−05
0.2451
0.2451
0.6218
0


rs7703676
Imputed
C
DOMINANT
2.81E−05
2.81E−05
0.2509
0.2509
0.6535
0


rs7708491
Imputed
C
RECESSIVE
6.44E−05
6.44E−05
0.5582
0.5582
0.823
0


rs7711358
Imputed
A
DOMINANT
0.0005772
0.0005772
0.6679
0.6679
0.7414
0


rs7719448
Imputed
G
RECESSIVE
3.03E−05
3.03E−05
0.5422
0.5422
0.7436
0


rs7724761
Imputed
T
RECESSIVE
2.79E−05
2.79E−05
0.5376
0.5376
0.8521
0


rs7742476
Imputed
T
DOMINANT
9.96E−05
9.96E−05
1.6177
1.6177
0.3946
0


rs7762993
Imputed
A
ADDITIVE
9.68E−05
9.68E−05
1.5062
1.5062
0.5789
0


rs7762993
Imputed
A
DOMINANT
1.55E−05
1.55E−05
1.6955
1.6955
0.475
0


rs7767265
Imputed
G
ADDITIVE
1.02E−05
1.02E−05
1.5369
1.5369
0.4161
0


rs7767265
Imputed
G
DOMINANT
1.30E−06
1.30E−06
1.786
1.786
0.4646
0


rs7768128
Imputed
G
RECESSIVE
0.001331
0.001331
0.4131
0.4131
0.6812
0


rs7771264
Imputed
T
DOMINANT
6.68E−05
6.68E−05
0.6186
0.6186
0.338
0


rs7773151
Genotyped
C
DOMINANT
7.51E−05
7.51E−05
0.624
0.624
0.3194
0


rs7773210
Genotyped
A
DOMINANT
6.11E−05
6.11E−05
0.6205
0.6205
0.3365
0


rs7808536
Imputed
G
DOMINANT
0.0002477
0.003942
1.5602
1.593
0.1988
39.43


rs7843510
Genotyped
G
DOMINANT
9.47E−05
9.47E−05
1.6156
1.6156
0.9612
0


rs7894867
Imputed
T
DOMINANT
0.0002327
0.0002327
1.6763
1.6763
0.6457
0


rs7921834
Imputed
C
DOMINANT
0.0001474
0.0001474
1.5574
1.5574
0.6777
0


rs7939893
Imputed
C
ADDITIVE
0.001994
0.001994
0.7672
0.7672
0.4917
0


rs7939893
Imputed
C
DOMINANT
0.00178
0.00178
0.6939
0.6939
0.7543
0


rs7944513
Imputed
T
GENOTYPIC
3.70E−05
3.70E−05
3.1057
3.1057
0.4987
0


rs7944513
Imputed
T
RECESSIVE
6.05E−05
6.05E−05
2.9509
2.9509
0.4009
0


rs7949720
Imputed
G
ADDITIVE
6.02E−05
6.02E−05
0.5917
0.5917
0.6951
0


rs7949720
Imputed
G
DOMINANT
4.34E−05
4.34E−05
0.5526
0.5526
0.5364
0


rs7955901
Imputed
C
ADDITIVE
0.0005679
0.0005679
0.745
0.745
0.8856
0


rs7955901
Imputed
C
DOMINANT
0.0002109
0.0002109
0.6246
0.6246
0.7241
0


rs7956274
Imputed
T
ADDITIVE
0.000471
0.000471
0.7423
0.7423
0.7644
0


rs7956274
Imputed
T
DOMINANT
0.0001278
0.0001278
0.6144
0.6144
0.9458
0


rs7956274
Imputed
T
GENOTYPIC
0.001643
0.001643
0.582
0.582
0.6004
0


rs7957932
Imputed
G
ADDITIVE
0.001051
0.001051
0.7578
0.7578
0.8972
0


rs7957932
Imputed
G
DOMINANT
0.0001397
0.0001397
0.6136
0.6136
0.8447
0


rs7984504
Imputed
C
GENOTYPIC
9.33E−05
9.33E−05
2.1895
2.1895
0.8871
0


rs7999518
Imputed
A
RECESSIVE
0.003293
0.003293
0.6449
0.6449
0.9164
0


rs8026245
Imputed
G
GENOTYPIC
0.0001769
0.0001769
3.0849
3.0849
0.8542
0


rs8026245
Imputed
G
RECESSIVE
0.0001739
0.0001739
3.0436
3.0436
0.9473
0


rs8060725
Genotyped
A
ADDITIVE
0.001967
0.001967
0.7414
0.7414
0.74
0


rs8103016
Genotyped
A
ADDITIVE
1.97E−05
1.97E−05
1.5542
1.5542
0.8792
0


rs8103016
Genotyped
A
DOMINANT
5.37E−05
5.37E−05
1.6315
1.6315
0.8495
0


rs8104182
Imputed
G
ADDITIVE
8.91E−05
8.91E−05
1.5032
1.5032
0.628
0


rs8104182
Imputed
G
DOMINANT
0.000187
0.000187
1.5764
1.5764
0.6041
0


rs8129461
Imputed
G
ADDITIVE
0.001444
0.002668
0.4528
0.4555
0.2951
8.76


rs8129461
Imputed
G
DOMINANT
0.001188
0.01352
0.4307
0.4432
0.213
35.52


rs8130021
Imputed
G
ADDITIVE
0.001444
0.002668
0.4528
0.4555
0.2951
8.76


rs8130021
Imputed
G
DOMINANT
0.001188
0.01352
0.4307
0.4432
0.213
35.52


rs879961
Imputed
T
ADDITIVE
2.33E−05
2.33E−05
0.6659
0.6659
0.4449
0


rs879961
Imputed
T
DOMINANT
1.51E−05
1.51E−05
0.6005
0.6005
0.9844
0


rs906353
Imputed
A
DOMINANT
9.95E−05
9.95E−05
0.6352
0.6352
0.8067
0


rs915491
Imputed
C
DOMINANT
0.0002054
0.0002054
1.5426
1.5426
0.7028
0


rs915493
Imputed
T
DOMINANT
0.0002054
0.0002054
1.5426
1.5426
0.7028
0


rs915494
Imputed
A
ADDITIVE
0.001238
0.001238
1.3527
1.3527
0.6764
0


rs915494
Imputed
A
DOMINANT
0.0002045
0.0002045
1.5574
1.5574
0.5538
0


rs917295
Imputed
G
DOMINANT
0.0005579
0.0005579
0.6664
0.6664
0.9359
0


rs9284851
Imputed
A
GENOTYPIC
6.86E−05
6.86E−05
2.0519
2.0519
0.9886
0


rs9293464
Imputed
T
RECESSIVE
3.03E−05
3.03E−05
0.5422
0.5422
0.7436
0


rs9295154
Genotyped
G
DOMINANT
0.0003436
0.0007175
1.5908
1.5981
0.2899
10.73


rs9310221
Imputed
A
DOMINANT
6.72E−05
6.93E−05
1.6779
1.6777
0.3166
0.28


rs9310699
Genotyped
T
GENOTYPIC
7.91E−05
7.91E−05
2.0683
2.0683
0.8608
0


rs9310700
Imputed
C
ADDITIVE
8.64E−05
8.64E−05
1.4077
1.4077
0.7999
0


rs9310700
Imputed
C
GENOTYPIC
3.31E−05
3.31E−05
2.2015
2.2015
0.8601
0


rs9310701
Imputed
G
GENOTYPIC
7.67E−05
7.67E−05
2.0358
2.0358
0.8969
0


rs9310704
Imputed
G
GENOTYPIC
4.87E−05
4.87E−05
2.1011
2.1011
0.908
0


rs9319185
Imputed
C
GENOTYPIC
5.38E−05
5.38E−05
2.2836
2.2836
0.9842
0


rs9319186
Imputed
T
GENOTYPIC
7.93E−05
7.93E−05
2.2431
2.2431
0.9603
0


rs9327555
Imputed
T
DOMINANT
0.000699
0.000699
0.6712
0.6712
0.8706
0


rs9403367
Imputed
C
DOMINANT
6.11E−05
6.11E−05
0.6205
0.6205
0.3365
0


rs9419608
Imputed
G
RECESSIVE
4.08E−05
4.08E−05
1.7425
1.7425
0.608
0


rs9426437
Imputed
T
DOMINANT
5.00E−05
5.00E−05
0.607
0.607
0.4632
0


rs9454967
Imputed
G
DOMINANT
5.94E−05
5.94E−05
1.9576
1.9576
0.6125
0


rs9635511
Imputed
T
DOMINANT
7.73E−05
7.73E−05
0.618
0.618
0.4399
0


rs966583
Imputed
A
ADDITIVE
9.56E−05
9.56E−05
0.7127
0.7127
0.7413
0


rs966583
Imputed
A
DOMINANT
4.65E−05
4.65E−05
0.6082
0.6082
0.9923
0


rs980263
Imputed
T
GENOTYPIC
6.16E−05
6.16E−05
2.059
2.059
0.935
0


rs980264
Imputed
T
GENOTYPIC
6.16E−05
6.16E−05
2.059
2.059
0.935
0


rs9812206
Imputed
G
ADDITIVE
5.80E−06
5.80E−06
0.5122
0.5122
0.7976
0


rs9812206
Imputed
G
DOMINANT
4.29E−06
4.29E−06
0.4876
0.4876
0.9796
0


rs9813552
Imputed
G
ADDITIVE
4.13E−05
4.13E−05
0.5495
0.5495
0.7178
0


rs9813552
Imputed
G
DOMINANT
3.19E−05
3.19E−05
0.5265
0.5265
0.9286
0


rs9815037
Imputed
T
ADDITIVE
1.99E−05
1.99E−05
0.5261
0.5261
0.5342
0


rs9815037
Imputed
T
DOMINANT
1.13E−05
1.13E−05
0.4982
0.4982
0.7438
0


rs9819583
Imputed
T
GENOTYPIC
7.12E−05
7.12E−05
2.0778
2.0778
0.8761
0


rs9825349
Imputed
A
ADDITIVE
1.98E−05
1.98E−05
0.5259
0.5259
0.5483
0


rs9825349
Imputed
A
DOMINANT
1.13E−05
1.13E−05
0.4982
0.4982
0.7598
0


rs9833118
Imputed
G
ADDITIVE
9.63E−05
9.63E−05
1.3977
1.3977
0.6136
0


rs9833118
Imputed
G
GENOTYPIC
5.01E−05
5.01E−05
2.1101
2.1101
0.8729
0


rs9834217
Imputed
T
ADDITIVE
2.21E−05
2.21E−05
0.5279
0.5279
0.5562
0


rs9834217
Imputed
T
DOMINANT
1.26E−05
1.26E−05
0.5002
0.5002
0.7692
0


rs9838563
Imputed
C
GENOTYPIC
7.67E−05
7.67E−05
2.0358
2.0358
0.8969
0


rs9840460
Imputed
T
ADDITIVE
2.08E−05
2.08E−05
0.5268
0.5268
0.5431
0


rs9840460
Imputed
T
DOMINANT
1.18E−05
1.18E−05
0.499
0.499
0.7541
0


rs9840756
Imputed
A
ADDITIVE
2.08E−05
2.08E−05
0.5268
0.5268
0.5431
0


rs9840756
Imputed
A
DOMINANT
1.18E−05
1.18E−05
0.499
0.499
0.7541
0


rs9847999
Imputed
C
GENOTYPIC
9.15E−05
9.15E−05
2.0254
2.0254
0.9674
0


rs9864769
Imputed
C
GENOTYPIC
7.67E−05
7.67E−05
2.0358
2.0358
0.8969
0


rs9866421
Genotyped
C
RECESSIVE
0.0009027
0.0009027
0.6009
0.6009
0.4635
0


rs987296
Imputed
T
GENOTYPIC
7.90E−05
7.90E−05
2.0683
2.0683
0.8607
0


rs9881685
Imputed
A
ADDITIVE
5.80E−06
5.80E−06
0.5122
0.5122
0.7976
0


rs9881685
Imputed
A
DOMINANT
4.29E−06
4.29E−06
0.4876
0.4876
0.9796
0


rs992695
Imputed
C
ADDITIVE
2.92E−05
2.92E−05
0.6695
0.6695
0.4384
0


rs992695
Imputed
C
DOMINANT
2.06E−05
2.06E−05
0.6059
0.6059
0.9952
0


rs9936999
Imputed
G
DOMINANT
8.52E−05
8.52E−05
1.8486
1.8486
0.8612
0

























TABLE 18





SNP rs #
SOURCE
ALLELE (A1)
MODEL
P
P(R)
OR
OR(R)
Q
I
























rs77638540
Genotyped
T
DOMINANT
8.53E−05
8.53E−05
0.4412
0.4412
0.4473
0


rs72746987
Genotyped
A
DOMINANT
1.04E−03
0.07511
0.5034
0.4987
0.037
69.66


rs10021016
Genotyped
G
GENOTYPIC
1.77E−05
1.77E−05
2.4195
2.4195
0.946
0


rs10021016
Genotyped
G
RECESSIVE
3.95E−05
3.95E−05
2.2819
2.2819
0.9639
0


rs10051148
Imputed
C
DOMINANT
4.37E−05
4.37E−05
0.663
0.663
0.936
0


rs10054055
Imputed
T
DOMINANT
2.45E−05
2.45E−05
0.652
0.652
0.8092
0


rs10067895
Imputed
A
DOMINANT
2.54E−05
2.54E−05
0.6504
0.6504
0.7871
0


rs10100725
Imputed
C
DOMINANT
9.58E−04
0.1048
0.6943
0.7246
0.0468
67.33


rs10128531
Imputed
T
ADDITIVE
6.93E−05
6.93E−05
1.5153
1.5153
0.8693
0


rs10181743
Imputed
G
ADDITIVE
1.45E−04
7.58E−04
1.3254
1.3179
0.3011
16.69


rs10199127
Imputed
T
DOMINANT
3.21E−04
0.02399
1.4423
1.433
0.098
56.95


rs10270624
Imputed
G
DOMINANT
7.89E−05
7.89E−05
1.5242
1.5242
0.5064
0


rs1030006
Imputed
G
RECESSIVE
2.14E−03
0.1294
1.4544
1.4242
0.0332
70.63


rs1031811
Imputed
A
RECESSIVE
8.78E−05
8.78E−05
1.988
1.988
0.5276
0


rs10430870
Genotyped
G
GENOTYPIC
6.56E−05
6.56E−05
2.3812
2.3812
0.4518
0


rs10430870
Genotyped
G
RECESSIVE
9.42E−05
9.42E−05
2.2976
2.2976
0.5059
0


rs10469597
Imputed
A
GENOTYPIC
2.56E−04
7.98E−03
2.0793
2.008
0.1981
38.23


rs10469597
Imputed
A
RECESSIVE
1.31E−04
3.67E−04
2.1038
2.0871
0.3313
9.47


rs10478919
Imputed
G
DOMINANT
1.88E−05
1.88E−05
0.6481
0.6481
0.8316
0


rs10506623
Imputed
C
ADDITIVE
3.33E−05
3.33E−05
0.7343
0.7343
0.8201
0


rs10506623
Imputed
C
DOMINANT
2.58E−05
2.58E−05
0.6418
0.6418
0.8101
0


rs10506626
Imputed
A
ADDITIVE
1.01E−05
1.01E−05
0.7226
0.7226
0.6798
0


rs10506626
Imputed
A
DOMINANT
1.59E−06
1.59E−06
0.608
0.608
0.7968
0


rs10509477
Imputed
T
DOMINANT
2.98E−05
2.98E−05
1.5214
1.5214
0.7093
0


rs10517918
Imputed
G
RECESSIVE
6.32E−04
0.04182
1.5595
1.5312
0.0872
59.01


rs10517924
Imputed
A
RECESSIVE
3.69E−04
0.007266
1.5408
1.514
0.2104
35.84


rs10519362
Imputed
G
DOMINANT
9.95E−05
9.95E−05
1.5338
1.5338
0.9176
0


rs10520072
Imputed
T
DOMINANT
1.82E−05
1.82E−05
0.647
0.647
0.881
0


rs10737390
Imputed
T
DOMINANT
1.26E−03
1.43E−01
0.7118
0.7485
0.0363
69.84


rs10742851
Imputed
T
RECESSIVE
1.44E−02
3.23E−01
0.5988
0.593
0.0033
82.54


rs10743685
Imputed
G
GENOTYPIC
4.32E−05
4.32E−05
1.8534
1.8534
0.6642
0


rs10743685
Imputed
G
RECESSIVE
7.41E−05
7.41E−05
1.7214
1.7214
0.6436
0


rs10749293
Imputed
G
DOMINANT
1.17E−05
1.17E−05
1.5526
1.5526
0.866
0


rs10749294
Imputed
A
DOMINANT
6.69E−05
6.69E−05
1.4909
1.4909
0.8006
0


rs10753760
Imputed
T
ADDITIVE
1.83E−03
1.26E−01
1.2546
1.2395
0.0287
71.84


rs10753760
Imputed
T
GENOTYPIC
2.08E−03
1.35E−01
1.5862
1.5469
0.0269
72.33


rs10772362
Imputed
T
ADDITIVE
2.16E−05
2.16E−05
0.691
0.691
0.4243
0


rs10784891
Imputed
C
ADDITIVE
3.13E−05
3.13E−05
0.7354
0.7354
0.9449
0


rs10784891
Imputed
C
DOMINANT
6.41E−05
6.41E−05
0.6454
0.6454
0.7393
0


rs10784891
Imputed
C
GENOTYPIC
9.84E−05
9.84E−05
0.5575
0.5575
0.8437
0


rs10787923
Imputed
G
DOMINANT
1.08E−05
1.08E−05
1.556
1.556
0.8555
0


rs10787924
Imputed
T
DOMINANT
5.94E−05
5.94E−05
1.4953
1.4953
0.7873
0


rs10787949
Imputed
A
DOMINANT
5.22E−05
5.22E−05
1.503
1.503
0.7135
0


rs10787951
Imputed
G
DOMINANT
5.35E−05
5.35E−05
1.5021
1.5021
0.7092
0


rs10787983
Imputed
C
DOMINANT
5.23E−05
5.23E−05
1.5007
1.5007
0.7558
0


rs10794733
Imputed
C
ADDITIVE
7.05E−05
7.05E−05
0.7343
0.7343
0.7115
0


rs10818280
Imputed
C
DOMINANT
9.18E−05
9.18E−05
0.6734
0.6734
0.8782
0


rs10860586
Imputed
A
ADDITIVE
3.08E−03
0.1633
1.2361
1.2211
0.0224
73.69


rs10860586
Imputed
A
GENOTYPIC
3.00E−03
1.63E−01
1.5291
1.4908
0.0225
73.63


rs10870473
Imputed
A
ADDITIVE
3.61E−03
2.33E−01
0.6941
0.7378
0.0195
74.59


rs10870473
Imputed
A
DOMINANT
5.37E−03
4.68E−01
0.6441
0.7381
0.0016
84.48


rs10879240
Imputed
C
ADDITIVE
3.83E−05
3.83E−05
0.74
0.74
0.9636
0


rs10879240
Imputed
C
GENOTYPIC
9.34E−05
9.34E−05
0.5585
0.5585
0.7993
0


rs10879242
Imputed
A
ADDITIVE
4.26E−05
4.26E−05
0.7384
0.7384
0.8941
0


rs10879242
Imputed
A
DOMINANT
2.29E−05
2.29E−05
0.6402
0.6402
0.8341
0


rs10879245
Imputed
G
ADDITIVE
4.26E−05
4.26E−05
0.7384
0.7384
0.8941
0


rs10879245
Imputed
G
DOMINANT
2.29E−05
2.29E−05
0.6402
0.6402
0.8341
0


rs10879249
Imputed
T
ADDITIVE
2.01E−05
2.01E−05
0.7287
0.7287
0.7861
0


rs10879249
Imputed
T
DOMINANT
1.30E−05
1.30E−05
0.6335
0.6335
0.7421
0


rs10886429
Imputed
A
DOMINANT
6.44E−05
6.44E−05
1.4958
1.4958
0.6357
0


rs10886449
Imputed
G
DOMINANT
8.67E−05
8.67E−05
1.4833
1.4833
0.761
0


rs10886451
Imputed
G
DOMINANT
8.67E−05
8.67E−05
1.4833
1.4833
0.761
0


rs10886452
Imputed
A
DOMINANT
4.28E−05
4.28E−05
1.5097
1.5097
0.7458
0


rs10886456
Imputed
G
DOMINANT
8.67E−05
8.67E−05
1.4833
1.4833
0.761
0


rs10886463
Imputed
C
DOMINANT
5.51E−05
5.51E−05
1.5014
1.5014
0.737
0


rs10886465
Imputed
A
DOMINANT
3.16E−05
3.16E−05
1.5202
1.5202
0.6725
0


rs10886526
Imputed
C
DOMINANT
4.73E−05
4.73E−05
1.5047
1.5047
0.7756
0


rs10922903
Imputed
C
RECESSIVE
7.51E−04
0.04061
0.6326
0.6533
0.1055
55.53


rs10941126
Imputed
G
ADDITIVE
2.88E−03
0.1046
0.5269
0.4225
0.0055
80.81


rs10941126
Imputed
G
DOMINANT
5.93E−03
0.1502
0.5204
0.4449
0.0058
80.6


rs10947980
Imputed
G
ADDITIVE
0.0007135
0.04303
0.7602
0.7647
0.0779
60.82


rs11059376
Imputed
T
ADDITIVE
2.09E−04
2.16E−03
1.4335
1.4217
0.2602
25.72


rs11072995
Imputed
T
GENOTYPIC
5.56E−05
5.56E−05
2.911
2.911
0.7416
0


rs11072995
Imputed
T
RECESSIVE
8.05E−05
8.05E−05
2.8127
2.8127
0.7514
0


rs11081202
Genotyped
G
GENOTYPIC
4.78E−05
4.78E−05
2.2039
2.2039
0.4315
0


rs11081202
Genotyped
G
RECESSIVE
9.57E−06
9.57E−06
2.3008
2.3008
0.5359
0


rs110965
Imputed
C
GENOTYPIC
5.25E−05
5.42E−05
2.0397
2.04
0.3665
0.36


rs11124962
Imputed
A
DOMINANT
9.31E−05
9.31E−05
1.4868
1.4868
0.434
0


rs1116596
Imputed
T
DOMINANT
2.21E−05
2.21E−05
0.6501
0.6501
0.8309
0


rs11178531
Imputed
A
ADDITIVE
8.31E−05
8.31E−05
0.753
0.753
0.9192
0


rs11178531
Imputed
A
DOMINANT
4.55E−05
4.55E−05
0.64
0.64
0.9035
0


rs11178583
Imputed
A
ADDITIVE
2.33E−05
2.33E−05
0.7308
0.7308
0.7646
0


rs11178583
Imputed
A
DOMINANT
1.65E−05
1.65E−05
0.6373
0.6373
0.7197
0


rs11178589
Imputed
T
ADDITIVE
1.62E−05
1.62E−05
0.7264
0.7264
0.7893
0


rs11178589
Imputed
T
DOMINANT
1.26E−05
1.26E−05
0.6312
0.6312
0.7472
0


rs11178594
Imputed
C
ADDITIVE
2.03E−05
2.03E−05
0.7297
0.7297
0.8443
0


rs11178594
Imputed
C
DOMINANT
1.05E−05
1.05E−05
0.6313
0.6313
0.8109
0


rs11178602
Imputed
T
ADDITIVE
1.67E−05
1.67E−05
0.7273
0.7273
0.8496
0


rs11178602
Imputed
T
DOMINANT
7.52E−06
7.52E−06
0.6264
0.6264
0.7997
0


rs11178648
Imputed
T
ADDITIVE
2.57E−05
2.57E−05
0.7339
0.7339
0.8706
0


rs11178648
Imputed
T
DOMINANT
3.00E−06
3.00E−06
0.6155
0.6155
0.8521
0


rs11198877
Imputed
T
DOMINANT
4.14E−05
4.14E−05
1.5107
1.5107
0.7435
0


rs11198942
Imputed
T
DOMINANT
2.98E−05
2.98E−05
1.5214
1.5214
0.7093
0


rs11221075
Imputed
A
ADDITIVE
4.53E−05
4.53E−05
0.6241
0.6241
0.5015
0


rs11242020
Imputed
T
DOMINANT
1.95E−05
1.95E−05
0.6485
0.6485
0.8129
0


rs11242021
Imputed
T
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs11242022
Imputed
T
DOMINANT
2.55E−05
2.55E−05
0.6519
0.6519
0.8477
0


rs11242023
Imputed
T
DOMINANT
3.12E−05
3.12E−05
0.6547
0.6547
0.8417
0


rs1149349
Imputed
T
DOMINANT
0.0001762
0.0002852
1.5177
1.5147
0.3503
4.68


rs1149350
Imputed
A
ADDITIVE
0.004059
0.341
1.2908
1.2455
0.0015
84.55


rs1149350
Imputed
A
DOMINANT
2.56E−04
1.03E−01
1.4706
1.4199
0.0201
74.39


rs11576627
Imputed
T
ADDITIVE
3.90E−05
3.90E−05
1.5393
1.5393
0.6597
0


rs11576627
Imputed
T
DOMINANT
2.57E−05
2.57E−05
1.6368
1.6368
0.6902
0


rs11630050
Imputed
G
GENOTYPIC
7.79E−05
7.79E−05
2.665
2.665
0.6771
0


rs11630050
Imputed
G
RECESSIVE
8.54E−05
8.54E−05
2.6107
2.6107
0.6577
0


rs11633024
Imputed
C
GENOTYPIC
7.79E−05
7.79E−05
2.665
2.665
0.6771
0


rs11633024
Imputed
C
RECESSIVE
8.54E−05
8.54E−05
2.6107
2.6107
0.6577
0


rs11636298
Imputed
G
GENOTYPIC
4.65E−05
4.65E−05
2.9093
2.9093
0.6341
0


rs11636298
Imputed
G
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs11637363
Imputed
C
GENOTYPIC
4.03E−05
4.03E−05
2.7783
2.7783
0.6785
0


rs11637363
Imputed
C
RECESSIVE
4.23E−05
4.23E−05
2.7253
2.7253
0.6672
0


rs11637813
Imputed
A
GENOTYPIC
7.79E−05
7.79E−05
2.665
2.665
0.6771
0


rs11637813
Imputed
A
RECESSIVE
8.54E−05
8.54E−05
2.6107
2.6107
0.6577
0


rs11638043
Imputed
C
GENOTYPIC
6.02E−05
6.02E−05
2.6802
2.6802
0.7627
0


rs11638043
Imputed
C
RECESSIVE
6.43E−05
6.43E−05
2.6274
2.6274
0.7406
0


rs11638115
Imputed
A
GENOTYPIC
5.56E−05
5.56E−05
2.911
2.911
0.7416
0


rs11638115
Imputed
A
RECESSIVE
8.05E−05
8.05E−05
2.8127
2.8127
0.7514
0


rs11638444
Imputed
C
GENOTYPIC
8.18E−05
8.18E−05
2.781
2.781
0.5241
0


rs11682946
Imputed
A
ADDITIVE
2.15E−05
2.15E−05
4.6724
4.6724
0.6013
0


rs11682946
Imputed
A
DOMINANT
2.84E−05
2.84E−05
4.7413
4.7413
0.5763
0


rs11717157
Imputed
T
ADDITIVE
3.66E−04
4.28E−03
1.3013
1.2939
0.2362
30.7


rs11717157
Imputed
T
GENOTYPIC
4.70E−04
0.02682
1.7552
1.6884
0.1274
51.46


rs11724055
Imputed
A
DOMINANT
5.58E−05
5.58E−05
0.6449
0.6449
0.4625
0


rs11743355
Imputed
C
ADDITIVE
3.93E−03
1.07E−01
0.5325
0.414
0.005
81.12


rs11743355
Imputed
C
DOMINANT
7.85E−03
1.52E−01
0.5256
0.4354
0.0052
80.99


rs11746806
Imputed
T
ADDITIVE
2.88E−03
1.05E−01
0.5269
0.4225
0.0055
80.81


rs11746806
Imputed
T
DOMINANT
5.93E−03
1.50E−01
0.520
40.4449
0.0058
80.6


rs11746959
Imputed
T
ADDITIVE
2.88E−03
0.1046
0.5269
0.4225
0.0055
80.81


rs11746959
Imputed
T
DOMINANT
5.93E−03
1.50E−01
0.5204
0.4449
0.0058
80.6


rs11749272
Imputed
T
DOMINANT
1.88E−05
1.88E−05
0.6481
0.6481
0.8316
0


rs11839636
Imputed
C
GENOTYPIC
3.90E−03
2.09E−01
1.6569
1.5719
0.0165
75.65


rs11839785
Imputed
C
GENOTYPIC
4.03E−03
2.10E−01
1.6541
1.57
0.0167
75.56


rs11853619
Imputed
C
GENOTYPIC
5.35E−05
5.35E−05
2.8832
2.8832
0.6237
0


rs11853619
Imputed
C
RECESSIVE
8.59E−05
8.59E−05
2.7639
2.7639
0.6266
0


rs11856780
Imputed
A
GENOTYPIC
5.35E−05
5.35E−05
2.8832
2.8832
0.6237
0


rs11856780
Imputed
A
RECESSIVE
8.59E−05
8.59E−05
2.7639
2.7639
0.6266
0


rs11901899
Imputed
A
DOMINANT
5.52E−05
5.52E−05
1.5083
1.5083
0.5339
0


rs11903290
Imputed
C
RECESSIVE
9.00E−05
9.00E−05
1.9859
1.9859
0.5245
0


rs11909480
Imputed
G
ADDITIVE
9.50E−05
9.50E−05
0.4368
0.4368
0.6169
0


rs11909480
Imputed
G
DOMINANT
7.23E−05
7.23E−05
0.418
0.418
0.5676
0


rs11910289
Imputed
T
ADDITIVE
8.16E−05
8.16E−05
1.8423
1.8423
0.8017
0


rs11910289
Imputed
T
DOMINANT
9.10E−05
9.10E−05
1.904
1.904
0.8708
0


rs11920375
Genotyped
C
GENOTYPIC
7.95E−04
4.33E−02
1.703
1.6282
0.1117
54.37


rs11926319
Imputed
G
DOMINANT
7.96E−04
0.02707
0.6352
0.6499
0.1381
49.5


rs11933744
Imputed
T
RECESSIVE
3.12E−03
0.1216
1.7872
1.8072
0.0315
71.09


rs11934919
Imputed
C
RECESSIVE
3.17E−03
0.1247
1.7868
1.804
0.0307
71.3


rs11934957
Imputed
C
RECESSIVE
3.17E−03
0.1247
1.7868
1.804
0.0307
71.3


rs11959206
Imputed
A
RECESSIVE
1.87E−03
0.191
0.678
0.7117
0.0177
75.21


rs12038613
Imputed
C
RECESSIVE
3.47E−04
0.01168
0.613
0.6271
0.1717
43.24


rs12151417
Imputed
T
DOMINANT
6.25E−05
6.25E−05
1.506
1.506
0.9573
0


rs12153185
Imputed
T
DOMINANT
2.47E−05
2.47E−05
0.6504
0.6504
0.757
0


rs12182651
Imputed
T
DOMINANT
8.64E−04
5.43E−02
1.5996
1.5843
0.071
62.2


rs12235345
Imputed
C
DOMINANT
6.65E−05
6.65E−05
1.8285
1.8285
0.4602
0


rs12324786
Imputed
T
GENOTYPIC
5.56E−05
5.56E−05
2.911
2.911
0.7416
0


rs12324786
Imputed
T
RECESSIVE
8.05E−05
8.05E−05
2.8127
2.8127
0.7514
0


rs12336958
Imputed
G
DOMINANT
4.62E−03
2.90E−01
1.3599
1.2903
0.009
78.77


rs12407412
Imputed
C
ADDITIVE
4.55E−05
4.55E−05
1.5333
1.5333
0.6371
0


rs12407412
Imputed
C
DOMINANT
3.07E−05
3.07E−05
1.6289
1.6289
0.6561
0


rs12418971
Imputed
C
GENOTYPIC
3.47E−05
3.47E−05
2.4809
2.4809
0.4834
0


rs12418971
Imputed
C
RECESSIVE
6.71E−05
6.71E−05
2.3563
2.3563
0.5471
0


rs1241967
Imputed
T
RECESSIVE
7.19E−05
7.19E−05
0.5103
0.5103
0.3812
0


rs12420184
Imputed
G
DOMINANT
9.08E−03
4.26E−01
0.7449
0.7927
0.0017
84.33


rs12433968
Imputed
T
DOMINANT
7.59E−04
1.18E−01
0.707
0.741
0.0375
69.54


rs12445477
Imputed
A
DOMINANT
6.41E−05
8.38E−05
0.5585
0.5583
0.357
2.92


rs12447191
Genotyped
T
ADDITIVE
8.95E−05
8.95E−05
0.6925
0.6925
0.818
0


rs12447191
Genotyped
T
DOMINANT
5.17E−05
5.17E−05
0.6473
0.6473
0.3993
0


rs12465349
Imputed
A
RECESSIVE
3.69E−05
3.69E−05
1.6009
1.6009
0.6932
0


rs1247340
Imputed
C
ADDITIVE
7.69E−03
3.65E−01
1.2697
1.2218
0.0029
82.86


rs1247340
Imputed
C
DOMINANT
0.0003633
0.0921
1.4554
1.406
0.0314
71.11


rs1247341
Imputed
C
ADDITIVE
0.006355
0.3353
1.2777
1.2307
0.004
81.86


rs1247341
Imputed
C
DOMINANT
3.13E−04
0.07821
1.4625
1.4174
0.0367
69.74


rs1247343
Imputed
C
DOMINANT
3.36E−04
7.38E−03
1.4916
1.47
0.2058
36.74


rs12509758
Imputed
C
DOMINANT
6.36E−05
6.36E−05
1.5131
1.5131
0.4849
0


rs12515472
Imputed
A
DOMINANT
9.90E−05
9.90E−05
1.5106
1.5106
0.3966
0


rs12548906
Imputed
G
ADDITIVE
4.27E−05
4.27E−05
1.4718
1.4718
0.4259
0


rs12596240
Imputed
G
DOMINANT
1.60E−04
0.003727
0.6751
0.6862
0.2247
33.03


rs12618781
Imputed
A
DOMINANT
1.01E−03
0.07896
0.6934
0.7084
0.0532
65.92


rs12678600
Imputed
A
DOMINANT
5.24E−05
5.24E−05
0.665
0.665
0.5424
0


rs12692229
Imputed
T
ADDITIVE
6.42E−05
6.42E−05
1.3491
1.3491
0.3777
0


rs12713324
Imputed
T
DOMINANT
6.12E−05
6.12E−05
1.5047
1.5047
0.9505
0


rs12719415
Imputed
T
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs12820589
Imputed
G
ADDITIVE
1.70E−03
1.48E−01
1.3433
1.3243
0.0167
75.57


rs12820589
Imputed
G
DOMINANT
1.50E−03
9.38E−02
1.4056
1.3931
0.0399
68.95


rs12831292
Imputed
G
ADDITIVE
2.24E−05
2.24E−05
0.7299
0.7299
0.8379
0


rs12831292
Imputed
G
DOMINANT
1.03E−05
1.03E−05
0.6291
0.6291
0.7999
0


rs13012636
Imputed
G
RECESSIVE
7.97E−05
7.97E−05
1.996
1.996
0.5232
0


rs13038146
Imputed
C
ADDITIVE
1.20E−05
1.20E−05
1.3766
1.3766
0.9732
0


rs13038146
Imputed
C
GENOTYPIC
7.24E−06
7.24E−06
2.0174
2.0174
0.8918
0


rs13038146
Imputed
C
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs13089860
Imputed
A
DOMINANT
8.44E−05
8.44E−05
0.6273
0.6273
0.9636
0


rs13102419
Imputed
T
RECESSIVE
2.95E−04
0.003722
1.5536
1.5326
0.2434
29.22


rs13194907
Imputed
A
ADDITIVE
4.90E−04
0.01486
1.6504
1.6306
0.1555
46.27


rs13194907
Imputed
A
DOMINANT
0.0002179
0.004282
1.7592
1.7417
0.2106
35.82


rs13195745
Imputed
A
ADDITIVE
5.08E−04
1.48E−02
1.6483
1.629
0.1573
45.94


rs13195745
Imputed
A
DOMINANT
2.27E−04
4.24E−03
1.7567
1.7397
0.2126
35.41


rs13265054
Imputed
T
DOMINANT
5.66E−05
5.66E−05
0.6647
0.6647
0.7133
0


rs13273002
Imputed
A
GENOTYPIC
4.84E−04
1.49E−02
0.3723
0.3925
0.1872
40.32


rs13282131
Imputed
C
ADDITIVE
3.71E−05
3.71E−05
1.3435
1.3435
0.8944
0


rs13282131
Imputed
C
GENOTYPIC
1.60E−05
1.60E−05
1.8634
1.8634
0.9531
0


rs13282131
Imputed
C
RECESSIVE
3.52E−05
3.52E−05
1.6677
1.6677
0.8497
0


rs1330052
Imputed
G
GENOTYPIC
4.52E−03
2.69E−01
1.5788
1.4648
0.0124
77.22


rs1335721
Imputed
A
RECESSIVE
3.43E−04
1.13E−02
0.6128
0.6267
0.1732
42.96


rs1336382
Imputed
T
DOMINANT
3.16E−05
3.16E−05
1.5202
1.5202
0.7133
0


rs1336383
Imputed
T
DOMINANT
2.98E−05
2.98E−05
1.5214
1.5214
0.7093
0


rs1336407
Imputed
T
DOMINANT
4.97E−05
4.97E−05
1.5023
1.5023
0.7397
0


rs1336409
Imputed
T
DOMINANT
4.97E−05
4.97E−05
1.5023
1.5023
0.7397
0


rs1336596
Imputed
A
DOMINANT
0.0001018
0.03965
0.6696
0.6977
0.0654
63.33


rs13387284
Imputed
A
DOMINANT
8.75E−04
0.08529
0.688
0.7034
0.044
67.99


rs13401462
Imputed
C
DOMINANT
3.10E−04
1.15E−01
1.5296
1.4898
0.0127
77.09


rs13409045
Imputed
T
ADDITIVE
1.07E−03
4.28E−02
0.786
0.7926
0.0962
57.29


rs1349284
Imputed
C
GENOTYPIC
0.00058
0.0204
1.7388
1.6882
0.1518
46.96


rs1355715
Imputed
T
ADDITIVE
9.33E−05
9.33E−05
0.5378
0.5378
0.685
0


rs1357696
Imputed
A
GENOTYPIC
0.0009292
0.05615
1.6955
1.6136
0.0952
57.47


rs1357698
Imputed
A
GENOTYPIC
8.00E−04
4.78E−02
1.7026
1.6275
0.1002
56.54


rs1357699
Imputed
T
GENOTYPIC
0.0008002
0.04784
1.7026
1.6275
0.1002
56.54


rs1363273
Imputed
C
RECESSIVE
5.45E−04
1.84E−02
0.6477
0.6596
0.1541
46.53


rs1373601
Imputed
A
DOMINANT
2.77E−04
0.01048
0.6816
0.6853
0.1561
46.15


rs1375829
Imputed
C
GENOTYPIC
5.80E−04
0.0204
1.7388
1.6882
0.1518
46.96


rs1395748
Imputed
G
DOMINANT
4.33E−03
2.60E−01
0.7518
0.7852
0.0125
77.17


rs1414865
Imputed
T
DOMINANT
5.22E−05
5.22E−05
1.503
1.503
0.7135
0


rs1414873
Imputed
A
DOMINANT
4.97E−05
4.97E−05
1.5023
1.5023
0.7397
0


rs1414876
Imputed
C
DOMINANT
4.97E−05
4.97E−05
1.5023
1.5023
0.7397
0


rs1424643
Imputed
G
ADDITIVE
3.10E−05
3.10E−05
1.4271
1.4271
0.7865
0


rs1424643
Imputed
G
DOMINANT
1.30E−05
1.30E−05
1.5651
1.5651
0.8673
0


rs1424648
Imputed
T
DOMINANT
9.94E−05
9.94E−05
1.486
1.486
0.6958
0


rs1429321
Imputed
A
DOMINANT
7.77E−05
7.77E−05
1.4953
1.4953
0.9675
0


rs1429326
Imputed
T
ADDITIVE
9.21E−05
9.21E−05
1.399
1.399
0.8323
0


rs1429326
Imputed
T
DOMINANT
3.60E−05
3.60E−05
1.5277
1.5277
0.9565
0


rs1444741
Imputed
A
DOMINANT
2.75E−04
2.69E−02
0.6829
0.6887
0.0868
59.09


rs1449916
Imputed
C
DOMINANT
1.95E−05
1.95E−05
0.5625
0.5625
0.3711
0


rs1459523
Imputed
A
ADDITIVE
3.66E−04
4.28E−03
1.3013
1.2939
0.2362
30.7


rs1459523
Imputed
A
GENOTYPIC
4.70E−04
0.02682
1.7552
1.6884
0.1274
51.46


rs1466352
Imputed
T
GENOTYPIC
0.0005775
0.02214
1.7187
1.6652
0.1488
47.51


rs1466353
Imputed
G
GENOTYPIC
0.0005742
0.02215
1.7191
1.6655
0.1486
47.55


rs1476714
Imputed
A
DOMINANT
2.39E−05
2.39E−05
0.6504
0.6504
0.8559
0


rs1486723
Imputed
C
RECESSIVE
6.53E−05
6.53E−05
0.5173
0.5173
0.6824
0


rs1495375
Imputed
A
ADDITIVE
4.26E−05
4.26E−05
0.7384
0.7384
0.8941
0


rs1495375
Imputed
A
DOMINANT
2.29E−05
2.29E−05
0.6402
0.6402
0.8341
0


rs1495381
Imputed
T
GENOTYPIC
6.50E−05
6.50E−05
1.8347
1.8347
0.5926
0


rs1495381
Imputed
T
RECESSIVE
1.60E−05
1.60E−05
1.8065
1.8065
0.8326
0


rs1498061
Imputed
C
ADDITIVE
3.02E−05
3.02E−05
0.5576
0.5576
0.7263
0


rs1498992
Imputed
G
DOMINANT
3.76E−05
3.76E−05
0.6602
0.6602
0.6375
0


rs1499001
Imputed
T
DOMINANT
2.63E−05
2.63E−05
0.6507
0.6507
0.4397
0


rs1512988
Imputed
A
ADDITIVE
2.04E−05
2.04E−05
0.7286
0.7286
0.7895
0


rs1512988
Imputed
A
DOMINANT
1.46E−05
1.46E−05
0.6349
0.6349
0.7791
0


rs1512989
Imputed
T
ADDITIVE
2.04E−05
2.04E−05
0.7286
0.7286
0.7895
0


rs1512989
Imputed
T
DOMINANT
1.46E−05
1.46E−05
0.6349
0.6349
0.7791
0


rs1512991
Imputed
T
ADDITIVE
1.75E−05
1.75E−05
0.7317
0.7317
0.9424
0


rs1512991
Imputed
T
DOMINANT
2.76E−05
2.76E−05
0.6327
0.6327
0.8654
0


rs1512991
Imputed
T
GENOTYPIC
5.58E−05
5.58E−05
0.5525
0.5525
0.7914
0


rs1524303
Imputed
T
GENOTYPIC
0.0005851
0.02098
1.7312
1.675
0.1554
46.29


rs1524306
Imputed
C
ADDITIVE
0.000344
0.004662
1.3028
1.295
0.2276
32.44


rs1524306
Imputed
C
GENOTYPIC
4.48E−04
2.71E−02
1.7589
1.6915
0.1248
51.94


rs1524310
Imputed
G
ADDITIVE
2.72E−04
2.93E−03
1.3102
1.3039
0.2464
28.62


rs1524310
Imputed
G
GENOTYPIC
0.0003497
0.01684
1.7827
1.724
0.1509
47.13


rs1524321
Imputed
C
GENOTYPIC
3.30E−04
8.74E−03
1.772
1.7335
0.1931
39.2


rs1527059
Imputed
A
DOMINANT
6.83E−05
6.83E−05
0.577
0.577
0.3905
0


rs152707
Imputed
A
ADDITIVE
0.001601
0.1313
0.7957
0.8167
0.0376
69.53


rs152707
Imputed
A
GENOTYPIC
1.86E−03
1.35E−01
0.6257
0.6605
0.0389
69.2


rs152712
Genotyped
C
ADDITIVE
0.001213
0.1285
0.7908
0.812
0.0331
70.67


rs152712
Genotyped
C
GENOTYPIC
0.001349
0.1341
0.6169
0.6528
0.0328
70.74


rs1533994
Imputed
T
GENOTYPIC
0.0004988
0.02256
1.7311
1.674
0.142
48.77


rs1535866
Imputed
G
DOMINANT
9.86E−05
9.86E−05
1.4938
1.4938
0.5229
0


rs1563773
Imputed
T
GENOTYPIC
0.0006151
0.02321
1.7166
1.6611
0.1482
47.61


rs1563774
Imputed
T
GENOTYPIC
0.0006165
0.02322
1.7172
1.6635
0.1469
47.87


rs1567740
Imputed
T
ADDITIVE
1.99E−05
1.99E−05
0.7287
0.7287
0.7926
0


rs1567740
Imputed
T
DOMINANT
1.35E−05
1.35E−05
0.634
0.634
0.765
0


rs1572573
Imputed
A
DOMINANT
0.0004861
0.03203
1.4535
1.4085
0.1213
52.6


rs1577497
Imputed
C
RECESSIVE
0.000359
0.01133
0.6139
0.6277
0.1749
42.64


rs1581514
Imputed
T
ADDITIVE
0.0003311
0.003803
1.3057
1.2997
0.2373
30.49


rs1581514
Imputed
T
GENOTYPIC
0.0004261
0.02325
1.7652
1.7041
0.1328
50.48


rs1582321
Imputed
T
DOMINANT
0.0001513
0.003601
0.6742
0.6852
0.2244
33.07


rs1582322
Imputed
A
DOMINANT
0.0001591
0.0008772
0.674
0.6797
0.3001
16.91


rs1582323
Imputed
A
DOMINANT
0.0001659
0.001455
0.6747
0.6823
0.2779
21.9


rs1592485
Imputed
C
DOMINANT
0.000161
0.001019
0.6729
0.6792
0.294
18.31


rs1600954
Imputed
T
ADDITIVE
4.63E−05
4.63E−05
1.3445
1.3445
0.5721
0


rs1600954
Imputed
T
GENOTYPIC
4.57E−05
4.57E−05
1.8147
1.8147
0.542
0


rs16938626
Imputed
G
DOMINANT
3.76E−05
3.76E−05
0.659
0.659
0.6465
0


rs16964300
Imputed
G
ADDITIVE
6.56E−05
6.56E−05
0.6892
0.6892
0.8019
0


rs16964300
Imputed
G
DOMINANT
3.18E−05
3.18E−05
0.6401
0.6401
0.4292
0


rs16986282
Imputed
G
DOMINANT
4.72E−05
4.72E−05
0.4011
0.4011
0.3857
0


rs17007620
Imputed
G
ADDITIVE
0.00042
0.01992
1.3669
1.3587
0.1192
52.98


rs17007620
Imputed
G
DOMINANT
0.0001365
0.003601
1.5086
1.5037
0.1945
38.93


rs17014326
Imputed
G
DOMINANT
0.00215
0.2476
0.7351
0.7739
0.0097
78.44


rs17047957
Imputed
C
DOMINANT
3.23E−05
3.23E−05
1.5756
1.5756
0.7413
0


rs1705261
Imputed
A
RECESSIVE
2.52E−05
2.52E−05
1.7737
1.7737
0.834
0


rs17073341
Imputed
A
ADDITIVE
9.48E−05
9.48E−05
2.0844
2.0844
0.3839
0


rs17073341
Imputed
A
DOMINANT
7.90E−05
7.90E−05
2.1417
2.1417
0.3765
0


rs17138702
Imputed
G
ADDITIVE
0.004
0.216
0.7417
0.7591
0.0117
77.5


rs17189710
Imputed
T
ADDITIVE
1.26E−05
1.26E−05
1.3776
1.3776
0.9806
0


rs17189710
Imputed
T
GENOTYPIC
7.08E−06
7.08E−06
2.0265
2.0265
0.8812
0


rs17189710
Imputed
T
RECESSIVE
5.89E−05
5.89E−05
1.7991
1.7991
0.569
0


rs17310176
Imputed
T
ADDITIVE
6.02E−05
6.02E−05
0.6787
0.6787
0.5641
0


rs17310176
Imputed
T
DOMINANT
4.51E−05
4.51E−05
0.6409
0.6409
0.4149
0


rs17358860
Imputed
A
DOMINANT
5.45E−05
5.45E−05
0.6457
0.6457
0.4986
0


rs17370541
Imputed
T
GENOTYPIC
0.0003366
0.01452
1.7812
1.7046
0.176
42.44


rs17370541
Imputed
T
RECESSIVE
0.0002644
0.004097
1.7173
1.6801
0.2409
29.74


rs17526574
Imputed
G
GENOTYPIC
0.002555
0.1386
1.6824
1.6185
0.0319
70.98


rs17530747
Imputed
T
DOMINANT
0.0007294
0.06795
0.7034
0.7357
0.0872
59.01


rs17649114
Imputed
C
DOMINANT
5.86E−05
5.86E−05
1.5179
1.5179
0.5026
0


rs17766172
Imputed
A
RECESSIVE
4.67E−05
4.67E−05
0.4975
0.4975
0.483
0


rs1818885
Imputed
G
GENOTYPIC
0.0004892
0.02726
1.756
1.6897
0.1265
51.64


rs1832222
Imputed
G
DOMINANT
5.68E−05
5.68E−05
1.4978
1.4978
0.7483
0


rs1861327
Imputed
G
DOMINANT
0.0001308
0.002055
0.67
0.6796
0.2521
27.42


rs1868581
Imputed
G
ADDITIVE
0.0003858
0.009401
1.3009
1.2907
0.1844
40.85


rs1868581
Imputed
G
GENOTYPIC
0.0004728
0.03115
1.7583
1.6889
0.1157
53.63


rs1874313
Imputed
A
ADDITIVE
3.53E−05
3.53E−05
0.7362
0.7362
0.736
0


rs1874313
Imputed
A
DOMINANT
2.05E−05
2.05E−05
0.6403
0.6403
0.7327
0


rs1876409
Imputed
C
DOMINANT
0.003381
0.227
0.746
0.7766
0.0157
75.94


rs1913201
Imputed
G
ADDITIVE
2.15E−05
2.15E−05
0.7321
0.7321
0.9128
0


rs1913201
Imputed
G
DOMINANT
6.73E−05
6.73E−05
0.6474
0.6474
0.8659
0


rs1913201
Imputed
G
GENOTYPIC
6.26E−05
6.26E−05
0.5503
0.5503
0.7315
0


rs1916922
Imputed
T
GENOTYPIC
0.0006243
0.02368
1.7596
1.7018
0.1488
47.52


rs1936871
Genotyped
G
DOMINANT
8.55E−05
8.55E−05
0.6616
0.6616
0.3925
0


rs1961157
Imputed
T
RECESSIVE
0.002404
0.1282
0.68
0.6899
0.0283
71.94


rs1987179
Imputed
T
ADDITIVE
9.76E−05
9.76E−05
0.6985
0.6985
0.7616
0


rs1987179
Imputed
T
DOMINANT
6.37E−06
6.37E−06
0.6204
0.6204
0.6462
0


rs1990023
Imputed
T
DOMINANT
1.72E−05
1.72E−05
0.6468
0.6468
0.8317
0


rs1995025
Imputed
C
DOMINANT
7.87E−05
7.87E−05
1.5633
1.5633
0.7042
0


rs2016194
Imputed
G
DOMINANT
2.38E−05
2.38E−05
0.651
0.651
0.8576
0


rs2023651
Imputed
T
ADDITIVE
0.002541
0.2484
0.7624
0.7886
0.0082
79.2


rs2024902
Imputed
A
ADDITIVE
0.0005049
0.01577
1.6486
1.6285
0.152
46.92


rs2024902
Imputed
A
DOMINANT
0.0002252
0.004699
1.7569
1.739
0.2058
36.74


rs2025107
Imputed
A
DOMINANT
0.0008183
0.05061
1.6029
1.5881
0.0749
61.42


rs2025108
Imputed
T
DOMINANT
0.001038
0.04754
1.5831
1.5581
0.0932
57.86


rs2031987
Imputed
T
GENOTYPIC
0.002645
0.1394
1.6843
1.6228
0.0311
71.19


rs2052428
Imputed
C
DOMINANT
6.07E−05
6.07E−05
0.6359
0.6359
0.7925
0


rs2053230
Imputed
C
ADDITIVE
0.0001481
0.003644
0.6297
0.6429
0.2766
22.2


rs2062448
Imputed
T
DOMINANT
0.0003871
0.004058
0.6188
0.6264
0.2457
28.76


rs2063420
Imputed
C
RECESSIVE
0.001837
0.1146
1.4963
1.443
0.0468
67.35


rs2063591
Imputed
C
ADDITIVE
7.27E−05
7.27E−05
0.7518
0.7518
0.9305
0


rs2063591
Imputed
C
DOMINANT
4.26E−05
4.26E−05
0.6381
0.6381
0.8973
0


rs208026
Genotyped
A
DOMINANT
6.33E−05
6.33E−05
1.4986
1.4986
0.9606
0


rs208029
Imputed
T
DOMINANT
3.75E−05
3.75E−05
1.5349
1.5349
0.4541
0


rs208757
Imputed
G
DOMINANT
3.01E−05
3.01E−05
1.5343
1.5343
0.5566
0


rs2095586
Imputed
A
DOMINANT
3.68E−05
3.68E−05
1.5163
1.5163
0.6839
0


rs2095606
Imputed
A
DOMINANT
5.61E−05
0.01913
0.6593
0.6816
0.0926
57.97


rs2102374
Imputed
A
ADDITIVE
0.001363
0.2021
0.7686
0.7983
0.0117
77.54


rs2102374
Imputed
A
DOMINANT
0.001202
0.1846
0.7215
0.7489
0.0116
77.55


rs2108426
Imputed
C
DOMINANT
2.38E−05
2.38E−05
0.651
0.651
0.8576
0


rs2110664
Imputed
A
DOMINANT
3.76E−05
3.76E−05
1.532
1.532
0.6276
0


rs2132242
Imputed
A
ADDITIVE
1.93E−05
1.93E−05
0.7293
0.7293
0.8549
0


rs2132242
Imputed
A
DOMINANT
1.23E−05
1.23E−05
0.6323
0.6323
0.8457
0


rs2158958
Imputed
A
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs2158961
Imputed
G
DOMINANT
4.37E−05
4.37E−05
0.663
0.663
0.936
0


rs2163046
Imputed
A
DOMINANT
7.62E−05
7.62E−05
1.4981
1.4981
0.988
0


rs2180286
Imputed
G
DOMINANT
6.63E−05
6.63E−05
0.6345
0.6345
0.8013
0


rs2180684
Imputed
A
DOMINANT
2.68E−05
2.68E−05
1.7201
1.7201
0.9033
0


rs2188079
Imputed
C
ADDITIVE
0.0004508
0.01972
1.2881
1.2834
0.1244
52.01


rs2188079
Imputed
C
GENOTYPIC
0.0002443
0.007437
1.7178
1.7019
0.1776
42.15


rs2190598
Imputed
T
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs2190600
Imputed
A
DOMINANT
2.54E−05
2.54E−05
0.6504
0.6504
0.7871
0


rs2224184
Genotyped
T
DOMINANT
8.75E−05
8.75E−05
0.6414
0.6414
0.8155
0


rs2247066
Imputed
A
DOMINANT
0.004329
0.2604
0.7518
0.7852
0.0125
77.17


rs2248236
Imputed
C
ADDITIVE
2.90E−05
2.90E−05
0.676
0.676
0.7802
0


rs2248236
Imputed
C
DOMINANT
1.58E−06
1.58E−06
0.596
0.596
0.8313
0


rs2265733
Imputed
C
ADDITIVE
0.001363
0.2021
0.7686
0.7983
0.0117
77.54


rs2265733
Imputed
C
DOMINANT
0.001202
0.1846
0.7215
0.7489
0.0116
77.55


rs2270584
Imputed
A
ADDITIVE
2.02E−05
2.02E−05
0.7312
0.7312
0.8826
0


rs2270584
Imputed
A
DOMINANT
2.32E−06
2.32E−06
0.6123
0.6123
0.8509
0


rs2270586
Imputed
A
ADDITIVE
2.39E−05
2.39E−05
0.7334
0.7334
0.8691
0


rs2270586
Imputed
A
DOMINANT
3.16E−06
3.16E−06
0.6167
0.6167
0.8138
0


rs229775
Imputed
A
RECESSIVE
7.19E−05
7.19E−05
0.5103
0.5103
0.3812
0


rs229815
Imputed
T
RECESSIVE
9.48E−05
9.48E−05
0.5099
0.5099
0.5285
0


rs229829
Imputed
C
RECESSIVE
9.98E−05
9.98E−05
0.5548
0.5548
0.8369
0


rs229831
Imputed
A
RECESSIVE
8.91E−05
8.91E−05
0.5096
0.5096
0.3946
0


rs2317057
Imputed
T
ADDITIVE
6.41E−05
6.41E−05
0.6839
0.6839
0.7046
0


rs2322100
Genotyped
T
RECESSIVE
4.07E−05
4.07E−05
2.2062
2.2062
0.5484
0


rs2322101
Imputed
A
RECESSIVE
3.66E−05
3.66E−05
2.218
2.218
0.5273
0


rs2327929
Imputed
G
RECESSIVE
3.43E−05
3.43E−05
1.6873
1.6873
0.4473
0


rs2332844
Imputed
A
ADDITIVE
3.09E−05
3.09E−05
1.6598
1.6598
0.5134
0


rs2332844
Imputed
A
RECESSIVE
6.54E−05
6.54E−05
1.7248
1.7248
0.7183
0


rs2349170
Imputed
G
DOMINANT
9.67E−05
9.67E−05
1.4926
1.4926
0.6711
0


rs2356722
Imputed
G
DOMINANT
0.002651
0.2845
0.7401
0.7804
0.0062
80.31


rs2364956
Imputed
T
ADDITIVE
0.000127
0.0002252
1.4305
1.4298
0.3433
6.47


rs2373793
Imputed
G
ADDITIVE
4.62E−05
4.62E−05
1.4791
1.4791
0.7939
0


rs2373793
Imputed
G
DOMINANT
2.34E−05
2.34E−05
1.5985
1.5985
0.6098
0


rs238252
Imputed
G
ADDITIVE
8.76E−05
0.0001795
1.4845
1.4806
0.3424
6.69


rs238252
Imputed
G
DOMINANT
6.01E−05
0.0004281
1.5806
1.5679
0.292
18.76


rs2383903
Imputed
G
DOMINANT
4.71E−05
4.71E−05
0.6638
0.6638
0.7307
0


rs2387945
Imputed
G
DOMINANT
7.60E−05
7.60E−05
1.5615
1.5615
0.6844
0


rs2389863
Imputed
A
DOMINANT
1.22E−05
1.22E−05
0.6334
0.6334
0.7957
0


rs2389866
Imputed
C
DOMINANT
4.66E−06
4.66E−06
0.6225
0.6225
0.7145
0


rs2389869
Imputed
C
DOMINANT
4.66E−06
4.66E−06
0.6225
0.6225
0.7145
0


rs2389870
Genotyped
C
DOMINANT
6.46E−05
6.46E−05
0.6493
0.6493
0.3855
0


rs2418494
Imputed
G
ADDITIVE
9.79E−05
9.79E−05
0.7569
0.7569
0.5664
0


rs2418494
Imputed
G
GENOTYPIC
9.28E−05
9.28E−05
0.5712
0.5712
0.5491
0


rs2418541
Imputed
A
DOMINANT
1.72E−05
1.72E−05
0.6468
0.6468
0.8317
0


rs2418542
Imputed
A
DOMINANT
1.88E−05
1.88E−05
0.6481
0.6481
0.8316
0


rs2423556
Imputed
C
DOMINANT
7.99E−05
7.99E−05
0.635
0.635
0.8112
0


rs2437688
Imputed
C
ADDITIVE
7.95E−05
7.95E−05
1.591
1.591
0.4782
0


rs2456809
Imputed
G
DOMINANT
0.002716
0.1918
0.7406
0.7699
0.0226
73.61


rs2456811
Imputed
T
ADDITIVE
0.001617
0.2162
0.7717
0.802
0.0106
77.99


rs2456811
Imputed
T
DOMINANT
0.001438
0.1994
0.7251
0.7532
0.0104
78.1


rs2476976
Imputed
C
DOMINANT
6.91E−05
6.91E−05
1.4908
1.4908
0.8073
0


rs2484911
Imputed
A
DOMINANT
9.19E−05
9.19E−05
1.4801
1.4801
0.8339
0


rs2488557
Imputed
C
DOMINANT
0.000454
0.009593
0.6571
0.6684
0.1949
38.85


rs250162
Imputed
C
ADDITIVE
7.89E−06
7.89E−06
0.6754
0.6754
0.5537
0


rs250162
Imputed
C
DOMINANT
3.91E−06
3.91E−06
0.6207
0.6207
0.4842
0


rs2560708
Imputed
T
ADDITIVE
8.04E−05
8.04E−05
0.6746
0.6746
0.7071
0


rs2617841
Imputed
G
DOMINANT
7.42E−05
7.42E−05
0.6584
0.6584
0.6003
0


rs2622499
Imputed
G
DOMINANT
5.66E−06
5.66E−06
0.6251
0.6251
0.6966
0


rs264129
Imputed
T
DOMINANT
4.75E−05
4.75E−05
0.6631
0.6631
0.9256
0


rs2642936
Imputed
T
ADDITIVE
0.0008203
0.04658
1.3495
1.3354
0.0879
58.88


rs2660633
Imputed
A
DOMINANT
0.003381
0.227
0.746
0.7766
0.0157
75.94


rs2660634
Imputed
C
DOMINANT
0.003381
0.227
0.746
0.7766
0.0157
75.94


rs2660648
Imputed
A
ADDITIVE
0.001363
0.2021
0.7686
0.7983
0.0117
77.54


rs2660648
Imputed
A
DOMINANT
0.001202
0.1846
0.7215
0.7489
0.0116
77.55


rs2681505
Imputed
T
ADDITIVE
2.69E−05
2.69E−05
0.6941
0.6941
0.3782
0


rs277411
Imputed
G
DOMINANT
0.002587
0.1087
0.5246
0.4938
0.0195
74.6


rs2832634
Imputed
G
ADDITIVE
9.75E−05
9.75E−05
1.8259
1.8259
0.7829
0


rs2832637
Imputed
T
ADDITIVE
9.75E−05
9.75E−05
1.8259
1.8259
0.7829
0


rs2843167
Imputed
A
DOMINANT
0.001237
0.1278
0.7224
0.7509
0.0362
69.86


rs2876227
Imputed
C
ADDITIVE
2.82E−05
2.82E−05
1.362
1.362
0.97
0


rs2876227
Imputed
C
GENOTYPIC
1.54E−05
1.54E−05
1.9854
1.9854
0.8563
0


rs2882097
Imputed
A
DOMINANT
2.98E−05
2.98E−05
1.5214
1.5214
0.7093
0


rs2909862
Imputed
G
DOMINANT
0.0004342
0.0219
1.5096
1.4698
0.1401
49.11


rs3001945
Imputed
T
DOMINANT
7.34E−05
7.34E−05
1.5785
1.5785
0.8106
0


rs3011020
Imputed
C
DOMINANT
7.27E−05
7.27E−05
1.5634
1.5634
0.6833
0


rs36071725
Genotyped
C
ADDITIVE
0.0001148
0.05399
1.3419
1.3062
0.0432
68.17


rs36071725
Genotyped
C
GENOTYPIC
0.0001469
0.1424
1.9245
1.7281
0.0116
77.56


rs373983
Imputed
G
DOMINANT
2.26E−05
2.26E−05
1.5782
1.5782
0.441
0


rs3743794
Imputed
G
DOMINANT
0.0002394
0.002286
0.6809
0.6895
0.2695
23.73


rs3756154
Imputed
C
ADDITIVE
8.74E−05
8.74E−05
0.6973
0.6973
0.7453
0


rs3756154
Imputed
C
DOMINANT
5.57E−06
5.57E−06
0.6194
0.6194
0.6345
0


rs3775850
Imputed
A
DOMINANT
4.28E−05
4.28E−05
0.6406
0.6406
0.4572
0


rs3775851
Imputed
C
DOMINANT
5.58E−05
5.58E−05
0.6449
0.6449
0.4625
0


rs3793044
Imputed
C
ADDITIVE
0.0006211
0.01526
1.6363
1.6145
0.1659
44.33


rs3793044
Imputed
C
DOMINANT
0.0002821
0.004123
1.7429
1.7248
0.2257
32.82


rs3793053
Imputed
C
DOMINANT
0.0006344
0.04352
1.6268
1.6074
0.0815
60.12


rs3796246
Imputed
G
DOMINANT
0.0006434
0.02777
0.6293
0.6362
0.1152
53.73


rs3806003
Imputed
A
ADDITIVE
0.0006211
0.01526
1.6363
1.6145
0.1659
44.33


rs3806003
Imputed
A
DOMINANT
0.0002821
0.004123
1.7429
1.7248
0.2257
32.82


rs3806004
Imputed
T
DOMINANT
0.0008183
0.05061
1.6029
1.5881
0.0749
61.42


rs3806010
Imputed
T
DOMINANT
0.0008183
0.05061
1.6029
1.5881
0.0749
61.42


rs3806014
Imputed
T
DOMINANT
0.0006528
0.0397
1.6219
1.6045
0.0892
58.62


rs3806015
Imputed
A
DOMINANT
0.0007014
0.04258
1.6162
1.5981
0.0866
59.13


rs3806018
Imputed
A
DOMINANT
0.001012
0.05137
1.5918
1.5803
0.0785
60.71


rs3806019
Imputed
A
DOMINANT
0.0009044
0.0577
1.5971
1.581
0.0678
62.83


rs3806024
Imputed
T
DOMINANT
0.0006532
0.0428
1.619
1.6067
0.0793
60.54


rs3915080
Imputed
A
GENOTYPIC
0.0006483
0.0458
1.7202
1.6467
0.095
57.52


rs3942254
Imputed
T
ADDITIVE
2.13E−05
2.13E−05
0.7274
0.7274
0.9089
0


rs3942254
Imputed
T
DOMINANT
9.53E−06
9.53E−06
0.6253
0.6253
0.9519
0


rs3945085
Imputed
A
DOMINANT
3.27E−05
3.27E−05
1.519
1.519
0.687
0


rs3976737
Imputed
G
ADDITIVE
0.003945
0.2806
0.7457
0.7798
0.0081
79.23


rs399485
Imputed
A
DOMINANT
4.97E−05
4.97E−05
1.5032
1.5032
0.8617
0


rs4029119
Imputed
G
ADDITIVE
0.004166
0.1177
0.5395
0.4424
0.0069
79.92


rs4029119
Imputed
G
DOMINANT
0.008687
0.1677
0.5356
0.4664
0.0072
79.71


rs4076201
Imputed
G
GENOTYPIC
5.99E−05
5.99E−05
2.6809
2.6809
0.7622
0


rs4076201
Imputed
G
RECESSIVE
6.53E−05
6.53E−05
2.6253
2.6253
0.7419
0


rs41395945
Imputed
G
ADDITIVE
7.48E−05
7.48E−05
1.8482
1.8482
0.7926
0


rs41395945
Imputed
G
DOMINANT
8.37E−05
8.37E−05
1.9099
1.9099
0.8616
0


rs4146972
Genotyped
T
DOMINANT
3.95E−05
3.95E−05
1.5614
1.5614
0.6547
0


rs4238087
Imputed
G
DOMINANT
9.82E−05
9.82E−05
0.6268
0.6268
0.5018
0


rs4251569
Imputed
T
ADDITIVE
9.93E−05
9.93E−05
0.6551
0.6551
0.6066
0


rs4251569
Imputed
T
DOMINANT
8.05E−05
8.05E−05
0.6254
0.6254
0.4972
0


rs4273613
Imputed
T
ADDITIVE
0.002876
0.1046
0.5269
0.4225
0.0055
80.81


rs4273613
Imputed
T
DOMINANT
0.005931
0.1502
0.5204
0.4449
0.0058
80.6


rs4291049
Imputed
T
RECESSIVE
0.002115
0.1545
0.6826
0.7124
0.0331
70.66


rs4315598
Imputed
T
ADDITIVE
1.33E−05
1.33E−05
1.3742
1.3742
0.9673
0


rs4315598
Imputed
T
GENOTYPIC
8.02E−06
8.02E−06
2.0108
2.0108
0.8929
0


rs4315598
Imputed
T
RECESSIVE
6.81E−05
6.81E−05
1.7847
1.7847
0.5993
0


rs4321395
Imputed
A
DOMINANT
0.0008748
0.08529
0.688
0.7034
0.044
67.99


rs4321596
Genotyped
T
RECESSIVE
9.95E−05
9.95E−05
2.3838
2.3838
0.8271
0


rs4324417
Imputed
T
DOMINANT
0.0004684
0.01009
1.4729
1.4477
0.1952
38.79


rs4328619
Genotyped
G
DOMINANT
8.16E−05
8.16E−05
0.6393
0.6393
0.768
0


rs4338909
Imputed
T
ADDITIVE
0.0009962
0.03681
1.2613
1.2511
0.1094
54.81


rs4370878
Imputed
G
DOMINANT
5.08E−05
5.08E−05
1.5041
1.5041
0.6831
0


rs4379434
Genotyped
T
DOMINANT
0.0008974
0.03349
1.4182
1.3922
0.1216
52.53


rs4416407
Imputed
T
DOMINANT
7.89E−05
7.89E−05
1.6055
1.6055
0.6011
0


rs4417899
Imputed
C
RECESSIVE
7.35E−05
7.35E−05
0.6217
0.6217
0.5918
0


rs4442732
Imputed
A
ADDITIVE
0.0002973
0.01275
0.7154
0.7312
0.1721
43.17


rs4444612
Imputed
G
ADDITIVE
1.05E−05
1.05E−05
1.38
1.38
0.9803
0


rs4444612
Imputed
G
GENOTYPIC
6.88E−06
6.88E−06
2.022
2.022
0.8907
0


rs4444612
Imputed
G
RECESSIVE
6.51E−05
6.51E−05
1.7874
1.7874
0.5969
0


rs4450660
Imputed
C
DOMINANT
6.12E−05
6.12E−05
1.5007
1.5007
0.4999
0


rs4509702
Imputed
C
DOMINANT
5.08E−05
5.08E−05
1.5041
1.5041
0.6831
0


rs4526920
Imputed
G
GENOTYPIC
0.002645
0.1394
1.6843
1.6228
0.0311
71.19


rs4533145
Imputed
T
DOMINANT
0.06008
0.6325
0.7887
0.8292
0.0001
89.37


rs4557006
Imputed
A
DOMINANT
0.001528
0.089
0.6986
0.7133
0.0548
65.56


rs4570530
Imputed
C
DOMINANT
5.08E−05
5.08E−05
1.5041
1.5041
0.6831
0


rs4615971
Imputed
C
DOMINANT
4.82E−05
4.82E−05
1.5038
1.5038
0.7548
0


rs4628119
Imputed
A
DOMINANT
0.0009573
0.07481
0.7135
0.7203
0.0461
67.51


rs4664443
Imputed
G
ADDITIVE
0.0009373
0.04269
0.7841
0.7912
0.0927
57.96


rs4688259
Imputed
T
DOMINANT
7.88E−05
7.88E−05
1.6056
1.6056
0.5986
0


rs4688632
Imputed
G
RECESSIVE
4.49E−05
4.49E−05
0.6188
0.6188
0.7162
0


rs4695284
Imputed
A
ADDITIVE
6.68E−05
6.68E−05
1.8181
1.8181
0.5549
0


rs4700302
Imputed
A
ADDITIVE
0.002913
0.1394
0.6642
0.6808
0.0345
70.31


rs4702720
Imputed
A
ADDITIVE
4.29E−05
4.29E−05
0.6727
0.6727
0.6127
0


rs4702720
Imputed
A
DOMINANT
2.14E−05
2.14E−05
0.6116
0.6116
0.5842
0


rs4711091
Genotyped
G
GENOTYPIC
0.003111
0.235
1.5203
1.4091
0.02
74.42


rs4714484
Imputed
A
ADDITIVE
6.43E−05
0.0001399
0.6741
0.6745
0.3377
7.89


rs4736802
Imputed
G
DOMINANT
0.0007866
0.03886
1.4239
1.3953
0.1046
55.7


rs4760785
Imputed
A
ADDITIVE
2.15E−05
2.15E−05
0.7321
0.7321
0.9128
0


rs4760785
Imputed
A
DOMINANT
6.73E−05
6.73E−05
0.6474
0.6474
0.8659
0


rs4760785
Imputed
A
GENOTYPIC
6.26E−05
6.26E−05
0.5503
0.5503
0.7315
0


rs4760894
Imputed
T
ADDITIVE
2.15E−05
2.15E−05
0.7321
0.7321
0.9128
0


rs4760894
Imputed
T
DOMINANT
6.73E−05
6.73E−05
0.6474
0.6474
0.8659
0


rs4760894
Imputed
T
GENOTYPIC
6.26E−05
6.26E−05
0.5503
0.5503
0.7315
0


rs4760895
Imputed
A
ADDITIVE
2.15E−05
2.15E−05
0.7321
0.7321
0.9128
0


rs4760895
Imputed
A
DOMINANT
6.73E−05
6.73E−05
0.6474
0.6474
0.8659
0


rs4760895
Imputed
A
GENOTYPIC
6.26E−05
6.26E−05
0.5503
0.5503
0.7315
0


rs4764738
Imputed
A
ADDITIVE
0.0009266
0.07954
1.2709
1.2594
0.0439
68.01


rs4764738
Imputed
A
GENOTYPIC
0.001005
0.08625
1.6088
1.5782
0.0404
68.83


rs4764974
Imputed
T
ADDITIVE
0.003078
0.1633
1.2361
1.2211
0.0224
73.69


rs4764974
Imputed
T
GENOTYPIC
0.003002
0.1626
1.5291
1.4908
0.0225
73.63


rs4798366
Imputed
G
RECESSIVE
4.20E−05
4.20E−05
2.0082
2.0082
0.3989
0


rs483159
Imputed
T
DOMINANT
7.40E−05
7.40E−05
1.5348
1.5348
0.4489
0


rs4836502
Imputed
T
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs4836507
Imputed
C
DOMINANT
2.65E−05
2.65E−05
0.6512
0.6512
0.7993
0


rs4836744
Imputed
A
ADDITIVE
5.65E−05
5.65E−05
0.7302
0.7302
0.9215
0


rs4836744
Imputed
A
DOMINANT
9.27E−05
9.27E−05
0.6763
0.6763
0.9561
0


rs4848944
Genotyped
C
RECESSIVE
9.83E−05
9.83E−05
0.6206
0.6206
0.3871
0


rs4851529
Imputed
A
DOMINANT
2.19E−05
2.19E−05
0.6441
0.6441
0.7104
0


rs4851531
Imputed
T
DOMINANT
3.21E−05
3.21E−05
0.6474
0.6474
0.5448
0


rs4858046
Genotyped
T
GENOTYPIC
0.0006163
0.0233
1.7237
1.6703
0.1446
48.29


rs4878214
Imputed
A
ADDITIVE
3.88E−05
3.88E−05
0.6738
0.6738
0.5061
0


rs4880803
Imputed
A
ADDITIVE
9.69E−05
9.69E−05
0.7391
0.7391
0.6783
0


rs489441
Imputed
G
ADDITIVE
2.53E−05
2.53E−05
1.4225
1.4225
0.5025
0


rs489441
Imputed
G
DOMINANT
2.68E−05
2.68E−05
1.5463
1.5463
0.8089
0


rs4896568
Imputed
T
DOMINANT
0.001111
0.06921
0.7129
0.7224
0.06
64.45


rs4938851
Imputed
T
DOMINANT
3.87E−05
3.87E−05
1.5301
1.5301
0.5447
0


rs4964416
Imputed
C
DOMINANT
9.70E−05
9.70E−05
0.6422
0.6422
0.8344
0


rs5756669
Imputed
C
DOMINANT
0.0004684
0.01009
1.4729
1.4477
0.1952
38.79


rs6033138
Imputed
C
ADDITIVE
7.29E−06
7.29E−06
1.3851
1.3851
0.9889
0


rs6033138
Imputed
C
GENOTYPIC
6.04E−06
6.04E−06
2.0122
2.0122
0.8928
0


rs6033138
Imputed
C
RECESSIVE
7.08E−05
7.08E−05
1.7649
1.7649
0.6157
0


rs6040619
Imputed
C
ADDITIVE
4.47E−06
4.47E−06
1.3986
1.3986
0.8222
0


rs6040619
Imputed
C
GENOTYPIC
2.25E−06
2.25E−06
2.1003
2.1003
0.9241
0


rs6040619
Imputed
C
RECESSIVE
2.09E−05
2.09E−05
1.861
1.861
0.8676
0


rs6040625
Imputed
T
ADDITIVE
5.19E−06
5.19E−06
1.395
3 1.3953
0.8592
0


rs6040625
Imputed
T
GENOTYPIC
3.08E−06
3.08E−06
2.0812
2.0812
0.9469
0


rs6040625
Imputed
T
RECESSIVE
3.05E−05
3.05E−05
1.8401
1.8401
0.8473
0


rs6040630
Imputed
A
ADDITIVE
9.20E−06
9.20E−06
1.383
1.383
0.9581
0


rs6040630
Imputed
A
GENOTYPIC
5.55E−06
5.55E−06
2.0375
2.0375
0.9148
0


rs6040630
Imputed
A
RECESSIVE
5.12E−05
5.12E−05
1.8039
1.8039
0.6621
0


rs6040633
Imputed
A
ADDITIVE
1.25E−05
1.25E−05
1.3756
1.3756
0.969
0


rs6040633
Imputed
A
GENOTYPIC
7.70E−06
7.70E−06
2.0134
2.0134
0.8921
0


rs6040633
Imputed
A
RECESSIVE
6.75E−05
6.75E−05
1.7849
1.7849
0.6011
0


rs6040634
Imputed
T
ADDITIVE
1.00E−05
1.00E−05
1.3804
1.3804
0.9666
0


rs6040634
Imputed
T
GENOTYPIC
6.55E−06
6.55E−06
2.0241
2.0241
0.8798
0


rs6040634
Imputed
T
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs6040636
Imputed
T
ADDITIVE
1.31E−05
1.31E−05
1.3748
1.3748
0.9806
0


rs6040636
Imputed
T
GENOTYPIC
7.73E−06
7.73E−06
2.0134
2.0134
0.9037
0


rs6040636
Imputed
T
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs6040638
Imputed
C
ADDITIVE
1.20E−05
1.20E−05
1.3766
1.3766
0.9732
0


rs6040638
Imputed
C
GENOTYPIC
7.24E−06
7.24E−06
2.0174
2.0174
0.8918
0


rs6040638
Imputed
C
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs6040644
Imputed
A
ADDITIVE
1.20E−05
1.20E−05
1.3766
1.3766
0.9732
0


rs6040644
Imputed
A
GENOTYPIC
7.24E−06
7.24E−06
2.0174
2.0174
0.8918
0


rs6040644
Imputed
A
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs6040667
Imputed
T
ADDITIVE
1.20E−05
1.20E−05
1.3804
1.3804
0.9597
0


rs6040667
Imputed
T
GENOTYPIC
7.88E−06
7.88E−06
2.0249
2.0249
0.8444
0


rs6040667
Imputed
T
RECESSIVE
7.44E−05
7.44E−05
1.7892
1.7892
0.5844
0


rs6040668
Imputed
C
ADDITIVE
1.73E−05
1.73E−05
1.373
1.373
0.98
0


rs6040668
Imputed
C
GENOTYPIC
1.05E−05
1.05E−05
2.0115
2.0115
0.8502
0


rs6040668
Imputed
C
RECESSIVE
9.40E−05
9.40E−05
1.7793
1.7793
0.5751
0


rs6043066
Genotyped
G
DOMINANT
9.84E−05
9.84E−05
1.4879
1.4879
0.4214
0


rs6048146
Imputed
G
DOMINANT
5.02E−05
5.02E−05
2.6243
2.6243
0.8749
0


rs6082725
Genotyped
T
DOMINANT
5.02E−05
5.02E−05
2.6243
2.6243
0.8749
0


rs6131206
Imputed
C
ADDITIVE
7.67E−05
7.67E−05
1.3544
1.3544
0.6023
0


rs6131208
Imputed
T
ADDITIVE
1.43E−05
1.43E−05
1.3763
1.3763
0.9848
0


rs6131208
Imputed
T
GENOTYPIC
8.33E−06
8.33E−06
2.0252
2.0252
0.879
0


rs6131208
Imputed
T
RECESSIVE
7.25E−05
7.25E−05
1.7953
1.7953
0.6033
0


rs6134243
Imputed
C
ADDITIVE
1.20E−05
1.20E−05
1.3766
1.3766
0.9732
0


rs6134243
Imputed
C
GENOTYPIC
7.24E−06
7.24E−06
2.0174
2.0174
0.8918
0


rs6134243
Imputed
C
RECESSIVE
6.47E−05
6.47E−05
1.7879
1.7879
0.5965
0


rs6136020
Imputed
A
DOMINANT
0.001161
0.126
0.6966
0.7316
0.042
68.46


rs613799
Imputed
C
DOMINANT
7.75E−05
7.75E−05
1.5158
1.5158
0.7849
0


rs644041
Imputed
G
ADDITIVE
8.78E−05
8.78E−05
1.391
1.391
0.5335
0


rs644041
Imputed
G
DOMINANT
7.42E−05
7.42E−05
1.5143
1.5143
0.8073
0


rs647645
Imputed
C
ADDITIVE
6.86E−05
0.001002
0.7509
0.7567
0.2638
24.95


rs647645
Imputed
C
GENOTYPIC
9.70E−05
0.006546
0.5657
0.581
0.1711
43.36


rs647645
Imputed
C
RECESSIVE
0.001082
0.1079
0.6612
0.6805
0.034
70.43


rs6495554
Imputed
C
GENOTYPIC
4.76E−05
4.76E−05
2.9048
2.9048
0.6375
0


rs6495554
Imputed
C
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs6495555
Imputed
C
GENOTYPIC
4.76E−05
4.76E−05
2.9048
2.9048
0.6375
0


rs6495555
Imputed
C
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs6544728
Imputed
T
DOMINANT
1.47E−05
1.47E−05
1.5526
1.5526
0.4629
0


rs6550705
Imputed
C
ADDITIVE
0.00038
0.004853
1.3004
1.2925
0.2297
32.02


rs6550705
Imputed
C
GENOTYPIC
0.0004703
0.0268
1.7552
1.6884
0.1275
51.46


rs6550707
Imputed
T
GENOTYPIC
0.0005925
0.02351
1.7169
1.6622
0.1452
48.18


rs658108
Imputed
A
DOMINANT
9.19E−05
9.19E−05
1.4801
1.4801
0.8339
0


rs6593441
Imputed
A
DOMINANT
8.32E−05
8.32E−05
1.5966
1.5966
0.6727
0


rs668732
Imputed
A
DOMINANT
0.0007713
0.04322
1.4673
1.4272
0.1016
56.26


rs671041
Imputed
A
DOMINANT
7.41E−05
7.41E−05
1.4878
1.4878
0.8316
0


rs6719700
Imputed
A
ADDITIVE
9.48E−05
9.48E−05
1.4547
1.4547
0.8457
0


rs6719700
Imputed
A
DOMINANT
9.05E−05
9.05E−05
1.5345
1.5345
0.997
0


rs6722640
Imputed
T
DOMINANT
6.69E−06
6.69E−06
0.6251
0.6251
0.6987
0


rs6743092
Imputed
T
ADDITIVE
8.16E−05
8.16E−05
1.3286
1.3286
0.8471
0


rs6743092
Imputed
T
GENOTYPIC
7.98E−05
7.98E−05
1.7638
1.7638
0.836
0


rs6743092
Imputed
T
RECESSIVE
2.27E−05
2.27E−05
1.6478
1.6478
0.7669
0


rs6744759
Imputed
G
RECESSIVE
8.79E−05
8.79E−05
1.9877
1.9877
0.536
0


rs6746170
Imputed
A
DOMINANT
2.07E−05
2.07E−05
1.5394
1.5394
0.5817
0


rs6759922
Imputed
A
DOMINANT
0.001026
0.0855
0.6912
0.7071
0.0483
66.99


rs6769864
Imputed
T
GENOTYPIC
0.0004564
0.02145
1.7578
1.6967
0.1428
48.63


rs6773932
Imputed
C
GENOTYPIC
0.000867
0.04735
1.6964
1.6233
0.1035
55.91


rs6774353
Imputed
A
GENOTYPIC
0.0005033
0.02669
1.7503
1.6851
0.1298
51.02


rs6781670
Imputed
C
GENOTYPIC
0.00058
0.0204
1.7388
1.6882
0.1518
46.96


rs6786431
Imputed
A
GENOTYPIC
0.000867
0.04735
1.6964
1.6233
0.1035
55.91


rs6789091
Imputed
T
GENOTYPIC
0.000867
0.04735
1.6964
1.6233
0.1035
55.91


rs6791296
Imputed
T
ADDITIVE
7.12E−05
7.12E−05
0.6329
0.6329
0.9898
0


rs6792662
Imputed
G
DOMINANT
6.98E−05
6.98E−05
1.6112
1.6112
0.5862
0


rs6797574
Imputed
G
GENOTYPIC
0.000867
0.04735
1.6964
1.6233
0.1035
55.91


rs6797882
Imputed
G
GENOTYPIC
0.0008269
0.04785
1.7009
1.6266
0.1009
56.4


rs6805139
Imputed
G
DOMINANT
3.85E−05
3.85E−05
1.6152
1.6152
0.6499
0


rs6806043
Imputed
C
ADDITIVE
0.0003052
0.005086
1.306
1.2979
0.2161
34.72


rs6806043
Imputed
C
GENOTYPIC
0.0004109
0.02711
1.7655
1.6976
0.1213
52.6


rs6850716
Imputed
C
GENOTYPIC
0.003416
0.1872
2.0499
1.9631
0.0177
75.23


rs6867153
Imputed
A
RECESSIVE
0.00187
0.191
0.678
0.7117
0.0177
75.21


rs687047
Imputed
C
ADDITIVE
9.00E−05
9.00E−05
0.6446
0.6446
0.7637
0


rs6871041
Imputed
G
DOMINANT
2.29E−05
2.29E−05
0.6393
0.6393
0.8477
0


rs688358
Imputed
A
ADDITIVE
7.44E−05
7.44E−05
0.6401
0.6401
0.8637
0


rs6888012
Imputed
A
RECESSIVE
0.001885
0.1924
0.6781
0.7121
0.0175
75.29


rs6908481
Imputed
C
RECESSIVE
5.99E−05
5.99E−05
1.7201
1.7201
0.5809
0


rs7032231
Imputed
A
ADDITIVE
6.99E−05
6.99E−05
1.352
1.352
0.3922
0


rs7067638
Imputed
T
DOMINANT
8.99E−05
8.99E−05
1.5963
1.5963
0.7456
0


rs7077799
Imputed
A
DOMINANT
7.58E−05
7.58E−05
1.4996
1.4996
0.7406
0


rs7082163
Imputed
A
ADDITIVE
5.34E−05
5.34E−05
1.5444
1.5444
0.4266
0


rs7082163
Imputed
A
DOMINANT
3.46E−05
3.46E−05
1.641
1.641
0.6461
0


rs7089661
Imputed
C
DOMINANT
4.97E−05
4.97E−05
1.5023
1.5023
0.7397
0


rs7101319
Imputed
C
ADDITIVE
5.28E−05
5.28E−05
1.5457
1.5457
0.468
0


rs7101319
Imputed
C
DOMINANT
3.22E−05
3.22E−05
1.6456
1.6456
0.7067
0


rs710832
Genotyped
A
GENOTYPIC
6.03E−05
6.03E−05
0.3754
0.3754
0.8143
0


rs710832
Genotyped
A
RECESSIVE
3.36E−05
3.36E−05
0.3689
0.3689
0.7382
0


rs7134262
Imputed
T
GENOTYPIC
2.96E−05
2.96E−05
1.9763
1.9763
0.627
0


rs7134262
Imputed
T
RECESSIVE
1.46E−06
1.46E−06
2.0802
2.0802
0.5227
0


rs7134671
Imputed
T
GENOTYPIC
0.0002855
0.005252
1.7315
1.725
0.1999
37.89


rs7138300
Imputed
C
ADDITIVE
2.15E−05
2.15E−05
0.7321
0.7321
0.9128
0


rs7138300
Imputed
C
DOMINANT
6.73E−05
6.73E−05
0.6474
0.6474
0.8659
0


rs7138300
Imputed
C
GENOTYPIC
6.26E−05
6.26E−05
0.5503
0.5503
0.7315
0


rs7163931
Imputed
G
GENOTYPIC
4.76E−05
4.76E−05
2.9048
2.9048
0.6375
0


rs7163931
Imputed
G
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs7171486
Genotyped
G
DOMINANT
7.21E−05
7.21E−05
0.6684
0.6684
0.4022
0


rs7172611
Imputed
G
GENOTYPIC
4.65E−05
4.65E−05
2.9093
2.9093
0.6341
0


rs7172611
Imputed
G
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs7172689
Imputed
T
GENOTYPIC
4.65E−05
4.65E−05
2.9093
2.9093
0.6341
0


rs7172689
Imputed
T
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs7175701
Imputed
C
GENOTYPIC
9.05E−05
9.05E−05
2.5914
2.5914
0.7706
0


rs7180245
Imputed
A
GENOTYPIC
4.65E−05
4.65E−05
2.9093
2.9093
0.6341
0


rs7180245
Imputed
A
RECESSIVE
7.67E−05
7.67E−05
2.7833
2.7833
0.6295
0


rs7220603
Genotyped
A
ADDITIVE
0.02391
0.5255
0.8346
0.8604
0.0003
87.88


rs7282518
Imputed
T
ADDITIVE
0.0002567
0.008981
1.453
1.4275
0.1773
42.19


rs7283476
Imputed
T
ADDITIVE
7.31E−05
7.31E−05
0.4402
0.4402
0.566
0


rs7283476
Imputed
T
DOMINANT
3.52E−05
3.52E−05
0.4064
0.4064
0.4235
0


rs7295817
Imputed
C
GENOTYPIC
7.67E−05
7.67E−05
0.5483
0.5483
0.4481
0


rs7298255
Imputed
A
ADDITIVE
3.91E−05
3.91E−05
0.7439
0.7439
0.9855
0


rs7298255
Imputed
A
DOMINANT
6.89E−05
6.89E−05
0.65
0.65
0.7442
0


rs7305832
Imputed
C
GENOTYPIC
2.48E−05
2.48E−05
1.9853
1.9853
0.5975
0


rs7305832
Imputed
C
RECESSIVE
1.31E−06
1.31E−06
2.0856
2.0856
0.5058
0


rs7331467
Imputed
A
GENOTYPIC
0.004523
0.2685
1.5788
1.4648
0.0124
77.22


rs7392620
Imputed
C
ADDITIVE
8.20E−05
8.20E−05
0.7361
0.7361
0.6441
0


rs742827
Imputed
A
ADDITIVE
8.46E−06
8.46E−06
1.3961
1.3961
0.9898
0


rs742827
Imputed
A
GENOTYPIC
7.47E−06
7.47E−06
2.0465
2.0465
0.8196
0


rs742827
Imputed
A
RECESSIVE
9.50E−05
9.50E−05
1.7817
1.7817
0.5729
0


rs7446891
Imputed
G
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs7448641
Imputed
C
ADDITIVE
0.002876
0.1046
0.5269
0.4225
0.0055
80.81


rs7448641
Imputed
C
DOMINANT
0.005931
0.1502
0.5204
0.4449
0.0058
80.6


rs7484728
Imputed
T
GENOTYPIC
0.000266
0.005086
1.736
1.7289
0.1995
37.97


rs7499402
Genotyped
A
ADDITIVE
7.41E−05
7.41E−05
1.7018
1.7018
0.5603
0


rs7529851
Imputed
A
ADDITIVE
7.64E−05
7.64E−05
0.7438
0.7438
0.6011
0


rs7529851
Imputed
A
GENOTYPIC
8.65E−05
8.65E−05
0.5413
0.5413
0.7417
0


rs7573951
Imputed
G
ADDITIVE
0.0009373
0.04269
0.7841
0.7912
0.0927
57.96


rs7599198
Imputed
T
DOMINANT
0.0005956
0.01854
0.6706
0.6818
0.1584
45.74


rs7600050
Imputed
C
ADDITIVE
6.57E−05
6.57E−05
1.3535
1.3535
0.6858
0


rs7607712
Imputed
T
ADDITIVE
6.22E−05
6.22E−05
1.4258
1.4258
0.846
0


rs7607712
Imputed
T
DOMINANT
8.77E−05
8.77E−05
1.4994
1.4994
0.9843
0


rs7613492
Imputed
G
GENOTYPIC
0.0004892
0.02726
1.756
1.6897
0.1265
51.64


rs7621663
Imputed
G
ADDITIVE
0.0002694
0.00593
1.3166
1.3062
0.1995
37.97


rs7621663
Imputed
G
GENOTYPIC
0.0002328
0.03627
1.849
1.7635
0.0774
60.91


rs7621663
Imputed
G
RECESSIVE
0.001212
0.0888
1.6632
1.577
0.0599
64.48


rs7626584
Imputed
G
ADDITIVE
9.18E−05
9.18E−05
0.5375
0.5375
0.6785
0


rs7684899
Imputed
C
ADDITIVE
9.76E−05
9.76E−05
0.6985
0.6985
0.7616
0


rs7684899
Imputed
C
DOMINANT
6.37E−06
6.37E−06
0.6204
0.6204
0.6462
0


rs7701604
Imputed
G
ADDITIVE
0.002876
0.1046
0.5269
0.4225
0.0055
80.81


rs7701604
Imputed
G
DOMINANT
0.005931
0.1502
0.5204
0.4449
0.0058
80.6


rs7703676
Imputed
C
ADDITIVE
0.002876
0.1046
0.5269
0.4225
0.0055
80.81


rs7703676
Imputed
C
DOMINANT
0.005931
0.1502
0.5204
0.4449
0.0058
80.6


rs7708491
Imputed
C
RECESSIVE
0.002355
0.1727
0.6852
0.7155
0.0267
72.41


rs7711358
Imputed
A
DOMINANT
1.88E−05
1.88E−05
0.6481
0.6481
0.8316
0


rs7719448
Imputed
G
RECESSIVE
0.002108
0.2193
0.6815
0.7163
0.012
77.4


rs7724761
Imputed
T
RECESSIVE
0.001686
0.19
0.6737
0.7045
0.0154
76.06


rs7742476
Imputed
T
DOMINANT
0.0001163
0.0001163
1.5074
1.5074
0.3696
0


rs7762993
Imputed
A
ADDITIVE
0.0003347
0.004615
1.3933
1.3716
0.2531
27.21


rs7762993
Imputed
A
DOMINANT
9.42E−05
0.01287
1.507
1.4653
0.1301
50.97


rs7767265
Imputed
G
ADDITIVE
1.59E−05
0.000172
1.4422
1.4296
0.296
17.87


rs7767265
Imputed
G
DOMINANT
6.30E−06
0.003597
1.5886
1.5475
0.1294
51.09


rs7768128
Imputed
G
RECESSIVE
9.37E−05
9.37E−05
0.3867
0.3867
0.8076
0


rs7771264
Imputed
T
DOMINANT
0.00106
0.07475
0.7141
0.7193
0.046
67.53


rs7773151
Genotyped
C
DOMINANT
0.000959
0.06482
0.7135
0.7189
0.055
65.52


rs7773210
Genotyped
A
DOMINANT
0.0008239
0.06306
0.7105
0.7165
0.0539
65.76


rs7808536
Imputed
G
DOMINANT
8.84E−05
8.84E−05
1.5126
1.5126
0.3832
0


rs7843510
Genotyped
G
DOMINANT
0.0008947
0.03339
1.418
1.392
0.1219
52.48


rs7894867
Imputed
T
DOMINANT
7.78E−05
7.78E−05
1.6032
1.6032
0.7494
0


rs7921834
Imputed
C
DOMINANT
5.41E−05
5.41E−05
1.4996
1.4996
0.7497
0


rs7939893
Imputed
C
ADDITIVE
8.65E−05
8.65E−05
0.7474
0.7474
0.6566
0


rs7939893
Imputed
C
DOMINANT
9.08E−06
9.08E−06
0.6395
0.6395
0.3716
0


rs7944513
Imputed
T
GENOTYPIC
1.13E−05
1.13E−05
2.6894
2.6894
0.5228
0


rs7944513
Imputed
T
RECESSIVE
3.32E−05
3.32E−05
2.5007
2.5007
0.3973
0


rs7949720
Imputed
G
ADDITIVE
0.01083
0.46
0.7505
0.8044
0.0015
84.54


rs7949720
Imputed
G
DOMINANT
0.009467
0.4625
0.7247
0.7836
0.0012
85.09


rs7955901
Imputed
C
ADDITIVE
3.31E−05
3.31E−05
0.7403
0.7403
0.9802
0


rs7955901
Imputed
C
DOMINANT
6.34E−05
6.34E−05
0.6473
0.6473
0.8105
0


rs7956274
Imputed
T
ADDITIVE
2.32E−05
2.32E−05
0.7349
0.7349
0.9325
0


rs7956274
Imputed
T
DOMINANT
3.52E−05
3.52E−05
0.6366
0.6366
0.8605
0


rs7956274
Imputed
T
GENOTYPIC
7.30E−05
7.30E−05
0.5575
0.5575
0.7749
0


rs7957932
Imputed
G
ADDITIVE
5.54E−05
5.54E−05
0.7481
0.7481
0.9512
0


rs7957932
Imputed
G
DOMINANT
3.06E−05
3.06E−05
0.6329
0.6329
0.8798
0


rs7984504
Imputed
C
GENOTYPIC
0.002726
0.1381
1.6689
1.6043
0.0349
70.18


rs7999518
Imputed
A
RECESSIVE
2.72E−05
2.72E−05
0.5848
0.5848
0.4425
0


rs8026245
Imputed
G
GENOTYPIC
7.79E−05
7.79E−05
2.665
2.665
0.6771
0


rs8026245
Imputed
G
RECESSIVE
8.54E−05
8.54E−05
2.6107
2.6107
0.6577
0


rs8060725
Genotyped
A
ADDITIVE
9.99E−05
9.99E−05
0.7239
0.7239
0.8435
0


rs8103016
Genotyped
A
ADDITIVE
1.98E−05
1.98E−05
1.4503
1.4503
0.4547
0


rs8103016
Genotyped
A
DOMINANT
2.45E−05
2.45E−05
1.5482
1.5482
0.694
0


rs8104182
Imputed
G
ADDITIVE
3.24E−05
3.24E−05
1.4421
1.4421
0.671
0


rs8104182
Imputed
G
DOMINANT
4.77E−05
4.77E−05
1.5265
1.5265
0.7687
0


rs8129461
Imputed
G
ADDITIVE
3.70E−05
3.70E−05
0.4263
0.4263
0.5257
0


rs8129461
Imputed
G
DOMINANT
1.72E−05
1.72E−05
0.3933
0.3933
0.3761
0


rs8130021
Imputed
G
ADDITIVE
7.55E−05
7.55E−05
0.4409
0.4409
0.5674
0


rs8130021
Imputed
G
DOMINANT
3.64E−05
3.64E−05
0.4071
0.4071
0.4256
0


rs879961
Imputed
T
ADDITIVE
0.002059
0.2563
0.7763
0.8081
0.0066
80.11


rs879961
Imputed
T
DOMINANT
0.001811
0.2398
0.7301
0.7595
0.0059
80.5


rs906353
Imputed
A
DOMINANT
0.004624
0.2465
0.7527
0.7852
0.0165
75.63


rs915491
Imputed
C
DOMINANT
8.48E−05
8.48E−05
1.4838
1.4838
0.752
0


rs915493
Imputed
T
DOMINANT
8.48E−05
8.48E−05
1.4838
1.4838
0.752
0


rs915494
Imputed
A
ADDITIVE
7.86E−05
7.86E−05
1.3658
1.3658
0.8997
0


rs915494
Imputed
A
DOMINANT
2.62E−05
2.62E−05
1.5383
1.5383
0.8223
0


rs917295
Imputed
G
DOMINANT
1.82E−05
1.82E−05
0.647
0.647
0.881
0


rs9284851
Imputed
A
GENOTYPIC
0.0007416
0.04371
1.7018
1.6321
0.1049
55.65


rs9293464
Imputed
T
RECESSIVE
0.00171
0.194
0.6758
0.7101
0.0158
75.88


rs9295154
Genotyped
G
DOMINANT
7.58E−05
7.58E−05
1.5572
1.5572
0.5416
0


rs9310221
Imputed
A
DOMINANT
0.001363
0.158
1.4328
1.353
0.0322
70.9


rs9310699
Genotyped
T
GENOTYPIC
0.00058
0.0204
1.7388
1.6882
0.1518
46.96


rs9310700
Imputed
C
ADDITIVE
0.0003931
0.005395
1.3049
1.2966
0.2216
33.63


rs9310700
Imputed
C
GENOTYPIC
0.0003693
0.03198
1.8013
1.7265
0.1006
56.46


rs9310701
Imputed
G
GENOTYPIC
0.0005775
0.02214
1.7187
1.6652
0.1488
47.51


rs9310704
Imputed
G
GENOTYPIC
0.000597
0.04612
1.7265
1.6511
0.0921
58.07


rs9319185
Imputed
C
GENOTYPIC
0.003084
0.2063
1.6765
1.5851
0.0147
76.3


rs9319186
Imputed
T
GENOTYPIC
0.002645
0.1394
1.6843
1.6228
0.0311
71.19


rs9327555
Imputed
T
DOMINANT
2.31E−05
2.31E−05
0.6505
0.6505
0.8585
0


rs9403367
Imputed
C
DOMINANT
0.0008239
0.06306
0.7105
0.7165
0.0539
65.76


rs9419608
Imputed
G
RECESSIVE
0.007479
0.5441
1.3778
1.2224
0.0008
85.89


rs9426437
Imputed
T
DOMINANT
0.0007324
0.08646
0.6967
0.7283
0.0587
64.74


rs9454967
Imputed
G
DOMINANT
0.0008641
0.05434
1.5996
1.5843
0.071
62.2


rs9635511
Imputed
T
DOMINANT
0.0001778
0.001844
0.6752
0.6837
0.2682
24.02


rs966583
Imputed
A
ADDITIVE
1.48E−05
1.48E−05
0.725
0.725
0.8807
0


rs966583
Imputed
A
DOMINANT
7.60E−06
7.60E−06
0.626
0.626
0.8999
0


rs980263
Imputed
T
GENOTYPIC
0.000492
0.02264
1.7325
1.6751
0.1412
48.92


rs980264
Imputed
T
GENOTYPIC
0.000492
0.02264
1.7325
1.6751
0.1412
48.92


rs9812206
Imputed
G
ADDITIVE
9.92E−05
0.03775
0.6049
0.6297
0.0642
63.57


rs9812206
Imputed
G
DOMINANT
0.0001008
0.04527
0.592
0.6174
0.049
66.85


rs9813552
Imputed
G
ADDITIVE
0.0004552
0.03885
0.6393
0.
0.0966
57.21


rs9813552
Imputed
G
DOMINANT
0.0005252
0.05892
0.629
0.6531
0.0685
62.71


rs9815037
Imputed
T
ADDITIVE
0.0003061
0.04794
0.6241
0.6399
0.0613
64.17


rs9815037
Imputed
T
DOMINANT
0.0002862
0.06392
0.6094
0.6301
0.0425
68.34


rs9819583
Imputed
T
GENOTYPIC
0.0005347
0.02047
1.7449
1.6926
0.1487
47.53


rs9825349
Imputed
A
ADDITIVE
0.0003046
0.04763
0.624
0.6401
0.062
64.03


rs9825349
Imputed
A
DOMINANT
0.0002859
0.0639
0.6094
0.6304
0.0427
68.28


rs9833118
Imputed
G
ADDITIVE
0.0004117
0.006196
1.3
1.293
0.2139
35.15


rs9833118
Imputed
G
GENOTYPIC
0.0004555
0.02726
1.7602
1.6961
0.123
52.28


rs9834217
Imputed
T
ADDITIVE
0.0002698
0.03497
0.6218
0.6356
0.0789
60.62


rs9834217
Imputed
T
DOMINANT
0.0002509
0.0487
0.607
0.6256
0.0556
65.39


rs9838563
Imputed
C
GENOTYPIC
0.0004051
0.008482
1.7473
1.7073
0.2054
36.83


rs9840460
Imputed
T
ADDITIVE
0.0002575
0.03523
0.6208
0.6345
0.0768
61.03


rs9840460
Imputed
T
DOMINANT
0.0002389
0.04871
0.6059
0.6244
0.0543
65.67


rs9840756
Imputed
A
ADDITIVE
0.0002251
0.02861
0.618
0.6307
0.0873
58.99


rs9840756
Imputed
A
DOMINANT
0.0002087
0.04085
0.603
0.6206
0.0622
63.99


rs9847999
Imputed
C
GENOTYPIC
0.0009186
0.04314
1.6854
1.6208
0.1128
54.17


rs9864769
Imputed
C
GENOTYPIC
0.0005775
0.02214
1.7187
1.6652
0.1488
47.51


rs9866421
Genotyped
C
RECESSIVE
8.99E−05
8.99E−05
0.5978
0.5978
0.7628
0


rs987296
Imputed
T
GENOTYPIC
0.0006125
0.02328
1.7346
1.6817
0.1438
48.43


rs9881685
Imputed
A
ADDITIVE
9.85E−05
0.03734
0.6048
0.6295
0.0647
63.48


rs9881685
Imputed
A
DOMINANT
0.0001
0.04485
0.5918
0.6172
0.0494
66.76


rs992695
Imputed
C
ADDITIVE
0.002041
0.2367
0.7764
0.8067
0.0089
78.81


rs992695
Imputed
C
DOMINANT
0.001822
0.2163
0.7308
0.7583
0.009
78.78


rs9936999
Imputed
G
DOMINANT
0.004771
0.2439
1.4561
1.3895
0.0142
76.48
























TABLE 19








allele



CARE
WOSCOPS




























A1
allele



Pla-





Pla-









(non-
A2

OR.
Prava
cebo

OR
OR
P
Prava
cebo

OR
OR
P
End-
Mod-


SNP
ref)
(ref)
P.R.
R.
Count
count
OR
L95
U95
value
Count
Count
OR
L95
U95
value
point
el





rs11556924
A
G
0.00196
1.33
 42/
 43/
1.26
1.01
1.58
0.0449
28/
 22/
1.48
1.09
2.02
0.0123
CHD
add







141/
157/




79/
104/













117
182




52
 98































TABLE 20





















GEN-
EV-
















O_
ENTS_







GEN-

EV-
TO-




P_
PLA-
PLA-





mAF

O_
STA-
ENTS
TAL_
HR_
L95_
U95_
P_
INT_
CE-
CE-


SNP hCV #
SNP rs #
Chrom
CEU
MODE
RESP
TIN
RESP
RESP
RESP
RESP
RESP
RESP
RESP
BO
BO





hCV11841860
rs10757278
9p21
0.5
GEN
GG
Prava-
24
 410
1.08
0.602
1.94
0.7931
0.1691
GG
21








statin











hCV11841860
rs10757278
9p21
0.5
GEN
GG
Pla-
21
 390
ref
.
.
.
0.1691

.








cebo











hCV11841860
rs10757278
9p21
0.5
GEN
GA
Prava-
27
 653
0.54
0.34
0.86
0.0096
0.1691
GA
52








statin











hCV11841860
rs10757278
9p21
0.5
GEN
GA
Pla-
52
 689
ref
.
.
.
0.1691

.








cebo











hCV11841860
rs10757278
9p21
0.5
GEN
AA
Prava-
15
 334
0.9
0.438
1.84
0.7666
0.1691
AA
15








statin











hCV11841860
rs10757278
9p21
0.5
GEN
AA
Pla-
15
 289
ref
.
.
.
0.1691

.








cebo











hCV11841860
rs10757278
9p21
0.5
DOM
GA +
Prava-
51
1063
0.7
0.491
1.01
0.0533
0.6037
GA +
73







GG
statin







GG



hCV11841860
rs10757278
9p21
0.5
DOM
GA +
Pla-
73
1079
ref
.
.
.
0.6037

.







GG
cebo











hCV11841860
rs10757278
9p21
0.5
REC
GA +
Prava-
42
 987
0.62
0.42
0.91
0.0146
0.118
GG
21







AA
statin











hCV11841860
rs10757278
9p21
0.5
REC
GA +
Pla-
67
 978
ref
.
.
.
0.118

.







AA
cebo











hCV1754666
rs1333049
9p21
0.492
GEN
GG
Prava-
16
 335
0.96
0.474
1.94
0.9086
0.1288
GG
15








statin











hCV1754666
rs1333049
9p21
0.492
GEN
GG
Pla-
15
 291
ref
.
.
.
0.1288

.








cebo











hCV1754666
rs1333049
9p21
0.492
GEN
GC
Prava-
27
 659
0.54
0.336
0.85
0.0085
0.1288
GC
52








statin











hCV1754666
rs1333049
9p21
0.492
GEN
GC
Pla-
52
 689
ref
.
.
.
0.1288

.








cebo











hCV1754666
rs1333049
9p21
0.492
GEN
CC
Prava-
24
 405
1.11
0.616
1.99
0.7346
0.1288
CC
21








statin











hCV1754666
rs1333049
9p21
0.492
GEN
CC
Pla-
21
 393
ref
.
.
.
0.1288

.








cebo











hCV1754666
rs1333049
9p21
0.492
DOM
GC +
Prava-
43
 994
0.63
0.429
0.92
0.018
0.1139
GC +
67







GG
statin







GG



hCV1754666
rs1333049
9p21
0.492
DOM
GC +
Pla-
67
 980
ref
.
.
.
0.1139

.







GG
cebo











hCV1754666
rs1333049
9p21
0.492
REC
GC +
Prava-
51
1064
0.7
0.493
1.01
0.0549
0.4877
GG
15







CC
statin











hCV1754666
rs1333049
9p21
0.492
REC
GC +
Pla-
73
1082
ref
.
.
.
0.4877

.







CC
cebo











hCV12094896
rs12425791
12p13
0.175
GEN
AA
Prava-
 2
 60
0.28
0.058
1.35
0.1119
0.1255
AA
 7








statin











hCV12094896
rs12425791
12p13
0.175
GEN
AA
Pla-
 7
 60
ref
.
.
.
0.1255

.








cebo











hCV12094896
rs12425791
12p13
0.175
GEN
AG
Prava-
22
 485
0.56
0.331
0.96
0.0353
0.1255
AG
35








statin











hCV12094896
rs12425791
12p13
0.175
GEN
AG
Pla-
35
 442
ref
.
.
.
0.1255

.








cebo











hCV12094896
rs12425791
12p13
0.175
GEN
GG
Prava-
43
 852
0.95
0.628
1.44
0.8138
0.1255
GG
46








statin











hCV12094896
rs12425791
12p13
0.175
GEN
GG
Pla-
46
 867
ref
.
.
.
0.1255

.








cebo











hCV12094896
rs12425791
12p13
0.175
DOM
AG +
Prava-
24
 545
0.52
0.314
0.86
0.0101
0.0653
AG +
42







AA
statin







AA



hCV12094896
rs12425791
12p13
0.175
DOM
AG +
Pla-
42
 502
ref
.
.
.
0.0653

.







AA
cebo











hCV12094896
rs12425791
12p13
0.175
REC
AG +
Prava-
65
1337
0.78
0.565
1.09
0.1411
0.1736
AA
 7







GG
statin











hCV12094896
rs12425791
12p13
0.175
REC
AG +
Pla-
81
1309
ref
.
.
.
0.1736

.







GG
cebo











hCV1665834
rs11833579
12p13
0.225
GEN
AA
Prava-
 3
 99
0.26
0.072
0.95
0.0417
0.1885
AA
10








statin











hCV1665834
rs11833579
12p13
0.225
GEN
AA
Pla-
10
 91
ref
.
.
.
0.1885

.








cebo











hCV1665834
rs11833579
12p13
0.225
GEN
AG
Prava-
29
 566
0.75
0.46
1.22
0.2425
0.1885
AG
37








statin











hCV1665834
rs11833579
12p13
0.225
GEN
AG
Pla-
37
 541
ref
.
.
.
0.1885

.








cebo











hCV1665834
rs11833579
12p13
0.225
GEN
GG
Prava-
35
 730
0.86
0.55
1.36
0.5258
0.1885
GG
41








statin











hCV1665834
rs11833579
12p13
0.225
GEN
GG
Pla-
41
 739
ref
.
.
.
0.1885

.








cebo











hCV1665834
rs11833579
12p13
0.225
DOM
AG +
Prava-
32
 665
0.64
0.409
1
0.0523
0.3522
AG +
47







AA
statin







AA



hCV1665834
rs11833579
12p13
0.225
DOM
AG +
Pla-
47
 632
ref
.
.
.
0.3522

.







AA
cebo











hCV1665834
rs11833579
12p13
0.225
REC
AG +
Prava-
64
1296
0.81
0.581
1.13
0.2091
0.0756
AA
10







GG
statin











hCV1665834
rs11833579
12p13
0.225
REC
AG +
Pla-
78
1280
ref
.
.
.
0.0756

.







GG
cebo






























P_











TO-
HR_
L95_
U95_
P_
DF2_











TAL_
PLA-
PLA-
PLA-
PLA-
PLA-
GEN-
EV-
TO-




P_



PLA-
CE-
CE-
CE-
CE-
CE-
O_
ENTS
TAL_
HR_
L95_
U95_
P_
DF2_


SNP hCV #
CEBO
BO
BO
BO
BO
BO
ALL
ALL
ALL
ALL
ALL
ALL
ALL
ALL





hCV11841860
390
1.06
0.545
2.052
0.8676
0.2663
GG
45
800
1.18
0.744
1.876
0.479
0.639


hCV11841860
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV11841860
689
1.47
0.826
2.607
0.1905
0.2663
GA
79
1342
1.22
0.803
1.862
0.3478
0.639


hCV11841860
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV11841860
289
ref
.
.
.
0.2663
AA
30
623
ref
.
.
.
0.639


hCV11841860
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV11841860
1079
1.32
0.758
2.302
0.3269
.
GA +
124
2142
1.21
0.81
1.8
0.3537
.









GG









hCV11841860
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV11841860
390
0.8
0.488
1.3
0.3624
.
GG
45
800
1.03
0.725
1.451
0.8868
.


hCV11841860
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1754666
291
0.95
0.488
1.836
0.8702
0.2539
GG
31
626
0.87
0.549
1.371
0.5427
0.727


hCV1754666
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1754666
689
1.4
0.842
2.319
0.1961
0.2539
GC
79
1348
1.03
0.711
1.478
0.8939
0.727


hCV1754666
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1754666
393
ref
.
.
.
0.2539
CC
45
798
ref
.
.
.
0.727


hCV1754666
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1754666
980
1.26
0.773
2.061
0.3517
.
GC +
110
1974
0.98
0.689
1.379
0.8869
.









GG









hCV1754666
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1754666
291
0.75
0.433
1.316
0.3212
.
GG
31
626
0.85
0.576
1.266
0.4317
.


hCV1754666
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV12094896
60
2.18
0.984
4.831
0.0547
0.0584
AA
9
120
1.42
0.715
2.817
0.317
0.421


hCV12094896
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV12094896
442
1.51
0.971
2.339
0.0674
0.0584
AG
57
927
1.19
0.854
1.66
0.3045
0.421


hCV12094896
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV12094896
867
ref
.
.
.
0.0584
GG
89
1719
ref
.
.
.
0.421


hCV12094896
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV12094896
502
1.59
1.046
2.414
0.0301
.
AG +
66
1047
1.22
0.885
1.673
0.2267
.









AA









hCV12094896
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV12094896
60
1.86
0.861
4.034
0.1142
.
AA
9
120
1.33
0.679
2.609
0.4055
.


hCV12094896
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1665834
91
2
1
3.985
0.05
0.1371
AA
13
190
1.3
0.721
2.339
0.3837
0.555


hCV1665834
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1665834
541
1.24
0.795
1.933
0.344
0.1371
AG
66
1107
1.15
0.83
1.605
0.3942
0.555


hCV1665834
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1665834
739
ref
.
.
.
0.1371
GG
76
1469
ref
.
.
.
0.555


hCV1665834
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1665834
632
1.35
0.887
2.049
0.1622
.
AG +
79
1297
1.18
0.858
1.612
0.3124
.









AA









hCV1665834
.
.
.
.
.
.

.
.
.
.
.
.
.


hCV1665834
91
1.81
0.939
3.503
0.0764
.
AA
13
190
1.22
0.69
2.15
0.4957
.


hCV1665834
.
.
.
.
.
.

.
.
.
.
.
.
.






























TABLE 21



















GEN-
EV-
TO-







EV-
TO-




P_
O_
ENTS_
TAL_





GENO_

ENTS_
TAL_
HR_
L95_
U95_
P_
INT_
PLA-
PLA-
PLA-


SNP hCV #
SNP rs #
MODE
RESP
STATIN
RESP
RESP
RESP
RESP
RESP
RESP
RESP
CEBO
CEBO
CEBO





hCV2652047
rs873134
GEN
CC
Pravastatin
27
 354
2.01
1.036
3.89
0.0391
0.00164
CC
13
338


hCV2652047
rs873134
GEN
CC
Placebo
13
 338
ref
.
.
.
0.00164

.
.


hCV2652047
rs873134
GEN
CT
Pravastatin
24
 680
0.5
0.308
0.818
0.0057
0.00164
CT
49
697


hCV2652047
rs873134
GEN
CT
Placebo
49
 697
ref
.
.
.
0.00164

.
.


hCV2652047
rs873134
GEN
TT
Pravastatin
16
 366
0.54
0.291
1.01
0.0538
0.00164
TT
26
336


hCV2652047
rs873134
GEN
TT
Placebo
26
 336
ref
.
.
.
0.00164

.
.


hCV2652047
rs873134
DOM
CT + CC
Pravastatin
51
1034
0.83
0.571
1.199
0.3163
0.25372
CT +
62
1035














CC




hCV2652047
rs873134
DOM
CT + CC
Placebo
62
1035
ref
.
.
.
0.25372

.
.


hCV2652047
rs873134
REC
CT + TT
Pravastatin
40
1046
0.52
0.355
0.765
0.0009
0.00037
CC
13
338


hCV2652047
rs873134
REC
CT + TT
Placebo
75
1033
ref
.
.
.
0.00037

.
.










P_








HW



HR_
L95_
U95_
P_
DF2_
GEN-
EV-
TO-




P_
(ALL)



PLA-
PLA-
PLA-
PLA-
PLA-
O_
ENTS_
TAL_
HR_
L95_
U95_
P_
DF2
p-


SNP hCV #
CEBO
CEBO
CEBO
CEBO
CEBO
ALL
ALL
ALL
ALL
ALL
ALL
ALL
ALL
Exact





hCV2652047
0.48
0.248
0.939
0.032
0.0851
CC
40
692
0.96
0.626
1.488
0.8714
0.8089
0.761


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.
0.761


hCV2652047
0.89
0.551
1.428
0.6225
0.0851
CT
73
1377
0.89
0.607
1.298
0.539
0.8089
0.761


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.
0.761


hCV2652047
ref
.
.
.
0.0851
TT
42
702
ref
.
.
.
0.8089
0.761


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.
0.761


hCV2652047
0.75
0.477
1.193
0.2284

CT +
113
2069
0.91
0.641
1.302
0.6173
.
0.761








CC










hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.
0.761


hCV2652047
0.52
0.29
0.942
0.0308

CC
40
692
1.04
0.728
1.494
0.8199
.
0.761


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.
0.761






























TABLE 22




















EV-
TO-







EV-
TO-





GENO_
ENTS_
TAL_





GENO_

ENTS_
TAL_
HR_
L95_
U95_
P_
P_INT_
PLA-
PLA-
PLA-


SNP hCV #
SNP rs #
MODE
RESP
STATIN
RESP
RESP
RESP
RESP
RESP
RESP
RESP
CEBO
CEBO
CEBO





hCV2652047
rs873134
GEN
TT
Pravastatin
25
364
0.57
0.339
0.952
0.0317
0.05825
TT
37
333


hCV2652047
rs873134
GEN
TT
Placebo
37
333
ref
.
.
.
0.05825

.
.


hCV2652047
rs873134
GEN
TC
Pravastatin
63
676
1
0.705
1.405
0.9783
0.05825
TC
67
693


hCV2652047
rs873134
GEN
TC
Placebo
67
693
ref
.
.
.
0.05825

.
.


hCV2652047
rs873134
GEN
CC
Pravastatin
23
352
0.48
0.29
0.809
0.0056
0.05825
CC
42
335


hCV2652047
rs873134
GEN
CC
Placebo
42
335
ref
.
.
.
0.05825

.
.


hCV2652047
rs873134
DOM
TC + TT
Pravastatin
88
1040
0.85
0.64
1.133
0.2714
0.06887
TC + TT
104
1026


hCV2652047
rs873134
DOM
TC + TT
Placebo
104
1026
ref
.
.
.
0.06887

.
.
























HR_
L95_
U95_
P_
P_DF2_

EV-
TO-








PLA-
PLA-
PLA-
PLA-
PLA-
GENO_
ENTS_
TAL_
HR_
L95_
U95_
P_
P_DF2


SNP hCV #
CEBO
CEBO
CEBO
CEBO
CEBO
ALL
ALL
ALL
ALL
ALL
ALL
ALL
ALL





hCV2652047
0.87
0.555
1.349
0.5232
0.3415
TT
62
697
0.93
0.654
1.313
0.6696
0.8281


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.


hCV2652047
0.75
0.509
1.105
0.1454
0.3415
TC
130
1369
1.02
0.756
1.372
0.9047
0.8281


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.


hCV2652047
ref
.
.
.
0.3415
CC
65
687
ref
.
.
.
0.8281


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.


hCV2652047
0.79
0.549
1.128
0.1924
.
TC + TT
192
2066
0.99
0.745
1.308
0.9269
.


hCV2652047
.
.
.
.
.

.
.
.
.
.
.
.








Claims
  • 1. A method for determining whether a human's risk for cardiovascular disease (CVD) is reduced by treatment with an HMG-CoA reductase inhibitor, the method comprising testing nucleic acid from said human for the presence or absence of an allele at a polymorphism as represented by position 101 of any one of the nucleotide sequences of SEQ ID NOS:623-3661 or its complement, wherein the presence of said allele indicates said human's risk for CVD is reduced by treatment with said HMG-CoA reductase inhibitor.
  • 2-3. (canceled)
  • 4. The method of claim 1, wherein said HMG-CoA reductase inhibitor is a hydrophilic statin.
  • 5. The method of claim 1, wherein said HMG-CoA reductase inhibitor is a hydrophobic statin.
  • 6. The method of claim 1, wherein said HMG-CoA reductase inhibitor is selected from the group consisting of atorvastatin (Lipitor®), rosuvastatin (Crestor®), pravastatin (Pravachol®), simvastatin (Zocor®), fluvastatin (Lescol®), and lovastatin (Mevacor®), or any combination thereof.
  • 7. The method of claim 1, wherein said HMG-CoA reductase inhibitor comprises an HMG-CoA reductase inhibitor in combination with at least one additional therapeutic agent.
  • 8. The method of claim 7, wherein said HMG-CoA reductase inhibitor is selected from the group consisting of: simvastatin in combination with ezetimibe (Vytorin®);lovastatin in combination with niacin (Advicor®);atorvastatin in combination with amlodipine besylate (Caduet®); andsimvastatin in combination with niacin (Simcor®).
  • 9-12. (canceled)
  • 13. The method of claim 1, wherein said testing comprises nucleic acid amplification.
  • 14. The method of claim 13, wherein said nucleic acid amplification is carried out by polymerase chain reaction.
  • 15. The method of claim 1, wherein said testing is performed using sequencing, 5′ nuclease digestion, molecular beacon assay, oligonucleotide ligation assay, size analysis, single-stranded conformation polymorphism analysis, or denaturing gradient gel electrophoresis (DGGE).
  • 16. The method of claim 1, wherein said testing is performed using an allele-specific method.
  • 17. The method of claim 16, wherein said allele-specific method is allele-specific probe hybridization, allele-specific primer extension, or allele-specific amplification.
  • 18. (canceled)
  • 19. The method of claim 1, wherein said human is homozygous for said allele.
  • 20. The method of claim 1, wherein said human is heterozygous for said allele.
  • 21. The method of claim 1, wherein said CVD is coronary heart disease (CHD).
  • 22. The method of claim 21, wherein said CHD is myocardial infarction (MI).
  • 23. The method of claim 1, wherein said CVD is stroke.
  • 24. The method of claim 1, wherein said human did not have CVD prior to said testing.
  • 25. The method of claim 1, wherein said human did have CVD prior to said testing.
  • 26. The method of claim 1, further comprising administering an HMG-CoA reductase inhibitor to said human who has said allele.
  • 27. The method of claim 1, further comprising administering a therapeutic agent that is not an HMG-CoA reductase inhibitor to said human who does not have said allele, wherein said therapeutic agent is selected from the group consisting of niacin, fibrates, and ezetimibe (Zetia® or Ezetrol®).
  • 28. (canceled)
  • 29. A method for determining whether a human has an increased risk for cardiovascular disease (CVD), comprising testing nucleic acid from said human for the presence or absence of an allele at a polymorphism as represented by position 101 of any one of the nucleotide sequences of SEQ ID NOS:623-3661 or its complement, wherein the presence of said allele indicates said human has an increased risk for CVD.
  • 30. The method of claim 29, further comprising administering an HMG-CoA reductase inhibitor to said human who has said increased risk for CVD.
  • 31. A method for reducing risk of cardiovascular disease (CVD) in a human, comprising administering to said human an effective amount of an HMG-CoA reductase inhibitor, wherein said human has been identified as having an allele at a polymorphism as represented by position 101 of any one of the nucleotide sequences of SEQ ID NOS:623-3661 or its complement, and wherein the presence of said allele indicates said human's risk for CVD is reduced by treatment with said HMG-CoA reductase inhibitor.
  • 32. The method of claim 31, wherein said method comprises testing nucleic acid from said human for the presence or absence of said allele.
  • 33-34. (canceled)
  • 35. A detection reagent for carrying out the method of claim 1, wherein said detection reagent is an allele-specific probe or an allele-specific primer.
  • 36. A test kit comprising one or more containers containing the detection reagent of claim 35 and one or more components selected from the group consisting of an enzyme, polymerase enzyme, ligase enzyme, buffer, amplification primer pair, dNTPs, ddNTPs, positive control nucleic acid, negative control, nucleic acid extraction reagent, and instructions for using said test kit which instruct that the presence of said allele indicates that said risk for CVD is reduced by treatment with said HMG-CoA reductase inhibitor.
  • 37-38. (canceled)
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. non-provisional application Ser. No. 13/833,905, dated Mar. 15, 2013, which is a continuation application of U.S. non-provisional application Ser. No. 13/085,955, dated Apr. 13, 2011, which claims the benefit of U.S. provisional application Ser. No. 61/325,689 filed Apr. 19, 2010, U.S. provisional application Ser. No. 61/332,509 filed May 7, 2010, and U.S. provisional application Ser. No. 61/405,972 filed Oct. 22, 2010, the contents of each of which are hereby incorporated by reference in their entirety into this application.

Provisional Applications (3)
Number Date Country
61325689 Apr 2010 US
61332509 May 2010 US
61405972 Oct 2010 US
Continuations (2)
Number Date Country
Parent 13833905 Mar 2013 US
Child 14834946 US
Parent 13085955 Apr 2011 US
Child 13833905 US