COMPOSITIONS, METHODS AND KITS FOR DIAGNOSIS OF LUNG CANCER

INCORPORATION-BY-REFERENCE OF SEQUENCE LISTING

The contents of the text file named “IDIA-010_001US_SEQ.txt”, which was created on Jun. 7, 2016 and is 281 KB in size, are hereby incorporated by reference in their entireties.

BACKGROUND

Lung conditions and particularly lung cancer present significant diagnostic challenges. In many asymptomatic patients, radiological screens such as computed tomography (CT) scanning are a first step in the diagnostic paradigm. Pulmonary nodules (PNs) or indeterminate nodules are located in the lung and are often discovered during screening of both high risk patients or incidentally. The number of PNs identified is expected to rise due to increased numbers of patients with access to health care, the rapid adoption of screening techniques and an aging population. It is estimated that over 3 million PNs are identified annually in the US. Although the majority of PNs are benign, some are malignant leading to additional interventions. For patients considered low risk for malignant nodules, current medical practice dictates scans every three to six months for at least two years to monitor for lung cancer. The time period between identification of a PN and diagnosis is a time of medical surveillance or “watchful waiting” and may induce stress on the patient and lead to significant risk and expense due to repeated imaging studies. If a biopsy is performed on a patient who is found to have a benign nodule, the costs and potential for harm to the patient increase unnecessarily. Major surgery is indicated in order to excise a specimen for tissue biopsy and diagnosis. All of these procedures are associated with risk to the patient including: illness, injury and death as well as high economic costs.

Frequently, PNs cannot be biopsied to determine if they are benign or malignant due to their size and/or location in the lung. However, PNs are connected to the circulatory system, and so if malignant, protein markers of cancer can enter the blood and provide a signal for determining if a PN is malignant or not.

Diagnostic methods that can replace or complement current diagnostic methods for patients presenting with PNs are needed to improve diagnostics, reduce costs and minimize invasive procedures and complications to patients.

SUMMARY

The present invention provides novel compositions, methods and kits for identifying protein markers to identify, diagnose, classify and monitor lung conditions, and particularly lung cancer. The present invention uses a multiplexed assay to distinguish benign pulmonary nodules from malignant pulmonary nodules to classify patients with or without lung cancer. The present invention may be used in patients who present with symptoms of lung cancer, but do not have pulmonary nodules.

The present invention provides a method of determining the likelihood that a lung condition in a subject is cancer by assessing the expression of proteins in a sample obtained from the subject; calculating a score based on the protein abundance; and comparing the score from the biological sample to a plurality of scores obtained from a reference population, wherein the comparison provides a determination that the lung condition is cancer. When cancer is ruled in, the subject receives a treatment protocol. Treatment protocol includes for example pulmonary function test (PFT), pulmonary imaging, a biopsy, a surgery, a chemotherapy, a radiotherapy, or any combination thereof. In some embodiments, the imaging is an x-ray, a chest computed tomography (CT) scan, or a positron emission tomography (PET) scan.

The present invention provides a method of determining that a lung condition in a subject is cancer by assessing the expression of a plurality of proteins comprising determining the protein expression level of at least each of BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN and TSP1_HUMAN from a biological sample obtained from the subject; calculating a score from the protein expression of at least each of BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN and TSP1_HUMAN from the biological sample from the previous step; and comparing the score from the biological sample to a plurality of scores obtained from a reference population, wherein the comparison provides a determination that the lung condition is cancer.

In one embodiment the subject has a pulmonary nodule, wherein the pulmonary nodule has a diameter of 30 mm or less. Preferably, the pulmonary nodule has a diameter of about 8 and 30 mm. In one embodiment, the lung condition of the subject is cancer or a non-cancerous lung condition. In another embodiment, the lung cancer is non-small cell lung cancer. The non-cancerous lung conditions include chronic obstructive pulmonary disease, hamartoma, fibroma, neurofibroma, granuloma, sarcoidosis, bacterial infection or fungal infection.

The subject can be a mammal. Preferably, the subject is a human.

The biological sample can be any sample obtained from the subject, e.g., tissue, cell, fluid. Preferably, the biological sample is tissue, blood plasma, serum, whole blood, urine, saliva, genital secretions, cerebrospinal fluid, sweat, excreta or bronchoalveolar lavage.

The method of the present invention includes assessing the expression level of at least each of BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN and TSP1_HUMAN and fragmenting each protein to generate at least one peptide. The method of fragmentation can include trypsin digestion. The methods of the current invention can include various manners to assess the expression of a plurality of proteins, including mass spectrometry (MS), liquid chromatography-selected reaction monitoring/mass spectrometry (LC-SRM-MS), reverse transcriptase-polymerase chain reaction (RT-PCR), microarray, serial analysis of gene expression (SAGE), gene expression analysis by massively parallel signature sequencing (MPSS), immunoassays, immunohistochemistry (IHC), transcriptomics, or proteomics. A preferred embodiment of the current invention is assessing the expression of a plurality of proteins by liquid chromatography-selected reaction monitoring/mass spectrometry (LC-SRM-MS). In another aspect of the invention, at least one transition for each peptide is determined by liquid chromatography-selected reaction monitoring/mass spectrometry (LC-SRM-MS). In one embodiment, the peptide transitions comprise at least LTLLAPLNSVFK £SEQ ID No.: 46) (658.4, 804.5), YYIAASYVK (SEQ ID No.: 51) (539.28, 638.4), VEIFYR (SEQ ID No.: 56) (413.73, 598.3), QITVNDLPVGR (SEQ ID No.: 58) (606.3, 970.5), and GFLLLASLR (SEQ ID No.: 61) (495.31, 559.4).

The methods of the current invention provide a means to determine a score, wherein said score is determined as score=1/[1+exp(−α−Σ_i=1⁵β_i*{hacek over (P)}_i)], wherein

${\tilde{P}}_{i} = \frac{P_{i}^{λ_{i}} - 1.0}{λ_{i}},$

and {hacek over (P)}_iis the Box-Cox transformed and normalized intensity of peptide transition i in said sample, β_iis the corresponding logistic regression coefficient, λ_iis the corresponding Box-Cox transformation, α is a panel-specific constant, and N is the total number of transitions of the assessed proteins. In one embodiment, the reference population comprises at least 100 subjects with a lung condition and wherein each subject in the reference population has been assigned a score based on the protein expression of at least each of BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN and TSP1_HUMAN obtained from a biological sample.

The methods of the current invention can further include normalizing the protein measurements. The methods of the current invention can further include normalizing the protein expression level of at least each of BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN and TSP1_HUMAN against the protein expression level of at least one of PEDF_HUMAN, MASP1_HUMAN, GELS_HUMAN, LUM_HUMAN, C163A_HUMAN, PTPRJ_HUMAN, CD44_HUMAN, TENX_HUMAN, CLUS_HUMAN, and IBP3_HUMAN in the sample.

In another aspect of the current invention, the score from the biological sample from the subject is calculated from a logistic regression model applied to the determined protein expression levels. In another embodiment, the plurality of scores obtained from a reference population provides a single pre-determined score, and wherein if the score from the biological sample from the subject is equal or greater than the pre-determined score, the lung condition is cancer. In another embodiment, the score is within a range of possible values and the predetermined score is approximately 65% of the magnitude of the range. In another aspect, the score from the biological sample provides a positive predictive value (PPV) of at least 30%. In another aspect, the score from the biological sample provides a positive predictive value (PPV) of at least 50%.

Another aspect of the current invention comprises treating the subject if the lung condition is cancer. The methods of the invention provide for treatment of the subject if the lung condition is cancer, wherein said treatment is a pulmonary function test (PFT), pulmonary imaging, a biopsy, a surgery, a chemotherapy, a radiotherapy, or any combination thereof. In one embodiment of the current invention, the imaging includes an x-ray, a chest computed tomography (CT) scan, or a positron emission tomography (PET) scan. Another aspect of the current invention can include at least one step performed on a computer system.

Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present invention, suitable methods and materials are described below. All publications, patent applications, patents, and other references mentioned herein are incorporated by reference in their entirety. The references cited herein are not admitted to be prior art to the claimed invention. In the case of conflict, the present specification, including definitions, will control. In addition, the materials, methods, and examples are illustrative only and are not intended to be limiting. Other features and advantages of the invention will be apparent from the following detailed description and claim.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a panel of graphs explaining calculation of partial AUC (pAUC) factor. Panel A shows ROC curve of the performance of a classifier. Panel B shows the expected random partial AUC at 20% false positive rate (FPR). Panel C shows the actual partial AUC at 20% FPR.

FIG. 2 is a graph showing pAUC of overall 1 million panels' performance.

FIG. 3A is a graph showing panels with pAUC factor >=1.5.

FIG. 3B is a graph showing panels with pAUC factor >=1.75.

FIG. 4 is a graph showing performance of all 7-protein panels.

FIG. 5A is a graph showing performance of panel 1.

FIG. 5B is a graph showing performance of panel 2.

FIG. 5C is a graph showing performance of panel 3.

FIG. 5D is a graph showing performance of panel 4.

FIG. 5E is a graph showing performance of panel 5.

FIG. 5F is a graph showing performance of panel 6.

FIG. 6 is a graph showing performance of panel 4.

DETAILED DESCRIPTION

The disclosed invention derives from the surprising discovery that in patients presenting with pulmonary nodule(s), a small panel of protein markers in the blood is able to specifically identify and distinguish malignant and benign lung nodules with high positive predictive value (PPV) and sensitivity. The classifiers described herein demonstrate remarkable independence and accuracy. Particularly, these classifiers (a.k.a., rule-in classifiers) are useful to identify cancer patients among those who cannot be ruled out by the rule-out classifiers.

Accordingly the invention provides unique advantages to the patient associated with early detection of lung cancer in a patient, including increased life span, decreased morbidity and mortality, decreased exposure to radiation during screening and repeat screenings and a minimally invasive diagnostic model. Importantly, the methods of the invention allow for a patient to avoid invasive procedures.

The routine clinical use of chest computed tomography (CT) scans identifies millions of pulmonary nodules annually, of which only a small minority are malignant but contribute to the dismal 15% five-year survival rate for patients diagnosed with non-small cell lung cancer (NSCLC). The early diagnosis of lung cancer in patients with pulmonary nodules is a top priority, as decision-making based on clinical presentation, in conjunction with current non-invasive diagnostic options such as chest CT and positron emission tomography (PET) scans, and other invasive alternatives, has not altered the clinical outcomes of patients with Stage I NSCLC. The subgroup of pulmonary nodules between 8 mm and 20 mm in size is increasingly recognized as being “intermediate” relative to the lower rate of malignancies below 8 mm and the higher rate of malignancies above 20 mm. Invasive sampling of the lung nodule by biopsy using transthoracic needle aspiration or bronchoscopy may provide a cytopathologic diagnosis of NSCLC, but are also associated with both false-negative and non-diagnostic results. In summary, a key unmet clinical need for the management of pulmonary nodules is a non-invasive diagnostic test that discriminates between malignant and benign processes in patients with indeterminate pulmonary nodules (IPNs), especially between 8 mm and 20 mm in size.

The clinical decision to be more or less aggressive in treatment is based on risk factors, primarily nodule size, smoking history and age in addition to imaging. As these are not conclusive, there is a great need for a molecular-based blood test that would be both non-invasive and provide complementary information to risk factors and imaging.

Accordingly, these and related embodiments will find uses in screening methods for lung conditions, and particularly lung cancer diagnostics. More importantly, the invention finds use in determining the clinical management of a patient. That is, the method of invention is particularly useful in ruling in a particular treatment protocol for an individual subject.

Cancer biology requires a molecular strategy to address the unmet medical need for an assessment of lung cancer risk. The field of diagnostic medicine has evolved with technology and assays that provide sensitive mechanisms for detection of changes in proteins. The methods described herein use a LC-SRM-MS technology for measuring the concentration of blood plasma proteins that are collectively changed in patients with a malignant PN. This protein signature is indicative of lung cancer. LC-SRM-MS is one method that provides for both quantification and identification of circulating proteins in plasma. Changes in protein expression levels, such as but not limited to signaling factors, growth factors, cleaved surface proteins and secreted proteins, can be detected using such a sensitive technology to assay cancer. Presented herein is a blood-based classification test to determine the likelihood that a patient presenting with a pulmonary nodule has a nodule that is benign or malignant. The present invention presents a classification algorithm that predicts the relative likelihood of the PN being benign or malignant.

More broadly, it is demonstrated that there are many variations on this invention that are also diagnostic tests for the likelihood that a PN or a pulmonary mass is benign or malignant. These are variations on the panel of proteins, protein standards, measurement methodology and/or classification algorithm.

As disclosed herein, archival plasma samples from subjects presenting with PNs were analyzed for differential protein expression by mass spectrometry and the results were used to identify biomarker proteins and panels of biomarker proteins that are differentially expressed in conjunction with various lung conditions (cancer vs. non-cancer).

In one aspect of the invention, the panel comprises at least 2, 3, 4, 5, or more protein markers with at least one protein-protein interaction. In some embodiments, the panel comprises 5 protein markers. For example, the panel comprises BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. Alternatively, the panel comprises COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. In some embodiments, the panel comprises 6 biomarkers. For example, the panel comprises BGH3_HUMAN, COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN.

Additional biomarkers that can be used herein are described in WO13/096845, the contents of which are incorporated herein by reference in their entireties.

The term “pulmonary nodules” (PNs) refers to lung lesions that can be visualized by radiographic techniques. A pulmonary nodule is any nodules less than or equal to three centimeters in diameter. In one example a pulmonary nodule has a diameter of about 0.8 cm to 2 cm.

The term “masses” or “pulmonary masses” refers to lung nodules that are greater than three centimeters maximal diameter.

The term “blood biopsy” refers to a diagnostic study of the blood to determine whether a patient presenting with a nodule has a condition that may be classified as either benign or malignant.

The term “acceptance criteria” refers to the set of criteria to which an assay, test, diagnostic or product should conform to be considered acceptable for its intended use. As used herein, acceptance criteria are a list of tests, references to analytical procedures, and appropriate measures, which are defined for an assay or product that will be used in a diagnostic. For example, the acceptance criteria for the classifier refer to a set of predetermined ranges of coefficients.

The term “partial AUC factor or pAUC factor” is greater than expected by random prediction. At specificity=0.80 the pAUC factor is the trapezoidal area under the ROC curve from 0.0 to 0.2 False Positive Rate/(0.2*0.2/2).

The term “incremental information” refers to information that may be used with other diagnostic information to enhance diagnostic accuracy. Incremental information is independent of clinical factors such as including nodule size, age, or gender.

The term “score” or “scoring” refers to calculating a probability likelihood for a sample. For the present invention, values closer to 1.0 are used to represent the likelihood that a sample is cancer, values closer to 0.0 represent the likelihood that a sample is benign.

The term “robust” refers to a test or procedure that is not seriously disturbed by violations of the assumptions on which it is based. For the present invention, a robust test is a test wherein the proteins or transitions of the mass spectrometry chromatograms have been manually reviewed and are “generally” free of interfering signals.

The term “coefficients” refers to the weight assigned to each protein used to in the logistic regression model to score a sample.

In certain embodiments of the invention, it is contemplated that in terms of the logistic regression model of MC CV, the model coefficient and the coefficient of variation (CV) of each protein's model coefficient may increase or decrease, dependent upon the method (or model) of measurement of the protein classifier. For each of the listed proteins in the panels, there is about, at least, at least about, or at most about a 2-, 3-, 4-, 5-, 6-, 7-, 8-, 9-, or 10-, -fold or any range derivable therein for each of the coefficient and CV. Alternatively, it is contemplated that quantitative embodiments of the invention may be discussed in terms of as about, at least, at least about, or at most about 10, 20, 30, 40, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99% or more, or any range derivable therein.

The term “best team players” refers to the proteins that rank the best in the random panel selection algorithm, i.e., perform well on panels. When combined into a classifier these proteins can segregate cancer from benign samples. “Best team player proteins” are synonymous with “cooperative proteins”. The term “cooperative proteins” refers to proteins that appear more frequently on high performing panels of proteins than expected by chance. This gives rise to a protein's cooperative score which measures how (in) frequently it appears on high performing panels. For example, a protein with a cooperative score of 1.5 appears on high performing panels 1.5× more than would be expected by chance alone.

The term “classifying” as used herein with regard to a lung condition refers to the act of compiling and analyzing expression data for using statistical techniques to provide a classification to aid in diagnosis of a lung condition, particularly lung cancer.

The term “classifier” as used herein refers to an algorithm that discriminates between disease states with a predetermined level of statistical significance. A two-class classifier is an algorithm that uses data points from measurements from a sample and classifies the data into one of two groups. In certain embodiments, the data used in the classifier is the relative expression of proteins in a biological sample. Protein expression levels in a subject can be compared to levels in patients previously diagnosed as disease free or with a specified condition. Table 5 lists representative rule-in classifiers (e.g., panels 1, 4, and 5).

The “classifier” maximizes the probability of distinguishing a randomly selected cancer sample from a randomly selected benign sample, i.e., the AUC of ROC curve.

In addition to the classifier's constituent proteins with differential expression, it may also include proteins with minimal or no biologic variation to enable assessment of variability, or the lack thereof, within or between clinical specimens; these proteins may be termed endogenous proteins and serve as internal controls for the other classifier proteins.

The term “normalization” or “normalizer” as used herein refers to the expression of a differential value in terms of a standard value to adjust for effects which arise from technical variation due to sample handling, sample preparation and mass spectrometry measurement rather than biological variation of protein concentration in a sample. For example, when measuring the expression of a differentially expressed protein, the absolute value for the expression of the protein can be expressed in terms of an absolute value for the expression of a standard protein that is substantially constant in expression. This prevents the technical variation of sample preparation and mass spectrometry measurement from impeding the measurement of protein concentration levels in the sample. A skilled artisan could readily recognize that any normalization methods and/or normalizers suitable for the present invention can be utilized.

The term “condition” as used herein refers generally to a disease, event, or change in health status.

The term “treatment protocol” as used herein includes further diagnostic testing typically performed to determine whether a pulmonary nodule is benign or malignant. Treatment protocols include diagnostic tests typically used to diagnose pulmonary nodules or masses such as for example, CT scan, positron emission tomography (PET) scan, bronchoscopy or tissue biopsy. Treatment protocol as used herein is also meant to include therapeutic treatments typically used to treat malignant pulmonary nodules and/or lung cancer such as for example, chemotherapy, radiation or surgery.

The terms “diagnosis” and “diagnostics” also encompass the terms “prognosis” and “prognostics”, respectively, as well as the applications of such procedures over two or more time points to monitor the diagnosis and/or prognosis over time, and statistical modeling based thereupon. Furthermore the term diagnosis includes: a. prediction (determining if a patient will likely develop a hyperproliferative disease); b. prognosis (predicting whether a patient will likely have a better or worse outcome at a pre-selected time in the future); c. therapy selection; d. therapeutic drug monitoring; and e. relapse monitoring.

In some embodiments, for example, classification of a biological sample as being derived from a subject with a lung condition may refer to the results and related reports generated by a laboratory, while diagnosis may refer to the act of a medical professional in using the classification to identify or verify the lung condition.

The term “providing” as used herein with regard to a biological sample refers to directly or indirectly obtaining the biological sample from a subject. For example, “providing” may refer to the act of directly obtaining the biological sample from a subject (e.g., by a blood draw, tissue biopsy, lavage and the like). Likewise, “providing” may refer to the act of indirectly obtaining the biological sample. For example, providing may refer to the act of a laboratory receiving the sample from the party that directly obtained the sample, or to the act of obtaining the sample from an archive.

As used herein, “lung cancer” preferably refers to cancers of the lung, but may include any disease or other disorder of the respiratory system of a human or other mammal. Respiratory neoplastic disorders include, for example small cell carcinoma or small cell lung cancer (SCLC), non-small cell carcinoma or non-small cell lung cancer (NSCLC), squamous cell carcinoma, adenocarcinoma, broncho-alveolar carcinoma, mixed pulmonary carcinoma, malignant pleural mesothelioma, undifferentiated large cell carcinoma, giant cell carcinoma, synchronous tumors, large cell neuroendocrine carcinoma, adenosquamous carcinoma, undifferentiated carcinoma; and small cell carcinoma, including oat cell cancer, mixed small cell/large cell carcinoma, and combined small cell carcinoma; as well as adenoid cystic carcinoma, hamartomas, mucoepidermoid tumors, typical carcinoid lung tumors, atypical carcinoid lung tumors, peripheral carcinoid lung tumors, central carcinoid lung tumors, pleural mesotheliomas, and undifferentiated pulmonary carcinoma and cancers that originate outside the lungs such as secondary cancers that have metastasized to the lungs from other parts of the body. Lung cancers may be of any stage or grade. Preferably the term may be used to refer collectively to any dysplasia, hyperplasia, neoplasia, or metastasis in which the protein biomarkers expressed above normal levels as may be determined, for example, by comparison to adjacent healthy tissue.

Examples of non-cancerous lung condition include chronic obstructive pulmonary disease (COPD), benign tumors or masses of cells (e.g., hamartoma, fibroma, neurofibroma), granuloma, sarcoidosis, and infections caused by bacterial (e.g., tuberculosis) or fungal (e.g., histoplasmosis) pathogens. In certain embodiments, a lung condition may be associated with the appearance of radiographic PNs.

As used herein, “lung tissue” and “lung cancer” refer to tissue or cancer, respectively, of the lungs themselves, as well as the tissue adjacent to and/or within the strata underlying the lungs and supporting structures such as the pleura, intercostal muscles, ribs, and other elements of the respiratory system. The respiratory system itself is taken in this context as representing nasal cavity, sinuses, pharynx, larynx, trachea, bronchi, lungs, lung lobes, aveoli, aveolar ducts, aveolar sacs, aveolar capillaries, bronchioles, respiratory bronchioles, visceral pleura, parietal pleura, pleural cavity, diaphragm, epiglottis, adenoids, tonsils, mouth and tongue, and the like. The tissue or cancer may be from a mammal and is preferably from a human, although monkeys, apes, cats, dogs, cows, horses and rabbits are within the scope of the present invention. The term “lung condition” as used herein refers to a disease, event, or change in health status relating to the lung, including for example lung cancer and various non-cancerous conditions.

“Accuracy” refers to the degree of conformity of a measured or calculated quantity (a test reported value) to its actual (or true) value. Clinical accuracy relates to the proportion of true outcomes (true positives (TP) or true negatives (TN)) versus misclassified outcomes (false positives (FP) or false negatives (FN)), and may be stated as a sensitivity, specificity, positive predictive values (PPV) or negative predictive values (NPV), or as a likelihood, odds ratio, among other measures. The term “biological sample” as used herein refers to any sample of biological origin potentially containing one or more biomarker proteins. Examples of biological samples include tissue, organs, or bodily fluids such as whole blood, plasma, serum, tissue, lavage or any other specimen used for detection of disease.

The term “subject” as used herein refers to a mammal, preferably a human.

The term “biomarker protein” as used herein refers to a polypeptide in a biological sample from a subject with a lung condition versus a biological sample from a control subject. A biomarker protein includes not only the polypeptide itself, but also minor variations thereof, including for example one or more amino acid substitutions or modifications such as glycosylation or phosphorylation.

The term “biomarker protein panel” as used herein refers to a plurality of biomarker proteins. In certain embodiments, the expression levels of the proteins in the panels can be correlated with the existence of a lung condition in a subject. In certain embodiments, biomarker protein panels comprise 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 60, 70, 80, 90 or 100 proteins. In certain embodiments, the biomarker proteins panels comprise 2-5 proteins, 5-10 proteins, 10-20 proteins or more.

“Treating” or “treatment” as used herein with regard to a condition may refer to preventing the condition, slowing the onset or rate of development of the condition, reducing the risk of developing the condition, preventing or delaying the development of symptoms associated with the condition, reducing or ending symptoms associated with the condition, generating a complete or partial regression of the condition, or some combination thereof.

Biomarker levels may change due to treatment of the disease. The changes in biomarker levels may be measured by the present invention. Changes in biomarker levels may be used to monitor the progression of disease or therapy.

“Altered”, “changed” or “significantly different” refer to a detectable change or difference from a reasonably comparable state, profile, measurement, or the like. One skilled in the art should be able to determine a reasonable measurable change. Such changes may be all or none. They may be incremental and need not be linear. They may be by orders of magnitude. A change may be an increase or decrease by 1%, 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99%, 100%, or more, or any value in between 0% and 100%. Alternatively the change may be 1-fold, 1.5-fold 2-fold, 3-fold, 4-fold, 5-fold or more, or any values in between 1-fold and five-fold. The change may be statistically significant with a p value of 0.1, 0.05, 0.001, or 0.0001.

Using the methods of the current invention, a clinical assessment of a patient is first performed. If there exists is a higher likelihood for cancer, the clinician may rule in the disease which will require the pursuit of diagnostic testing options yielding data which increase and/or substantiate the likelihood of the diagnosis. “Rule in” of a disease requires a test with a high specificity.

“FN” is false negative, which for a disease state test means classifying a disease subject incorrectly as non-disease or normal.

“FP” is false positive, which for a disease state test means classifying a normal subject incorrectly as having disease.

The term “rule in” refers to a diagnostic test with high specificity that optionally coupled with a clinical assessment indicates a higher likelihood for cancer. If the clinical assessment is a lower likelihood for cancer, the clinician may adopt a stance to rule out the disease, which will require diagnostic tests which yield data that decrease the likelihood of the diagnosis. “Rule out” requires a test with a high sensitivity. Accordingly, the term “ruling in” as used herein is meant that the subject is selected to receive a treatment protocol.

The term “rule out” refers to a diagnostic test with high sensitivity that optionally coupled with a clinical assessment indicates a lower likelihood for cancer. Accordingly, the term “ruling out” as used herein is meant that the subject is selected not to receive a treatment protocol.

The term “sensitivity of a test” refers to the probability that a patient with the disease will have a positive test result. This is derived from the number of patients with the disease who have a positive test result (true positive) divided by the total number of patients with the disease, including those with true positive results and those patients with the disease who have a negative result, i.e., false negative.

The term “specificity of a test” refers to the probability that a patient without the disease will have a negative test result. This is derived from the number of patients without the disease who have a negative test result (true negative) divided by all patients without the disease, including those with a true negative result and those patients without the disease who have a positive test result, e.g., false positive. While the sensitivity, specificity, true or false positive rate, and true or false negative rate of a test provide an indication of a test's performance, e.g., relative to other tests, to make a clinical decision for an individual patient based on the test's result, the clinician requires performance parameters of the test with respect to a given population.

The term “positive predictive value” (PPV) refers to the probability that a positive result correctly identifies a patient who has the disease, which is the number of true positives divided by the sum of true positives and false positives.

The term “negative predictive value” or “NPV” is calculated by TN/(TN+FN) or the true negative fraction of all negative test results. It also is inherently impacted by the prevalence of the disease and pre-test probability of the population intended to be tested. The term NPV refers to the probability that a negative test correctly identifies a patient without the disease, which is the number of true negatives divided by the sum of true negatives and false negatives. A positive result from a test with a sufficient PPV can be used to rule in the disease for a patient, while a negative result from a test with a sufficient NPV can be used to rule out the disease, if the disease prevalence for the given population, of which the patient can be considered a part, is known.

The term “disease prevalence” refers to the number of all new and old cases of a disease or occurrences of an event during a particular period. Prevalence is expressed as a ratio in which the number of events is the numerator and the population at risk is the denominator.

The term disease incidence refers to a measure of the risk of developing some new condition within a specified period of time; the number of new cases during some time period, it is better expressed as a proportion or a rate with a denominator.

Lung cancer risk according to the “National Lung Screening Trial” is classified by age and smoking history. High risk—age ≧55 and ≧30 pack-years smoking history; Moderate risk—age ≧50 and ≧20 pack-years smoking history; Low risk—<age 50 or <20 pack-years smoking history.

The clinician must decide on using a diagnostic test based on its intrinsic performance parameters, including sensitivity and specificity, and on its extrinsic performance parameters, such as positive predictive value and negative predictive value, which depend upon the disease's prevalence in a given population.

Additional parameters which may influence clinical assessment of disease likelihood include the prior frequency and closeness of a patient to a known agent, e.g., exposure risk, that directly or indirectly is associated with disease causation, e.g., second hand smoke, radiation, etc., and also the radiographic appearance or characterization of the pulmonary nodule exclusive of size. A nodule's description may include solid, semi-solid or ground glass which characterizes it based on the spectrum of relative gray scale density employed by the CT scan technology.

“Mass spectrometry” refers to a method comprising employing an ionization source to generate gas phase ions from an analyte presented on a sample presenting surface of a probe and detecting the gas phase ions with a mass spectrometer.

In some embodiments of the invention, two panels of 5 proteins (BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN; or COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN) or a panel of 6 proteins (BGH3_HUMAN, COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN) effectively distinguishes between samples derived from patients with benign and malignant nodules less than 2 cm diameter, particularly identifying cancer patients among those who cannot be ruled out by the rule-out classifiers.

Bioinformatic and biostatistical analyses were used first to identify individual proteins with statistically significant differential expression, and then using these proteins to derive one or more combinations of proteins or panels of proteins, which collectively demonstrated superior discriminatory performance compared to any individual protein. Bioinformatic and biostatistical methods are used to derive coefficients (C) for each individual protein in the panel that reflects its relative expression level, i.e., increased or decreased, and its weight or importance with respect to the panel's net discriminatory ability, relative to the other proteins. The quantitative discriminatory ability of the panel can be expressed as a mathematical algorithm with a term for each of its constituent proteins being the product of its coefficient and the protein's plasma expression level (P) (as measured by LC-SRM-MS), e.g., C×P, with an algorithm consisting of n proteins described as: C1×P1+C2×P2+C3×P3++Cn×Pn. An algorithm that discriminates between disease states with a predetermined level of statistical significance may be refers to a “disease classifier”. In addition to the classifier's constituent proteins with differential expression, it may also include proteins with minimal or no biologic variation to enable assessment of variability, or the lack thereof, within or between clinical specimens; these proteins may be termed typical native proteins and serve as internal controls for the other classifier proteins.

In certain embodiments, expression levels are measured by MS. MS analyzes the mass spectrum produced by an ion after its production by the vaporization of its parent protein and its separation from other ions based on its mass-to-charge ratio. The most common modes of acquiring MS data are 1) full scan acquisition resulting in the typical total ion current plot (TIC), 2) selected ion monitoring (SIM), and 3) selected reaction monitoring (SRM).

In certain embodiments of the methods provided herein, biomarker protein expression levels are measured by LC-SRM-MS. LC-SRM-MS is a highly selective method of tandem mass spectrometry which has the potential to effectively filter out all molecules and contaminants except the desired analyte(s). This is particularly beneficial if the analysis sample is a complex mixture which may comprise several isobaric species within a defined analytical window. LC-SRM-MS methods may utilize a triple quadrupole mass spectrometer which, as is known in the art, includes three quadrupole rod sets. A first stage of mass selection is performed in the first quadrupole rod set, and the selectively transmitted ions are fragmented in the second quadrupole rod set. The resultant transition (product) ions are conveyed to the third quadrupole rod set, which performs a second stage of mass selection. The product ions transmitted through the third quadrupole rod set are measured by a detector, which generates a signal representative of the numbers of selectively transmitted product ions. The RF and DC potentials applied to the first and third quadrupoles are tuned to select (respectively) precursor and product ions that have m/z values lying within narrow specified ranges. By specifying the appropriate transitions (m/z values of precursor and product ions), a peptide corresponding to a targeted protein may be measured with high degrees of sensitivity and selectivity. Signal-to-noise ratio is superior to conventional tandem mass spectrometry (MS/MS) experiments, which select one mass window in the first quadrupole and then measure all generated transitions in the ion detector. LC-SRM-MS.

In certain embodiments, an SRM-MS assay for use in diagnosing or monitoring lung cancer as disclosed herein may utilize one or more peptides and/or peptide transitions derived from the proteins BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN (see, for example, Tables 1-5). In certain embodiments, the assay may utilize one or more peptides and/or peptide transitions derived from the proteins COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. In certain embodiments, it may utilize one or more peptides and/or peptide transitions derived from the proteins BGH3_HUMAN, COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. Exemplary peptide transitions derived from these proteins are shown in Tables 10A-10C and 11A-11M.

The expression level of a biomarker protein can be measured using any suitable method known in the art, including but not limited to mass spectrometry (MS), reverse transcriptase-polymerase chain reaction (RT-PCR), microarray, serial analysis of gene expression (SAGE), gene expression analysis by massively parallel signature sequencing (MPSS), immunoassays (e.g., ELISA), immunohistochemistry (IHC), transcriptomics, and proteomics.

To evaluate the diagnostic performance of a particular set of peptide transitions, a ROC curve is generated for each significant transition.

An “ROC curve” as used herein refers to a plot of the true positive rate (sensitivity) against the false positive rate (specificity) for a binary classifier system as its discrimination threshold is varied. A ROC curve can be represented equivalently by plotting the fraction of true positives out of the positives (TPR=true positive rate) versus the fraction of false positives out of the negatives (FPR=false positive rate). Each point on the ROC curve represents a sensitivity/specificity pair corresponding to a particular decision threshold.

AUC represents the area under the ROC curve. The AUC is an overall indication of the diagnostic accuracy of 1) a biomarker or a panel of biomarkers and 2) a ROC curve. AUC is determined by the “trapezoidal rule.” For a given curve, the data points are connected by straight line segments, perpendiculars are erected from the abscissa to each data point, and the sum of the areas of the triangles and trapezoids so constructed is computed. In certain embodiments of the methods provided herein, a biomarker protein has an AUC in the range of about 0.75 to 1.0. In certain of these embodiments, the AUC is in the range of about 0.8 to 0.85, 0.85 to 0.9, 0.9 to 0.95, or 0.95 to 1.0.

The methods provided herein are minimally invasive and pose little or no risk of adverse effects. As such, they may be used to diagnose, monitor and provide clinical management of subjects who do not exhibit any symptoms of a lung condition and subjects classified as low risk for developing a lung condition. For example, the methods disclosed herein may be used to diagnose lung cancer in a subject who does not present with a PN and/or has not presented with a PN in the past, but who nonetheless deemed at risk of developing a PN and/or a lung condition. Similarly, the methods disclosed herein may be used as a strictly precautionary measure to diagnose healthy subjects who are classified as low risk for developing a lung condition.

The present invention provides a method of determining the likelihood that a lung condition in a subject is cancer by measuring the abundance of a panel of proteins in a sample obtained from the subject; calculating a probability of cancer score based on the protein measurements and ruling in cancer for the subject if the score is equal or higher than a predetermined score, when cancer is ruled in the subject receives a treatment protocol. Treatment protocols include for example pulmonary function test (PFT), pulmonary imaging, a biopsy, a surgery, a chemotherapy, a radiotherapy, or any combination thereof. In some embodiments, the imaging is an x-ray, a chest computed tomography (CT) scan, or a positron emission tomography (PET) scan.

In another aspect the invention further provides a method of determining the likelihood of the presence of a lung condition in a subject by measuring the abundance of panel of proteins in a sample obtained from the subject, calculating a probability of cancer score based on the protein measurements and concluding the presence of this lung condition if the score is equal or greater than a pre-determined score. The lung condition is lung cancer such as for example, non-small cell lung cancer (NSCLC). The subject may be at risk of developing lung cancer.

For example, the panel may include proteins BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. The panel may include proteins COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN. Alternatively, the panel may comprise BGH3_HUMAN, COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN.

In merely illustrative embodiments, the methods described herein include steps of (a) measuring the abundance (intensity) of one representative peptide transition derived from each of the proteins comprising BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN in a sample obtained from a subject; (b) determining the coefficient for each representative peptide transition; (c) calculating a sum of the products of Box-Cox transformed (and optionally normalized) intensity of each transition and its corresponding coefficient; and (d) calculating a probability of cancer score based on the sum calculated in step (c).

In some embodiments, the representative peptide transitions for proteins BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN are LTLLAPLNSVFK (SEQ ID No.: 46) (658.4, 804.5), YYIAASYVK (SEQ ID No.: 51) (539.28, 638.4), VEIFYR (SEQ ID No.: 56) (413.73, 598.3), QITVNDLPVGR (SEQ ID No.: 58) (606.3, 970.5), and GFLLLASLR (SEQ ID No.: 61) (495.31, 559.4), respectively. Their corresponding coefficient and Box-Cox transformation are listed in Table 7. Representative peptides and their transitions derived from other panel proteins described herein are listed in Table 1.

In some embodiments, the measuring step of any method described herein is performed by detecting transitions comprising LTLLAPLNSVFK (SEQ ID No.: 46) (658.4, 804.5), YYIAASYVK (SEQ ID No.: 51) (539.28, 638.4), VEIFYR (SEQ ID No.: 56) (413.73, 598.3), QITVNDLPVGR (SEQ ID No.: 58) (606.3, 970.5), and GFLLLASLR (SEQ ID No.: 61) (495.31, 559.4).

The subject has or is suspected of having a pulmonary nodule or a pulmonary mass. The pulmonary nodule has a diameter of less than or equal to 3.0 cm. The pulmonary mass has a diameter of greater than 3.0 cm. In some embodiments, the pulmonary nodule has a diameter of about 0.8 cm to 2.0 cm. The subject may have stage IA lung cancer (i.e., the tumor is smaller than 3 cm).

The probability score is calculated from a logistic regression model applied to the protein measurements. For example, the score is determined by EQN 1:

score=1/[1+exp(−α−Σ_i=1^Nβ_i{hacek over (P)}_i)], (EQN 1) wherein

${\tilde{P}}_{i} = \frac{P_{i}^{λ_{i}} - 1.0}{λ_{i}},$

and {hacek over (P)}_iis Box-Cox transformed and normalized intensity of peptide transition i in said sample, β_iis the corresponding logistic regression coefficient, λ_iis the corresponding Box-Cox transformation, a is a panel-specific constant, and N is the total number of transitions in the panel. The score determined has a positive predictive value (PPV) of at least about 30%, at least 40% or higher (50%, 60%, 70%, 80%, 90% or higher). A score equal to approximately 0.65 provides a PPV of 30%. A score equal to approximately 0.72 provides a PPV of 40%. A score equal to approximately 0.75 provides a classifier PPV of approximately 50%. Any suitable normalization methods known in the art can be used in calculating the probability score.

In various embodiments, the method of the present invention further comprises normalizing the protein measurements. For example, the protein measurements are normalized by one or more proteins selected from PEDF_HUMAN, MASP1_HUMAN, GELS_HUMAN, LUM_HUMAN, C163A_HUMAN and PTPRJ_HUMAN, CD44 HUMAN, TENX_HUMAN, CLUS_HUMAN, and 113P3_HUMAN. A skilled artisan could readily determine any other suitable proteins as normalizers according to the standard methods available in the art.

The biological sample includes such as for example tissue, blood, plasma, serum, whole blood, urine, saliva, genital secretion, cerebrospinal fluid, sweat and excreta.

In some embodiments, the determining the likelihood of cancer is determined by the sensitivity, specificity, negative predictive value or positive predictive value associated with the score.

The measuring step is performed by selected reaction monitoring mass spectrometry, using a compound that specifically binds the protein being detected or a peptide transition. In one embodiment, the compound that specifically binds to the protein being measured is an antibody or an aptamer.

In specific embodiments, the diagnostic methods disclosed herein are used to rule in a treatment protocol for a subject, measuring the abundance of a panel of proteins in a sample obtained from the subject, calculating a probability of cancer score based on the protein measurements and ruling in the treatment protocol for the subject if the score determined in the sample is equal or higher than a pre-determined score. In some embodiments the panel contains BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN.

In certain embodiments, the diagnostic methods disclosed herein can be used in combination with other clinical assessment methods, including for example various radiographic and/or invasive methods. Similarly, in certain embodiments, the diagnostic methods disclosed herein can be used to identify candidates for other clinical assessment methods, or to assess the likelihood that a subject will benefit from other clinical assessment methods.

The high abundance of certain proteins in a biological sample such as plasma or serum can hinder the ability to assay a protein of interest, particularly where the protein of interest is expressed at relatively low concentrations. Several methods are available to circumvent this issue, including enrichment, separation, and depletion. Enrichment uses an affinity agent to extract proteins from the sample by class, e.g., removal of glycosylated proteins by glycocapture. Separation uses methods such as gel electrophoresis or isoelectric focusing to divide the sample into multiple fractions that largely do not overlap in protein content. Depletion typically uses affinity columns to remove the most abundant proteins in blood, such as albumin, by utilizing advanced technologies such as IgY14/Supermix (SigmaSt. Louis, Mo.) that enable the removal of the majority of the most abundant proteins.

In certain embodiments of the methods provided herein, a biological sample may be subjected to enrichment, separation, and/or depletion prior to assaying biomarker or putative biomarker protein expression levels. In certain of these embodiments, blood proteins may be initially processed by a glycocapture method, which enriches for glycosylated proteins, allowing quantification assays to detect proteins in the high pg/ml to low ng/ml concentration range. Exemplary methods of glycocapture are well known in the art (see, e.g., U.S. Pat. No. 7,183,188; U.S. Patent Appl. Publ. No. 2007/0099251; U.S. Patent Appl. Publ. No. 2007/0202539; U.S. Patent Appl. Publ. No. 2007/0269895; and U.S. Patent Appl. Publ. No. 2010/0279382). In other embodiments, blood proteins may be initially processed by a protein depletion method, which allows for detection of commonly obscured biomarkers in samples by removing abundant proteins. In one such embodiment, the protein depletion method is a Supermix (Sigma) depletion method.

In certain embodiments, a biomarker protein panel comprises two to 100 biomarker proteins. In certain of these embodiments, the panel comprises 2 to 5, 6 to 10, 11 to 15, 16 to 20, 21-25, 5 to 25, 26 to 30, 31 to 40, 41 to 50, 25 to 50, 51 to 75, 76 to 100, biomarker proteins. In certain embodiments, a biomarker protein panel comprises one or more subpanels of biomarker proteins that each comprises at least two biomarker proteins. For example, biomarker protein panel may comprise a first subpanel made up of biomarker proteins that are overexpressed in a particular lung condition and a second subpanel made up of biomarker proteins that are under-expressed in a particular lung condition.

In certain embodiments of the methods, compositions, and kits provided herein, a biomarker protein may be a protein that exhibits differential expression in conjunction with lung cancer.

In other embodiments, the diagnosis methods disclosed herein may be used to distinguish between two different lung conditions. For example, the methods may be used to classify a lung condition as malignant lung cancer versus benign lung cancer, NSCLC versus SCLC, or lung cancer versus non-cancer condition (e.g., inflammatory condition).

In certain embodiments, kits are provided for diagnosing a lung condition in a subject. These kits are used to detect expression levels of one or more biomarker proteins. Optionally, a kit may comprise instructions for use in the form of a label or a separate insert. The kits can contain reagents that specifically bind to proteins in the panels described, herein. These reagents can include antibodies. The kits can also contain reagents that specifically bind to mRNA expressing proteins in the panels described, herein. These reagents can include nucleotide probes. The kits can also include reagents for the detection of reagents that specifically bind to the proteins in the panels described herein. These reagents can include fluorophores.

The following examples are provided to better illustrate the claimed invention and are not to be interpreted as limiting the scope of the invention. To the extent that specific materials are mentioned, it is merely for purposes of illustration and is not intended to limit the invention. One skilled in the art may develop equivalent means or reactants without the exercise of inventive capacity and without departing from the scope of the invention

EXAMPLES
Example 1: Identification of a Robust Rule-in Classifier that Distinguishes Malignant and Benign Lung Nodule

1. Determine which Proteins to Use

There are 24 proteins in the dataset that have heavy peptides. Six proteins are normalizers so 18 proteins are available for the panel development analysis. The following Table 1 lists the candidate proteins and corresponding transitions.

TABLE 1

Candidate Proteins

Protein
Peptide
Q1
Q3

ALDOA_HUMAN
ALQASALK
401.25
617.4

(SEQ ID No.: 45)

BGH3_HUMAN
LTLLAPLNSVFK
658.4
804.5

(SEQ ID No.: 46)

CD14_HUMAN
ATVNPSAPR
456.8
527.3

(SEQ ID No.: 47)

COIA1_HUMAN
AVGLAGTFR
446.26
721.4

(SEQ ID No.: 48)

ENPL_HUMAN
SGYLLPDTK
497.27
308.1

(SEQ ID No.: 49)

FRIL_HUMAN
LGGPEAGLGEYLFER
804.4
1083.6

(SEQ ID No.: 50)

GGH_HUMAN
YYIAASYVK
539.28
638.4

(SEQ ID No.: 51)

GRP78_HUMAN
TWNDPSVQQDIK
715.85
288.1

(SEQ ID No.: 52)

IBP3_HUMAN
FLNVLSPR
473.28
685.4

(SEQ ID No.: 53)

ISLR_HUMAN
ALPGTPVASSQPR
640.85
841.5

(SEQ ID No.: 54)

KIT_HUMAN
YVSELHLTR
373.21
428.3

(SEQ ID No.: 55)

LG3BP_HUMAN
VEIFYR
413.73
598.3

(SEQ ID No.: 56)

LRP1_HUMAN
TVLWPNGLSLDIPAGR
855
1209.7

(SEQ ID No.: 57)

PRDX1_HUMAN
QITVNDLPVGR
606.3
970.5

(SEQ ID No.: 58)

PROF1_HUMAN
STGGAPTFNVTVTK
690.4
1006.6

(SEQ ID No.: 59)

TENX_HUMAN
YEVTVVSVR
526.29
293.1

(SEQ ID No.: 60)

TETN_HUMAN
LDTLAQEVALLK
657.39
871.5

(SEQ ID No.: 66)

TSP1_HUMAN
GFLLLASLR
495.31
559.4

(SEQ ID No.: 61)

2. Subset Data to Relevant Proteins (Normalization)

The normalization procedure is described in PCT/US2012/071387 (WO13/096845), the contents of which are incorporated herein by reference in their entireties. It includes 115 Samples, 91 Clinical Samples usable for training and 3 clinical samples not usable in training and 20 HGS samples, 4 per batch. The samples come from three sites Laval, NYU and UPenn. The samples all have a nodule size in the range 8 mm to 20 mm.

Six normalizing proteins were identified that had a transition detected in all samples of the study and with low coefficient of variation. For each protein the transition with highest median intensity across samples was selected as the representative transition for the protein. These proteins and transitions are found in Table 2.

TABLE 2

Normalizing Factors

Protein (Uniprot ID)
Peptide (Amino Acid Sequence)
Transition (m/z)

CD44_HUMAN
YGFIEGHVVIPR (SEQ ID No.: 62)
272.2

TENX_HUMAN
YEVTVVSVR (SEQ ID No.: 60)
759.5

CLUS_HUMAN
ASSIIDELFQDR (SEQ ID No.: 63)
565.3

IBP3_HUMAN
FLNVLSPR (SEQ ID No.: 53)
685.4

GELS_HUMAN
TASDFITK (SEQ ID No.: 64)
710.4

MASP1_HUMAN
TGVITSPDFPNPYPK (SEQ ID No.: 65)
258.10

We refer to the transitions in Table 2 as normalizing factors (NFs). Each of the 1550 transitions were normalized by each of the six normalizing factors where the new intensity of a transition t in a sample s by NF f, denoted New(s,t,f), is calculated as follows:

New(s,t,f)=Raw(s,t)*Median(f)/Raw(s,f)

where Raw(s,t) is the original intensity of transition tin sample s; Median(f) is the median intensity of the NF f across all samples; and Raw(s,f) is the original intensity of the NF f in sample s.

For each protein and normalized transition, the AUC of each batch was calculated. The NF that minimized the coefficient of variation across the batches was selected as the NF for that protein and for all transitions of that protein. Consequently, every protein (and all of its transitions) are now normalized by a single NF.

3. Generate 1 Million Panels with 18 Proteins.

A million random panels of 5 proteins each are generated and the partial AUC tracked using a specificity of 0.8 using a hold out rate of 20%. There are (18/5)=8568 panels and each panel has multiple measurements. The panels are ranked by Partial AUC factor at a False Positive Rate (FPR) of 20%. FIGS. 1A-1C describe how partial AUC factor is calculated.

Accordingly, panels with >=1.5 pAUC Factor comprise proteins listed in Table 3 below.

TABLE 3

Panels with >= 1.5 pAUC Factor

Performance_
Performance_
Beats_

Protein
Transition
Number
Normalized
Expectations

PRDX1_HUMAN
QITVNDLPVGR_606.30_970.50
35
1.0000
1

(SEQ ID No.: 58)

GGH_HUMAN
YYIAASYVK_539.28_638.40
34
0.9714
1

(SEQ ID No.: 51)

COIA1_HUMAN
AVGLAGTFR_446.26_721.40
21
0.6000
1

(SEQ ID No.: 48)

LG3BP_HUMAN
VEIFYR_413.73_598.30
17
0.4857
1

(SEQ ID No.: 56)

ENPL_HUMAN
SGYLLPDTK_497.27_308.10
14
0.4000
1

(SEQ ID No.: 49)

TENX_HUMAN
YEVTVVSVR_526.29_293.10
14
0.4000
1

(SEQ ID No.: 60)

TSP1_HUMAN
GFLLLASLR_495.31_559.40
13
0.3714
1

(SEQ ID No.: 61)

BGH3_HUMAN
LTLLAPLNSVFK_658.40_804.50
8
0.2286
0

(SEQ ID No.: 46)

LRP1_HUMAN
TVLWPNGLSLDIPAGR_855.00_1209.70
5
0.1429
0

(SEQ ID No.: 57)

PROF1_HUMAN
STGGAPTFNVTVTK_690.40_1006.60
4
0.1143
0

(SEQ ID No.: 59)

ALDOA_HUMAN
ALQASALK_401.25_617.40
3
0.0857
0

(SEQ ID No.: 45)

FRIL_HUMAN
LGGPEAGLGEYLFER_804.40_1083.60
3
0.0857
0

(SEQ ID No.: 50)

ISLR_HUMAN
ALPGTPVASSQPR_640.85_841.50
2
0.0571
0

(SEQ ID No.: 54)

CD14_HUMAN
ATVNPSAPR_456.80_527.30
2
0.0571
0

(SEQ ID No.: 47)

GRP78_HUMAN
TWNDPSVQQDIK_715.85_288.10
2
0.0571
0

(SEQ ID No.: 52)

IBP3_HUMAN
FLNVLSPR_473.28_685.40
1
0.0286
0

(SEQ ID No.: 53)

TETN_HUMAN
LDTLAQEVALLK_657.39_871.50
1
0.0286
0

(SEQ ID No.: 66)

KIT_HUMAN
YVSELHLTR_373.21_428.30
1
0.0286
0

(SEQ ID No.: 55)

Panels with >=1.75 pAUC Factor comprise proteins listed in Table 4 below.

TABLE 4

Panels with >= 1.75 pAUC Factor

Performance_
Performance_
Beats_

Protein
Transition
Number
Normalized
Expectations

PRDX1_HUMAN
QITVNDLPVGR_606.30_970.50
5
1.0000
1

(SEQ ID No.: 58)

GGH_HUMAN
YYIAASYVK_539.28_638.40
5
1.000
1

(SEQ ID No.: 51)

BGH3_HUMAN
LTLLAPLNSVFK_658.40_804.50
4
0.8000
1

(SEQ ID No.: 46)

TSP1_HUMAN
GFLLLASLR_495.31_559.40
3
0.6000
1

(SEQ ID No.: 61)

LG3BP_HUMAN
VEIFYR_413.73_598.30
3
0.6000
1

(SEQ ID No.: 56)

ENPL_HUMAN
SGYLLPDTK_497.27_308.10
2
0.4000
1

(SEQ ID No.: 49)

COIA1_HUMAN
AVGLAGTFR_446.26_721.40
1
0.2000
0

(SEQ ID No.: 48)

LRP1_HUMAN
TVLWPNGLSLDIPAGR_855.00_1209.70
1
0.2000
0

(SEQ ID No.: 57)

TENX_HUMAN
YEVTVVSVR_526.29_293.10
1
0.2000
0

(SEQ ID No.: 60)

ISL4_HUMAN
ALPGTPVASSQPR_640.85_841.50
0
0.0000
0

(SEQ ID No.: 54)

ALDOA_HUMAN
ALQASALK_401.25_617.40
0
0.0000
0

(SEQ ID No.: 45)

CD14_HUMAN
ATVNPSAPR_456.80_527.30
0
0.0000
0

(SEQ ID No.: 47)

IBP3_HUMAN
FLNVLSPR_473.28_685.40
0
0.0000
0

(SEQ ID No.: 53)

TETN_HUMAN
LDTLAQEVALLK_657.39_871.50
0
0.0000
0

(SEQ ID No.: 66)

FRIL_HUMAN
LGGPEAGLGEYLFER_804.40_1083.60
0
0.0000
0

(SEQ ID No.: 50)

PROF1_HUMAN
STGGAPTFNVTVTK_690.40_1006.60
0
0.0000
0

(SEQ ID No.: 59)

GRP78_HUMAN
TWNDPSVQQDIK_715.85_288.10
0
0.0000
0

(SEQ ID No.: 52)

KIT_HUMAN
YVSELHLTR_373.21_428.30
0
0.0000
0

(SEQ ID No.: 55)

4. Proteins Keep

The proteins kept are the union of 1.5× and 1.75× panels that are significant, i.e., COIA1_HUMAN, ENPL_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, TENX_HUMAN, and TSP1_HUMAN.

5. Analytical Validation of Proteins

A separate experiment was carried out to determine how well the proteins varied as columns changed and depletion position changed.

6. Take the 7 Remaining Proteins and Exhaustively Search all Panels

Form every possible 127 panel combinations of the remaining 7 proteins. The performance of all panels of these 7 proteins is shown in FIG. 4. Each panel is tested tracking the partial AUC, distribution of coefficients, etc. Measuring the partial AUC factor of the panels with better that 1.75× resulted in 6 panels (Table 5).

TABLE 5

Best 6 panels

Crossvalidated

Maximum CV
Maximum

pAUC

Name
Proteins
Protein
Model CV
ALPHA CV
factor

RuleIn_1
BGH3_HUMAN,
COIA1_HUMAN
0.6571
46.2498320216908
1.96523447802469

COIA1_HUMAN,

ENPL_HUMAN,

GGH_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

RuleIn_2
BGH3_HUMAN,
COIA1_HUMAN
0.6397
0.979908242041881
1.93097955555555

COIA1_HUMAN,

ENPL_HUMAN,

GGH_HUMAN,

LG3BP_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

RuleIn_3
BGH3_HUMAN,
TSP1_HUMAN
0.4861
1.53959755683128
1.90957520987654

ENPL_HUMAN,

GGH_HUMAN,

LG3BP_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

RuleIn_4
BGH3_HUMAN,
TSP1_HUMAN
0.5461
0.341327685172249
1.87271083555556

GGH_HUMAN,

LG3BP_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

RuleIn_5
COIA1_HUMAN,
COIA1_HUMAN
0.5854
1.40331399560408
1.8062064908642

ENPL_HUMAN,

GGH_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

RuleIn_6
BGH3_HUMAN,
TSP1_HUMAN
0.4152
2.07823201290617
1.81452772641975

ENPL_HUMAN,

GGH_HUMAN,

PRDX1_HUMAN,

TSP1_HUMAN

The cross validated performance (Positive Predictive Value (PPV) and Sensitivity) was measured for each of the six panels. By training the models and recording the performance based off of stacking 25,000 models worth of held out test data. Their cross validated performances are shown in FIGS. 5A-5F. Three panels were excluded (Panels 2, 3, and 6) because their cross validated performance has dips, indicating that the panel didn't work well in a subset of the samples.

7. Model Tested on Analytical Data

The remaining three models were applied to the analytical dataset and the column to column and position to position variability of the model was measured. Panel 4 had the best correlation in both categories.

8. Summary of 3 Panels (Table 6)

TABLE 6

Summary of panels 1, 4, and 5

Panel
PPV 30%
PPV 40%
PPV 50%
Analytical Results

1
27%
16%
3%
Unfavorable

4
22%
14%
10%
Favorable

5
26%
12%
8%
Unfavorable

Therefore panel 4 is selected as the best rule-in classifier. It contains 5 proteins (BGH3_HUMAN, GGH_HUMAN, LG3BP_HUMAN, PRDX1_HUMAN, and TSP1_HUMAN).

10. Model Definition

A rule-in classifer consisting for lung cancer including five proteins was generated using a logistic regression model according to EQN 2:

$\begin{matrix} Classifier : 5 Proteins Logistic regression model score = \frac{1}{1 + \exp (- W)} W = α + \sum_{i = 1}^{5} β_{i} * {\tilde{P}}_{i} {\tilde{P}}_{i} = \frac{P_{i}^{λ_{i}} - 1.0}{λ_{i}} Normalized, Box - Cox transformed  protein abundance {\tilde{P}}_{i} can be negative . & (EQN 2) \end{matrix}$

wherein {hacek over (P)}_iis the Box-Cox transformed, and normalized intensity of peptide transition i in said sample, β_iis the corresponding logistic regression coefficient, and λ_iis the corresponding Box-Cox transformation.

The panel-specifical constant (α), logistic regression coefficient (β_i) and Box-Cox transformation (λ) for panel 4 was calculated according to the logistic regression model of EQN 2. The variables for the rule-in classific based on panel 4 are listed in Table 7.

TABLE 7

Rule-in classifier based on Panel 4

Coefficient
Box Cox

Protein
Peptide
Q1
Q3
(β)
(λ)

BGH3_HUMAN
LTLLAPLNSVFK
658.4
804.5
1.012353821
0.37

(SEQ ID No.: 46)

GGH_HUMAN
YYIAASYVK
539.28
638.4
2.673287672
0.31

(SEQ ID No.: 51)

LG3BP_HUMAN
VEIFYR
413.73
598.3
−1.331698432
−0.63

(SEQ ID No.: 56)

PRDX1_HUMAN
QITVNDLPVGR
606.3
970.5
−0.641405539
−0.14

(SEQ ID No.: 58)

TSP1_HUMAN
GFLLLASLR
495.31
559.4
0.284343479
0.02

(SEQ ID No.: 61)

ALPHA

α = 2.500395391

A sample was classified as benign if the probability of cancer score was less than a pre-determined score or decision threshold. The decision threshold can be increased or decreased depending on the desired PPV. To define the classifier, the panel of transitions (i.e. proteins), their coefficients, the normalization transitions, classifier coefficient α and the decision threshold may be learned (i.e. trained) from a discovery study and then confirmed using a validation study.

11. Performance of Panel 4 (Rule-in Classifier)

The performance of panel 4 is shown in FIG. 6.

As shown in FIG. 6, a probability of cancer score=0.65 decision threshold provides a classifier PPV of approximately 30%. A probability of cancer score=0.72 decision threshold provides a classifier PPV of approximately 40%. A probability of cancer score=0.75 decision threshold provides a classifier PPV of approximately 50%.

Table 8 shows the sensitivity of panel 4 at different level of PPV and the percentage of population that cannot be ruled out by the rule-out classifier, but that can be identified as cancer patients by this rule-in classifier.

TABLE 8

Performance of Panel 4

PPV
Sensitivity
Population

30%
22%
15%

40%
14%
7%

50%
10%
4%

Table 9 depicts the performance of the rule-out classifier and the rule-in classifer. The rule-out classifer includes a method of determining the likelihood that a lung condition in a subject is cancer by assessing the expression of a plurality of proteins comprising determining the protein expression level of at least each of ALDOA_HUMAN, FRIL_HUMAN, LG3BP_HUMAN, TSP1_HUMAN and COIA1_HUMAN from a biological sample obtained from a subject; calculating a score from the protein expression of at least each of ALDOA_HUMAN, FRIL_HUMAN, LG3BP_HUMAN, TSP1_HUMAN and COIA1_HUMAN from the biological sample determined in the preceding step; and comparing the score from the biological sample to a plurality of scores obtained from a reference population, wherein the comparison provides a determination that the lung condition is not concer.

TABLE 9

Performance of the rule-out classifier and the rule-in classifier

Rule-out
Indeterminate
Rule-in

Population
40%
~45-55%
~15, 7, 4%

Performance
NPV: 87%

PPV: 30, 40, 50%

TABLE 10A

All data for the 18 candidate proteins (Box Cox transformed and normalized)

ALPGTPVASS-

AT-

msfile-

QPR_640.85_841.50
ALQASALK_401.25_617.40
VNPSAPR_456.80_527.30

name
Group
(SEQ ID No.: 54)
(SEQ ID No.: 45)
(SEQ ID No.: 47)

PC_01

−2.784263895
−0.513204312
−0.704971561

ZCO491_03
Cancer
−2.75727098
0.784933743
−0.614376856

ZCO415_03
Benign
−2.680545115
1.181691249
−0.200714857

ZCO377_03
Cancer
−3.089810045
−0.398353331
−0.568038788

ZCO482_03
Benign
−2.504744002
0.787441476
−0.675544537

ZCO371_03
Benign
−2.899836726
0.362448117
−0.197452873

ZCO460_03
Cancer
−2.910586434
0.227151983
−0.145522413

PC_02

−2.690384259
−0.643733763
−0.616319695

ZCO531_01
Cancer
−3.010037962
−0.536429117
−0.791760403

ZCO422_03
Benign
−2.947508157
−0.885615583
−0.979068939

ZCO474_03
Benign
−3.002579978
0.603913437
−1.473883307

ZCO539_03
Cancer
−3.144491206
0.25393171
−1.266702624

ZCO464_03
Benign
−2.831346776
−0.573333479
−0.928230586

ZCO455_03
Cancer
−2.852113183
−0.587540023
−0.780298433

ZCO542_03
Cancer
−3.164489489
0.533735226
−0.840531166

ZCO369_03
Benign
−2.877284738
−0.273990975
−0.935052482

PC_03

−2.807782819
−0.664551407
−0.776547284

ZCO498_03
Benign
−2.884132267
−0.119878696
−0.685613811

ZCO430_03
Cancer
−2.410086363
0.596052018
−0.400081837

ZCO434_03
Cancer
−2.707727142
0.482978922
−0.815665074

ZCO405_03
Benign
−1.898017731
0.596444247
0.2674756

ZCO518_03
Benign
−2.452842401
0.421384621
−0.439118905

ZCO388_03
Cancer
−2.947809702
−1.137350025
−0.1040406

PC_04

−2.926819692
−0.383759077
−0.675828051

PC_01

−2.856174592
−0.701301918
−0.747538278

ZCO529_02
Cancer
−2.608415869
−0.131152282
−1.3391951

ZCO472_02
Benign
−2.838879945
0.645540071
−0.713484997

ZCO421_02
Benign
−2.703957077
−0.314820047
−0.600669916

ZCO517_02
Cancer
−2.482786226
0.823060539
−0.489659037

ZCO414_02
Cancer
−2.572707711
0.218310959
−0.332704095

ZCO467_02
Benign
−2.120568668
−0.131506795
−1.178970522

PC_02

−2.995944005
−0.677948163
−0.784676364

ZCO538_02
Benign
−2.461211468
−0.74329599
−0.494137705

ZCO490_02
Cancer
−2.749244243
−0.626595231
−0.899995183

ZCO513_02
Benign
−2.960810542
0.416212671
−1.15671717

ZCO368_02
Cancer
−2.882760767
−0.726491688
−0.670577295

ZCO478_02
Benign
−3.462231929
−0.775260583
−1.54136049

ZCO509_02
Cancer
−3.425397519
0.589997632
−1.000355571

ZCO457_02
Benign
−2.993673472
0.274256767
−0.8506676

ZCO384_02
Cancer
−2.481295103
−0.480824029
−0.559267713

PC_03

−2.915900307
−0.636087686
−0.710351323

ZCO364_02
Benign
−2.804799817
−0.716221197
−0.556992563

ZCO392_02
Cancer
−3.084300524
−0.841568558
−0.717882956

ZCO401_02
Cancer
−2.712351788
−0.746712453
−0.600323949

ZCO544_02
Benign
−3.112609502
−0.031890482
−0.427524429

ZCO526_01
Benign
−3.643501599
−0.318902302
−0.743509213

ZCO445_02
Cancer
−2.331441104
0.332420966
−0.622523309

PC_04

−2.507435668
−0.028465151
−0.580436007

PC_01

−2.975924334
−0.974164536
−0.925021721

CAP00721-09
Benign
−3.320348365
−1.191297249
−1.24733595

CAP00749-09
Cancer
−2.532997922
−0.362810416
−0.647660241

CAP00132-07
Cancer
−2.560199759
−0.72444247
−0.515319045

CAP02123-09
Benign
−2.664488201
−1.05273991
−0.916975616

CAP03009-08
Benign
−2.8140739
−0.578526633
−1.004995502

CAP01154-06
Cancer
−2.795541436
−0.76152897
−1.191300457

PC_02

−2.831484668
−0.658389628
−0.868371708

CAP02208-05
Benign
−2.515521098
−1.163958883
−0.816494043

CAP00157-07
Cancer
−3.195590468
−1.682656452
−0.980963914

CAP00369-10
Benign
−2.599714888
−1.178861297
−0.864831174

CAP03006-08
Cancer
−2.51741894
−0.366332102
−0.682527569

CAP01799-08
Benign
−2.483202761
−0.957783104
−0.574591873

CAP02126-09
Benign
−2.420357959
−1.065815505
−0.831422448

PC_03

−2.92253495
−0.723841011
−0.805703785

CAP01129-06
Cancer
−2.418317307
−1.033109959
−1.238749304

CAP01791-08
Cancer
−1.975785528
−0.192835023
−0.865873926

PC_04

−2.657657131
−0.83639568
−0.476964249

PC_01

−2.64178703
−0.203268296
−0.60835134

NYU_16
Cancer
−2.765927482
−1.379671565
−1.032592583

NYU_24
Benign
−2.691628754
0.665189877
−0.159436729

NYU_514
Benign
−2.502736019
0.554570418
−0.226503612

NYU_349
Cancer
−2.922719299
−0.405535171
−0.80890645

NYU_379
Cancer
−2.715372965
0.072717025
−0.616380062

NYU_1145
Benign
−2.396309675
0.267871762
−0.313873633

PC_02

−2.855372673
−0.548857095
−0.711361472

NYU_696
Cancer
−2.798888572
−0.306145932
−0.634564204

NYU_84
Benign
−2.526405093
−0.452362276
−0.211486953

NYU_907
Cancer
−2.068154205
−0.262418236
−0.411920341

NYU_332
Benign
−2.491414639
0.505717241
−0.477051323

NYU_173
Benign
−2.024008719
−1.830470251
−0.898965857

NYU_427
Cancer
−3.037814652
−0.062617856
−0.43098363

NYU_184
Cancer
−2.752840585
−0.049130794
−0.59050779

NYU_1001
Benign
−2.209344901
−0.416753024
−0.901519025

PC_03

−2.78147023
−0.786435787
−0.705150487

NYU_453
Benign
−2.694841411
0.66610542
−0.547970741

NYU_1141
Cancer
−3.093608079
−0.1027147
−0.290625872

NYU_1096
Cancer
−2.6566636
−0.399544864
−0.995074996

NYU_500
Benign
−2.816104908
0.609371863
−0.167363046

NYU_1317
Cancer
−2.885418437
0.218459687
−0.793700606

NYU_841
Benign
−3.047488561
−0.068078386
−0.627329599

PC_04

−2.94827646
0.47610704
−0.755175074

PC_01

−2.701682878
−0.554717305
−0.672162757

NYU_28
Benign
−2.807002674
−0.498479033
−0.893516236

NYU_1559S
Cancer
−2.435455565
−0.855099592
−0.470130406

NYU_440
Benign
−2.689065693
0.013016259
−0.812958589

NYU_1176
Cancer
−2.18567791
−1.103770287
−0.258856517

NYU_831
Cancer
−2.382166564
0.034330521
−0.354053284

NYU_71
Benign
−2.339701655
−0.542993731
−0.51455545

PC_02

−2.796375205
−0.834237524
−0.79059082

NYU_111
Cancer
−2.879596594
−0.703232422
−0.782682644

NYU_423
Benign
−2.894795626
−0.160685009
−0.295223446

NYU_834
Benign
−3.060257281
−1.102989681
−1.017704792

NYU_830
Cancer
−2.538245897
0.059933094
−0.361560127

NYU560
Cancer
−2.435279885
−0.415972091
−0.924578302

NYU_281
Benign
−3.084507437
1.000569367
−1.065193179

NYU_613S
Cancer
−2.7703315
0.252825766
−0.251086279

NYU_513
Benign
−2.41937926
−0.013350489
−0.652862825

PC_03

−2.888524004
−0.519986717
−0.649520684

NYU_661
Cancer
−2.186698404
0.344191537
−0.455408844

NYU_1168
Benign
−2.775589696
−0.160638434
−0.764998685

NYU_968
Benign
−2.373171563
−0.022948899
−0.696358068

NYU_410
Cancer
−2.52362406
0.179203243
−0.738739815

NYU_1098
Benign
−3.531881869
−0.450282695
−0.724295727

NYU_636
Cancer
−2.643251321
−0.153100106
−0.620523759

PC_04

−2.265503821
0.316884546
−0.465645933

AVGLAG-
FLNVL-

msfile-

TFR_446.26_721.40
SPR_473.28_685.40
GFLLLASLR_495.31_559.40

name
Group
(SEQ ID No.: 48)
(SEQ ID No.: 53)
(SEQ ID No.: 61)

PC_01

−0.595890021
−0.265729819
−1.227938611

ZCO491_03
Cancer
−0.493826203
−0.233737651
0.439492333

ZCO415_03
Benign
−0.823000238
0.091894715
1.340113429

ZCO377_03
Cancer
−0.461474084
−0.132175156
−0.681534193

ZCO482_03
Benign
−0.737284294
−0.58444912
0.923867912

ZCO371_03
Benign
−0.797397915
0.317300363
−0.481856091

ZCO460_03
Cancer
−1.430807772
−0.032029072
0.500660403

PC_02

−0.993447772
−0.195869013
−0.938750954

ZCO531_01
Cancer
−1.774211298
−0.625129185
−1.995990867

ZCO422_03
Benign
−1.433510857
−0.486337724
0.585086518

ZCO474_03
Benign
−1.659664379
−0.221449913
0.746310197

ZCO539_03
Cancer
−1.416249439
−0.219375837
−0.066860698

ZCO464_03
Benign
−1.453154863
−0.283049865
−1.341826923

ZCO455_03
Cancer
−1.417849438
−0.329158386
−0.844994252

ZCO542_03
Cancer
−1.004198948
0.274861427
0.84877582

ZCO369_03
Benign
−1.18343402
−0.467548253
−1.203726773

PC_03

−1.402272843
−0.314765199
−1.146715028

ZCO498_03
Benign
−1.30773121
−0.492803879
−0.964660865

ZCO430_03
Cancer
−0.869971006
−0.463504287
0.322733413

ZCO434_03
Cancer
−1.212392338
−0.371335974
0.238258078

ZCO405_03
Benign
−0.064479432
−0.185739668
0.545179554

ZCO518_03
Benign
−1.035789291
0.167231603
0.017710448

ZCO388_03
Cancer
−0.771674787
−0.650352962
−0.928048507

PC_04

−1.28883251
−0.256942282
−0.947073186

PC_01

−1.276607504
−0.322049701
−1.299878125

ZCO529_02
Cancer
−0.62776486
−0.905207191
−0.526568846

ZCO472_02
Benign
−0.605614802
0.126773047
0.433003945

ZCO421_02
Benign
−1.138589459
0.155481463
−0.695976049

ZCO517_02
Cancer
−0.894491725
−0.223724725
1.270103256

ZCO414_02
Cancer
−0.993697086
−0.14111493
0.081328415

ZCO467_02
Benign
−0.819366943
−0.490629365
−0.928608152

PC_02

−1.436376666
−0.280759895
−1.183046899

ZCO538_02
Benign
−1.207268932
−0.386945256
−0.765638772

ZCO490_02
Cancer
−1.030815431
−0.200863024
−0.045772283

ZCO513_02
Benign
−1.446577584
0.101495876
0.263179228

ZCO368_02
Cancer
−1.011497064
−0.077313902
−0.817280471

ZCO478_02
Benign
−0.929110875
−0.313439436
−1.152980215

ZCO509_02
Cancer
−1.221437963
−0.144234708
1.446374387

ZCO457_02
Benign
−0.675001825
−0.168245386
−0.123898077

ZCO384_02
Cancer
−0.587121499
0.068090374
−0.918140631

PC_03

−1.129611582
−0.253833885
−1.048234464

ZCO364_02
Benign
−0.899323396
−0.109305344
−0.876575171

ZCO392_02
Cancer
−1.562758707
−0.386231201
−1.129221844

ZCO401_02
Cancer
−0.935061409
0.03449271
−0.946289131

ZCO544_02
Benign
−1.236519156
0.004737955
0.547125485

ZCO526_01
Benign
−1.121391929
−0.089897078
−0.354297368

ZCO445_02
Cancer
−0.853079604
−0.441785009
−0.283911223

PC_04

−1.005768423
−0.276367058
−0.545990681

PC_01

−1.194120072
−0.314610004
−1.268580087

CAP00721-09
Benign
−0.824206097
−0.47179435
−1.101995516

CAP00749-09
Cancer
−0.768932709
0.108943371
−2.128318991

CAP00132-07
Cancer
−0.678356278
−0.082058675
1.103324917

CAP02123-09
Benign
−1.197971179
0.040954009
0.408728205

CAP03009-08
Benign
−0.885766805
−0.353007615
−1.165057287

CAP01154-06
Cancer
−1.428146543
0.017893842
−0.455169138

PC_02

−1.044387873
−0.341323718
−1.406951978

CAP02208-05
Benign
−1.207518317
0.451938799
0.493262196

CAP00157-07
Cancer
−1.311667116
−0.124985079
1.135970035

CAP00369-10
Benign
−1.424174984
0.391201664
0.534919725

CAP03006-08
Cancer
−1.390241853
0.209163016
0.229804786

CAP01799-08
Benign
−0.990656682
−0.489945704
−0.494679252

CAP02126-09
Benign
−0.981067505
0.166388215
−0.963792991

PC_03

−1.162911567
−0.245007085
−1.303405184

CAP01129-06
Cancer
−1.268049258
0.25760536
0.134030297

CAP01791-08
Cancer
−0.594428216
−0.203457711
−2.008333133

PC_04

−0.937807496
−0.079449244
−0.846820515

PC_01

−1.219374441
−0.091919823
−0.467348275

NYU_16
Cancer
−1.36137085
0.207247052
0.724456565

NYU_24
Benign
−1.152680046
0.716802974
0.276967129

NYU_514
Benign
−0.809327936
−0.267999594
0.79001039

NYU_349
Cancer
−0.949845868
−0.197363148
0.748057357

NYU_379
Cancer
−0.961355236
−0.146887632
0.9653112

NYU_1145
Benign
−0.923639264
−0.258406777
0.240206185

PC_02

−1.342214257
0.035521329
−1.081834406

NYU_696
Cancer
−0.897617421
−0.006344278
1.649572769

NYU_84
Benign
−0.677879294
0.056526843
1.268123508

NYU_907
Cancer
−0.246833145
−0.038704509
2.099011291

NYU_332
Benign
−0.926869344
−0.319735087
1.663214016

NYU_173
Benign
−1.030068495
−0.807532008
−0.178594739

NYU_427
Cancer
−1.393845675
−0.633845789
0.316608124

NYU_184
Cancer
−0.83550514
−0.190615839
0.286138544

NYU_1001
Benign
−0.506419063
−0.229858435
−0.316528934

PC_03

−1.19408064
0.015317538
−1.015068301

NYU_453
Benign
−0.91187095
−0.170780258
1.489578321

NYU_1141
Cancer
−0.711310697
0.528907512
1.25748375

NYU_1096
Cancer
−0.607458144
0.287065436
0.392346406

NYU_500
Benign
−1.178820948
0.280265177
0.689462768

NYU_1317
Cancer
−1.151712261
−0.152397769
1.50321441

NYU_841
Benign
−2.179336556
−0.956730113
0.448863259

PC_04

−1.198922197
−0.14924787
0.721947796

PC_01

−0.881639537
0.079079308
−0.526578831

NYU_28
Benign
−1.050978886
−0.294892351
0.72984141

NYU_1559S
Cancer
−0.979266794
0.364329627
1.076154804

NYU_440
Benign
−0.348677875
−0.458820954
0.290461965

NYU_1176
Cancer
−0.293039083
0.300632063
−1.0105483

NYU_831
Cancer
−0.511136376
0.116878637
1.238081773

NYU_71
Benign
−0.243455164
0.018694084
−0.043670603

PC_02

−1.301607447
−0.057143347
−1.075310922

NYU_111
Cancer
−0.917017163
−0.230720462
1.274187125

NYU_423
Benign
−0.906923167
0.088502384
0.451915417

NYU_834
Benign
−1.117107311
−0.194921982
0.05579903

NYU_830
Cancer
−0.68391899
−0.00446209
0.803045616

NYU560
Cancer
−0.896225773
−0.118188113
0.070278604

NYU_281
Benign
−1.327094178
0.334784157
0.768467564

NYU_613S
Cancer
−1.070806068
−0.495089863
1.143325267

NYU_513
Benign
−0.851456769
−0.194865065
−0.803577665

PC_03

−1.029706497
−0.008146198
−1.054012744

NYU_661
Cancer
−0.614340916
−0.114660609
0.653634439

NYU_1168
Benign
−1.244404731
−0.419660819
0.136578755

NYU_968
Benign
−0.634740466
0.237646596
1.716207592

NYU_410
Cancer
−0.559048148
−0.468820154
0.523467245

NYU_1098
Benign
−1.238653158
0.282757837
1.512945197

NYU_636
Cancer
−1.365503969
−0.121142723
0.29600241

PC_04

−0.678759122
−0.128255466
0.474154241

TABLE 10B

All data for the 18 candidate proteins (Box Cox transformed and normalized)

LDTLAQE-
LGG-

msfile-

VALLK_657.39_871.50
PEAGLGEYLFER_804.40_1083.60
LTLLAPLNSVFK_658.40_804.50

name
Group
(SEQ ID No.: 66)
(SEQ ID No.: 50)
(SEQ ID No.: 46)

PC_01

0.619233775
−3.688218544
0.320149361

ZCO491_03
Cancer
0.307041039
−2.495871594
0.634187197

ZCO415_03
Benign
0.149791503
−1.839735407
0.087355699

ZCO377_03
Cancer
−0.319268537
−2.353210558
−0.238039285

ZCO482_03
Benign
−0.109132038
−3.89810845
0.491491092

ZCO371_03
Benign
0.535371292
−3.396987038
0.501177683

ZCO460_03
Cancer
0.375108688
−2.591187408
0.163636871

PC_02

0.259423835
−3.467473208
0.388379979

ZCO531_01
Cancer
0.353435158
−0.863765461
0.134451448

ZCO422_03
Benign
0.267899548
−4.128960152
−0.036398134

ZCO474_03
Benign
0.11239326
−2.008626279
0.049305919

ZCO539_03
Cancer
−0.144515562
−2.409318593
0.178753247

ZCO464_03
Benign
0.322619955
−2.803572494
0.141936263

ZCO455_03
Cancer
0.164885913
−1.645442718
−0.194675578

ZCO542_03
Cancer
0.126503625
−1.345123378
−0.010132403

ZCO369_03
Benign
0.323985529
−1.147298656
0.394215825

PC_03

0.243236055
−3.464681928
0.252725085

ZCO498_03
Benign
0.009387339
−2.20373592
−0.028545713

ZCO430_03
Cancer
0.155120044
−2.564247278
0.117113156

ZCO434_03
Cancer
0.203836126
−2.127566504
0.326654093

ZCO405_03
Benign
0.229845196
−0.852835223
0.879718032

ZCO518_03
Benign
0.599055389
−2.870829067
0.127530727

ZCO388_03
Cancer
0.471424676
−2.412924032
0.008756886

PC_04

0.129995335
−2.752431012
0.186571819

PC_01

0.422932853
−3.695102369
0.206164614

ZCO529_02
Cancer
0.235706327
−1.648601545
0.081950191

ZCO472_02
Benign
0.351197234
−0.988396993
0.44684055

ZCO421_02
Benign
0.243069031
−3.149469001
−0.12736403

ZCO517_02
Cancer
0.379359109
−2.685656021
0.320454182

ZCO414_02
Cancer
0.084138401
−2.552751017
0.553682137

ZCO467_02
Benign
0.352364221
−4.466156537
0.065072261

PC_02

0.357615874
−3.796356148
0.223966665

ZCO538_02
Benign
0.388669004
−3.028978417
−0.005175742

ZCO490_02
Cancer
0.198993161
−2.458856922
0.37064057

ZCO513_02
Benign
0.376467361
−3.872414593
−0.220383484

ZCO368_02
Cancer
−0.030242782
−3.707959588
−0.030270885

ZCO478_02
Benign
0.234687564
−1.735399165
0.216377484

ZCO509_02
Cancer
0.16439562
−1.813156102
0.456046049

ZCO457_02
Benign
−0.084654579
−2.873426534
0.121193021

ZCO384_02
Cancer
−0.046133487
−2.190926774
0.319872593

PC_03

0.206759546
−3.340738983
0.173434124

ZCO364_02
Benign
0.054668973
−2.557147438
−0.035159443

ZCO392_02
Cancer
0.524123185
−1.563637637
−0.280254089

ZCO401_02
Cancer
0.410914218
−2.210733391
−0.292704095

ZCO544_02
Benign
0.164354649
−1.889319319
0.297890338

ZCO526_01
Benign
0.293123237
−0.882390871
0.383353727

ZCO445_02
Cancer
0.244665703
−2.350289612
0.024075876

PC_04

0.313710958
−2.346884066
0.016758546

PC_01

0.262212362
−3.691638396
0.244499792

CAP00721-09
Benign
−0.154679077
−1.784515505
0.137664468

CAP00749-09
Cancer
0.372492851
−2.784820594
0.28247611

CAP00132-07
Cancer
0.28491549
−1.757602443
0.793614607

CAP02123-09
Benign
0.330319388
−2.110871926
0.242968905

CAP03009-08
Benign
0.591620089
−1.103935587
0.79962435

CAP01154-06
Cancer
0.183180678
−1.881252857
0.473490727

PC_02

0.169136305
−3.449506953
0.270539903

CAP02208-05
Benign
0.236085021
−4.709549056
0.386213217

CAP00157-07
Cancer
0.235820707
−2.617548641
0.342553135

CAP00369-10
Benign
0.318863669
−4.714011647
0.376834146

CAP03006-08
Cancer
0.572399135
−2.385458597
0.517799646

CAP01799-08
Benign
−0.419881689
−2.814919092
0.184932647

CAP02126-09
Benign
0.146597672
−2.897762178
0.195005917

PC_03

0.231415489
−3.543298868
0.323335189

CAP01129-06
Cancer
0.376771378
−2.105630759
0.166595661

CAP01791-08
Cancer
0.085133472
−1.85760384
0.218233976

PC_04

0.201396288
−3.062576057
0.258350651

PC_01

0.176770024
−3.396924804
0.191863897

NYU_16
Cancer
−0.123352366
−1.750514304
−0.513844018

NYU_24
Benign
−0.023134978
−1.569304668
0.338163528

NYU_514
Benign
−0.243131868
−2.200905151
−0.155816279

NYU_349
Cancer
−0.534556315
−3.270221957
−0.202861839

NYU_379
Cancer
0.696129534
−2.774806808
−0.044444522

NYU_1145
Benign
0.83082744
−3.571871911
0.106521723

PC_02

0.138103809
−3.534763675
0.205869061

NYU_696
Can cer
−0.035605577
−4.107452495
−0.127288324

NYU_84
Benign
−0.233151821
−3.902153927
0.384839283

NYU_907
Cancer
−0.496383559
−4.026681756
−0.159095297

NYU_332
Benign
−0.141236556
−3.25467451
0.075657348

NYU_173
Benign
−0.058655255
−3.515427331
0.402438598

NYU_427
Cancer
0.148908128
−2.815392807
0.309347149

NYU_184
Cancer
−0.14532559
−2.135696527
0.314590618

NYU_1001
Benign
0.171635645
−1.536862239
−0.145970589

PC_03

0.04799084
−3.462930927
0.238054547

NYU_453
Benign
0.611264436
−2.949077132
0.382972022

NYU_1141
Cancer
0.124894126
−1.02035875
0.598092919

NYU_1096
Cancer
0.966928872
−2.978084235
0.157857946

NYU_500
Benign
0.65801761
−1.847727564
0.348766683

NYU_1317
Cancer
0.222332442
−2.365186434
0.230568054

NYU_841
Benign
0.726482601
−2.134033408
0.189484038

PC_04

−0.26227648
−3.108583393
0.182130085

PC_01

0.203599121
−3.093371492
0.403602931

NYU_28
Benign
−0.062320069
−2.237263003
0.246989699

NYU_1559S
Cancer
−0.001186789
−1.248911767
0.601965515

NYU_440
Benign
−0.302850212
−2.251273516
0.30677522

NYU_1176
Cancer
−0.435270851
−3.779661486
0.146132312

NYU_831
Cancer
0.047253239
−2.644442757
0.42264776

NYU_71
Benign
−0.114865443
−3.351976972
−0.007703574

PC_02

0.020529227
−3.630372194
0.169697886

NYU_111
Cancer
0.697156707
−1.900586292
0.37342108

NYU_423
Benign
0.7282604
−3.90111154
−0.060128323

NYU_834
Benign
−0.511576596
−1.294826096
−0.056567679

NYU_830
Cancer
0.164584549
−2.771863627
0.275831467

NYU560
Cancer
−0.195713033
−2.940360322
0.252223315

NYU_281
Benign
−0.195309228
−2.067542099
0.083312654

NYU_613S
Cancer
−0.15309093
−2.714972675
0.098970272

NYU_513
Benign
−0.463079716
−3.745439731
−0.10376122

PC_03

0.021256222
−3.432587168
0.332445129

NYU_661
Cancer
−0.085425612
−2.394966353
0.319005642

NYU_1168
Benign
−0.320494963
−2.594487321
0.041207713

NYU_968
Benign
0.083348208
−3.137744896
0.360562139

NYU_410
Cancer
−0.26731122
−2.334222045
0.053360464

NYU_1098
Benign
−0.074197702
−3.228962629
0.11680201

NYU_636
Cancer
0.051966268
−4.088190766
0.128561131

PC_04

0.080290769
−2.246697937
0.227614323

SGYLL-

msfile-

QITVNDLPVG12_606.30_970.50
PDTK_497.27_308.10
STGGAPTFNVTVTK_690.40_1006.60

name
Group
(SEQ ID No.: 58)
(SEQ ID No.: 49)
(SEQ ID No.: 59)

PC_01

−2.891612367
−1.080959644
−1.563214627

ZCO491_03
Cancer
−1.390227225
−0.664673284
1.883575359

ZCO415_03
Benign
−0.756482415
−0.404031778
2.605320253

ZCO377_03
Cancer
−1.804984584
−1.820635725
−0.295190198

ZCO482_03
Benign
−0.823352463
−0.826182586
1.826299936

ZCO371_03
Benign
1.421923229
−1.290725633
0.251635695

ZCO460_03
Cancer
−0.769020246
−1.433746671
0.764149828

PC_02

−2.716860962
−1.325149529
−1.78210178

ZCO531_01
Cancer
−0.799181192
−1.570588988
−0.689527945

ZCO422_03
Benign
−0.276194137
−1.786474285
−1.640722668

ZCO474_03
Benign
0.008102262
−0.909990561
1.35122707

ZCO539_03
Cancer
−0.659432607
−1.510617135
0.826262044

ZCO464_03
Benign
−1.068769153
−1.800141318
−0.309099375

ZCO455_03
Cancer
−0.866387159
−1.713182691
−0.582501025

ZCO542_03
Cancer
−1.137442396
−1.064580314
1.515635323

ZCO369_03
Benign
−1.03008142
−1.787664318
−0.467494732

PC_03

−3.002697246
−1.347957626
−1.965485574

ZCO498_03
Benign
−1.266038826
−1.401799831
0.52968454

ZCO430_03
Cancer
−1.526637891
−1.061050922
1.338378154

ZCO434_03
Cancer
−1.838641592
−1.471497069
1.126873172

ZCO405_03
Benign
−0.525607784
−0.679142563
−0.459693172

ZCO518_03
Benign
−1.58042355
−1.304539697
1.042552217

ZCO388_03
Cancer
−3.064354935
−1.625729712
−0.860063029

PC_04

−1.966223678
−1.28762834
−0.364224566

PC_01

−2.902280553
−1.469478783
−1.814501543

ZCO529_02
Cancer
−0.844243555
−1.602762256
0.177099462

ZCO472_02
Benign
0.803140338
−1.281194903
1.328464271

ZCO421_02
Benign
−1.947459763
−1.958257722
0.142671565

ZCO517_02
Cancer
1.758999873
−1.085977989
1.358696265

ZCO414_02
Cancer
−1.499932157
−1.169549543
0.838450287

ZCO467_02
Benign
−2.167510431
−1.189206525
0.613140688

PC_02

−2.940483716
−1.397843336
−1.94687562

ZCO538_02
Benign
−1.525332131
−1.59904916
−0.338298177

ZCO490_02
Cancer
−0.198670437
−2.096558675
−0.255046928

ZCO513_02
Benign
−1.139247249
−1.458818554
0.964364891

ZCO368_02
Cancer
−2.272808964
−1.46764769
−0.83985844

ZCO478_02
Benign
−0.191763267
−1.679313206
−1.169041219

ZCO509_02
Cancer
−0.316397016
−1.272972633
1.455572928

ZCO457_02
Benign
0.543742944
−1.530599909
0.026349653

ZCO384_02
Cancer
−2.035163296
−1.854325703
0.00081698

PC_03

−2.735971874
−1.434037091
−1.55088974

ZCO364_02
Benign
−1.931528987
−1.440982972
−0.485952795

ZCO392_02
Cancer
−2.824001264
−1.900747845
−1.504953093

ZCO401_02
Cancer
−2.327798886
−1.662750263
−0.667249982

ZCO544_02
Benign
−0.75288953
−1.427253932
0.588778937

ZCO526_01
Benign
−1.789785814
−1.28937802
0.204801157

ZCO445_02
Cancer
−1.515797719
−1.361795562
0.916434865

PC_04

−1.73270517
−1.424939058
0.580950059

PC_01

−2.765279484
−1.423835901
−1.758581707

CAP00721-09
Benign
0.025773455
−1.763848125
−2.211000583

CAP00749-09
Cancer
−0.351523725
−1.078982456
−1.9583196

CAP00132-07
Cancer
−0.200739783
−1.291033643
−1.687401442

CAP02123-09
Benign
−0.602336309
−1.473024257
−2.344440189

CAP03009-08
Benign
0.045193986
−0.727892075
−1.417467134

CAP01154-06
Cancer
0.105202154
−1.059761743
−2.437542559

PC_02

−2.904480906
−1.255362611
−1.729402887

CAP02208-05
Benign
−0.692241817
NaN
−1.389228182

CAP00157-07
Cancer
−1.224626639
−1.265807451
−2.715970496

CAP00369-10
Benign
−0.688014126
−1.488720118
−2.563264892

CAP03006-08
Cancer
−0.198551987
−1.446714381
−2.305369727

CAP01799-08
Benign
−1.204051747
−1.439494226
−1.291294706

CAP02126-09
Benign
−0.775704249
NaN
−1.599954765

PC_03

−2.854624327
−1.318896418
−2.082855904

CAP01129-06
Cancer
−0.716992148
NaN
−1.508815804

CAP01791-08
Cancer
0.122849694
NaN
−1.46205964

PC_04

−2.150100934
−1.292026556
−1.940560701

PC_01

−1.816734459
−1.261527785
−0.26531624

NYU_16
Cancer
−2.251382348
−2.500171462
−1.043382774

NYU_24
Benign
−0.335164877
−0.784881708
1.044512297

NYU_514
Benign
−1.172282762
−1.370423174
1.179119361

NYU_349
Cancer
−1.157483658
−1.554467518
0.06068016

NYU_379
Cancer
−0.694040661
−1.433986027
0.778694649

NYU_1145
Benign
−0.71308125
−1.093348407
0.789734251

PC_02

−2.95583845
−1.437095505
−1.425350921

NYU_696
Can cer
−0.877306921
−1.558736364
0.317467612

NYU_84
Benign
−1.115260124
−0.9957724
−0.36426484

NYU_907
Cancer
−0.20355606
−1.679642601
−0.005678103

NYU_332
Benign
−0.5025212
−0.990935203
1.189897923

NYU_173
Benign
−2.535910655
−1.562605379
−1.809679759

NYU_427
Cancer
−0.246174546
−1.55778677
1.263278086

NYU_184
Cancer
−0.604766494
−1.064945228
0.287602207

NYU_1001
Benign
−1.562785061
−1.478752531
−0.896051519

PC_03

−2.854992558
−1.52388584
−1.530762249

NYU_453
Benign
0.583365159
−1.278012286
1.675519887

NYU_1141
Cancer
−0.782690488
−1.1385726
−0.143136066

NYU_1096
Cancer
−1.901179155
−1.578904855
0.056418244

NYU_500
Benign
0.847016964
−1.667371491
1.054635955

NYU_1317
Cancer
1.239532381
−1.332441731
−1.12831205

NYU_841
Benign
−0.717251365
−1.411929774
0.063549113

PC_04

0.230854049
−1.43150263
1.204555236

PC_01

−2.279540872
−1.274941266
−1.674599694

NYU_28
Benign
−0.98952403
−1.451732567
−0.164978062

NYU_1559S
Cancer
−0.778814767
−1.07906308
−1.7446435

NYU_440
Benign
−0.450044112
−1.110524505
1.216363397

NYU_1176
Cancer
−1.723078562
−1.704385196
−1.191450487

NYU_831
Cancer
−0.092952375
−1.115545496
0.645325629

NYU_71
Benign
−0.334485707
−1.221599855
−0.842015315

PC_02

−2.860062402
−1.505589369
−2.143608494

NYU_111
Cancer
−1.512394115
−1.167821392
−1.245799127

NYU_423
Benign
0.78473187
−1.775954255
−0.22661634

NYU_834
Benign
−2.293573315
−1.315638673
−0.948358856

NYU_830
Cancer
−0.035604276
−1.329456481
0.436512527

NYU560
Cancer
−1.075336391
−1.525596457
0.036794864

NYU_281
Benign
−0.46084342
−1.573182855
2.380374367

NYU_613S
Cancer
−0.266865396
−1.268093092
0.825792761

NYU_513
Benign
−0.841390086
−1.480688037
0.101324615

PC_03

−2.803095384
−1.330731523
−1.924656883

NYU_661
Cancer
−0.242682514
−1.253645775
1.009591296

NYU_1168
Benign
−0.180996049
−1.278353979
0.582964648

NYU_968
Benign
0.569857281
−1.702836751
−0.466910999

NYU_410
Cancer
−0.532022467
−1.796316817
1.287501522

NYU_1098
Benign
−1.231081633
−1.674118957
−0.125061054

NYU_636
Cancer
−1.390354201
−1.223856327
−0.135261231

PC_04

−0.549538189
−0.954431811
1.104866601

TABLE 10C

All data for the 18 candidate proteins (Box Cox transformed and normalized)

msfile-

TVLWPNGLSLDIPAGR_855.00_1209.70
TWNDPSVQQDIK_715.85_288.10
VEIFYR_413.73_598.30

name
Group
(SEQ ID No.: 57)
(SEQ ID No.: 52)
(SEQ ID No.: 56)

PC_01

−2.840242783
−2.176578096
0.235769891

ZCO491_03
Cancer
−3.482057591
−1.956092764
−0.439872384

ZCO415_03
Benign
−3.384554903
−0.926370183
−0.061587364

ZCO377_03
Cancer
−4.676912038
−2.865805989
0.541114982

ZCO482_03
Benign
−3.470264584
−1.660530957
0.697209475

ZCO371_03
Benign
−4.02116434
−2.871246146
0.586191904

ZCO460_03
Cancer
−3.27744164
−2.425791961
0.088834939

PC_02

−2.703138285
−2.288243168
0.346599314

ZCO531_01
Cancer
−2.505350313
−2.355195184
0.435333138

ZCO422_03
Benign
−3.206993546
−2.246840872
−0.266603189

ZCO474_03
Benign
−2.392278512
−2.097016205
0.880435954

ZCO539_03
Cancer
−2.302714823
−2.212563
0.147060039

ZCO464_03
Benign
−3.18257124
−2.770680835
−0.112410971

ZCO455_03
Cancer
−3.385642375
−2.39453886
0.182584408

ZCO542_03
Cancer
−2.832452611
−2.010258875
−0.389953486

ZCO369_03
Benign
−2.902571098
−2.962547593
0.966322127

PC_03

−2.720871742
−2.249287591
0.196449067

ZCO498_03
Benign
−3.265537767
−2.41227993
0.090606402

ZCO430_03
Cancer
−3.707731095
−1.816943622
0.252058542

ZCO434_03
Cancer
−3.069371069
−2.377595312
0.078324606

ZCO405_03
Benign
−3.059458744
−2.955033898
0.142767191

ZCO518_03
Benign
−2.590793736
−2.097971626
−0.336340707

ZCO388_03
Cancer
−3.161507078
−2.970309442
0.276789044

PC_04

−2.477112012
−2.360615772
0.199190053

PC_01

−2.965810076
−2.482123128
0.151344036

ZCO529_02
Cancer
−2.234309986
−2.724299187
0.202929465

ZCO472_02
Benign
−3.382551936
−2.156224909
0.73670206

ZCO421_02
Benign
−3.673286559
−2.675217691
0.824945036

ZCO517_02
Cancer
−2.850764593
−2.311995036
−0.343912022

ZCO414_02
Cancer
−2.804088977
−2.334575865
0.154752291

ZCO467_02
Benign
−2.72602792
−2.958864094
0.332422704

PC_02

−2.805444388
−2.288974802
0.140712724

ZCO538_02
Benign
−2.473300084
−2.593641507
−0.023878244

ZCO490_02
Cancer
−3.559067756
−2.358523324
0.499171809

ZCO513_02
Benign
−2.796155264
−1.801656273
−0.414019564

ZCO368_02
Cancer
−3.321506554
−2.997123731
0.49305375

ZCO478_02
Benign
−3.274139788
−2.939579006
0.276359484

ZCO509_02
Cancer
−3.557757608
−1.817206163
−0.752415077

ZCO457_02
Benign
−3.819289816
−2.087937624
0.164722479

ZCO384_02
Cancer
−3.894370789
−2.750272321
−0.182884258

PC_03

−3.075698429
−2.215431221
0.058439151

ZCO364_02
Benign
−3.347518192
−2.713380391
0.36829733

ZCO392_02
Cancer
−3.698051173
−2.862068204
−0.144884886

ZCO401_02
Cancer
−4.208091339
−2.855015859
−0.310269045

ZCO544_02
Benign
−3.286401353
−2.233987781
−0.092815592

ZCO526_01
Benign
−2.946478376
−2.226484226
−0.26941901

ZCO445_02
Cancer
−3.392583406
−2.047150606
−0.122855246

PC_04

−4.137501224
−1.964010142
0.014682455

PC_01

−2.444230208
−2.312341692
0.194442703

CAP00721-09
Benign
−3.373279653
−3.279318571
−0.014104321

CAP00749-09
Cancer
−2.080239374
−2.547431417
−0.404521849

CAP00132-07
Cancer
−2.557406753
−2.599913502
0.086243743

CAP02123-09
Benign
−2.22619151
−2.887411963
−0.110700863

CAP03009-08
Benign
−2.097549879
−2.638008248
1.038552428

CAP01154-06
Cancer
−0.599913154
−2.491348462
−0.064112311

PC_02

−2.333747655
−2.094278877
0.186303863

CAP02208-05
Benign
−2.826110671
−2.451742183
0.625897784

CAP00157-07
Cancer
−1.997178841
−2.25472442
0.065225407

CAP00369-10
Benign
−3.160084337
−2.789155086
0.623888644

CAP03006-08
Cancer
−2.235657894
−2.180367368
−0.236616097

CAP01799-08
Benign
−2.586851264
−2.514836093
0.102158093

CAP02126-09
Benign
−2.152543713
−2.825647732
0.134178863

PC_03

−2.201921094
−2.108691181
0.244854194

CAP01129-06
Cancer
−2.133293575
−2.459117389
−0.146614889

CAP01791-08
Cancer
−1.985201146
−2.451935406
0.02936058

PC_04

−2.123858431
−1.961824761
0.307697524

PC_01

−2.868585357
−2.451793786
0.139567381

NYU_16
Cancer
−5.217314008
−3.647120634
−0.250758122

NYU_24
Benign
−4.151449744
−1.886572173
0.525038922

NYU_514
Benign
−4.44817412
−2.090526634
0.362030623

NYU_349
Cancer
−4.522788735
−2.825922282
0.214022036

NYU_379
Cancer
−3.656553516
−2.639836281
0.299954118

NYU_1145
Benign
−3.016893529
−2.389606375
0.061744966

PC_02

−2.523598572
−2.285039262
0.216875846

NYU_696
Cancer
−2.997701491
−2.408130714
0.569379895

NYU_84
Benign
−3.453769009
−2.243435341
0.487779235

NYU_907
Cancer
−3.65802143
−2.14857613
0.552819037

NYU_332
Benign
−4.1942367
−2.097513372
0.43102388

NYU_173
Benign
−3.674973494
−2.751931751
0.989466593

NYU_427
Cancer
−4.0278829
−2.714916823
0.035938333

NYU_184
Cancer
−2.904851738
−1.604414615
0.282859107

NYU_1001
Benign
−2.150077192
−2.901137469
−0.468744436

PC_03

−3.053283217
−2.040653191
0.217092411

NYU_453
Benign
−3.577645661
−2.107714914
0.737241032

NYU_1141
Cancer
−2.948893334
−2.125786815
−0.226706292

NYU_1096
Cancer
−3.105624526
−2.08815406
0.101708958

NYU_500
Benign
−2.926910767
−2.02451037
−0.349285544

NYU_1317
Cancer
−3.233020084
−1.813682983
−0.305035753

NYU_841
Benign
−1.986128205
−2.034585896
0.325299893

PC_04

−3.672172295
−2.258669838
0.57977164

PC_01

−2.702403872
−2.183962224
0.237568119

NYU_28
Benign
−2.814893326
−2.615293625
−0.369557833

NYU_1559S
Cancer
−2.96988681
−3.195396714
0.569701508

NYU_440
Benign
−3.788331302
−2.212834014
0.279358219

NYU_1176
Cancer
−2.772918723
−2.835713174
−0.03258978

NYU_831
Cancer
−3.601945958
−2.414315763
0.363715053

NYU_71
Benign
−3.073918447
−2.447684579
0.103567059

PC_02

−2.942645472
−2.30296314
0.138257047

NYU_111
Cancer
−1.491277854
−2.310219565
0.030710147

NYU_423
Benign
−3.772250967
−2.311517368
−0.331236285

NYU_834
Benign
−1.758231185
−2.880053781
0.346428361

NYU_830
Cancer
−3.436085517
−2.347758514
0.138201066

NYU560
Cancer
−2.92380194
−2.139973479
0.584319661

NYU_281
Benign
−3.215243914
−2.607654246
0.293153827

NYU_613S
Cancer
−3.315364874
−2.449523441
0.077708676

NYU_513
Benign
−2.4821582
−2.177312923
0.697210548

PC_03

−2.608003487
−2.160869025
0.21004925

NYU_661
Cancer
−3.092538726
−2.327335546
0.059735909

NYU_1168
Benign
−2.604658409
−2.326906594
0.170066144

NYU_968
Benign
−2.680436297
−2.514319365
−0.862746155

NYU_410
Cancer
−3.593342893
−2.417399622
0.314502654

NYU_1098
Benign
−2.390332481
−2.303175406
−0.1836735

NYU_636
Cancer
−2.804958414
−2.123545
0.334555033

PC_04

−3.521584136
−2.300116276
−0.087460504

YEV-

msfile-

TVVSVR_526.29_293.10
YVSELHLTR_373.21_428.30
YYIAASYVK_539.28_638.40

name
Group
(SEQ ID No.: 60)
(SEQ ID No.: 55)
(SEQ ID No.: 51)

PC_01

−0.16059136
−0.588866587
−0.985213754

ZCO491_03
Cancer
−0.20930411
−0.857616199
−1.018864244

ZCO415_03
Benign
−0.470264726
−0.664246104
−1.326357245

ZCO377_03
Cancer
−0.587776602
−0.906852
−0.978465968

ZCO482_03
Benign
−0.448347375
−0.742102195
−1.076891981

ZCO371_03
Benign
−0.202780497
−0.692331274
−1.088937238

ZCO460_03
Cancer
−0.398866766
−0.72722677
−1.028594397

PC_02

−0.08393231
−0.497637353
−0.960213483

ZCO531_01
Cancer
−0.23020465
−0.824688496
−0.972100295

ZCO422_03
Benign
−0.596628695
−0.775862754
−1.174394609

ZCO474_03
Benign
−0.40835494
−0.811781472
−0.786590152

ZCO539_03
Cancer
−0.362460799
−0.944796038
−0.996375152

ZCO464_03
Benign
−0.263639531
−0.625304957
−1.446551741

ZCO455_03
Cancer
−0.440729056
−0.902388499
−1.050279108

ZCO542_03
Cancer
−0.57251411
−0.755315917
−1.277918828

ZCO369_03
Benign
−0.360074119
−0.590701986
−1.198020558

PC_03

−0.221100546
−0.568085385
−0.942651197

ZCO498_03
Benign
−0.519286726
−0.892295374
−1.063763542

ZCO430_03
Cancer
−0.32185586
−0.523940038
−1.265036458

ZCO434_03
Cancer
−0.447210025
−0.755196866
−1.557660343

ZCO405_03
Benign
−0.492895359
−0.710767382
−1.316026726

ZCO518_03
Benign
−0.251139353
−0.517274836
−1.163936651

ZCO388_03
Cancer
−0.247175262
−0.51758
−1.25879944

PC_04

−0.374949208
−0.656873299
−0.993927903

PC_01

−0.27007669
−0.56564187
−0.98842698

ZCO529_02
Cancer
−0.416373928
−0.791509912
−1.442462225

ZCO472_02
Benign
−0.23297013
−0.645726884
−0.8260147

ZCO421_02
Benign
−0.423381339
−0.505145394
−1.164069333

ZCO517_02
Cancer
−0.372575345
−0.556340708
−1.20698192

ZCO414_02
Cancer
−0.388031724
−0.65121192
−1.013120145

ZCO467_02
Benign
−0.461632913
−0.99726608
−1.095273954

PC_02

−0.145161128
−0.574516244
−0.944738595

ZCO538_02
Benign
−0.347503119
−0.748151348
−1.042632905

ZCO490_02
Cancer
−0.598883758
−0.691175528
−0.87920997

ZCO513_02
Benign
−0.142482236
−0.410052979
−1.241249356

ZCO368_02
Cancer
−0.309992577
−0.422943911
−1.037469869

ZCO478_02
Benign
−0.488769538
−0.818621056
−1.567811677

ZCO509_02
Cancer
−0.188171628
−0.894847978
−1.271173383

ZCO457_02
Benign
−0.521314531
−0.894271778
−1.239273761

ZCO384_02
Cancer
−0.296390287
−0.682509086
−1.079857133

PC_03

−0.251630738
−0.500125292
−1.032718954

ZCO364_02
Benign
−0.347866416
−0.47086587
−1.032660552

ZCO392_02
Cancer
−0.252063704
−0.574025566
−0.806100634

ZCO401_02
Cancer
−0.132504022
−0.647029213
−1.301671863

ZCO544_02
Benign
−0.368664283
−0.672364832
−1.472766757

ZCO526_01
Benign
−0.524571926
−0.666631963
−1.383128046

ZCO445_02
Cancer
−0.229911542
−0.506073597
−1.290583154

PC_04

−0.286102664
−0.553237018
−1.217972655

PC_01

−0.31356777
−0.539978288
−1.082575152

CAP00721-09
Benign
−0.501084005
−0.728723301
−1.149277133

CAP00749-09
Cancer
−0.496792682
−0.577869823
−1.312484076

CAP00132-07
Cancer
−0.460252478
−0.76357788
−1.028059777

CAP02123-09
Benign
−0.54453159
−0.777615954
−1.007644529

CAP03009-08
Benign
−0.394971324
−0.726387101
−1.142302706

CAP01154-06
Cancer
−0.357449975
−0.775375543
−1.320366397

PC_02

−0.248905574
−0.51572773
−1.208732576

CAP02208-05
Benign
−0.343695562
−0.655781964
−1.320528809

CAP00157-07
Cancer
−0.337483681
−0.571898143
−1.193780243

CAP00369-10
Benign
−0.442560845
−0.686172987
−1.100160796

CAP03006-08
Cancer
−0.352543382
−0.540429487
−1.232673051

CAP01799-08
Benign
−0.830419504
−0.933560247
−0.945791064

CAP02126-09
Benign
−0.668159912
−0.800461386
−0.67100192

PC_03

−0.28630386
−0.54234207
−0.946457441

CAP01129-06
Cancer
−0.43828658
−0.378314541
−1.216679031

CAP01791-08
Cancer
−0.562235576
−0.815486382
−1.035268464

PC_04

−0.334878353
−0.569035778
−1.060444583

PC_01

−0.195143298
−0.520211725
−1.002839316

NYU_16
Cancer
−0.078526144
−0.70336114
−1.114970529

NYU_24
Benign
0.006323696
−0.375710898
−1.230795754

NYU_514
Benign
−0.268389301
−0.794532396
−1.235073104

NYU_349
Cancer
−0.504234989
−0.578983947
−1.182736305

NYU_379
Cancer
−0.431704637
−0.624567199
−1.049707731

NYU_1145
Benign
−0.319544508
−0.451316228
−1.002441178

PC_02

−0.196540816
−0.550392492
−1.007360547

NYU_696
Cancer
−0.358046893
−0.492867011
−1.345996607

NYU_84
Benign
−0.550203448
−0.747189348
−1.275085151

NYU_907
Cancer
−0.487176409
−0.951976197
−0.546222505

NYU_332
Benign
−0.431720139
−0.668177756
−0.984184808

NYU_173
Benign
−0.449846576
−0.764085786
−1.30593322

NYU_427
Cancer
−0.415169759
−0.596224061
−1.415831228

NYU_184
Cancer
−0.508175378
−0.707038294
−1.150010415

NYU_1001
Benign
−0.447162732
−0.69813124
−1.36190081

PC_03

−0.147116854
−0.52595103
−1.002590543

NYU_453
Benign
−0.367234009
−0.811961442
−1.11629685

NYU_1141
Cancer
−0.339347891
−0.630536716
−1.101450339

NYU_1096
Cancer
−0.424856366
−0.69223078
−1.472915096

NYU_500
Benign
−0.401749374
−0.65337254
−1.014509252

NYU_1317
Cancer
−0.343105781
−0.628854086
−1.047541736

NYU_841
Benign
−0.368808387
−0.896801378
−1.016557624

PC_04

−0.423880292
−0.78648124
−1.118217377

PC_01

−0.211241946
−0.524959807
−1.0386507

NYU_28
Benign
−0.389227141
−0.827037564
−1.472629617

NYU_1559S
Cancer
−0.43190517
−0.68333436
−1.402708194

NYU_440
Benign
−0.569408215
−0.860428248
−1.376923309

NYU_1176
Cancer
−0.578120225
−0.881051969
−0.913199971

NYU_831
Cancer
−0.442555491
−0.771810553
−1.136855913

NYU_71
Benign
−0.558980665
−0.771047022
−1.194045648

PC_02

−0.32092235
−0.571674597
−1.052726215

NYU_111
Cancer
−0.35566628
−0.485882973
−1.252266571

NYU_423
Benign
−0.335884086
−0.477686905
−1.180804412

NYU_834
Benign
−0.524007503
−0.926252041
−1.181941715

NYU_830
Cancer
−0.403945569
−0.716303543
−1.1490005

NYU560
Cancer
−0.516957916
−0.741373104
−1.137736748

NYU_281
Benign
−0.546607576
−0.73542324
−1.032943398

NYU_613S
Cancer
−0.457346638
−0.672998228
−1.080379369

NYU_513
Benign
−0.347077198
−0.676011695
−1.171521544

PC_03

−0.231309763
−0.45309845
−1.02238549

NYU_661
Cancer
−0.540086698
−0.803170123
−1.017870154

NYU_1168
Benign
−0.377643861
−0.784735481
−1.177297293

NYU_968
Benign
−0.430532434
−0.691207605
−1.323385768

NYU_410
Cancer
−0.436124313
−0.936293593
−1.126584437

NYU_1098
Benign
−0.387059897
−0.627952718
−1.491294635

NYU_636
Cancer
−0.365115387
−0.399577964
−1.019992268

PC_04

−0.394888144
−0.798145476
−1.063609486

TABLE 11A

PV2 fidelity small nodule batch all transitions (normalized)

ALPGTPVASS-
ALPGTPVASS-
ALPGTPVASS-
ALQASALK_401.25_185.10

msfile-

QPR_640.85_185.10
QPR_640.85_440.30
QPR_640.85_841.50
(SEQ ID No.:

name
status
(SEQ ID No.: 54)
(SEQ ID No.: 54)
(SEQ ID No.: 54)
45)

PC_01

0.072481908
0.113723027
0.114185527
1.104056731

ZCO489_02
Benign
0.096687357
0.12833692
0.123520886
2.505383025

ZCO436_02
Cancer
0.175900905
0.153036185
0.141876401
1.022008353

ZCO512_02
Cancer
0.165422766
0.115499177
0.112783456
1.809774524

ZCO475_02
Benign
0.020929229
0.117760584
0.115724014
1.45178974

ZCO485_02
Benign
0.172154733
0.141065752
0.127981073
1.126646851

ZCO536_02
Cancer
0.079545801
0.12688509
0.099691651
1.372594438

PC_02

0.144464483
0.104540439
0.099909759
0.570158949

ZCO496_02
Benign
0.186731479
0.138624849
0.138123536
1.0877756

ZCO502_02
Cancer
0.166799714
0.207401234
0.208648996
4.289444175

ZCO382_02
Benign
0.052741617
0.126173724
0.106884057
0.742880387

ZCO431_02
Cancer
0.11746052
0.086230586
0.095294864
2.759952104

ZCO449_02
Cancer
0.021338221
0.093127082
0.096621539
2.119548876

ZCO537_02
Benign
0.15168794
0.085758182
0.09513695
1.778541716

ZCO362_02
Benign
0.166434619
0.130847541
0.103731549
0.500682848

ZCO488_02
Benign
0.03773585
0.130035911
0.115317637
1.248930596

PC_03

0.043905454
0.103505534
0.128472249
0.583700424

ZCO535_02
Benign
0.064443293
0.094776693
0.090581319
1.240370401

ZCO443_02
Cancer
0.081472483
0.109663279
0.098436694
4.327131943

ZCO393_02
Benign
0.037641224
0.110792301
0.096732074
0.748655274

ZCO503_02
Cancer
0.031717637
0.153131384
0.141291671
2.0365338

ZCO438_02
Cancer
0.257589409
0.139366076
0.117717494
2.490783377

ZCO406_02
Benign
0.313760117
0.246885952
0.198346056
1.778565031

PC_04

0.139192591
0.125345674
0.12146445
0.6206359

PC_01

0.032854207
0.111385997
0.117494828
0.699259064

00082_07
Cancer
0.019841042
0.137128337
0.124959902
0.36884965

02286_07
Benign
0.108146504
0.138304617
0.136311272
0.378315451

02280_06
Cancer
0.030207178
0.114696236
0.106509355
0.344164424

01123_06
Benign
0.097340937
0.130575774
0.12590349
0.422455943

00156_07
Cancer
0.099055099
0.10758475
0.098752735
0.394029589

00781_09
Benign
0.113120132
0.124652335
0.121664894
0.477100471

00539_08
Cancer
0.191671411
0.123020001
0.130842261
0.550427075

02241_07
Cancer
0.22705995
0.146427909
0.142606122
0.397118813

02226_05
Benign
0.091982898
0.184879682
0.097659474
0.357293528

PC_03

0.155433794
0.104908646
0.107830802
0.620704861

00542_08
NA
0.023768339
0.083108762
0.081409514
0.348957783

02497_10
NA
0.12461502
0.091882185
0.094349037
0.310013188

02224_05
Benign
0.166455134
0.117225234
0.095221667
0.346682411

00748_09
Cancer
0.173113995
0.092426494
0.099657833
0.377867563

03630_09
Benign
0.163027974
0.138165406
0.136837465
0.500873729

02279_07
Cancer
0.154381017
0.141251604
0.134240545
0.560889545

PC_04

0.15216329
0.110843419
0.100417917
0.520482442

PC_01

0.090621435
0.109606492
0.106342907
0.603469727

NYU806
Benign
0.083361378
0.120466716
0.10479075
1.193023537

NYU777
Cancer
0.102578671
0.132414016
0.108105448
0.990005531

NYU176
Benign
0.118623857
0.112882719
0.086169336
0.64992424

NYU888
Cancer
1.051043345
0.179198758
0.149871425
0.624811178

NYU1117
Benign
0.124315822
0.114306848
0.118946556
0.382648491

NYU1201
Cancer
0.188865868
0.097604131
0.127325538
0.489872435

PC_02

0.064639837
0.085501438
0.097459191
0.572502535

NYU887
Cancer
0.065580518
0.110794347
0.104610841
0.545640243

NYU815
Benign
0.137562675
0.073686776
0.081694792
0.656169467

NYU927
Cancer
0.440720193
0.294725239
0.250755809
0.873587542

NYU1030
Benign
0.131926586
0.184096253
0.153705653
0.426077965

NYU1151
Cancer
0.101287972
0.118852417
0.117167631
0.595478882

NYU1005
Benign
0.071434457
0.11023886
0.08990643
1.32690047

NYU522
Benign
0.0462317
0.111544673
0.082789283
1.563426942

NYU389
Cancer
0.070096926
0.138667591
0.101185001
1.309339617

PC_03

0.124156164
0.116180769
0.101723471
0.578049717

NYU729
Cancer
0.319014556
0.206906013
0.136786261
1.171981607

NYU430
Benign
0.099772187
0.10523163
0.099401633
0.62923911

NYU144
Benign
0.251269192
0.142890674
0.129469934
1.012127218

NYU256
Cancer
0.11320516
0.11062707
0.110373612
0.426960724

NYU1000
Benign
0.174645479
0.155090317
0.142656303
0.791369662

NYU575
Cancer
0.083776109
0.146926408
0.117293186
3.539453856

PC_04

0.154661511
0.12635077
0.121087937
0.669431205

AT-

ALQASALK_401.25_489.30
ALQASALK_401.25_617.40
VNPSAPR_456.80_386.20

msfile-

(SEQ ID No.:
(SEQ ID No.:
(SEQ ID No.:

name
status
45)
45)
47)

PC_01

1.013714768
0.997003501
0.513190922

ZCO489_02
Benign
2.48957508
2.475361887
0.484191391

ZCO436_02
Cancer
0.884283215
0.941295682
0.510892497

ZCO512_02
Cancer
1.835667867
1.762379443
0.486408258

ZCO475_02
Benign
1.261706074
1.432702764
0.604057454

ZCO485_02
Benign
1.183038102
1.110417336
0.642058773

ZCO536_02
Cancer
1.195337479
1.350378186
0.76209092

PC_02

0.524625346
0.566255019
0.483881017

ZCO496_02
Benign
1.054769834
1.123342506
0.48130832

ZCO502_02
Cancer
4.131978903
4.808895277
0.766300173

ZCO382_02
Benign
0.620959101
0.686212655
0.536594739

ZCO431_02
Cancer
2.999228632
2.670892954
0.52272151

ZCO449_02
Cancer
1.822591849
2.29946133
0.409845148

ZCO537_02
Benign
1.641773423
1.825637212
0.46477433

ZCO362_02
Benign
0.460425029
0.495840777
0.488311608

ZCO488_02
Benign
1.268964485
1.267486846
0.634140411

PC_03

0.576457637
0.641518967
0.539489248

ZCO535_02
Benign
1.112334351
1.264916516
0.597070961

ZCO443_02
Cancer
4.146180928
4.845153552
0.604529755

ZCO393_02
Benign
0.675383716
0.746970867
0.580525256

ZCO503_02
Cancer
1.874909124
2.004130039
0.564575514

ZCO438_02
Cancer
2.431852281
2.349048088
0.857019612

ZCO406_02
Benign
1.72007119
1.934236248
1.303030376

PC_04

0.542198431
0.573190384
0.5364696

PC_01

0.589246404
0.61082259
0.522477935

00082_07
Cancer
0.325172092
0.293861994
0.508267589

02286_07
Benign
0.318440954
0.386308647
0.62822393

02280_06
Cancer
0.309306972
0.314934681
0.570945741

01123_06
Benign
0.454116112
0.45399105
0.749329059

00156_07
Cancer
0.323103636
0.387953902
0.884455539

00781_09
Benign
0.388429093
0.455908149
0.563459111

00539_08
Cancer
0.487164394
0.52838435
0.459851826

02241_07
Cancer
0.318777488
0.386103989
0.472661051

02226_05
Benign
0.316772323
0.344240011
0.840015283

PC_03

0.603580671
0.625066231
0.534207137

00542_08
NA
0.345598358
0.33541418
0.667521756

02497_10
NA
0.278995049
0.290460208
0.48646257

02224_05
Benign
0.312426569
0.304574879
0.523490901

00748_09
Cancer
0.39689637
0.391418879
0.609023679

03630_09
Benign
0.442983902
0.526994597
0.563638991

02279_07
Cancer
0.489175005
0.532363923
0.655010149

PC_04

0.560558283
0.609682293
0.507126105

PC_01

0.528483638
0.663838665
0.495675135

NYU806
Benign
1.261666557
1.240430039
0.579992581

NYU777
Cancer
1.003134176
1.009614175
0.583341352

NYU176
Benign
0.595816173
0.698598041
0.747040121

NYU888
Cancer
0.509965043
0.663718883
0.494604682

NYU1117
Benign
0.376210799
0.429162668
0.731869104

NYU1201
Cancer
0.35859916
0.42326631
0.427956567

PC_02

0.487693412
0.547612202
0.47819389

NYU887
Cancer
0.537866657
0.655884621
0.717019677

NYU815
Benign
0.629902077
0.776867877
0.400780665

NYU927
Cancer
0.776705204
0.863727015
0.666649816

NYU1030
Benign
0.382964729
0.448280951
0.54458903

NYU1151
Cancer
0.57111884
0.635248583
0.633861746

NYU1005
Benign
1.307802373
1.398163465
0.687652295

NYU522
Benign
1.407437596
1.642302899
0.521104986

NYU389
Cancer
1.389960041
1.426092349
0.500413229

PC_03

0.465809931
0.551736272
0.500168216

NYU729
Cancer
1.13928185
1.36629717
1.210689889

NYU430
Benign
0.591077344
0.628934814
0.640061645

NYU144
Benign
0.825998602
0.992671611
0.507360064

NYU256
Cancer
0.434267093
0.439500398
0.577409722

NYU1000
Benign
0.687445175
0.869719639
0.711623196

NYU575
Cancer
3.644707754
4.467733427
0.537925663

PC_04

0.583460482
0.580551675
0.532829927

TABLE 11B

PV2 fidelity small nodule batch all transitions (normalized)

AT-
AT-

VNPSAPR_456.80_527.30
VNPSAPR_456.80_641.30
AVGLAG-
AVGLAG-
AVGLAG-
FLNVL-
FLNVL-

msfile-

(SEQ ID No.:
(SEQ ID No.:
TFR_446.26_171.10
TFR_446.26_551.30
TFR_446.26_721.40
SPR_473.28_261.20
SPR_473.28_359.20

name
status
47)
47)
(SEQ ID No.: 48)
(SEQ ID No.: 48)
(SEQ ID No.: 48)
(SEQ ID No.: 53)
(SEQ ID No.: 53)

PC_01

0.534705132
0.556029313
0.521368243
0.407451172
0.472061615
0.659851606
0.693508934

ZCO489_02
Benign
0.482318094
0.475201398
0.522018684
0.452615161
0.499287286
0.578287015
0.689088709

ZCO436_02
Cancer
0.514449693
0.545843817
0.632989338
0.524636454
0.641716719
0.2803719
0.251519267

ZCO512_02
Cancer
0.527165261
0.535412625
0.522545648
0.448051016
0.521255341
0.426434093
0.490820038

ZCO475_02
Benign
0.639866769
0.621499097
0.546707079
0.626010052
0.559634393
0.610607983
0.734750979

ZCO485_02
Benign
0.653147283
0.676510235
0.468132743
0.590018133
0.459453576
0.834981224
0.976278166

ZCO536_02
Cancer
0.802586342
0.810655596
0.379167868
0.411930635
0.410554004
0.931915761
0.971028818

PC_02

0.519399286
0.543890152
0.402610916
0.439806134
0.411006249
0.686777309
0.780299233

ZCO496_02
Benign
0.496948161
0.515356904
0.389430587
0.516516939
0.374180692
0.403038335
0.439364688

ZCO502_02
Cancer
0.822044279
0.79893068
1.239508496
0.850583699
1.223932288
0.195336991
0.216408904

ZCO382_02
Benign
0.554581921
0.572190917
0.568877336
0.516434804
0.457232927
1.10238215
1.059221941

ZCO431_02
Cancer
0.549898921
0.539544372
0.45403555
0.513856201
0.45247875
0.437009904
0.438916828

ZCO449_02
Cancer
0.432266772
0.440126926
0.378515001
0.444003858
0.333184598
0.916884231
0.863834158

ZCO537_02
Benign
0.476290726
0.491289611
0.260220859
0.233797112
0.298742102
0.886985593
0.785839458

ZCO362_02
Benign
0.498542645
0.525116363
0.245920046
0.281374625
0.310211704
0.789566819
0.806105263

ZCO488_02
Benign
0.682210993
0.692695541
0.453308605
0.406349653
0.488950184
0.946649022
1.003056249

PC_03

0.568294726
0.567493126
0.318915614
0.358057825
0.361830621
0.822368397
0.840722458

ZCO535_02
Benign
0.647971471
0.662547365
0.798383184
0.890191643
0.847833146
1.304258661
1.188867443

ZCO443_02
Cancer
0.643699865
0.649812874
0.452731952
0.417789856
0.481004303
0.648941719
0.673496319

ZCO393_02
Benign
0.61904843
0.627457531
0.668107364
0.54322302
0.593920699
0.681111044
0.80765317

ZCO503_02
Cancer
0.590229529
0.602542555
0.535530898
0.490241963
0.634218853
1.2058718
1.252303266

ZCO438_02
Cancer
0.912188376
0.95315307
0.475409001
0.510026239
0.656194907
0.606970886
0.672953235

ZCO406_02
Benign
1.298365814
1.330381291
1.044205596
0.877045873
1.194473175
0.680656188
0.768931451

PC_04

0.552761658
0.581562023
0.303366109
0.364335973
0.365520875
0.71088783
0.711923687

PC_01

0.538541262
0.57260015
0.426945346
0.478315214
0.428569635
0.760647908
0.71651464

00082_07
Cancer
0.543302499
0.562089243
0.946767063
0.583568191
0.91718407
0.612409076
0.624535669

02286_07
Benign
0.671717323
0.685529249
0.698505849
0.553612361
0.696297466
1.278630924
1.230331798

02280_06
Cancer
0.586914146
0.597233235
0.360943511
0.26113329
0.38354143
1.012206752
1.044029917

01123_06
Benign
0.757012671
0.802068208
0.342087204
0.319614916
0.447898911
0.815870399
0.788618185

00156_07
Cancer
0.865757892
0.894388314
0.374941061
0.366266317
0.424463824
0.79844669
0.728295532

00781_09
Benign
0.588383312
0.597446673
0.545946881
0.457306352
0.488288192
1.101171259
1.011372243

00539_08
Cancer
0.465060835
0.476773557
0.306456604
0.255326981
0.30219437
0.444152803
0.458880188

02241_07
Cancer
0.47412833
0.485547515
0.589090796
0.527425678
0.571003806
0.616442009
0.630452537

02226_05
Benign
0.866731342
0.888171466
0.749658415
0.560987099
0.742955897
0.58593488
0.631433663

PC_03

0.566021828
0.566064793
0.410888953
0.359402773
0.40720557
0.845748701
0.739904352

00542_08
NA
0.676384847
0.687800246
0.44994986
0.352204998
0.54174426
1.049568254
1.181891215

02497_10
NA
0.490686754
0.505297177
0.265728783
0.237966704
0.328020998
0.976950827
0.944481582

02224_05
Benign
0.534286642
0.555368423
0.33870544
0.282135824
0.347677514
0.805874155
0.908383331

00748_09
Cancer
0.622472749
0.633487331
0.506977549
0.330183096
0.465868684
0.662049001
0.62822455

03630_09
Benign
0.595768233
0.6132442
0.413348998
0.295009953
0.395394062
0.847902287
0.750865475

02279_07
Cancer
0.667792071
0.669611895
0.417906413
0.308832173
0.489637626
0.606182353
0.628477668

PC_04

0.527231853
0.529821173
0.321302634
0.360017545
0.334083497
0.740584546
0.781709443

PC_01

0.51185576
0.520682898
0.427285773
0.42398113
0.437887104
0.789251932
0.841900999

NYU806
Benign
0.621566799
0.628629929
0.370751646
0.256455366
0.411305617
0.784744003
0.88341846

NYU777
Cancer
0.640403675
0.63946396
0.40039404
0.307538019
0.417859414
0.779512208
0.803076214

NYU176
Benign
0.811134003
0.846501907
0.47783873
0.474865466
0.522995888
0.870665071
0.907609154

NYU888
Cancer
0.524949845
0.52233603
0.409648134
0.287618542
0.536147824
0.809656582
0.858531807

NYU1117
Benign
0.770626518
0.799053901
0.647044209
0.550035882
0.650731937
1.017201564
1.082866921

NYU1201
Cancer
0.455662402
0.455067228
0.383442328
0.295022773
0.374266169
1.153594716
1.142319157

PC_02

0.508003119
0.51543261
0.291674169
0.286295453
0.318550966
0.700985385
0.747352074

NYU887
Cancer
0.72446972
0.757576957
0.291845896
0.329657487
0.326034113
0.936022461
0.962609294

NYU815
Benign
0.421478948
0.433741701
0.351639129
0.345566606
0.416303817
1.194743186
1.252121118

NYU927
Cancer
0.716616472
0.706170721
0.773547512
0.862203004
0.763196557
0.455641838
0.475382877

NYU1030
Benign
0.577724009
0.562417202
0.571048537
0.53259461
0.611157458
0.529638286
0.5845219

NYU1151
Cancer
0.656998477
0.707576402
0.550926896
0.389812034
0.548490319
0.538515974
0.530037022

NYU1005
Benign
0.710673557
0.755953396
0.356180044
0.278382778
0.375437353
1.061725085
1.089004601

NYU522
Benign
0.537855571
0.538883533
0.302643305
0.201354994
0.314789049
1.085919754
1.055072892

NYU389
Cancer
0.543516944
0.566261626
0.556142958
0.485807729
0.636248948
0.837939224
0.906153882

PC_03

0.549860606
0.544846659
0.307346441
0.319876614
0.339163972
0.658220539
0.733488807

NYU729
Cancer
1.289813605
1.319182379
0.471636782
0.415466283
0.550002098
0.545856132
0.593263842

NYU430
Benign
0.6766729
0.692138591
0.334200396
0.304617929
0.396001906
0.570416109
0.511151972

NYU144
Benign
0.525849025
0.566159596
0.696505641
0.482405382
0.730920139
1.145307161
1.357796744

NYU256
Cancer
0.59767304
0.603714812
0.243495164
0.248415657
0.266061157
0.52183018
0.648488973

NYU1000
Benign
0.724665149
0.744379705
0.40253419
0.383996187
0.478071928
0.485964459
0.475382266

NYU575
Cancer
0.57072014
0.612794772
0.469750397
0.410979992
0.614193715
0.790171504
0.806540998

PC_04

0.55734964
0.586255643
0.345976693
0.361853153
0.310204199
0.811758135
0.755532329

TABLE 11C

PV2 fidelity small nodule batch all transitions (normalized)

FLNVL-
FLNVL-
GFLLLASLR_495.31_318.20
GFLLLASLR_495.31_446.30

msfile-

SPR_473.28_472.30
SPR_473.28_685.40
(SEQ ID
(SEQ ID

name
status
(SEQ ID No.: 53)
(SEQ ID No.: 53)
No.: 61)
No.: 61)

PC_01

0.691981582
0.720732962
0.342167365
0.314422112

ZCO489_02
Benign
0.605287789
0.65078866
0.859783085
0.821168835

ZCO436_02
Cancer
0.248428527
0.273491247
0.223525612
0.234001826

ZCO512_02
Cancer
0.434528592
0.414608533
1.696599511
1.742552568

ZCO475_02
Benign
0.646258857
0.627829619
1.147836544
1.082338999

ZCO485_02
Benign
0.879277454
0.862590838
0.493331238
0.523185029

ZCO536_02
Cancer
1.061547744
1.023078885
1.300843206
1.152133544

PC_02

0.701343473
0.793152647
0.29057686
0.280086529

ZCO496_02
Benign
0.387291455
0.407516867
0.836504722
0.795963922

ZCO502_02
Cancer
0.180052439
0.200398054
2.700856929
2.594915099

ZCO382_02
Benign
1.04006184
1.032352624
0.338185874
0.2837697

ZCO431_02
Cancer
0.40882763
0.443256396
1.388161576
1.540533044

ZCO449_02
Cancer
0.819848841
0.839724894
0.93711654
0.86013574

ZCO537_02
Benign
0.750983489
0.823874374
1.425510223
1.399688316

ZCO362_02
Benign
0.809646895
0.842014404
0.28868153
0.279271806

ZCO488_02
Benign
1.003370131
1.021486996
0.639495367
0.682112744

PC_03

0.76233059
0.854208853
0.317881757
0.291284882

ZCO535_02
Benign
1.161896025
1.194064604
0.648841312
0.655865069

ZCO443_02
Cancer
0.614529243
0.652022796
2.728330195
2.461806843

ZCO393_02
Benign
0.739593896
0.807623353
0.670000429
0.664602591

ZCO503_02
Cancer
1.190519599
1.187750675
2.664925758
2.624223153

ZCO438_02
Cancer
0.59728587
0.665227738
1.802976602
1.732439351

ZCO406_02
Benign
0.655956
0.849782405
1.229147311
1.149613176

PC_04

0.721041262
0.744556741
0.353587214
0.339581216

PC_01

0.712078659
0.725057033
0.316141016
0.301482209

00082_07
Cancer
0.570305967
0.620069042
1.201392543
1.286592675

02286_07
Benign
1.213507246
1.319378592
1.894049273
1.98468928

02280_06
Cancer
0.899298833
0.983820418
1.276247055
1.440737251

01123_06
Benign
0.711614502
0.772422192
1.34239276
1.331966067

00156_07
Cancer
0.779075514
0.784053617
0.328273854
0.328521415

00781_09
Benign
0.994751468
1.051467616
0.533182864
0.56232441

00539_08
Cancer
0.452869256
0.479326651
1.372633176
1.443965208

02241_07
Cancer
0.570374561
0.633648884
0.484740669
0.492724316

02226_05
Benign
0.597871564
0.610065523
1.612026099
1.592469515

PC_03

0.828672158
0.808060907
0.365914791
0.369628535

00542_08
NA
1.168713681
1.146708251
0.311383616
0.290225844

02497_10
NA
0.917391832
0.91569795
0.571776807
0.569150593

02224_05
Benign
0.833252073
0.885169529
0.690318247
0.672504291

00748_09
Cancer
0.585228392
0.645389405
0.643584598
0.610412621

03630_09
Benign
0.755397991
0.803677987
0.647856006
0.590942425

02279_07
Cancer
0.677392643
0.669161404
0.651598555
0.590778799

PC_04

0.75988882
0.785502241
0.338403296
0.329147176

PC_01

0.745344878
0.809784221
0.342972712
0.38366931

NYU806
Benign
0.820469011
0.884822086
6.664158715
4.630699561

NYU777
Cancer
0.663614708
0.813427528
4.105501739
4.052418417

NYU176
Benign
0.918352647
0.911620438
1.681155207
1.669534825

NYU888
Cancer
0.737762116
0.81095489
4.951991286
4.739682362

NYU1117
Benign
1.085918695
0.955350038
2.04230216
1.931305652

NYU1201
Cancer
1.051534544
1.230115601
0.784171746
0.668141656

PC_02

0.738475273
0.792056489
0.354546336
0.31012861

NYU887
Cancer
0.964355435
0.990907259
4.092478957
3.914256725

NYU815
Benign
1.144783274
1.304636407
0.47515795
0.525400342

NYU927
Cancer
0.426994013
0.490195635
0.922026899
0.935018393

NYU1030
Benign
0.572526274
0.621599721
0.312142527
0.334559507

NYU1151
Cancer
0.500237238
0.562995164
3.385593779
3.420730919

NYU1005
Benign
1.060271913
1.175165129
7.689991257
7.476638332

NYU522
Benign
1.033063365
1.127453845
2.626451718
2.385238589

NYU389
Cancer
0.810023432
0.881237
4.969507998
4.879833728

PC_03

0.697463389
0.734952718
0.365487948
0.403732526

NYU729
Cancer
0.490526587
0.534210846
9.817611923
9.659929885

NYU430
Benign
0.503227078
0.575604606
1.323573206
1.255175389

NYU144
Benign
1.179607464
1.18587984
2.409172734
2.292341372

NYU256
Cancer
0.650288293
0.586537175
0.682773589
0.709002898

NYU1000
Benign
0.421582002
0.532016419
1.167693053
1.266238809

NYU575
Cancer
0.792571593
0.761693263
2.313843701
2.247030621

PC_04

0.839901554
0.851345846
0.350458346
0.42039804

msfile-

GFLLLASLR_495.31_559.40
INPASLDK_429.24_228.10
INPASLDK_429.24_462.30

name
status
(SEQ ID No.: 61)
(SEQ ID No.: 67)
(SEQ ID No.: 67)

PC_01

0.340263802
0.37810668
0.458465671

ZCO489_02
Benign
0.888489155
0.398199696
0.320039699

ZCO436_02
Cancer
0.230499872
0.455033635
0.456280913

ZCO512_02
Cancer
1.711010398
0.473543721
0.458740024

ZCO475_02
Benign
1.0614724
0.438608111
0.397818698

ZCO485_02
Benign
0.565283055
0.472828123
0.47632891

ZCO536_02
Cancer
1.330206484
0.282594548
0.220945725

PC_02

0.286424331
0.390133878
0.367380405

ZCO496_02
Benign
0.821965253
0.591262978
0.574871317

ZCO502_02
Cancer
2.820589292
0.56525324
0.424258773

ZCO382_02
Benign
0.340794925
0.432895305
0.341679129

ZCO431_02
Cancer
1.610766695
0.433954714
0.344861755

ZCO449_02
Cancer
0.913229868
0.345681021
0.344177213

ZCO537_02
Benign
1.290874731
0.44315624
0.393036455

ZCO362_02
Benign
0.295683453
0.568791128
0.508212761

ZCO488_02
Benign
0.688601012
0.307664047
0.229467979

PC_03

0.314852946
0.374073721
0.389236187

ZCO535_02
Benign
0.655555727
0.473660676
0.53901155

ZCO443_02
Cancer
2.716329467
0.729555139
0.66750816

ZCO393_02
Benign
0.647738274
0.491946833
0.466602329

ZCO503_02
Cancer
2.810381227
0.452919305
0.350472374

ZCO438_02
Cancer
1.872001648
1.118807359
0.925793835

ZCO406_02
Benign
1.10418014
0.403367923
0.538183076

PC_04

0.33108052
0.404307977
0.416598959

PC_01

0.313122033
0.421204527
0.397107212

00082_07
Cancer
1.396458385
0.610531593
0.472285801

02286_07
Benign
1.955162614
0.336607992
0.296903259

02280_06
Cancer
1.335856568
0.500893538
0.396566024

01123_06
Benign
1.30303188
0.283264675
0.239651555

00156_07
Cancer
0.317571569
0.569361783
0.497428196

00781_09
Benign
0.521007818
0.448634196
0.41903525

00539_08
Cancer
1.468603986
0.642132174
0.567502712

02241_07
Cancer
0.524372392
0.43424081
0.260567028

02226_05
Benign
1.6902868
0.471948866
0.559620128

PC_03

0.346302974
0.42232798
0.41037486

00542_08
NA
0.307130705
0.491994912
0.594067468

02497_10
NA
0.67191397
0.348786965
0.35891839

02224_05
Benign
0.694573879
0.386615091
0.329363336

00748_09
Cancer
0.661566205
0.510768098
0.395267241

03630_09
Benign
0.626098786
0.388687007
0.381351725

02279_07
Cancer
0.595214365
0.400885329
0.396289138

PC_04

0.326166352
0.381452485
0.429176204

PC_01

0.366427903
0.38184938
0.339192846

NYU806
Benign
5.061642045
0.520814311
0.442142913

NYU777
Cancer
4.189556977
0.462157946
0.495113266

NYU176
Benign
1.686515801
0.628388709
0.622855521

NYU888
Cancer
4.835654266
0.577638172
0.468849359

NYU1117
Benign
2.17141165
0.369285189
0.322737033

NYU1201
Cancer
0.69727139
0.494924505
0.440950082

PC_02

0.31205844
0.358292797
0.353934567

NYU887
Cancer
4.363006538
0.458013654
0.366363189

NYU815
Benign
0.483134144
0.324670709
0.312260442

NYU927
Cancer
0.963827038
0.41790394
0.392013003

NYU1030
Benign
0.334192054
0.768447019
0.657559403

NYU1151
Cancer
3.641732461
0.501225367
0.557755283

NYU1005
Benign
7.290468401
0.36606111
0.343489515

NYU522
Benign
2.651138755
0.380855259
0.331702566

NYU389
Cancer
4.781103782
0.746129428
0.745929888

PC_03

0.410220916
0.398219674
0.360205717

NYU729
Cancer
10.16806557
0.650190373
0.676875771

NYU430
Benign
1.331232129
0.530193787
0.414020569

NYU144
Benign
2.435929958
0.6547869
0.674026092

NYU256
Cancer
0.715759485
0.697362278
0.705920708

NYU1000
Benign
1.241755547
0.463665408
0.395720265

NYU575
Cancer
2.056567034
0.452553353
0.439474833

PC_04

0.395652864
0.428097462
0.287222773

TABLE 11D

PV2 fidelity small nodule batch all transitions (normalized)

LDTLAQE-
LDTLAQE-

msfile-

INPASLDK_429.24_630.30
INPASLDK_429.24_744.40
VALLK_657.39_229.10
VALLK_657.39_330.20

name
status
(SEQ ID No.: 67)
(SEQ ID No.: 67)
(SEQ ID No.: 66)
(SEQ ID No.: 66)

PC_01

0.363735797
0.428688366
0.852842762
0.864372452

ZCO489_02
Benign
0.343504887
0.322042591
0.688898088
0.683271522

ZCO436_02
Cancer
0.394523842
0.505190828
0.503107835
0.540139387

ZCO512_02
Cancer
0.410484072
0.547592288
0.472049093
0.456026487

ZCO475_02
Benign
0.373983172
0.384733283
0.656230813
0.655829761

ZCO485_02
Benign
0.403353031
0.494610614
0.753010819
0.825964619

ZCO536_02
Cancer
0.266980134
0.286580444
0.93016632
0.890720543

PC_02

0.343689781
0.368552668
0.741743535
0.737061342

ZCO496_02
Benign
0.562612295
0.620279709
0.548457453
0.596136956

ZCO502_02
Cancer
0.41478149
0.452785667
0.437177039
0.416922838

ZCO382_02
Benign
0.366526715
0.378798806
0.673068272
0.657476873

ZCO431_02
Cancer
0.381970005
0.396582628
0.993836317
1.149811021

ZCO449_02
Cancer
0.312941244
0.349823643
0.658940922
0.661913662

ZCO537_02
Benign
0.3594776
0.416595564
0.678733461
0.587012469

ZCO362_02
Benign
0.486810602
0.529863821
0.680112422
0.701322149

ZCO488_02
Benign
0.273829963
0.319282348
0.708560978
0.760405448

PC_03

0.332753598
0.404900508
0.846177887
0.773159181

ZCO535_02
Benign
0.406352625
0.447093453
0.62231948
0.591895539

ZCO443_02
Cancer
0.644864665
0.69995906
0.585433046
0.600321797

ZCO393_02
Benign
0.412438594
0.449876317
0.727733419
0.718800403

ZCO503_02
Cancer
0.384648002
0.465001148
0.590094777
0.592033667

ZCO438_02
Cancer
0.993508564
1.206714171
0.456538877
0.460899802

ZCO406_02
Benign
0.359856429
0.378045334
0.471484206
0.447564405

PC_04

0.364682747
0.395717106
0.796150595
0.704025463

PC_01

0.353303739
0.388682498
0.889503601
0.871245127

00082_07
Cancer
0.528381439
0.537937253
0.420534929
0.457636372

02286_07
Benign
0.30880205
0.374089935
0.557489452
0.544980319

02280_06
Cancer
0.398488287
0.44991999
0.68934591
0.665235792

01123_06
Benign
0.237138595
0.298588226
0.9041684
0.96038976

00156_07
Cancer
0.490352058
0.61972889
0.433147562
0.449100459

00781_09
Benign
0.367161488
0.343929845
0.697950521
0.691559596

00539_08
Cancer
0.573748716
0.559185986
0.707643837
0.707811609

02241_07
Cancer
0.377731536
0.487992107
0.820252098
0.766892092

02226_05
Benign
0.38092763
0.498275906
0.472955469
0.463330275

PC_03

0.368004213
0.385192085
0.967363627
0.890275077

00542_08
NA
0.421547034
0.455192601
0.653642447
0.697794063

02497_10
NA
0.292919106
0.355624546
0.765647237
0.756196014

02224_05
Benign
0.323247418
0.37932085
0.78816019
0.769221817

00748_09
Cancer
0.392264009
0.455267153
0.589262766
0.630145683

03630_09
Benign
0.340098151
0.392828634
0.733679224
0.758161938

02279_07
Cancer
0.364172908
0.397191766
0.501156817
0.530411443

PC_04

0.325266925
0.353077566
0.823177428
0.762357207

PC_01

0.349755825
0.366449226
0.949833946
0.984318669

NYU806
Benign
0.481091003
0.519753096
0.485580312
0.511892188

NYU777
Cancer
0.407028773
0.492822475
0.666536856
0.674248936

NYU176
Benign
0.486992045
0.614138716
0.680362518
0.655072704

NYU888
Cancer
0.477552132
0.638814219
0.548957225
0.603720153

NYU1117
Benign
0.360139883
0.368261098
0.592191821
0.653468736

NYU1201
Cancer
0.42107192
0.471797917
0.689150671
0.709821955

PC_02

0.335736773
0.30690412
0.832761797
0.888404889

NYU887
Cancer
0.474047732
0.535284992
0.797859166
0.803093081

NYU815
Benign
0.274161099
0.364368097
0.713604238
0.637545343

NYU927
Cancer
0.36239794
0.440310431
0.592818164
0.581656898

NYU1030
Benign
0.669200731
0.579338094
0.752638223
0.759192937

NYU1151
Cancer
0.471140022
0.527524938
0.449757714
0.465773553

NYU1005
Benign
0.347833855
0.374620273
1.071485111
1.178779337

NYU522
Benign
0.340458208
0.412637937
0.885750821
0.918034199

NYU389
Cancer
0.641152466
0.680741525
0.45235022
0.506598818

PC_03

0.359080514
0.379344063
0.807217591
0.815280326

NYU729
Cancer
0.706055083
0.836520244
0.501131433
0.506455475

NYU430
Benign
0.426973875
0.517276242
0.970523424
0.870521485

NYU144
Benign
0.604709232
0.610266777
0.766590581
0.795909496

NYU256
Cancer
0.599927593
0.692324539
0.730300014
0.774238336

NYU1000
Benign
0.367591711
0.472316076
0.88548905
0.843154492

NYU575
Cancer
0.389054834
0.448580659
0.840423345
0.696859969

PC_04

0.357303411
0.357374777
0.879853377
0.956282697

LDTLAQE-
LDTLAQE-
LGG-

msfile-

VALLK_657.39_800.50
VALLK_657.39_871.50
PEAGLGEYLFER_804.40_1083.60

name
status
(SEQ ID No.: 66)
(SEQ ID No.: 66)
(SEQ ID No.: 50)

PC_01

0.800249812
0.870566218
0.030665666

ZCO489_02
Benign
0.64836569
0.70122662
0.053075563

ZCO436_02
Cancer
0.51224076
0.517813349
0.07550509

ZCO512_02
Cancer
0.480698222
0.476402358
0.191646835

ZCO475_02
Benign
0.624588491
0.697240825
0.134482993

ZCO485_02
Benign
0.811252913
0.799106554
0.090174478

ZCO536_02
Cancer
0.91837766
1.082088276
0.183240953

PC_02

0.699423116
0.745035088
0.022925279

ZCO496_02
Benign
0.600896169
0.657352334
0.021442904

ZCO502_02
Cancer
0.404813293
0.405778053
0.148612156

ZCO382_02
Benign
0.557214039
0.690776063
0.081047236

ZCO431_02
Cancer
0.953207847
1.140177817
0.061379876

ZCO449_02
Cancer
0.689169741
0.781056025
0.603542675

ZCO537_02
Benign
0.573674137
0.62049249
0.105417554

ZCO362_02
Benign
0.708166429
0.732398997
0.013723205

ZCO488_02
Benign
0.701838025
0.737813133
0.008516135

PC_03

0.821135084
0.878483826
0.025780526

ZCO535_02
Benign
0.573655568
0.613856381
0.221268745

ZCO443_02
Cancer
0.588534929
0.664811475
0.149205132

ZCO393_02
Benign
0.693087711
0.793332826
0.14010071

ZCO503_02
Cancer
0.564901531
0.603672888
0.083669807

ZCO438_02
Cancer
0.428532546
0.451887945
0.258177146

ZCO406_02
Benign
0.432278392
0.486251452
0.740287916

PC_04

0.710300175
0.726184807
0.025156047

PC_01

0.778059465
0.833109187
0.035948333

00082_07
Cancer
0.413142448
0.472220997
0.095230711

02286_07
Benign
0.579783093
0.592646656
0.511556626

02280_06
Cancer
0.63217575
0.691868201
0.099662074

01123_06
Benign
0.970401502
0.960509966
0.135058473

00156_07
Cancer
0.410508013
0.420941591
0.169227194

00781_09
Benign
0.66239628
0.750630821
0.354326419

00539_08
Cancer
0.669120134
0.709650629
0.10284732

02241_07
Cancer
0.750758064
0.746256999
0.038909707

02226_05
Benign
0.458412581
0.481592392
0.018558615

PC_03

0.911123338
0.905521528
0.030055933

00542_08
NA
0.681520531
0.7155287
0.086441503

02497_10
NA
0.674987734
0.756495063
0.171716375

02224_05
Benign
0.766516315
0.801369643
0.210932665

00748_09
Cancer
0.558857667
0.595268614
0.330658658

03630_09
Benign
0.738165641
0.732702422
0.122462084

02279_07
Cancer
0.454388
0.531584781
0.138464592

PC_04

0.711879952
0.795783423
0.031180525

PC_01

0.850456831
0.982088585
0.039234794

NYU806
Benign
0.485057637
0.511564771
0.102371296

NYU777
Cancer
0.685079511
0.757825393
0.059968758

NYU176
Benign
0.618779114
0.706281524
0.005952263

NYU888
Cancer
0.577206255
0.605568104
0.04588913

NYU1117
Benign
0.625725216
0.657511405
0.535542606

NYU1201
Cancer
0.661002543
0.714987993
0.214463452

PC_02

0.816338043
0.903258518
0.0334592

NYU887
Cancer
0.833248479
0.8694931
0.102404415

NYU815
Benign
0.62106511
0.669899242
0.074008212

NYU927
Cancer
0.50842217
0.581836011
0.226102623

NYU1030
Benign
0.761401341
0.789355237
0.190954

NYU1151
Cancer
0.433321676
0.48737091
0.242885687

NYU1005
Benign
1.12491111
1.303717218
0.208826976

NYU522
Benign
0.854008143
0.955343969
0.09104529

NYU389
Cancer
0.488288074
0.521285938
0.15396803

PC_03

0.763271293
0.903130514
0.029783506

NYU729
Cancer
0.487103964
0.496035461
0.314049247

NYU430
Benign
0.844321625
0.991735387
0.070609482

NYU144
Benign
0.760069455
0.795435225
0.008629685

NYU256
Cancer
0.748785824
0.73462539
0.065551163

NYU1000
Benign
0.947473752
0.903534842
0.050514738

NYU575
Cancer
0.726430056
0.6712768
0.012836029

PC_04

0.953206261
0.949350421
0.034914953

TABLE 11E

PV2 fidelity small nodule batch all transitions (normalized)

LGG-
LGG-
LQSLFD-

PEAGLGEYLFER_804.40_525.30
PEAGLGEYLFER_804.40_913.40
SPDFSK_692.34_1142.60

msfile-

(SEQ ID
(SEQ ID
(SEQ ID No.:

name
status
No.: 50)
No.: 50)
68)

PC_01

0.038554459
0.036120215
1.765432159

ZCO489_02
Benign
0.073592529
0.054497729
1.586378777

ZCO436_02
Cancer
0.077673137
0.066303335
1.708293197

ZCO512_02
Cancer
0.209194542
0.21494463
1.73445266

ZCO475_02
Benign
0.17621848
0.153949618
1.80536783

ZCO485_02
Benign
0.089087893
0.086073903
1.62410579

ZCO536_02
Cancer
0.217692961
0.172418364
1.448827094

PC_02

0.035995794
0.023927689
1.803523286

ZCO496_02
Benign
0.03228154
0.020569016
2.103903547

ZCO502_02
Cancer
0.148571609
0.133049649
2.345228584

ZCO382_02
Benign
0.070969497
0.069210735
1.873274606

ZCO431_02
Cancer
0.08992654
0.067820845
1.942972731

ZCO449_02
Cancer
0.676686766
0.660013278
1.487341937

ZCO537_02
Benign
0.117971248
0.117940655
1.359478175

ZCO362_02
Benign
0.017621106
0.010116651
1.772408083

ZCO488_02
Benign
0.036074192
0.01539941
2.449135421

PC_03

0.036791598
0.028328086
1.871078192

ZCO535_02
Benign
0.21899049
0.203313091
2.539222994

ZCO443_02
Cancer
0.171215985
0.154638862
1.656571376

ZCO393_02
Benign
0.150305206
0.143821845
1.88859011

ZCO503_02
Cancer
0.0942704
0.09453189
1.807574691

ZCO438_02
Cancer
0.281585838
0.28705589
1.906446749

ZCO406_02
Benign
0.666742621
0.776810853
3.25360525

PC_04

0.042862707
0.030260939
1.829695167

PC_01

0.04399596
0.02945243
1.745588128

00082_07
Cancer
0.123771832
0.106138246
1.897990062

02286_07
Benign
0.565268693
0.621708987
1.97225443

02280_06
Cancer
0.112476391
0.136236143
1.043908722

01123_06
Benign
0.134426478
0.140390427
1.506291416

00156_07
Cancer
0.206263665
0.167480709
1.758389827

00781_09
Benign
0.354512834
0.394216635
1.428208631

00539_08
Cancer
0.097862022
0.098665623
1.499616799

02241_07
Cancer
0.058683769
0.046905377
1.932192223

02226_05
Benign
0.042185379
0.022621871
2.072024638

PC_03

0.045598196
0.031588294
1.771807265

00542_08
NA
0.106733461
0.091640906
1.654718087

02497_10
NA
0.206194505
0.184667736
1.642933804

02224_05
Benign
0.244839005
0.228451904
1.776757807

00748_09
Cancer
0.359267967
0.325786817
1.534812384

03630_09
Benign
0.143967889
0.13158887
1.622180504

02279_07
Cancer
0.139552422
0.127062426
1.897637765

PC_04

0.05275638
0.036725111
1.670412757

PC_01

0.05642519
0.032903157
1.70674995

NYU806
Benign
0.129683582
0.108297185
1.708421236

NYU777
Cancer
0.072971393
0.068910326
1.618593364

NYU176
Benign
0.01232397
0.014506745
1.474086651

NYU888
Cancer
0.050280342
0.042596819
1.58901714

NYU1117
Benign
0.662356982
0.640776334
1.959149358

NYU1201
Cancer
0.21567413
0.206220977
2.009830085

PC_02

0.048239109
0.031945287
1.640095795

NYU887
Cancer
0.123818818
0.114835526
1.675784212

NYU815
Benign
0.088244391
0.068502312
2.144946292

NYU927
Cancer
0.245612411
0.234527082
1.753922586

NYU1030
Benign
0.190220539
0.166076825
1.520620993

NYU1151
Cancer
0.276467194
0.3116029
2.113195051

NYU1005
Benign
0.220242061
0.197526081
1.759318564

NYU522
Benign
0.128209198
0.09278456
1.784348332

NYU389
Cancer
0.181349925
0.16982168
2.15593723

PC_03

0.048207527
0.032807525
1.607683274

NYU729
Cancer
0.351811018
0.364531234
1.913858062

NYU430
Benign
0.078953416
0.071638172
1.673681959

NYU144
Benign
0.017742479
0.010255227
1.607590107

NYU256
Cancer
0.098516241
0.062505905
1.384851528

NYU1000
Benign
0.070598556
0.04888533
1.589628456

NYU575
Cancer
0.018636081
0.008901971
1.776131185

PC_04

0.050728447
0.03334697
1.78266488

LQSLFD-
LQSLFD-
LQSLFD-
LQSLFD-

SPDFSK_692.34_242.20
SPDFSK_692.34_329.20
SPDFSK_692.34_593.30
SPDFSK_692.34_942.50

msfile-

(SEQ ID No.:
(SEQ ID No.:
(SEQ ID No.:
(SEQ ID

name
status
68)
68)
68)
No.: 68)

PC_01

1.942539552
1.875976304
1.781592163
1.945789175

ZCO489_02
Benign
1.675357988
1.796593459
1.772831175
1.666702749

ZCO436_02
Cancer
1.747014735
2.136049744
1.840188133
1.868023509

ZCO512_02
Cancer
1.883944812
2.146035402
1.822385871
1.692625784

ZCO475_02
Benign
1.838920317
2.121514223
1.935825824
1.976907933

ZCO485_02
Benign
1.764400938
1.989263405
1.910694695
1.763688075

ZCO536_02
Cancer
1.89343805
1.974481876
1.660410804
1.611623549

PC_02

1.841784775
1.964936806
1.619676773
1.730343878

ZCO496_02
Benign
2.162580446
2.382536448
2.116479724
2.002833962

ZCO502_02
Cancer
2.675049984
3.045742786
2.994221399
2.808858956

ZCO382_02
Benign
1.93408144
2.114663445
1.956247752
1.949192253

ZCO431_02
Cancer
1.823644188
2.278026757
1.905202857
1.946585992

ZCO449_02
Cancer
1.761996669
1.864626273
1.786241463
1.586025906

ZCO537_02
Benign
1.356810249
1.795758377
1.362399366
1.529045069

ZCO362_02
Benign
1.789835687
1.919945474
1.91319845
1.774678189

ZCO488_02
Benign
2.428362325
2.575464476
2.253448087
2.35782166

PC_03

1.89777425
2.071724037
2.130525853
1.941448183

ZCO535_02
Benign
2.592553526
3.192030619
2.668041215
2.729709431

ZCO443_02
Cancer
1.615357925
1.874085757
1.722557905
1.69069925

ZCO393_02
Benign
2.000046304
2.107092079
2.100755772
1.877089741

ZCO503_02
Cancer
1.843334364
2.192553218
1.941397683
1.839698334

ZCO438_02
Cancer
1.975738799
2.386677456
1.871985759
2.148271758

ZCO406_02
Benign
3.397698008
3.566698882
3.370894185
3.156358887

PC_04

2.049743352
2.316435558
2.147432745
1.85191677

PC_01

1.746530612
2.215179262
2.101250934
1.70827035

00082_07
Cancer
1.877242238
2.053960426
2.039041585
2.139116158

02286_07
Benign
2.339896047
2.67116626
2.558048409
2.299672897

02280_06
Cancer
1.117539433
1.22844092
1.176357642
1.207608647

01123_06
Benign
1.600628284
1.838966433
1.661819283
1.495294217

00156_07
Cancer
1.925615687
2.138098596
1.950090356
1.690880976

00781_09
Benign
1.51490762
1.996394431
1.648711633
1.700812076

00539_08
Cancer
1.621306499
1.772847533
1.458940041
1.399888744

02241_07
Cancer
1.758821889
2.066603923
1.848200962
1.733284084

02226_05
Benign
1.998694171
2.150460166
2.275281153
2.054403987

PC_03

1.88733707
2.030833647
2.069746007
1.85314561

00542_08
NA
2.061825359
2.028977874
1.872038882
1.815479364

02497_10
NA
1.752416968
2.141067373
1.902116117
1.702863214

02224_05
Benign
1.766160681
2.246102057
1.854973013
1.87956186

00748_09
Cancer
1.907330662
2.092637995
1.926180188
1.861472582

03630_09
Benign
1.700708069
2.119208691
1.926579817
1.754529332

02279_07
Cancer
2.053336143
2.204989884
2.080720087
1.976818148

PC_04

1.814527174
1.977781563
1.706044242
1.78016696

PC_01

1.874485231
2.155724619
2.051182892
1.876416057

NYU806
Benign
1.800749486
2.335912401
1.943705311
1.992752165

NYU777
Cancer
1.59665169
1.890508221
1.61285573
1.554575466

NYU176
Benign
1.679743302
1.811087568
1.7068991
1.518926225

NYU888
Cancer
1.790883043
2.051058147
1.87714179
1.630289604

NYU1117
Benign
1.804011915
2.269808799
1.935836838
1.97780537

NYU1201
Cancer
2.091470394
2.513619865
2.263274313
2.074504082

PC_02

1.717308831
2.055048192
1.79352316
1.835441594

NYU887
Cancer
1.870834368
2.135242049
1.814586691
1.910868978

NYU815
Benign
2.64634629
2.652790985
2.318704233
2.166724345

NYU927
Cancer
1.66714939
2.114793161
1.674869166
1.709789864

NYU1030
Benign
1.691220349
1.971848674
1.602915403
1.679993305

NYU1151
Cancer
2.047166746
2.434464449
2.095245668
2.265576852

NYU1005
Benign
1.872098827
2.317668284
1.883241798
1.972931179

NYU522
Benign
2.009565689
2.06792207
1.898737159
1.762096773

NYU389
Cancer
2.110052923
2.427932717
2.332551334
2.171708867

PC_03

1.846866493
2.180579969
1.753178219
1.911855984

NYU729
Cancer
1.737136644
1.872042469
1.946104733
1.973800638

NYU430
Benign
1.743195701
1.855279061
2.16768636
1.70979712

NYU144
Benign
1.744356949
1.93280403
1.765743144
1.671589307

NYU256
Cancer
1.475105658
1.517975011
1.312048938
1.24753975

NYU1000
Benign
1.546766039
2.042826784
1.651387308
1.839538435

NYU575
Cancer
2.07240169
2.191794118
1.974811979
1.873233062

PC_04

1.787809938
2.302328159
1.969334484
1.809324799

TABLE 11F

PV2 fidelity small nodule batch all transitions (normalized)

LTLLAPLNSVFK_658.40_512.30
LTLLAPLNSVFK_658.40_804.50

msfile-

(SEQ ID
(SEQ ID

name
status
No.: 46)
No.: 46)

PC_01

1.397019775
1.440438817

ZCO489_02
Benign
1.248372238
1.257550712

ZCO436_02
Cancer
1.14998825
1.198781653

ZCO512_02
Cancer
1.298691948
1.287300649

ZCO475_02
Benign
1.394008635
1.375906455

ZCO485_02
Benign
1.564462757
1.543963292

ZCO536_02
Cancer
2.016527204
2.023578087

PC_02

1.326360733
1.264182106

ZCO496_02
Benign
1.301369896
1.310644033

ZCO502_02
Cancer
1.090994052
1.0300183

ZCO382_02
Benign
0.833444785
0.832621479

ZCO431_02
Cancer
0.886868669
0.990611631

ZCO449_02
Cancer
1.547547047
1.580291665

ZCO537_02
Benign
1.572411812
1.519120984

ZCO362_02
Benign
0.767169538
0.777174131

ZCO488_02
Benign
1.454825525
1.413965873

PC_03

1.36708042
1.369045929

ZCO535_02
Benign
0.714796903
0.760840551

ZCO443_02
Cancer
1.326278954
1.39914195

ZCO393_02
Benign
1.202176119
1.26986427

ZCO503_02
Cancer
1.183898333
1.22215624

ZCO438_02
Cancer
1.503069176
1.515731362

ZCO406_02
Benign
1.905394777
1.854087722

PC_04

1.480682041
1.421632852

PC_01

1.41960685
1.372496446

00082_07
Cancer
1.535229885
1.657175755

02286_07
Benign
1.551089982
1.55609209

02280_06
Cancer
1.34525595
1.439836948

01123_06
Benign
1.55800292
1.492237393

00156_07
Cancer
1.687960144
1.632424321

00781_09
Benign
2.235668602
2.17674569

00539_08
Cancer
1.285722204
1.30334384

02241_07
Cancer
1.082222201
1.120984794

02226_05
Benign
1.616736686
1.629091702

PC_03

1.414076108
1.530005699

00542_08
NA
1.458646284
1.39966386

02497_10
NA
1.83390026
1.783296155

02224_05
Benign
1.8091712
1.748036919

00748_09
Cancer
1.287263073
1.322675499

03630_09
Benign
1.503087374
1.44608336

02279_07
Cancer
1.306177062
1.277258106

PC_04

1.356357136
1.407416626

PC_01

1.391528036
1.480970747

NYU806
Benign
1.331117277
1.359452087

NYU777
Cancer
1.07779325
1.014586332

NYU176
Benign
1.498223403
1.537471813

NYU888
Cancer
1.307841105
1.378455859

NYU1117
Benign
1.168152742
1.171928217

NYU1201
Cancer
1.054141873
1.102004179

PC_02

1.311253724
1.400528282

NYU887
Cancer
1.431161601
1.539649799

NYU815
Benign
1.449295278
1.417166496

NYU927
Cancer
1.323825757
1.328964099

NYU1030
Benign
1.380621371
1.484141052

NYU1151
Cancer
1.558434039
1.576736275

NYU1005
Benign
2.34001241
2.387945416

NYU522
Benign
1.40442773
1.480809064

NYU389
Cancer
1.061187422
1.023308665

PC_03

1.307831291
1.422596669

NYU729
Cancer
1.571044996
1.6020581

NYU430
Benign
1.114704773
1.191817122

NYU144
Benign
1.711263664
1.756990303

NYU256
Cancer
1.062643845
1.144548794

NYU1000
Benign
1.215751159
1.424990734

NYU575
Cancer
1.062224757
1.093109211

PC_04

1.438307541
1.382155039

LTLLAPLNSVFK_658.40_875.50
QITVNDLPVGR_606.30_428.30

msfile-

(SEQ ID
(SEQ ID

name
status
No.: 46)
No.: 58)

PC_01

1.408320389
0.140036856

ZCO489_02
Benign
1.265195424
0.368097138

ZCO436_02
Cancer
1.156780759
0.342026932

ZCO512_02
Cancer
1.301703575
0.41026912

ZCO475_02
Benign
1.360896226
0.740034792

ZCO485_02
Benign
1.444034077
0.714120326

ZCO536_02
Cancer
2.052326172
1.489438136

PC_02

1.3099451
0.094821076

ZCO496_02
Benign
1.298069763
0.658680927

ZCO502_02
Cancer
0.991102367
0.441575472

ZCO382_02
Benign
0.808928742
0.148374361

ZCO431_02
Cancer
0.907993266
0.544123251

ZCO449_02
Cancer
1.529918218
0.462641275

ZCO537_02
Benign
1.624342357
0.392673881

ZCO362_02
Benign
0.77091823
0.08193127

ZCO488_02
Benign
1.432081227
0.639309416

PC_03

1.368135651
0.082179578

ZCO535_02
Benign
0.685501208
1.460044819

ZCO443_02
Cancer
1.384651088
0.906263536

ZCO393_02
Benign
1.164154495
0.150077788

ZCO503_02
Cancer
1.142216538
0.367134903

ZCO438_02
Cancer
1.52737559
0.312207395

ZCO406_02
Benign
1.883230938
0.689984066

PC_04

1.370810583
0.091022526

PC_01

1.383506317
0.09218022

00082_07
Cancer
1.446449816
0.442238684

02286_07
Benign
1.508277494
0.391968732

02280_06
Cancer
1.430086213
0.278475318

01123_06
Benign
1.50977305
0.317843837

00156_07
Cancer
1.56912655
0.428683661

00781_09
Benign
2.067038413
0.467632972

00539_08
Cancer
1.299652439
0.391847577

02241_07
Cancer
1.132727899
0.205185454

02226_05
Benign
1.731411833
0.24677982

PC_03

1.555737889
0.101331218

00542_08
NA
1.41315531
0.205362102

02497_10
NA
1.639862023
0.157254386

02224_05
Benign
1.665068787
0.216326452

00748_09
Cancer
1.226273772
0.626520726

03630_09
Benign
1.562117498
0.633935473

02279_07
Cancer
1.276392361
0.663737282

PC_04

1.353649935
0.094348058

PC_01

1.420145306
0.091638163

NYU806
Benign
1.309450367
3.790621014

NYU777
Cancer
1.048223272
0.729776699

NYU176
Benign
1.469807867
0.394314508

NYU888
Cancer
1.375802411
0.437481689

NYU1117
Benign
1.107437116
0.379747836

NYU1201
Cancer
1.053419806
0.522505753

PC_02

1.286772984
0.084077035

NYU887
Cancer
1.582864754
0.32970087

NYU815
Benign
1.413101139
0.433810008

NYU927
Cancer
1.402704425
0.38104063

NYU1030
Benign
1.401211524
0.244739708

NYU1151
Cancer
1.581026453
0.645301436

NYU1005
Benign
2.357944664
0.653943035

NYU522
Benign
1.422573078
0.599539459

NYU389
Cancer
1.045240838
0.509607849

PC_03

1.425534637
0.090815167

NYU729
Cancer
1.515391409
0.308012701

NYU430
Benign
1.149396391
0.423282629

NYU144
Benign
1.893851951
0.610951435

NYU256
Cancer
1.036833381
0.260987318

NYU1000
Benign
1.374138913
0.35271459

NYU575
Cancer
1.072566385
0.441835699

PC_04

1.471701265
0.085559114

QITVNDLPVGR_606.30_770.40
QITVNDLPVGR_606.30_970.50

msfile-

(SEQ ID
(SEQ ID

name
status
No.: 58)
No.: 58)

PC_01

0.133841723
0.134340656

ZCO489_02
Benign
0.344569936
0.327282944

ZCO436_02
Cancer
0.330249049
0.359799682

ZCO512_02
Cancer
0.411436366
0.428489838

ZCO475_02
Benign
0.725962804
0.698053406

ZCO485_02
Benign
0.628583382
0.668137369

ZCO536_02
Cancer
1.601101751
1.583268915

PC_02

0.101718509
0.093425751

ZCO496_02
Benign
0.666485575
0.61449894

ZCO502_02
Cancer
0.476940556
0.473511033

ZCO382_02
Benign
0.150925084
0.133317652

ZCO431_02
Cancer
0.465191577
0.503644005

ZCO449_02
Cancer
0.458879365
0.474761462

ZCO537_02
Benign
0.363404259
0.394794869

ZCO362_02
Benign
0.08758701
0.080825527

ZCO488_02
Benign
0.641375067
0.741769175

PC_03

0.084904301
0.093672737

ZCO535_02
Benign
1.515887099
1.488774865

ZCO443_02
Cancer
0.981605149
0.952251064

ZCO393_02
Benign
0.134203155
0.139742993

ZCO503_02
Cancer
0.373887621
0.390737216

ZCO438_02
Cancer
0.300753938
0.330903534

ZCO406_02
Benign
0.681955631
0.783801505

PC_04

0.081568779
0.08731202

PC_01

0.08590282
0.083739409

00082_07
Cancer
0.459305224
0.434193992

02286_07
Benign
0.381738552
0.406814381

02280_06
Cancer
0.28241687
0.282848162

01123_06
Benign
0.34766754
0.344895956

00156_07
Cancer
0.430863443
0.462490344

00781_09
Benign
0.484566226
0.4624234

00539_08
Cancer
0.367029944
0.41946979

02241_07
Cancer
0.209126528
0.207153955

02226_05
Benign
0.21707405
0.230335795

PC_03

0.094507381
0.096407947

00542_08
NA
0.212570861
0.22459793

02497_10
NA
0.160755983
0.148305

02224_05
Benign
0.229751467
0.217676529

00748_09
Cancer
0.634291294
0.683112641

03630_09
Benign
0.666180143
0.615976033

02279_07
Cancer
0.672731362
0.685137029

PC_04

0.10739817
0.111548467

PC_01

0.095408397
0.092906733

NYU806
Benign
3.759575263
4.073354282

NYU777
Cancer
0.704831811
0.718348154

NYU176
Benign
0.415015184
0.404594201

NYU888
Cancer
0.461984786
0.421479958

NYU1117
Benign
0.357406388
0.345429654

NYU1201
Cancer
0.628612248
0.531211309

PC_02

0.094042385
0.08667037

NYU887
Cancer
0.352324669
0.349157484

NYU815
Benign
0.432750854
0.410063603

NYU927
Cancer
0.390174887
0.411977347

NYU1030
Benign
0.239294233
0.245158545

NYU1151
Cancer
0.610138376
0.690791214

NYU1005
Benign
0.731222267
0.771790256

NYU522
Benign
0.578544015
0.604597387

NYU389
Cancer
0.578731929
0.599429304

PC_03

0.078349713
0.073937085

NYU729
Cancer
0.313818668
0.356745449

NYU430
Benign
0.426927488
0.458903895

NYU144
Benign
0.692975397
0.691138704

NYU256
Cancer
0.266877087
0.286864756

NYU1000
Benign
0.348783259
0.3578193

NYU575
Cancer
0.457111621
0.447763533

PC_04

0.085671779
0.089047258

SGYLL-

msfile-

PDTK_497.27_308.10

name
status
(SEQ ID No.: 49)

PC_01

0.25200544

ZCO489_02
Benign
0.275702255

ZCO436_02
Cancer
0.237543303

ZCO512_02
Cancer
0.285664279

ZCO475_02
Benign
0.275715977

ZCO485_02
Benign
0.273465876

ZCO536_02
Cancer
0.365913415

PC_02

0.20658164

ZCO496_02
Benign
0.140198796

ZCO502_02
Cancer
0.649969869

ZCO382_02
Benign
0.129000788

ZCO431_02
Cancer
0.34926771

ZCO449_02
Cancer
0.431369923

ZCO537_02
Benign
0.411144419

ZCO362_02
Benign
0.172834493

ZCO488_02
Benign
0.281204914

PC_03

0.2147304

ZCO535_02
Benign
0.229092353

ZCO443_02
Cancer
0.368838333

ZCO393_02
Benign
0.140637809

ZCO503_02
Cancer
0.246231267

ZCO438_02
Cancer
0.386312282

ZCO406_02
Benign
0.253501275

PC_04

0.205200937

PC_01

0.233904143

00082_07
Cancer
0.210837827

02286_07
Benign
0.230369362

02280_06
Cancer
0.150260267

01123_06
Benign
0.138757497

00156_07
Cancer
0.146687738

00781_09
Benign
0.253555335

00539_08
Cancer
0.142060017

02241_07
Cancer
0.114690297

02226_05
Benign
0.404136964

PC_03

0.277911928

00542_08
NA
0.200664214

02497_10
NA
0.16741174

02224_05
Benign
0.234358581

00748_09
Cancer
0.156667324

03630_09
Benign
0.249270454

02279_07
Cancer
0.166528815

PC_04

0.252708732

PC_01

0.263322053

NYU806
Benign
0.203829927

NYU777
Cancer
0.186476658

NYU176
Benign
0.305316437

NYU888
Cancer
0.205331169

NYU1117
Benign
0.260245221

NYU1201
Cancer
0.252420373

PC_02

0.216969241

NYU887
Cancer
0.164017508

NYU815
Benign
0.150519949

NYU927
Cancer
0.208405145

NYU1030
Benign
0.202679834

NYU1151
Cancer
0.28324733

NYU1005
Benign
0.269867542

NYU522
Benign
0.206984185

NYU389
Cancer
0.261759458

PC_03

0.209947368

NYU729
Cancer
0.201124706

NYU430
Benign
0.126281518

NYU144
Benign
0.300081632

NYU256
Cancer
0.142178097

NYU1000
Benign
0.261181015

NYU575
Cancer
0.648869277

PC_04

0.286895772

TABLE 11G

PV2 fidelity small nodule batch all transitions (normalized)

SGYLL-
SGYLL-

msfile-

PDTK_497.27_460.20
PDTK_497.27_573.30
SLEDLQLTHNK_433.23_201.10
SLEDLQLTHNK_433.23_398.20

name
status
(SEQ ID No.: 49)
(SEQ ID No.: 49)
(SEQ ID No.: 69)
(SEQ ID No.: 69)

PC_01

0.259039262
0.219077441
11.57925495
10.39641991

ZCO489_02
Benign
0.249417254
0.329040995
10.73518681
10.55524849

ZCO436_02
Cancer
0.182775959
0.249187938
12.91610824
12.84337424

ZCO512_02
Cancer
0.235629552
0.25546791
8.704645661
7.155892204

ZCO475_02
Benign
0.248094646
0.282197704
10.23615869
7.694189657

ZCO485_02
Benign
0.282432761
0.245450562
11.89260436
12.03732741

ZCO536_02
Cancer
0.260545425
0.292649264
9.756107747
9.571351027

PC_02

0.195003637
0.222538734
9.887590589
10.30154087

ZCO496_02
Benign
0.112294816
0.168430306
11.03086777
10.55433999

ZCO502_02
Cancer
0.51908916
0.706454894
12.233955
12.20174079

ZCO382_02
Benign
0.168493941
0.134887786
9.339815037
10.92709606

ZCO431_02
Cancer
0.267889273
0.336145026
8.480073896
6.902496276

ZCO449_02
Cancer
0.357813393
0.410711223
9.604240971
10.26634765

ZCO537_02
Benign
0.365861619
0.341780607
11.86147691
10.94603564

ZCO362_02
Benign
0.182205838
0.190755753
8.462651763
7.087385169

ZCO488_02
Benign
0.221708484
0.2856137
9.322091671
10.79907558

PC_03

0.225363578
0.246174148
12.60518377
10.81960615

ZCO535_02
Benign
0.216753595
0.193506617
7.393684534
8.546255579

ZCO443_02
Cancer
0.285716716
0.336714246
10.28126101
9.845567391

ZCO393_02
Benign
0.106774474
0.11700565
9.172544334
10.54345532

ZCO503_02
Cancer
0.215161689
0.229405795
9.687927401
9.669586255

ZCO438_02
Cancer
0.317377171
0.381061452
9.415485671
9.174224286

ZCO406_02
Benign
0.27135467
0.359586071
8.562187393
7.553260723

PC_04

0.164071275
0.212036546
11.22538013
11.16794117

PC_01

0.188912869
0.206754472
11.69053575
9.763695813

00082_07
Cancer
0.165929767
0.235976801
8.542926752
8.922374916

02286_07
Benign
0.184126678
0.198521586
9.028030052
8.316545975

02280_06
Cancer
0.117195084
0.125489379
8.988549312
9.054020603

01123_06
Benign
0.120882359
0.122613127
10.84563062
10.83008678

00156_07
Cancer
0.100270442
0.145839292
7.403127299
7.485749029

00781_09
Benign
0.225070947
0.277238564
9.716518085
8.922351562

00539_08
Cancer
0.109651306
0.100593969
9.368864709
8.595833069

02241_07
Cancer
0.106389454
0.101013635
10.15359823
10.22009348

02226_05
Benign
0.343387872
0.308596368
10.43247628
9.347133462

PC_03

0.200908725
0.203932077
11.29560435
11.20804061

00542_08
NA
0.198919386
0.228148544
7.384308429
8.217479242

02497_10
NA
0.157511596
0.174724326
9.090094286
7.543671081

02224_05
Benign
0.179032099
0.19294407
8.44040586
7.431227513

00748_09
Cancer
0.086376585
0.142273161
6.562339663
5.812465188

03630_09
Benign
0.144193898
0.190540532
8.340320874
8.238816

02279_07
Cancer
0.118615413
0.178100914
9.15917887
6.642332314

PC_04

0.223877959
0.234280697
10.81992991
11.53034528

PC_01

0.231386956
0.225308176
11.14697453
10.92803043

NYU806
Benign
0.184179426
0.214978401
6.91820576
7.378357334

NYU777
Cancer
0.150378048
0.194502454
8.773566408
8.851017381

NYU176
Benign
0.299365624
0.336849163
7.437428491
7.588040151

NYU888
Cancer
0.129565896
0.147584823
12.25968742
11.90947396

NYU1117
Benign
0.225774472
0.243344234
9.340885553
8.177442803

NYU1201
Cancer
0.168870122
0.207045319
8.830845646
7.17797761

PC_02

0.174296532
0.19821593
9.814448217
10.05361694

NYU887
Cancer
0.106823432
0.14065701
11.062029
11.6043805

NYU815
Benign
0.140654335
0.128478286
6.631685857
6.859559359

NYU927
Cancer
0.167794059
0.221649256
23.743224
18.09012219

NYU1030
Benign
0.149672834
0.161176463
12.30938555
12.58922293

NYU1151
Cancer
0.222644292
0.21184856
9.965813752
12.02665119

NYU1005
Benign
0.269322136
0.218264919
7.240708496
6.104904518

NYU522
Benign
0.179091953
0.161527401
8.193726412
8.134422763

NYU389
Cancer
0.226600985
0.255218663
13.78680838
11.84165017

PC_03

0.193557542
0.200261169
10.58016012
11.00922827

NYU729
Cancer
0.143378385
0.212629672
9.617827705
9.257839863

NYU430
Benign
0.100540417
0.106299763
9.292095998
7.585321069

NYU144
Benign
0.153602866
0.233960756
11.2417074
11.24212476

NYU256
Cancer
0.102957489
0.1193556
10.25763503
9.175316754

NYU1000
Benign
0.235933744
0.245722129
13.0055322
11.440134

NYU575
Cancer
0.656053444
0.629702703
8.756843627
8.841111643

PC_04

0.186289483
0.221204317
11.46206466
10.34865302

msfile-

SLEDLQLTHNK_433.23_499.30
SLEDLQLTHNK_433.23_549.30
STGGAPTFNVTVTK_690.40_1006.60

name
status
(SEQ ID No.: 69)
(SEQ ID No.: 69)
(SEQ ID No.: 59)

PC_01

8.663397254
9.999242891
1.142968007

ZCO489_02
Benign
10.59086608
10.1242332
5.380295112

ZCO436_02
Cancer
12.2085805
12.42367468
1.326718344

ZCO512_02
Cancer
6.970339585
7.524573956
3.472889972

ZCO475_02
Benign
6.460621068
9.006398041
2.255173628

ZCO485_02
Benign
9.615596081
9.615904997
1.787692571

ZCO536_02
Cancer
7.12408201
9.997842178
1.863201978

PC_02

8.313424621
10.97273253
0.200718037

ZCO496_02
Benign
10.23417503
11.12587706
1.601688592

ZCO502_02
Cancer
11.63713908
12.33951
8.351675963

ZCO382_02
Benign
8.477026939
8.972779477
0.615714724

ZCO431_02
Cancer
6.147584103
7.484066038
7.032595597

ZCO449_02
Cancer
9.522149718
9.908429897
3.657794104

ZCO537_02
Benign
10.22278412
12.13474159
2.597102887

ZCO362_02
Benign
6.93362411
7.859011582
0.29986413

ZCO488_02
Benign
9.310245818
10.02037198
2.144289829

PC_03

8.155979498
10.03658055
0.171283411

ZCO535_02
Benign
6.631012748
7.256760964
1.928595864

ZCO443_02
Cancer
8.747238873
10.24520434
10.76552705

ZCO393_02
Benign
9.674823538
9.31974161
0.622374681

ZCO503_02
Cancer
9.847385384
9.564025811
3.494740954

ZCO438_02
Cancer
8.15145506
7.635939814
4.228342912

ZCO406_02
Benign
7.120049044
8.509069483
1.373313009

PC_04

8.695105229
10.43022381
0.178458126

PC_01

9.482514689
10.92692696
0.173126018

00082_07
Cancer
6.5399985
8.363316237
0.12047598

02286_07
Benign
8.557462421
8.959897054
0.170735668

02280_06
Cancer
7.857754161
10.69350292
0.081254189

01123_06
Benign
8.239742349
10.09731843
0.085846412

00156_07
Cancer
6.777689091
8.756654339
0.107937913

00781_09
Benign
8.075850907
9.09732579
0.093620966

00539_08
Cancer
8.168375073
8.44215454
0.100014553

02241_07
Cancer
10.05647486
11.5086463
0.131739911

02226_05
Benign
8.691123853
11.16539669
0.22969415

PC_03

10.31283316
9.629261683
0.187805798

00542_08
NA
6.99628777
9.025756929
0.089758113

02497_10
NA
6.899435369
8.715953965
0.092429943

02224_05
Benign
6.775835594
9.439486591
0.098560453

00748_09
Cancer
5.322002706
6.898127257
0.143447572

03630_09
Benign
7.670530004
8.856862045
0.228114787

02279_07
Cancer
6.595751937
6.271615403
0.166049272

PC_04

7.80380286
10.48520116
0.182471201

PC_01

7.877702583
10.48224891
0.170653681

NYU806
Benign
5.333116062
6.562916105
1.311153821

NYU777
Cancer
6.691213338
9.039073958
1.789595468

NYU176
Benign
6.530690391
7.968856545
0.859754289

NYU888
Cancer
9.682329133
10.63122893
0.712138635

NYU1117
Benign
7.983833074
8.017893943
0.196702753

NYU1201
Cancer
6.778633359
9.644425387
0.255842608

PC_02

7.82668019
11.08562831
0.148263017

NYU887
Cancer
9.157503928
9.581615668
0.622925567

NYU815
Benign
5.58683508
6.644158481
0.61874537

NYU927
Cancer
20.48875754
20.91810768
0.734492975

NYU1030
Benign
12.72107421
13.63422733
0.303388296

NYU1151
Cancer
8.078260641
9.234120074
0.840325318

NYU1005
Benign
5.039250067
5.902503336
3.712835952

NYU522
Benign
7.080564738
7.595608466
1.215293234

NYU389
Cancer
10.19739253
10.41992457
2.713271299

PC_03

8.404635139
9.886730891
0.173477967

NYU729
Cancer
9.463517804
10.33609953
2.523751621

NYU430
Benign
8.277757442
8.919339759
2.963548973

NYU144
Benign
9.905118411
11.92773688
0.939075077

NYU256
Cancer
9.314330924
10.33916006
0.21068248

NYU1000
Benign
9.944989388
11.53391777
0.686895277

NYU575
Cancer
8.802021235
9.682501805
10.64047698

PC_04

9.271280586
10.65020864
0.170857572

TABLE 11H

PV2 fidelity small nodule batch all transitions (normalized)

msfile-

STGGAPTFNVTVTK_690.40_189.10
STGGAPTFNVTVTK_690.40_374.20
STGGAPTFNVTVTK_690.40_503.80

name
status
(SEQ ID No.: 59)
(SEQ ID No.: 59)
(SEQ ID No.: 59)

PC_01

1.189949781
0.969013493
1.036176191

ZCO489_02
Benign
4.620953931
4.919834447
5.830387389

ZCO436_02
Cancer
1.351900373
1.162646171
1.253201412

ZCO512_02
Cancer
3.629861444
3.234378614
3.402986127

ZCO475_02
Benign
1.962964765
2.078819139
2.217894338

ZCO485_02
Benign
1.698050857
1.799860613
1.681015115

ZCO536_02
Cancer
2.328040798
1.949159306
1.843767986

PC_02

0.208874889
0.176355654
0.194706306

ZCO496_02
Benign
1.60659048
1.860426657
1.821429035

ZCO502_02
Cancer
7.291452309
8.426445852
9.346632406

ZCO382_02
Benign
0.75164589
0.679464608
0.723910905

ZCO431_02
Cancer
7.413183207
5.681562681
6.270280261

ZCO449_02
Cancer
4.409776148
4.048685652
4.259454168

ZCO537_02
Benign
3.099846203
2.18696353
2.652757211

ZCO362_02
Benign
0.418502061
0.312557535
0.257297597

ZCO488_02
Benign
2.543454877
2.190791613
2.272822258

PC_03

0.163185958
0.18255317
0.173612589

ZCO535_02
Benign
1.781267077
2.085113981
1.758116489

ZCO443_02
Cancer
9.754515701
8.409271104
9.768793419

ZCO393_02
Benign
0.783929907
0.767060372
0.703601727

ZCO503_02
Cancer
3.71970436
4.01773478
3.296708197

ZCO438_02
Cancer
4.8618824
4.041951952
5.182986286

ZCO406_02
Benign
1.446128543
1.356393288
1.679824566

PC_04

0.179595149
0.162767556
0.189729703

PC_01

0.103249258
0.162207759
0.192544011

00082_07
Cancer
0.073232673
0.12966599
0.117183262

02286_07
Benign
0.1170579
0.154073924
0.173939045

02280_06
Cancer
0.076787303
0.127107121
0.076743593

01123_06
Benign
0.077899179
0.093530474
0.068734046

00156_07
Cancer
0.080962846
0.131813207
0.09562331

00781_09
Benign
0.095837639
0.101941366
0.102503388

00539_08
Cancer
0.133887564
0.122529152
0.096869824

02241_07
Cancer
0.149739748
0.170197688
0.146477626

02226_05
Benign
0.201908415
0.292195976
0.216936257

PC_03

0.167612859
0.204200336
0.137909747

00542_08
NA
0.069816506
0.134316206
0.110516916

02497_10
NA
0.094835625
0.102094401
0.066275407

02224_05
Benign
0.067665967
0.141559076
0.069374682

00748_09
Cancer
0.15155278
0.165273083
0.146103828

03630_09
Benign
0.154496771
0.23746089
0.239488331

02279_07
Cancer
0.16734067
0.189633152
0.146880961

PC_04

0.148976959
0.172638409
0.160256636

PC_01

0.171072995
0.184315169
0.19766307

NYU806
Benign
1.36468122
1.24735286
1.568464998

NYU777
Cancer
1.669445384
1.661986165
1.942547972

NYU176
Benign
0.835169126
0.722325779
0.808706151

NYU888
Cancer
0.779955019
0.644984296
0.875168505

NYU1117
Benign
0.20649441
0.194336128
0.201848218

NYU1201
Cancer
0.167783276
0.227639308
0.21613797

PC_02

0.216201866
0.176864356
0.169253229

NYU887
Cancer
0.551312556
0.635613618
0.513406235

NYU815
Benign
0.812444178
0.655842644
0.735383189

NYU927
Cancer
0.717993912
0.766999812
0.659775142

NYU1030
Benign
0.222384201
0.294842923
0.240606864

NYU1151
Cancer
0.76886674
0.724251662
0.77576766

NYU1005
Benign
4.943001883
3.952654021
4.25529731

NYU522
Benign
1.334830284
1.321292647
1.310400265

NYU389
Cancer
3.153398187
2.960427455
2.895069524

PC_03

0.202400832
0.173716853
0.177407046

NYU729
Cancer
2.799490114
2.591317472
3.65849017

NYU430
Benign
3.393586195
3.106498294
3.213322218

NYU144
Benign
1.020351786
0.8455283
0.923926514

NYU256
Cancer
0.136102572
0.170306505
0.210346966

NYU1000
Benign
0.755545204
0.608507889
0.758393217

NYU575
Cancer
9.370854581
8.379748974
10.65591399

PC_04

0.256751531
0.175977771
0.182963976

msfile-

TASDFITK_441.73_173.10
TASDFITK_441.73_508.30
TASDFITK_441.73_710.40
TASDFITK_441.73_781.40

name
status
(SEQ ID No.: 64)
(SEQ ID No.: 64)
(SEQ No.: 64)
(SEQ ID No.: 64)

PC_01

0.49459641
0.486394681
0.507071405
0.509703713

ZCO489_02
Benign
0.458478046
0.533938526
0.60390872
0.509533114

ZCO436_02
Cancer
0.296002356
0.32329638
0.314401607
0.30528425

ZCO512_02
Cancer
0.255278048
0.246625416
0.255024711
0.264197356

ZCO475_02
Benign
0.330346276
0.358364281
0.382697435
0.32997927

ZCO485_02
Benign
0.484038468
0.460932834
0.499774861
0.479965645

ZCO536_02
Cancer
0.366089666
0.426889248
0.445901022
0.407319812

PC_02

0.41791411
0.408874975
0.427102477
0.453630992

ZCO496_02
Benign
0.503999744
0.452130759
0.489181184
0.505450838

ZCO502_02
Cancer
0.355552536
0.364941238
0.384201125
0.412888951

ZCO382_02
Benign
0.33125267
0.375606259
0.378901681
0.358819812

ZCO431_02
Cancer
0.296399036
0.301015116
0.309282461
0.316636966

ZCO449_02
Cancer
0.488275503
0.537707344
0.594498454
0.546875537

ZCO537_02
Benign
0.479134102
0.488148643
0.544376163
0.535850651

ZCO362_02
Benign
0.444009721
0.505752707
0.492502088
0.477235573

ZCO488_02
Benign
0.444544763
0.519100176
0.540363647
0.476375639

PC_03

0.4601642
0.50258403
0.535348062
0.477717507

ZCO535_02
Benign
0.437123899
0.45220741
0.450781955
0.47921145

ZCO443_02
Cancer
0.340905903
0.3964135
0.408159712
0.375341658

ZCO393_02
Benign
0.392115192
0.42285587
0.433317077
0.478271697

ZCO503_02
Cancer
0.414083604
0.459524618
0.512173633
0.477236992

ZCO438_02
Cancer
0.194579805
0.212248453
0.204323394
0.186087391

ZCO406_02
Benign
0.368553069
0.388582605
0.428996038
0.405106449

PC_04

0.452066692
0.548488675
0.487692163
0.506700956

PC_01

0.473200498
0.56809841
0.55406269
0.564363566

00082_07
Cancer
0.386187751
0.420653163
0.445243176
0.42607336

02286_07
Benign
0.414915303
0.50287086
0.518923987
0.503674295

02280_06
Cancer
0.424805063
0.450352865
0.463086207
0.460293614

01123_06
Benign
0.559501125
0.633757057
0.616080873
0.661784062

00156_07
Cancer
0.222469259
0.28503586
0.27574027
0.260910541

00781_09
Benign
0.448771145
0.5304434
0.534545544
0.501334687

00539_08
Cancer
0.638668681
0.672223157
0.701812384
0.718042326

02241_07
Cancer
0.619561872
0.640561366
0.670091384
0.631696524

02226_05
Benign
0.377293235
0.413488006
0.370716448
0.40331382

PC_03

0.516530587
0.569289744
0.614636777
0.633929133

00542_08
NA
0.361556963
0.402800607
0.444191661
0.376767946

02497_10
NA
0.443549893
0.497099087
0.53199765
0.480236775

02224_05
Benign
0.41844047
0.53371495
0.499271682
0.494468044

00748_09
Cancer
0.357350016
0.420271276
0.41150019
0.42306665

03630_09
Benign
0.441634251
0.459741664
0.5179871
0.512272436

02279_07
Cancer
0.465548477
0.441129255
0.538369076
0.523602757

PC_04

0.519773303
0.479353267
0.524131518
0.538350952

PC_01

0.539686023
0.539112862
0.542974643
0.561181104

NYU806
Benign
0.367140129
0.385414699
0.378598904
0.435744729

NYU777
Cancer
0.432315925
0.515451875
0.494591864
0.541002277

NYU176
Benign
0.427771172
0.456555363
0.475645565
0.46324018

NYU888
Cancer
0.491868465
0.536135948
0.549561599
0.556075535

NYU1117
Benign
0.469580468
0.460944911
0.505952082
0.537708242

NYU1201
Cancer
0.397994925
0.476088676
0.490172618
0.451025721

PC_02

0.453300715
0.549556397
0.534580335
0.5254141

NYU887
Cancer
0.379263411
0.39500895
0.412319446
0.402171783

NYU815
Benign
0.422318543
0.472109772
0.501296351
0.491571943

NYU927
Cancer
0.45918252
0.519782815
0.549628671
0.538270156

NYU1030
Benign
0.471423543
0.499487118
0.520700004
0.507518824

NYU1151
Cancer
0.309717053
0.395665111
0.316980095
0.338919958

NYU1005
Benign
0.416175563
0.505086184
0.468979894
0.489515837

NYU522
Benign
0.511811269
0.613797414
0.664364981
0.621353055

NYU389
Cancer
0.414186206
0.445788863
0.415405634
0.460854079

PC_03

0.484115037
0.531826075
0.594038127
0.532518503

NYU729
Cancer
0.250642721
0.249039614
0.271026177
0.291734624

NYU430
Benign
0.456839862
0.586750677
0.553736087
0.55722498

NYU144
Benign
0.391207165
0.407449865
0.424726188
0.43826024

NYU256
Cancer
0.323214707
0.395300487
0.369736486
0.410786943

NYU1000
Benign
0.447333034
0.683863969
0.568104523
0.590875857

NYU575
Cancer
0.408082014
0.447958234
0.464701159
0.479207455

PC_04

0.539401312
0.566074489
0.635465994
0.597174964

TABLE 11I

PV2 fidelity small nodule batch all transitions (normalized)

msfile

TGVITSPDFPNPYPK_816.92_1074.50
TGVITSPDFPNPYPK_816.92_1262.60
TGVITSPDFPNPYPK_816.92_258.10

name
status
(SEQ ID No.: 65)
(SEQ ID No.: 65)
(SEQ ID No.: 65)

PC_01

0.274942325
0.294434025
0.387930241

ZCO489_02
Benign
0.386416729
0.626207929
0.501054517

ZCO436_02
Cancer
0.256214405
0.238533793
0.379176506

ZCO512_02
Cancer
0.294530407
0.294426257
0.398279662

ZCO475_02
Benign
0.398478031
0.358046576
0.508910412

ZCO485_02
Benign
0.371589119
0.369424981
0.539966001

ZCO536_02
Cancer
0.42064913
0.419273049
0.588831894

PC_02

0.250479047
0.271549936
0.35564938

ZCO496_02
Benign
0.247057402
0.235194327
0.313896305

ZCO502_02
Cancer
0.235372347
0.218117777
0.339417409

ZCO382_02
Benign
0.288320382
0.274472937
0.383660241

ZCO431_02
Cancer
0.338365328
0.352936816
0.461338239

ZCO449_02
Cancer
0.394296564
0.371508169
0.506913954

ZCO537_02
Benign
0.407926871
0.392877144
0.454410291

ZCO362_02
Benign
0.224967335
0.236613958
0.326314227

ZCO488_02
Benign
0.325465266
0.340313629
0.393393161

PC_03

0.281686659
0.300252735
0.368562549

ZCO535_02
Benign
0.314821685
0.296415482
0.430263193

ZCO443_02
Cancer
0.301254797
0.300093448
0.731197366

ZCO393_02
Benign
NA
NA
0.434736779

ZCO503_02
Cancer
0.373432468
0.648704079
0.414309406

ZCO438_02
Cancer
0.299909745
0.271515844
0.37081918

ZCO406_02
Benign
0.424586271
0.405393241
0.634224495

PC_04

0.260166337
0.262808361
0.370212505

PC_01

0.269237828
0.229901491
0.361821993

00082_07
Cancer
0.271889389
0.169400118
0.351018965

02286_07
Benign
0.342387798
0.339098552
0.372671351

02280_06
Cancer
NA
0.341880353
0.451177221

01123_06
Benign
0.110246757
0.317727626
0.384694739

00156_07
Cancer
NA
0.144682654
0.382674384

00781_09
Benign
0.435910306
0.457321138
0.484450881

00539_08
Cancer
0.159905152
NA
0.387482384

02241_07
Cancer
0.312441811
0.301791081
0.359303316

02226_05
Benign
0.441313783
0.868397059
0.511441537

PC_03

NA
0.403048829
0.352386088

00542_08
NA
0.211511543
0.33474463
0.40699555

02497_10
NA
0.324734355
0.287418813
0.360615786

02224_05
Benign
0.364170512
0.342104686
0.400828695

00748_09
Cancer
0.291765728
0.118473046
0.360062767

03630_09
Benign
0.30558686
0.377471463
0.430549832

02279_07
Cancer
0.275606233
0.268953939
0.385835855

PC_04

0.28451702
0.253391103
0.334325556

PC_01

0.179074421
0.255269705
0.348735991

NYU806
Benign
0.354115392
0.311176075
0.383427748

NYU777
Cancer
0.391369958
0.394751741
0.448114978

NYU176
Benign
0.29733621
0.28945936
0.375507764

NYU888
Cancer
0.152479442
0.105784247
0.272851073

NYU1117
Benign
0.009857224
NA
0.535764706

NYU1201
Cancer
0.345591222
0.297905848
0.364715477

PC_02

0.254475647
0.222636788
0.310394161

NYU887
Cancer
0.331242414
0.312771673
0.444586416

NYU815
Benign
0.380961767
0.36706044
0.472542798

NYU927
Cancer
0.337624251
0.295033468
0.378088454

NYU1030
Benign
0.141167687
NA
0.305936373

NYU1151
Cancer
0.225543382
0.300765011
0.410540494

NYU1005
Benign
NA
0.341386695
0.430532246

NYU522
Benign
0.166721136
0.284336439
0.34459966

NYU389
Cancer
0.286538993
0.5812878
0.373990992

PC_03

NA
NA
0.349242226

NYU729
Cancer
188.9129305
NA
2.446036131

NYU430
Benign
0.225122985
0.215164926
0.305350214

NYU144
Benign
0.266119432
0.29426018
0.36226741

NYU256
Cancer
0.401227067
0.35551106
0.472762458

NYU1000
Benign
0.260179967
0.269792107
0.333538057

NYU575
Cancer
0.287601789
0.297853282
0.368399783

PC_04

0.162856409
0.093679005
0.340183007

msfile

TGVITSPDFPNPYPK_816.92_715.40
TVLWPNGLSLDIPAGR_855.00_1209.70

name
status
(SEQ ID No.: 65)
(SEQ ID No.: 57)

PC_01

0.313687198
0.024336736

ZCO489_02
Benign
0.371098896
0.030724537

ZCO436_02
Cancer
0.266504853
0.018384378

ZCO512_02
Cancer
0.358204735
0.021708138

ZCO475_02
Benign
0.26541615
0.025521114

ZCO485_02
Benign
0.431162086
0.038315684

ZCO536_02
Cancer
0.461656539
0.040891397

PC_02

0.235946775
0.028548975

ZCO496_02
Benign
0.262914251
0.027488396

ZCO502_02
Cancer
0.226621528
0.029143645

ZCO382_02
Benign
0.265533031
0.016356725

ZCO431_02
Cancer
0.265005494
0.02057335

ZCO449_02
Cancer
0.321697994
0.024290384

ZCO537_02
Benign
0.30543116
0.036165076

ZCO362_02
Benign
0.282540989
0.013297179

ZCO488_02
Benign
0.37464508
0.027232478

PC_03

0.299836932
0.020669493

ZCO535_02
Benign
0.343588009
0.029806443

ZCO443_02
Cancer
0.43423048
0.035262216

ZCO393_02
Benign
0.683122563
0.017875412

ZCO503_02
Cancer
0.395550935
0.029086331

ZCO438_02
Cancer
0.311859041
0.025619734

ZCO406_02
Benign
0.445189924
0.01565807

PC_04

0.295760605
0.024960581

PC_01

0.171396503
0.027587383

00082_07
Cancer
0.243442138
0.035291209

02286_07
Benign
0.384797518
0.035251538

02280_06
Cancer
0.562098083
0.042219407

01123_06
Benign
0.334317053
0.037976025

00156_07
Cancer
0.345232238
0.034744807

00781_09
Benign
0.56079471
0.038714715

00539_08
Cancer
0.313817246
0.041870064

02241_07
Cancer
0.35952093
0.034253706

02226_05
Benign
NA
0.041345393

PC_03

NA
0.02956282

00542_08
NA
0.210725786
0.022512195

02497_10
NA
0.299669722
0.030004135

02224_05
Benign
0.376310491
0.0375988

00748_09
Cancer
0.209003788
0.034204408

03630_09
Benign
0.345131469
0.039758117

02279_07
Cancer
0.295009079
0.035600185

PC_04

0.307951309
0.029784484

PC_01

0.334797481
0.024953814

NYU806
Benign
0.379057127
0.03450794

NYU777
Cancer
0.443179443
0.030415492

NYU176
Benign
0.269008356
0.03482741

NYU888
Cancer
0.118100384
0.038536869

NYU1117
Benign
0.26814854
0.02996094

NYU1201
Cancer
0.302932311
0.039543512

PC_02

0.310900525
0.020758159

NYU887
Cancer
0.351647055
0.035737934

NYU815
Benign
0.462586234
0.033047805

NYU927
Cancer
0.178548639
0.033866408

NYU1030
Benign
0.293286713
0.032621811

NYU1151
Cancer
0.38613866
0.043754435

NYU1005
Benign
0.243445821
0.025601405

NYU522
Benign
NA
0.024872068

NYU389
Cancer
0.134764361
0.040505087

PC_03

0.767152277
0.025799004

NYU729
Cancer
31.91482133
0.042179563

NYU430
Benign
0.254280558
0.02314015

NYU144
Benign
0.32543046
0.048520132

NYU256
Cancer
0.407163807
0.044367501

NYU1000
Benign
0.29270535
0.053924113

NYU575
Cancer
0.315319686
0.025332753

PC_04

0.282632139
0.026554915

msfile

TVLWPNGLSLDIPAGR_855.00_314.20
TVLWPNGLSLDIPAGR_855.00_400.20

name
status
(SEQ ID No.: 57)
(SEQ ID No.: 57)

PC_01

0.004405061
0.018903818

ZCO489_02
Benign
0.020188871
0.024343008

ZCO436_02
Cancer
0.030142371
NA

ZCO512_02
Cancer
0.022366049
0.026938002

ZCO475_02
Benign
0.019521698
0.028238463

ZCO485_02
Benign
0.030439696
0.050718775

ZCO536_02
Cancer
0.0512681
0.056127472

PC_02

0.031093864
0.037142523

ZCO496_02
Benign
NA
0.057391568

ZCO502_02
Cancer
0.036157447
0.017131107

ZCO382_02
Benign
0.022633925
NA

ZCO431_02
Cancer
0.03103499
0.025604178

ZCO449_02
Cancer
0.087903137
0.020199955

ZCO537_02
Benign
0.046046417
0.02836914

ZCO362_02
Benign
0.016169716
0.015008629

ZCO488_02
Benign
0.0348481
0.025812051

PC_03

0.022183943
0.034050735

ZCO535_02
Benign
0.044226956
0.029604696

ZCO443_02
Cancer
0.051800587
0.054985515

ZCO393_02
Benign
0.010117057
NA

ZCO503_02
Cancer
0.039002351
0.034072094

ZCO438_02
Cancer
0.039387595
0.040000096

ZCO406_02
Benign
NA
0.029358732

PC_04

0.021816709
0.025974063

PC_01

0.032274353
0.036487102

00082_07
Cancer
NA
0.028929264

02286_07
Benign
0.050482999
0.059588946

02280_06
Cancer
NA
0.053574065

01123_06
Benign
0.04381684
0.037637823

00156_07
Cancer
0.033160086
0.045619499

00781_09
Benign
0.052359125
0.029004833

00539_08
Cancer
0.070653372
0.040619409

02241_07
Cancer
0.0679639
0.055322878

02226_05
Benign
0.039973049
NA

PC_03

0.023612405
NA

00542_08
NA
0.036117363
0.019938154

02497_10
NA
0.028728405
0.033636684

02224_05
Benign
0.029557414
0.038045333

00748_09
Cancer
0.006332442
0.038673519

03630_09
Benign
0.060559766
0.077657132

02279_07
Cancer
NA
NA

PC_04

NA
NA

PC_01

0.036430224
0.028147418

NYU806
Benign
0.031911416
0.032128348

NYU777
Cancer
0.043492829
0.033863252

NYU176
Benign
0.047885278
0.038998429

NYU888
Cancer
0.064154626
0.048527679

NYU1117
Benign
NA
0.035450915

NYU1201
Cancer
0.030107866
0.035881627

PC_02

0.029728346
0.035395008

NYU887
Cancer
0.057892629
0.05433076

NYU815
Benign
0.038626192
0.033774771

NYU927
Cancer
0.067994965
0.048759907

NYU1030
Benign
0.035739927
0.042833442

NYU1151
Cancer
0.038630057
0.042289067

NYU1005
Benign
0.03367156
0.052821592

NYU522
Benign
0.039452562
0.053163757

NYU389
Cancer
0.02963033
0.075064151

PC_03

NA
0.02272884

NYU729
Cancer
0.086885145
0.076657619

NYU430
Benign
0.032346816
0.038309358

NYU144
Benign
0.051476553
0.04634643

NYU256
Cancer
0.065822926
0.058352679

NYU1000
Benign
0.031385597
0.08732303

NYU575
Cancer
0.010537921
NA

PC_04

0.036324242
0.027321479

TABLE 11J

PV2 fidelity small nodule batch all transitions (normalized)

msfile

TVLWPNGLSLDIPAGR_855.00_500.30
TVLWPNGLSLDIPAGR_855.00_605.30
TWNDPSVQQDIK_715.85_260.20

name
status
(SEQ ID No.: 57)
(SEQ ID No.: 57)
(SEQ ID No.: 52)

PC_01

NA
NA
1.431903408

ZCO489_02
Benign
0.032768233
0.017381381
1.58801347

ZCO436_02
Cancer
0.033327029
0.006057702
1.324048724

ZCO512_02
Cancer
NA
NA
1.152959285

ZCO475_02
Benign
0.032461592
0.033063459
1.610438625

ZCO485_02
Benign
NA
0.02460675
1.124556038

ZCO536_02
Cancer
NA
0.034277568
1.411509416

PC_02

0.055681256
0.00619548
0.898966232

ZCO496_02
Benign
0.02368928
0.022827869
0.816839613

ZCO502_02
Cancer
0.024526155
0.035814327
3.180027781

ZCO382_02
Benign
0.023522618
NA
0.879197674

ZCO431_02
Cancer
0.040257438
0.022398652
1.335724674

ZCO449_02
Cancer
NA
0.027360641
1.553362142

ZCO537_02
Benign
0.034240123
0.026326642
1.098547556

ZCO362_02
Benign
0.029014186
0.008489188
0.960763956

ZCO488_02
Benign
0.050166347
0.024930029
1.544485913

PC_03

NA
0.026464348
1.267072453

ZCO535_02
Benign
0.043347525
0.016932441
1.367276955

ZCO443_02
Cancer
0.064243681
0.038708433
2.382940846

ZCO393_02
Benign
NA
0.032521166
0.773444302

ZCO503_02
Cancer
0.064533269
0.03277381
1.461371297

ZCO438_02
Cancer
NA
0.028588252
1.257666275

ZCO406_02
Benign
NA
NA
0.747632906

PC_04

NA
0.016602949
0.977901906

PC_01

0.022354436
0.031801844
1.296744613

00082_07
Cancer
0.005115966
0.04115921
0.556674419

02286_07
Benign
0.031180377
0.032771211
0.887260669

02280_06
Cancer
0.060077968
0.022812592
1.047316412

01123_06
Benign
0.043141283
0.04993089
0.884118243

00156_07
Cancer
0.034406653
0.035235544
0.596498487

00781_09
Benign
0.054855309
0.042196629
0.774301555

00539_08
Cancer
0.073685292
0.039008317
0.687864216

02241_07
Cancer
0.036098514
0.049638813
0.909111326

02226_05
Benign
0.029001066
0.053516623
0.890796972

PC_03

NA
0.026852498
1.073338427

00542_08
NA
0.035322097
0.026561735
0.780540076

02497_10
NA
0.044647722
0.018162496
0.75814843

02224_05
Benign
0.043768793
0.036842522
0.752606752

00748_09
Cancer
NA
0.03033514
0.843318354

03630_09
Benign
0.032350385
0.068506881
1.344495278

02279_07
Cancer
NA
0.016664633
0.61981917

PC_04

0.030441887
0.013355459
1.386708523

PC_01

NA
0.026246666
0.824261833

NYU806
Benign
0.046587191
0.030862468
1.006653335

NYU777
Cancer
0.037240957
0.029535584
1.153690221

NYU176
Benign
0.057959556
0.026336581
1.061589892

NYU888
Cancer
0.045696689
0.04217951
0.826180628

NYU1117
Benign
0.03475556
0.022284065
1.583108294

NYU1201
Cancer
0.050755841
0.039254029
1.148191141

PC_02

0.047725115
0.038872326
1.141574092

NYU887
Cancer
0.073531978
0.029004875
0.9833617

NYU815
Benign
0.014877039
0.03952594
0.96206858

NYU927
Cancer
0.03417933
0.037821103
1.195016343

NYU1030
Benign
0.050782936
0.049033676
0.717955583

NYU1151
Cancer
0.033858435
0.032220451
1.952928065

NYU1005
Benign
NA
0.038472686
0.789668266

NYU522
Benign
0.044262094
0.023393883
0.588226663

NYU389
Cancer
0.062971013
0.028160916
1.108065605

PC_03

NA
0.017757676
0.95582342

NYU729
Cancer
0.041936541
0.032908147
1.016450994

NYU430
Benign
0.043800851
0.034487131
0.823089982

NYU144
Benign
0.060358985
0.060337695
0.972611329

NYU256
Cancer
0.047050695
0.046100103
0.808311067

NYU1000
Benign
0.019003724
0.037718253
1.112966041

NYU575
Cancer
NA
NA
2.468006181

PC_04

0.057143891
0.035579405
1.029190185

msfile

TWNDPSVQQDIK_715.85_288.10
TWNDPSVQQDIK_715.85_517.20

name
status
(SEQ ID No.: 52)
(SEQ ID No.: 52)

PC_01

0.159508385
0.136449648

ZCO489_02
Benign
0.203082548
0.171495068

ZCO436_02
Cancer
0.146439347
0.128478471

ZCO512_02
Cancer
0.154932207
0.153812406

ZCO475_02
Benign
0.137142298
0.127853924

ZCO485_02
Benign
0.113837413
0.119515441

ZCO536_02
Cancer
0.137588909
0.135466039

PC_02

0.157143658
0.123823278

ZCO496_02
Benign
0.114910288
0.085520429

ZCO502_02
Cancer
0.306742678
0.288319622

ZCO382_02
Benign
0.087568762
0.058279827

ZCO431_02
Cancer
0.195121128
0.145245409

ZCO449_02
Cancer
0.171061408
0.183535337

ZCO537_02
Benign
0.171410034
0.122329689

ZCO362_02
Benign
0.083159378
0.056761611

ZCO488_02
Benign
0.1644119
0.130309094

PC_03

0.138832096
0.147086169

ZCO535_02
Benign
0.122018368
0.111726563

ZCO443_02
Cancer
0.250523788
0.285774724

ZCO393_02
Benign
0.084591376
0.080611799

ZCO503_02
Cancer
0.203288154
0.158134472

ZCO438_02
Cancer
0.21461978
0.150603439

ZCO406_02
Benign
0.117915629
0.080983514

PC_04

0.157668644
0.15171547

PC_01

0.139901055
0.128664698

00082_07
Cancer
0.069552065
0.09987679

02286_07
Benign
0.119751979
0.094897211

02280_06
Cancer
0.093923656
0.093174733

01123_06
Benign
0.105327229
0.107991239

00156_07
Cancer
0.106914499
0.110971164

00781_09
Benign
0.113291451
0.127026439

00539_08
Cancer
0.084377848
0.079281685

02241_07
Cancer
0.095826464
0.096461076

02226_05
Benign
0.100096976
0.116388954

PC_03

0.142428812
0.167108259

00542_08
NA
0.108560935
0.112037073

02497_10
NA
0.121168161
0.100227082

02224_05
Benign
0.098550753
0.0850397

00748_09
Cancer
0.080283103
0.088930171

03630_09
Benign
0.132056136
0.131044715

02279_07
Cancer
0.107048786
0.133370037

PC_04

0.166816338
0.179129202

PC_01

0.140624602
0.127492748

NYU806
Benign
0.096422046
0.12257464

NYU777
Cancer
0.138871673
0.163273881

NYU176
Benign
0.144667548
0.09856075

NYU888
Cancer
0.106164465
0.1087592

NYU1117
Benign
0.127488087
0.126473558

NYU1201
Cancer
0.088929521
0.084445045

PC_02

0.14044024
0.135675817

NYU887
Cancer
0.140107376
0.149468224

NYU815
Benign
0.158798007
0.141830461

NYU927
Cancer
0.151589691
0.135165428

NYU1030
Benign
0.109893573
0.129170623

NYU1151
Cancer
0.130419567
0.125009038

NYU1005
Benign
0.097062021
0.086112499

NYU522
Benign
0.100761719
0.103285489

NYU389
Cancer
0.139484872
0.134244456

PC_03

0.14337368
0.174242889

NYU729
Cancer
0.156901766
0.179138126

NYU430
Benign
0.107745392
0.107921576

NYU144
Benign
0.161754986
0.174846247

NYU256
Cancer
0.11187711
0.103320604

NYU1000
Benign
0.120476712
0.136708805

NYU575
Cancer
0.234080377
0.296528899

PC_04

0.157074531
0.142064389

VE-

msfile

TWNDPSVQQDIK_715.85_914.50
IFYR_413.73_229.10

name
status
(SEQ ID No.: 52)
(SEQ ID No.: 56)

PC_01

0.1626744
1.14431003

ZCO489_02
Benign
0.187624893
0.680456408

ZCO436_02
Cancer
0.135521211
1.636530042

ZCO512_02
Cancer
0.172954348
0.92035874

ZCO475_02
Benign
0.147028685
0.851729773

ZCO485_02
Benign
0.122123477
2.038086987

ZCO536_02
Cancer
0.217203897
1.129859348

PC_02

0.156149336
1.040080248

ZCO496_02
Benign
0.118551925
3.751246344

ZCO502_02
Cancer
0.362396231
1.492958157

ZCO382_02
Benign
0.104640216
0.594565781

ZCO431_02
Cancer
0.181215759
1.517575792

ZCO449_02
Cancer
0.159130008
1.345287181

ZCO537_02
Benign
0.198279164
1.565575261

ZCO362_02
Benign
0.09264149
1.014367724

ZCO488_02
Benign
0.164970453
2.095690582

PC_03

0.157764883
1.174970344

ZCO535_02
Benign
0.15866715
1.402927976

ZCO443_02
Cancer
0.294188957
1.215937498

ZCO393_02
Benign
0.100847311
1.62026608

ZCO503_02
Cancer
0.20485771
0.520895347

ZCO438_02
Cancer
0.187281018
1.652941497

ZCO406_02
Benign
0.109616928
1.688045592

PC_04

0.180948798
1.272460333

PC_01

0.163998599
1.128288775

00082_07
Cancer
0.084713163
1.512335242

02286_07
Benign
0.104814804
1.23740708

02280_06
Cancer
0.118689466
0.866126573

01123_06
Benign
0.150686334
0.522060265

00156_07
Cancer
0.117791267
1.45768743

00781_09
Benign
0.114892589
2.033642232

00539_08
Cancer
0.109567893
0.419795436

02241_07
Cancer
0.095350954
0.772844815

02226_05
Benign
0.126430566
3.113030846

PC_03

0.180313014
1.352227667

00542_08
NA
0.136881101
1.327838444

02497_10
NA
0.126117962
0.840551825

02224_05
Benign
0.110736604
0.981917018

00748_09
Cancer
0.116312645
0.798931973

03630_09
Benign
0.135264576
1.131381488

02279_07
Cancer
0.130522794
0.883709782

PC_04

0.171645746
1.17425384

PC_01

0.151945903
1.417275665

NYU806
Benign
0.128097546
1.065481691

NYU777
Cancer
0.172098834
1.518115332

NYU176
Benign
0.155474411
1.83548066

NYU888
Cancer
0.109537749
0.451284206

NYU1117
Benign
0.165043904
1.107641756

NYU1201
Cancer
0.11557104
0.768532339

PC_02

0.166048121
1.306269488

NYU887
Cancer
0.161387654
0.926291687

NYU815
Benign
0.177546434
1.170400778

NYU927
Cancer
0.155104027
1.206735576

NYU1030
Benign
0.130198065
1.697910607

NYU1151
Cancer
0.140722493
0.735688854

NYU1005
Benign
0.102829843
1.484373449

NYU522
Benign
0.106899011
1.014289009

NYU389
Cancer
0.119884021
1.596331539

PC_03

0.183477297
1.24701396

NYU729
Cancer
0.195560472
2.262741438

NYU430
Benign
0.099577064
2.071945023

NYU144
Benign
0.215428096
1.179988966

NYU256
Cancer
0.136216123
4.825963672

NYU1000
Benign
0.153050141
1.165044485

NYU575
Cancer
0.306730177
1.003603908

PC_04

0.187014302
1.181503823

TABLE 11K

PV2 fidelity small nodule batch all transitions (normalized)

VE-
VE-
VI-
VI-

msfile-

IFYR_413.73_485.30
IFYR_413.73_598.30
TEPIPVSDLR_669.89_213.20
TEPIPVSDLR_669.89_288.20

name
status
(SEQ ID No.: 56)
(SEQ ID No.: 56)
(SEQ ID No.: 70)
(SEQ ID No.: 70)

PC_01

1.185377324
0.981858931
0.190003007
0.25966457

ZCO489_02
Benign
0.712626071
0.746480771
0.232402915
0.27204687

ZCO436_02
Cancer
1.850286215
1.868160266
0.149900903
0.166522209

ZCO512_02
Cancer
0.856488182
0.923872611
0.16644378
0.25845205

ZCO475_02
Benign
0.898358414
0.761748845
0.168763285
0.290211213

ZCO485_02
Benign
2.036007549
1.814700073
0.180990816
0.265238163

ZCO536_02
Cancer
1.060640647
1.175600546
0.197634205
0.21798459

PC_02

1.124269825
1.112617961
0.226906043
0.242720238

ZCO496_02
Benign
4.129676436
3.438994921
0.148362949
0.24041611

ZCO502_02
Cancer
1.535259366
1.637869805
0.157797213
0.17752036

ZCO382_02
Benign
0.597750095
0.561589112
0.245177878
0.260529191

ZCO431_02
Cancer
1.700541394
1.439681904
0.215478475
0.30576355

ZCO449_02
Cancer
1.522681093
1.337431203
0.182373129
0.268803293

ZCO537_02
Benign
1.792135731
1.608554132
0.142502046
0.221916014

ZCO362_02
Benign
1.101519075
1.13292218
0.235528851
0.313307943

ZCO488_02
Benign
1.89436522
2.40769232
0.122809478
0.15700534

PC_03

1.32889926
1.241445296
0.224678286
0.324826177

ZCO535_02
Benign
1.316682724
1.310266004
0.149422558
0.30535255

ZCO443_02
Cancer
1.153436573
1.290910198
0.222961232
0.289913932

ZCO393_02
Benign
1.905653312
1.669484623
0.196784562
0.22791578

ZCO503_02
Cancer
0.589153419
0.697379349
0.200047494
0.242758097

ZCO438_02
Cancer
2.065952169
1.973116233
0.139543137
0.182652086

ZCO406_02
Benign
1.439305785
1.742586332
0.257647144
0.284332889

PC_04

1.360541053
1.168570432
0.251080937
0.263424697

PC_01

1.398987533
1.171265273
0.200016325
0.250442769

00082_07
Cancer
1.520781746
1.511805657
0.139981585
0.279124017

02286_07
Benign
1.14062114
1.130661549
0.144797272
0.233511592

02280_06
Cancer
0.907427212
0.967913982
0.168470642
0.221981398

01123_06
Benign
0.570016674
0.494505513
0.171706664
0.307454091

00156_07
Cancer
1.33968236
1.286636993
0.169913506
0.282137577

00781_09
Benign
1.950828074
1.804822859
0.213843438
0.287410603

00539_08
Cancer
0.504935567
0.427462056
0.143404061
0.212571932

02241_07
Cancer
0.735941086
0.887224928
0.143514642
0.182102531

02226_05
Benign
3.011680747
2.804493538
0.146853502
0.276757307

PC_03

1.374248304
1.342472871
0.190115554
0.299582872

00542_08
NA
1.567787376
1.165946835
0.130374377
0.249864043

02497_10
NA
0.96680498
0.824059576
0.183416628
0.285206309

02224_05
Benign
0.866238582
0.863121283
0.168091107
0.287435518

00748_09
Cancer
0.841028099
0.751929378
0.159579459
0.266164736

03630_09
Benign
1.096720873
1.142307729
0.186807642
0.254577079

02279_07
Cancer
0.990877363
1.030837596
0.150683937
0.166260562

PC_04

1.188880323
1.224428739
0.181077757
0.264466199

PC_01

1.201859363
1.204984716
0.183542749
0.27236094

NYU806
Benign
1.319297217
1.126548468
0.154485606
0.196308372

NYU777
Cancer
1.665413448
1.753075069
0.209778657
0.256587977

NYU176
Benign
1.316721682
1.792309875
0.275362472
0.275986698

NYU888
Cancer
0.520972757
0.466187434
0.17846081
0.181054252

NYU1117
Benign
1.241527809
1.21103684
0.200531043
0.229404993

NYU1201
Cancer
0.890630081
0.817265963
0.218825396
0.227318479

PC_02

1.08641051
1.066328425
0.185177428
0.32105068

NYU887
Cancer
0.850988458
0.884561315
0.216721613
0.227745888

NYU815
Benign
1.213231897
1.174591635
0.125908217
0.243008423

NYU927
Cancer
1.305365531
1.214397986
0.197166351
0.197962027

NYU1030
Benign
1.443085687
1.569928664
0.176064987
0.222752548

NYU1151
Cancer
0.715569388
0.794433787
0.189354478
0.23121749

NYU1005
Benign
1.549026026
1.313697733
0.168565879
0.291870758

NYU522
Benign
1.113891827
1.118159874
0.206030443
0.279239333

NYU389
Cancer
1.416389345
1.435622801
0.195633901
0.244875229

PC_03

1.192978593
1.250350366
0.210385442
0.30064569

NYU729
Cancer
2.07378768
2.561895738
0.287604891
0.45415791

NYU430
Benign
2.086481745
2.153346597
0.162537582
0.207581674

NYU144
Benign
1.181593763
1.229662151
0.16717989
0.218159468

NYU256
Cancer
4.22052202
4.623789602
0.219295124
0.289208632

NYU1000
Benign
1.18148021
1.234725445
0.229656982
0.311369265

NYU575
Cancer
1.083591249
1.092996549
0.204843217
0.275727736

PC_04

1.592847754
1.439432813
0.183753985
0.277644701

VI-
VI-
VI-

msfile-

TEPIPVSDLR_669.89_314.20
TEPIPVSDLR_669.89_686.40
TEPIPVSDLR_669.89_896.50

name
status
(SEQ ID No.: 70)
(SEQ ID No.: 70)
(SEQ ID No.: 70)

PC_01

0.357499248
0.267622659
0.272531408

ZCO489_02
Benign
0.327782779
0.280660242
0.287890838

ZCO436_02
Cancer
0.304207435
0.18247518
0.196154152

ZCO512_02
Cancer
0.233810319
0.23039763
0.262613742

ZCO475_02
Benign
0.328435196
0.310518428
0.294686929

ZCO485_02
Benign
0.287665838
0.236209948
0.262468507

ZCO536_02
Cancer
0.234134025
0.284448536
0.298101666

PC_02

0.352556629
0.245247532
0.282027647

ZCO496_02
Benign
0.308126734
0.210612757
0.218125265

ZCO502_02
Cancer
0.188717818
0.188431671
0.190637387

ZCO382_02
Benign
0.192007059
0.237048314
0.305550968

ZCO431_02
Cancer
0.372212504
0.303521987
0.28260926

ZCO449_02
Cancer
0.359070904
0.255616456
0.274312144

ZCO537_02
Benign
0.608758879
0.226235211
0.227670693

ZCO362_02
Benign
0.247694323
0.290058625
0.32422178

ZCO488_02
Benign
0.279327832
0.171211985
0.208423766

PC_03

0.343759023
0.270104581
0.268574543

ZCO535_02
Benign
0.327639267
0.291454069
0.265510923

ZCO443_02
Cancer
2.167526234
0.28484199
0.290477261

ZCO393_02
Benign
0.248079948
0.222898026
0.261243132

ZCO503_02
Cancer
NA
0.265700862
0.269431067

ZCO438_02
Cancer
1.813051178
0.202208587
0.266848581

ZCO406_02
Benign
0.333586168
0.233671278
0.298116427

PC_04

0.415046518
0.259607146
0.319749963

PC_01

0.383095398
0.253474122
0.27182786

00082_07
Cancer
2.69561362
0.23640644
0.281992587

02286_07
Benign
0.30606456
0.276234524
0.266034801

02280_06
Cancer
1.531808341
0.213330652
0.279100951

01123_06
Benign
0.468084905
0.278990125
0.307317197

00156_07
Cancer
1.495227978
0.223153476
0.25778124

00781_09
Benign
0.389860766
0.341771295
0.389240391

00539_08
Cancer
0.389647635
0.183607938
0.209358452

02241_07
Cancer
0.225750969
0.211038504
0.23297441

02226_05
Benign
1.225197522
0.173471722
0.237278541

PC_03

0.395224701
0.287198429
0.280946955

00542_08
NA
0.255178773
0.238476107
0.254855829

02497_10
NA
0.30310879
0.282016628
0.307746081

02224_05
Benign
0.504077494
0.299180971
0.319832891

00748_09
Cancer
0.29579502
0.266890564
0.320389228

03630_09
Benign
0.264855376
0.257279928
0.288096594

02279_07
Cancer
1.363162218
0.198176808
0.235840813

PC_04

0.458162777
0.267238337
0.29000516

PC_01

0.370439694
0.271508882
0.283738697

NYU806
Benign
2.513216972
0.20597495
0.268238498

NYU777
Cancer
0.692855826
0.250191118
0.279371662

NYU176
Benign
0.204952779
0.260494527
0.305522547

NYU888
Cancer
1.611353708
0.173025027
0.215307899

NYU1117
Benign
0.339497837
0.23551398
0.273144929

NYU1201
Cancer
0.774172652
0.266499176
0.271516939

PC_02

0.310972032
0.280393848
0.294079142

NYU887
Cancer
0.250058138
0.252608269
0.257254245

NYU815
Benign
0.284488928
0.255620978
0.275696816

NYU927
Cancer
0.250422369
0.179487785
0.225557821

NYU1030
Benign
0.21457607
0.21739441
0.225327932

NYU1151
Cancer
1.218708603
0.17640146
0.236468112

NYU1005
Benign
NA
0.318252411
0.347466911

NYU522
Benign
0.302012878
0.277747101
0.286902331

NYU389
Cancer
1.093807352
0.216832283
0.222127714

PC_03

0.443201986
0.279881332
0.283351509

NYU729
Cancer
NA
0.219825506
0.278208402

NYU430
Benign
0.347853903
0.238975243
0.277258779

NYU144
Benign
NA
0.210196631
0.208673978

NYU256
Cancer
0.330192527
0.270793127
0.288092981

NYU1000
Benign
0.608991461
0.304861894
0.34054149

NYU575
Cancer
0.274039152
0.25478525
0.277641016

PC_04

0.501433707
0.279370749
0.307443449

TABLE 11L

PV2 fidelity small nodule batch all transitions (normalized)

YEV-
YEV-

msfile-

TVVSVR_526.29_293.10
TVVSVR_526.29_660.40
YEV-TVVSVR_526.29_759.50
YVSELHLTR_373.21_263.10

name
status
(SEQ ID No.: 60)
(SEQ ID No.: 60)
(SEQ ID No.: 60)
(SEQ ID No.: 55)

PC_01

0.715043069
0.77282955
0.643875456
0.506555218

ZCO489_02
Benign
0.625029917
0.627170527
0.650817326
0.374904316

ZCO436_02
Cancer
0.49116788
0.448328197
0.408567563
0.207142928

ZCO512_02
Cancer
0.499213482
0.523484383
0.473903155
0.297205955

ZCO475_02
Benign
0.601955185
0.628535711
0.549014407
0.316166053

ZCO485_02
Benign
0.585695029
0.682970961
0.605347856
0.428266352

ZCO536_02
Cancer
0.550757325
0.622087967
0.441650578
0.360970845

PC_02

0.689879381
0.649195525
0.63205638
0.446017566

ZCO496_02
Benign
0.468331611
0.432415759
0.434869761
0.390882789

ZCO502_02
Cancer
0.424577059
0.371605494
0.430028294
0.239048863

ZCO382_02
Benign
0.585234517
0.61930386
0.66379927
0.414385294

ZCO431_02
Cancer
0.452328912
0.415640557
0.398041019
0.298141172

ZCO449_02
Cancer
0.803215412
0.765003073
0.891420258
0.313073796

ZCO537_02
Benign
1.193518718
1.352934709
0.966312621
0.33758803

ZCO362_02
Benign
0.467542739
0.640062814
0.511813147
0.453549018

ZCO488_02
Benign
0.968481935
0.873641311
0.981672345
0.510857236

PC_03

0.72536496
0.769938529
0.941388746
0.475272248

ZCO535_02
Benign
0.429867113
0.567154709
0.504132591
0.32951823

ZCO443_02
Cancer
0.701856974
0.720022198
0.47868326
0.440234415

ZCO393_02
Benign
0.501075534
0.545789452
0.467820883
0.38580852

ZCO503_02
Cancer
0.565821184
0.586645168
0.718989975
0.326757997

ZCO438_02
Cancer
0.465451696
0.356025326
0.365710523
0.165929325

ZCO406_02
Benign
0.545631352
0.54293144
0.430368258
0.27851723

PC_04

0.707006234
0.909467584
0.803113276
0.485325416

PC_01

0.752743325
0.858483831
0.753013507
0.514928147

00082_07
Cancer
0.452447843
0.425805862
0.49759802
0.21100876

02286_07
Benign
0.542800282
0.572056873
0.508347433
0.258362566

02280_06
Cancer
0.51811225
0.526441109
0.583441479
0.433770685

01123_06
Benign
0.863124557
0.889062093
0.893478731
0.412709845

00156_07
Cancer
0.398413782
0.414555967
0.415628493
0.257845019

00781_09
Benign
0.486133795
0.524971457
0.562031012
0.362969883

00539_08
Cancer
0.606209877
0.607691068
0.538114255
0.282717077

02241_07
Cancer
0.446268901
0.401554145
0.440266476
0.453269604

02226_05
Benign
0.468274134
0.425067286
0.53307431
0.229061234

PC_03

0.954603534
0.795857814
0.870889698
0.4506214

00542_08
NA
0.958598473
0.801585241
0.898569664
0.204356381

02497_10
NA
0.555011435
0.581526716
0.563058571
0.263033194

02224_05
Benign
0.607911646
0.605187177
0.482684749
0.278914607

00748_09
Cancer
0.534663717
0.384265678
0.473118465
0.263705103

03630_09
Benign
0.525133696
0.491962837
0.555944288
0.361545001

02279_07
Cancer
0.508396893
0.501195431
0.423130329
0.244199856

PC_04

0.745756556
0.789882337
0.6634281
0.424989707

PC_01

0.715105882
0.803894516
0.705539433
0.416145616

NYU806
Benign
0.406633817
0.513188857
0.428389998
0.135991544

NYU777
Cancer
0.638982086
0.558030353
0.667354052
0.307311369

NYU176
Benign
0.671289682
0.719325305
0.731835316
0.554839691

NYU888
Cancer
0.697394859
0.681161461
0.635409235
0.249867718

NYU1117
Benign
0.42099334
0.473389473
0.499157941
0.380875651

NYU1201
Cancer
0.510962366
0.54158388
0.448587965
0.279667097

PC_02

0.676021274
0.768105794
0.722825167
0.389087664

NYU887
Cancer
0.571945086
0.601656256
0.65639156
0.341688978

NYU815
Benign
0.638614092
0.572159768
0.6510733
0.385729146

NYU927
Cancer
0.59757421
0.580878491
0.575455912
0.305616909

NYU1030
Benign
0.428916327
0.552394307
0.466160374
0.21683767

NYU1151
Cancer
0.584186331
0.550659993
0.555687378
0.401430737

NYU1005
Benign
0.64086204
0.626318045
0.582804662
0.412087596

NYU522
Benign
1.070133718
1.087120571
1.093669401
0.325663099

NYU389
Cancer
0.631536333
0.670268064
0.689968234
0.233423041

PC_03

0.79870931
0.653692201
0.681319599
0.407110378

NYU729
Cancer
0.69516025
0.551130386
0.61918102
0.150997328

NYU430
Benign
0.525108882
0.607477171
0.596875752
0.305367067

NYU144
Benign
1.232862263
1.177435297
1.290275649
0.407143128

NYU256
Cancer
0.620483355
0.640358673
0.594397346
0.368101892

NYU1000
Benign
0.902243335
0.921117039
0.737710918
0.30180146

NYU575
Cancer
0.487846798
0.477801464
0.512720254
0.249804456

PC_04

0.839577029
0.806193827
0.701607538
0.428217291

msfile-

YVSELHLTR_373.21_428.30
YVSELHLTR_373.21_526.30
YVSELHLTR_559.30_855.50

name
status
(SEQ ID No.: 55)
(SEQ ID No.: 55)
(SEQ ID No.: 55)

PC_01

0.52600757
0.544348366
0.490205799

ZCO489_02
Benign
0.418856583
0.513178508
0.417881095

ZCO436_02
Cancer
0.282920347
0.290856366
0.266128773

ZCO512_02
Cancer
0.334774545
0.37397234
0.347079417

ZCO475_02
Benign
0.351142711
0.392649532
0.317095721

ZCO485_02
Benign
0.42973392
0.470509831
0.396083376

ZCO536_02
Cancer
0.416953865
0.409299842
0.350956549

PC_02

0.483683874
0.595668035
0.571270925

ZCO496_02
Benign
0.419136681
0.440558925
0.39359143

ZCO502_02
Cancer
0.245510127
0.26778992
0.202083213

ZCO382_02
Benign
0.454290423
0.492223039
0.497652247

ZCO431_02
Cancer
0.314414924
0.351938241
0.305640502

ZCO449_02
Cancer
0.327492923
0.352361358
0.316372718

ZCO537_02
Benign
0.366156695
0.424783089
0.339086481

ZCO362_02
Benign
0.505177456
0.518428483
0.436149511

ZCO488_02
Benign
0.611578187
0.610228269
0.488007709

PC_03

0.564305328
0.630778062
0.506931336

ZCO535_02
Benign
0.356303061
0.359217737
0.299614436

ZCO443_02
Cancer
0.473099402
0.493811246
0.399742475

ZCO393_02
Benign
0.411800156
0.42919049
0.364664078

ZCO503_02
Cancer
0.346343776
0.398536174
0.317762487

ZCO438_02
Cancer
0.147404214
0.20480617
0.123337078

ZCO406_02
Benign
0.377407
0.450255558
0.375181921

PC_04

0.571395341
0.622958058
0.575941596

PC_01

0.556861468
0.536765352
0.488120094

00082_07
Cancer
0.236532409
0.224358624
0.241549614

02286_07
Benign
0.325855205
0.312250736
0.298466978

02280_06
Cancer
0.507902067
0.506247702
0.455969947

01123_06
Benign
0.502904193
0.539821839
0.515626738

00156_07
Cancer
0.282904675
0.273571892
0.2828297

00781_09
Benign
0.39926759
0.468051896
0.36071456

00539_08
Cancer
0.326126027
0.378118027
0.299442432

02241_07
Cancer
0.533661101
0.492229735
0.506932972

02226_05
Benign
0.293646302
0.32299766
0.267461736

PC_03

0.584232304
0.62254197
0.515078241

00542_08
NA
0.221331588
0.262208041
0.207208555

02497_10
NA
0.285273196
0.29983914
0.268121708

02224_05
Benign
0.318541493
0.33573911
0.293257348

00748_09
Cancer
0.32171685
0.332099153
0.333929767

03630_09
Benign
0.407981097
0.457248698
0.383996891

02279_07
Cancer
0.286681753
0.28452828
0.242156498

PC_04

0.525161575
0.568895093
0.469736845

PC_01

0.522433074
0.546468924
0.467568329

NYU806
Benign
0.176138804
0.183137317
0.16608957

NYU777
Cancer
0.384682052
0.41242755
0.389082517

NYU176
Benign
0.641081063
0.715026769
0.568743823

NYU888
Cancer
0.377873601
0.369212104
0.337058297

NYU1117
Benign
0.502771887
0.561062766
0.515739008

NYU1201
Cancer
0.360351445
0.434901711
0.3504042

PC_02

0.461398046
0.541328871
0.504602481

NYU887
Cancer
0.417587443
0.445035912
0.441980699

NYU815
Benign
0.489782839
0.568034906
0.453188864

NYU927
Cancer
0.382408797
0.443790054
0.35997525

NYU1030
Benign
0.319259068
0.324628276
0.294226621

NYU1151
Cancer
0.538213965
0.54798511
0.556499897

NYU1005
Benign
0.450576466
0.484060642
0.506456106

NYU522
Benign
0.418064577
0.444094216
0.415060204

NYU389
Cancer
0.255723118
0.240399969
0.20913483

PC_03

0.465914659
0.541837768
0.527512555

NYU729
Cancer
0.221683545
0.205922161
0.188504231

NYU430
Benign
0.359859903
0.390569226
0.344372041

NYU144
Benign
0.608001062
0.594274141
0.509692938

NYU256
Cancer
0.561999174
0.564840089
0.545318003

NYU1000
Benign
0.379369581
0.403854734
0.397683581

NYU575
Cancer
0.335263602
0.364197685
0.301811073

PC_04

0.57512524
0.597968594
0.591453859

TABLE 11M

PV2 fidelity small nodule batch all transitions (normalized)

YYIAASYVK_539.28_327.10
YYIAASYVK_539.28_567.30

msfilename
status
(SEQ ID No.: 51)
(SEQ ID No.: 51)

PC_01

0.214882781
0.262382136

ZCO489_02
Benign
0.189725597
0.302324442

ZCO436_02
Cancer
0.338460701
0.369972325

ZCO512_02
Cancer
0.139638041
0.183183202

ZCO475_02
Benign
0.158977544
0.213554386

ZCO485_02
Benign
0.158915047
0.198415248

ZCO536_02
Cancer
0.23524574
0.316112824

PC_02

0.254786228
0.263628021

ZCO496_02
Benign
0.20000143
0.228744466

ZCO502_02
Cancer
0.296573255
0.232179936

ZCO382_02
Benign
0.29869956
0.298071888

ZCO431_02
Cancer
0.210938861
0.241308436

ZCO449_02
Cancer
0.147154321
0.295480744

ZCO537_02
Benign
0.240816236
0.326321668

ZCO362_02
Benign
0.216149273
0.192744458

ZCO488_02
Benign
0.241509973
0.33467281

PC_03

0.332010719
0.245582048

ZCO535_02
Benign
0.162271094
0.311125392

ZCO443_02
Cancer
0.35112887
0.406307263

ZCO393_02
Benign
0.145139001
0.18520178

ZCO503_02
Cancer
0.48685129
0.538295082

ZCO438_02
Cancer
0.224105327
0.342169057

ZCO406_02
Benign
0.332851621
0.327904959

PC_04

0.32831609
0.32516808

PC_01

0.333553782
0.300129901

00082_07
Cancer
0.216655016
0.204005317

02286_07
Benign
0.146741869
0.175223928

02280_06
Cancer
0.30011835
0.363836459

01123_06
Benign
0.155625871
0.183496256

00156_07
Cancer
0.511030094
0.410603693

00781_09
Benign
0.281452331
0.38713335

00539_08
Cancer
0.199709057
0.207150477

02241_07
Cancer
0.093773866
0.104254108

02226_05
Benign
0.242872972
0.259913094

PC_03

0.299855333
0.34284319

00542_08
NA
0.329885555
0.245581916

02497_10
NA
0.182082247
0.229355394

02224_05
Benign
0.170206939
0.143938669

00748_09
Cancer
0.189400194
0.168373189

03630_09
Benign
0.297427502
0.354569011

02279_07
Cancer
0.322841031
0.257140348

PC_04

0.317970017
0.285108325

PC_01

0.244987828
0.302518103

NYU806
Benign
0.209341159
0.457058613

NYU777
Cancer
0.224047613
0.29126364

NYU176
Benign
0.215591092
0.164108433

NYU888
Cancer
0.429225254
0.43452679

NYU1117
Benign
0.141787389
0.183689784

NYU1201
Cancer
0.289551981
0.185304854

PC_02

0.203598263
0.229141121

NYU887
Cancer
0.23240879
0.28533565

NYU815
Benign
0.122605415
0.12774684

NYU927
Cancer
0.13062957
0.163939166

NYU1030
Benign
0.193876884
0.21774014

NYU1151
Cancer
0.187023228
0.19602555

NYU1005
Benign
0.175331475
0.261157331

NYU522
Benign
0.125996325
0.171423928

NYU389
Cancer
0.282144088
0.311490631

PC_03

0.2736282
0.354405931

NYU729
Cancer
0.163808358
0.306489063

NYU430
Benign
0.193856904
0.265625089

NYU144
Benign
0.370103603
0.506132547

NYU256
Cancer
0.225980753
0.17884423

NYU1000
Benign
0.155917153
0.18381643

NYU575
Cancer
0.234951179
0.261100911

PC_04

0.306215539
0.261721536

YYIAASYVK_539.28_638.40
YYIAASYVK_539.28_751.40

msfilename
status
(SEQ ID No.: 51)
(SEQ ID No.: 51)

PC_01

0.322342571
0.235896902

ZCO489_02
Benign
0.250362289
0.174638378

ZCO436_02
Cancer
0.305363024
0.21532763

ZCO512_02
Cancer
0.194266457
0.187343705

ZCO475_02
Benign
0.219717125
0.148248509

ZCO485_02
Benign
0.204408449
0.157893291

ZCO536_02
Cancer
0.285633047
0.258031573

PC_02

0.283236205
0.279571289

ZCO496_02
Benign
0.237676305
0.249833642

ZCO502_02
Cancer
0.221305802
0.265631518

ZCO382_02
Benign
0.283330494
0.275818296

ZCO431_02
Cancer
0.257479852
0.147067961

ZCO449_02
Cancer
0.221346932
0.168575851

ZCO537_02
Benign
0.273931193
0.255940247

ZCO362_02
Benign
0.172044378
0.189600303

ZCO488_02
Benign
0.32586649
0.258264891

PC_03

0.303976613
0.29665481

ZCO535_02
Benign
0.258239217
0.153498811

ZCO443_02
Cancer
0.394714161
0.408145743

ZCO393_02
Benign
0.214738332
0.145226342

ZCO503_02
Cancer
0.508816323
0.498118315

ZCO438_02
Cancer
0.283637288
0.200027261

ZCO406_02
Benign
0.373342717
0.280954827

PC_04

0.314959896
0.276302248

PC_01

0.294108799
0.298045133

00082_07
Cancer
0.227617268
0.188589106

02286_07
Benign
0.164824992
0.130477815

02280_06
Cancer
0.258099164
0.31469993

01123_06
Benign
0.150843864
0.140566429

00156_07
Cancer
0.507647165
0.442888081

00781_09
Benign
0.369365507
0.295699273

00539_08
Cancer
0.223817813
0.204987217

02241_07
Cancer
0.115972399
0.103778429

02226_05
Benign
0.259778873
0.246685789

PC_03

0.338040968
0.297816537

00542_08
NA
0.292444128
0.285931107

02497_10
NA
0.261519847
0.187466915

02224_05
Benign
0.235324944
0.215546853

00748_09
Cancer
0.204942963
0.142499979

03630_09
Benign
0.264578832
0.238974558

02279_07
Cancer
0.339809114
0.253320835

PC_04

0.291762119
0.264789581

PC_01

0.26737881
0.313039422

NYU806
Benign
0.28525922
0.222592844

NYU777
Cancer
0.321111153
0.191679099

NYU176
Benign
0.215634494
0.16241181

NYU888
Cancer
0.398216446
0.397448587

NYU1117
Benign
0.138842438
0.117987802

NYU1201
Cancer
0.210584021
0.19467434

PC_02

0.275793893
0.322607937

NYU887
Cancer
0.236851961
0.228345185

NYU815
Benign
0.177400236
0.116546756

NYU927
Cancer
0.143086835
0.113838031

NYU1030
Benign
0.223566301
0.226383594

NYU1151
Cancer
0.241928632
0.177788155

NYU1005
Benign
0.241643811
0.126822387

NYU522
Benign
0.166936773
0.112105938

NYU389
Cancer
0.256655884
0.182464411

PC_03

0.299238857
0.27992114

NYU729
Cancer
0.205665436
0.200859709

NYU430
Benign
0.27867877
0.219251629

NYU144
Benign
0.491042254
0.344768742

NYU256
Cancer
0.27965313
0.188431293

NYU1000
Benign
0.149526371
0.124230064

NYU575
Cancer
0.251753723
0.226431877

PC_04

0.283387092
0.325952884

TABLE 12

Nucleotide and Amino Acid Sequences for Genes of Interest

Seq.

Gene Name
Nucleotide and Amino Acid Sequences
ID.

BGH3_HUMAN
ATGGCGCTGTTTGTGCGCCTGCTGGCGCTGGCGCTGGCGCTGGCGCTGGGCCCGGCGGCGACCCTGGCGGGCCCGGCG
1

AAAAGCCCGTATCAGCTGGTGCTGCAGCATAGCCGCCTGCGCGGCCGCCAGCATGGCCCGAACGTGTGCGCGGTGCAG

AAAGTGATTGGCACCAACCGCAAATATTTTACCAACTGCAAACAGTGGTATCAGCGCAAAATTTGCGGCAAAAGCACC

GTGATTAGCTATGAATGCTGCCCGGGCTATGAAAAAGTGCCGGGCGAAAAAGGCTGCCCGGCGGCGCTGCCGCTGAGC

AACCTGTATGAAACCCTGGGCGTGGTGGGCAGCACCACCACCCAGCTGTATACCGATCGCACCGAAAAACTGCGCCCG

GAAATGGAAGGCCCGGGCAGCTTTACCATTTTTGCGCCGAGCAACGAAGCGTGGGCGAGCCTGCCGGCGGAAGTGCTG

GATAGCCTGGTGAGCAACGTGAACATTGAACTGCTGAACGCGCTGCGCTATCATATGGTGGGCCGCCGCGTGCTGACC

GATGAACTGAAACATGGCATGACCCTGACCAGCATGTATCAGAACAGCAACATTCAGATTCATCATTATCCGAACGGC

ATTGTGACCGTGAACTGCGCGCGCCTGCTGAAAGCGGATCATCATGCGACCAACGGCGTGGTGCATCTGATTGATAAA

GTGATTAGCACCATTACCAACAACATTCAGCAGATTATTGAAATTGAAGATACCTTTGAAACCCTGCGCGCGGCGGTG

GCGGCGAGCGGCCTGAACACCATGCTGGAAGGCAACGGCCAGTATACCCTGCTGGCGCCGACCAACGAAGCGTTTGAA

AAAATTCCGAGCGAAACCCTGAACCGCATTCTGGGCGATCCGGAAGCGCTGCGCGATCTGCTGAACAACCATATTCTG

AAAAGCGCGATGTGCGCGGAAGCGATTGTGGCGGGCCTGAGCGTGGAAACCCTGGAAGGCACCACCCTGGAAGTGGGC

TGCAGCGGCGATATGCTGACCATTAACGGCAAAGCGATTATTAGCAACAAAGATATTCTGGCGACCAACGGCGTGATT

CATTATATTGATGAACTGCTGATTCCGGATAGCGCGAAAACCCTGTTTGAACTGGCGGCGGAAAGCGATGTGAGCACC

GCGATTGATCTGTTTCGCCAGGCGGGCCTGGGCAACCATCTGAGCGGCAGCGAACGCCTGACCCTGCTGGCGCCGCTG

AACAGCGTGTTTAAAGATGGCACCCCGCCGATTGATGCGCATACCCGCAACCTGCTGCGCAACCATATTATTAAAGAT

CAGCTGGCGAGCAAATATCTGTATCATGGCCAGACCCTGGAAACCCTGGGCGGCAAAAAACTGCGCGTGTTTGTGTAT

CGCAACAGCCTGTGCATTGAAAACAGCTGCATTGCGGCGCATGATAAACGCGGCCGCTATGGCACCCTGTTTACCATG

GATCGCGTGCTGACCCCGCCGATGGGCACCGTGATGGATGTGCTGAAAGGCGATAACCGCTTTAGCATGCTGGTGGCG

GCGATTCAGAGCGCGGGCCTGACCGAAACCCTGAACCGCGAAGGCGTGTATACCGTGTTTGCGCCGACCAACGAAGCG

TTTCGCGCGCTGCCGCCGCGCGAACGCAGCCGCCTGCTGGGCGATGCGAAAGAACTGGCGAACATTCTGAAATATCAT

ATTGGCGATGAAATTCTGGTGAGCGGCGGCATTGGCGCGCTGGTGCGCCTGAAAAGCCTGCAGGGCGATAAACTGGAA

GTGAGCCTGAAAAACAACGTGGTGAGCGTGAACAAAGAACCGGTGGCGGAACCGGATATTATGGCGACCAACGGCGTG

GTGCATGTGATTACCAACGTGCTGCAGCCGCCGGCGAACCGCCCGCAGGAACGCGGCGATGAACTGGCGGATAGCGCG

CTGGAAATTTTTAAACAGGCGAGCGCGTTTAGCCGCGCGAGCCAGCGCAGCGTGCGCCTGGCGCCGGTGTATCAGAAA

CTGCTGGAACGCATGAAACAT

BGH3_HUMAN
MALFVRLLALALALALGPAATLAGPAKSPYQLVLQHSRLRGRQHGPNVCAVQKVIGTNRKYFTNCKQWYQRKICGKST
2

VISYECCPGYEKVPGEKGCPAALPLSNLYETLGVVGSTTTQLYTDRTEKLRPEMEGPGSFTIFAPSNEAWASLPAEVL

DSLVSNVNIELLNALRYHMVGRRVLTDELKHGMTLTSMYQNSNIQIHHYPNGIVTVNCARLLKADHHATNGVVHLIDK

VISTITNNIQQIIEIEDTFETLRAAVAASGLNTMLEGNGQYTLLAPTNEAFEKIPSETLNRILGDPEALRDLLNNHIL

KSAMCAEAIVAGLSVETLEGTTLEVGCSGDMLTINGKAIISNKDILATNGVIHYIDELLIPDSAKTLFELAAESDVST

AIDLFRQAGLGNHLSGSERLTLLAPLNSVFKDGTPPIDAHTRNLLRNHIIKDQLASKYLYHGQTLETLGGKKLRVFVY

RNSLCTENSCIAAHDKRGRYGTLFTMDRVLTPPMGTVMDVLKGDNRFSMLVAAIQSAGLTETLNREGVYTVFAPTNEA

FRALPPRERSRLLGDAKELANILKYHIGDEILVSGGIGALVRLKSLQGDKLEVSLKNNVVSVNKEPVAEPDIMATNGV

VHVITNVLQPPANRPQERGDELADSALEIFKQASAFSRASQRSVRLAPVYQKLLERMKH

GGH_HUMAN
ATGGCGAGCCCGGGCTGCCTGCTGTGCGTGCTGGGCCTGCTGCTGTGCGGCGCGGCGAGCCTGGAACTGAGCCGCCCG
3

CATGGCGATACCGCGAAAAAACCGATTATTGGCATTCTGATGCAGAAATGCCGCAACAAAGTGATGAAAAACTATGGC

CGCTATTATATTGCGGCGAGCTATGTGAAATATCTGGAAAGCGCGGGCGCGCGCGTGGTGCCGGTGCGCCTGGATCTG

ACCGAAAAAGATTATGAAATTCTGTTTAAAAGCATTAACGGCATTCTGTTTCCGGGCGGCAGCGTGGATCTGCGCCGC

AGCGATTATGCGAAAGTGGCGAAAATTTTTTATAACCTGAGCATTCAGAGCTTTGATGATGGCGATTATTTTCCGGTG

TGGGGCACCTGCCTGGGCTTTGAAGAACTGAGCCTGCTGATTAGCGGCGAATGCCTGCTGACCGCGACCGATACCGTG

GATGTGGCGATGCCGCTGAACTTTACCGGCGGCCAGCTGCATAGCCGCATGTTTCAGAACTTTCCGACCGAACTGCTG

CTGAGCCTGGCGGTGGAACCGCTGACCGCGAACTTTCATAAATGGAGCCTGAGCGTGAAAAACTTTACCATGAACGAA

AAACTGAAAAAATTTTTTAACGTGCTGACCACCAACACCGATGGCAAAATTGAATTTATTAGCACCATGGAAGGCTAT

AAATATCCGGTGTATGGCGTGCAGTGGCATCCGGAAAAAGCGCCGTATGAATGGAAAAACCTGGATGGCATTAGCCAT

GCGCCGAACGCGGTGAAAACCGCGTTTTATCTGGCGGAATTTTTTGTGAACGAAGCGCGCAAAAACAACCATCATTTT

AAAAGCGAAAGCGAAGAAGAAAAAGCGCTGATTTATCAGTTTAGCCCGATTTATACCGGCAACATTAGCAGCTTTCAG

CAGTGCTATATTTTTGAT

GGH_HUMAN
MASPGCLLCVLGLLLCGAASLELSRPHGDTAKKPIIGILMQKCRNKVMKNYGRYYIAASYVKYLESAGARVVPVRLDL
4

TEKDYEILFKSINGILFPGGSVDLRRSDYAKVAKIFYNLSIQSFDDGDYFPVWGTCLGFEELSLLISGECLLTATDTV

DVAMPLNFTGGQLHSRMFQNFPTELLLSLAVEPLTANFHKWSLSVKNFTMNEKLKKFFNVLTTNTDGKIEFISTMEGY

KYPVYGVQWHPEKAPYEWKNLDGISHAPNAVKTAFYLAEFFVNEARKNNHHFKSESEEEKALIYQFSPIYTGNISSFQ

QCYIFD

LG3BP_HUMAN
ATGACCCCTCCGAGGCTCTTCTGGGTGTGGCTGCTGGTTGCAGGAACCCAAGGCGTGAACGATGGTGACATGCGGCTG
5

GCCGATGGGGGCGCCACCAACCAGGGCCGCGTGGAGATCTTCTACAGAGGCCAGTGGGGCACTGTGTGTGACAACCTG

TGGGACCTGACTGATGCCAGCGTCGTCTGCCGGGCCCTGGGCTTCGAGAACGCCACCCAGGCTCTGGGCAGAGCTGCC

TTCGGGCAAGGATCAGGCCCCATCATGCTGGATGAGGTCCAGTGCACGGGAACCGAGGCCTCACTGGCCGACTGCAAG

TCCCTGGGCTGGCTGAAGAGCAACTGCAGGCACGAGAGAGACGCTGGTGTGGTCTGCACCAATGAAACCAGGAGCACC

CACACCCTGGACCTCTCCAGGGAGCTCTCGGAGGCCCTTGGCCAGATCTTTGACAGCCAGCGGGGCTGCGACCTGTCC

ATCAGCGTGAATGTGCAGGGCGAGGACGCCCTGGGCTTCTGTGGCCACACGGTCATCCTGACTGCCAACCTGGAGGCC

CAGGCCCTGTGGAAGGAGCCGGGCAGCAATGTCACCATGAGTGTGGATGCTGAGTGTGTGCCCATGGTCAGGGACCTT

CTCAGGTACTTCTACTCCCGAAGGATTGACATCACCCTGTCGTCAGTCAAGTGCTTCCACAAGCTGGCCTCTGCCTAT

GGGGCCAGGCAGCTGCAGGGCTACTGCGCAAGCCTCTTTGCCATCCTCCTCCCCCAGGACCCCTCGTTCCAGATGCCC

CTGGACCTGTATGCCTATGCAGTGGCCACAGGGGACGCCCTGCTGGAGAAGCTCTGCCTACAGTTCCTGGCCTGGAAC

TTCGAGGCCTTGACGCAGGCCGAGGCCTGGCCCAGTGTCCCCACAGACCTGCTCCAACTGCTGCTGCCCAGGAGCGAC

CTGGCGGTGCCCAGCGAGCTGGCCCTACTGAAGGCCGTGGACACCTGGAGCTGGGGGGAGCGTGCCTCCCATGAGGAG

GTGGAGGGCTTGGTGGAGAAGATCCGCTTCCCCATGATGCTCCCTGAGGAGCTCTTTGAGCTGCAGTTCAACCTGTCC

CTGTACTGGAGCCACGAGGCCCTGTTCCAGAAGAAGACTCTGCAGGCCCTGGAATTCCACACTGTGCCCTTCCAGTTG

CTGGCCCGGTACAAAGGCCTGAACCTCACCGAGGATACCTACAAGCCCCGGATTTACACCTCGCCCACCTGGAGTGCC

TTTGTGACAGACAGTTCCTGGAGTGCACGGAAGTCACAACTGGTCTATCAGTCCAGACGGGGGCCTTTGGTCAAATAT

TCTTCTGATTACTTCCAAGCCCCCTCTGACTACAGATACTACCCCTACCAGTCCTTCCAGACTCCACAACACCCCAGC

TTCCTCTTCCAGGACAAGAGGGTGTCCTGGTCCCTGGTCTACCTCCCCACCATCCAGAGCTGCTGGAACTACGGCTTC

TCCTGCTCCTCGGACGAGCTCCCTGTCCTGGGCCTCACCAAGTCTGGCGGCTCAGATCGCACCATTGCCTACGAAAAC

AAAGCCCTGATGCTCTGCGAAGGGCTCTTCGTGGCAGACGTCACCGATTTCGAGGGCTGGAAGGCTGCGATTCCCAGT

GCCCTGGACACCAACAGCTCGAAGAGCACCTCCTCCTTCCCCTGCCCGGCAGGGCACTTCAACGGCTTCCGCACGGTC

ATCCGCCCCTTCTACCTGACCAACTCCTCAGGTGTGGACTAG

LG3BP_HUMAN
MTPPRLFWVWLLVAGTQGVNDGDMRLADGGATNQGRVEIFYRGQWGTVCDNLWDLTDASVVCRALGFENATQALGRAA
6

FGQGSGPIMLDEVQCTGTEASLADCKSLGWLKSNCRHERDAGVVCTNETRSTHTLDLSRELSEALGQIFDSQRGCDLS

ISVNVQGEDALGFCGHTVILTANLEAQALWKEPGSNVTMSVDAECVPMVRDLLRYFYSRRIDITLSSVKCFHKLASAY

GARQLQGYCASLFAILLPQDPSFQMPLDLYAYAVATGDALLEKLCLQFLAWNFEALTQAEAWPSVPTDLLQLLLPRSD

LAVPSELALLKAVDTWSWGERASHEEVEGLVEKIRFPMMLPEELFELQFNLSLYWSHEALFQKKTLQALEFHTVPFQL

LARYKGLNLTEDTYKPRIYTSPTWSAFVTDSSWSARKSQLVYQSRRGPLVKYSSDYFQAPSDYRYYPYQSFQTPQHPS

FLFQDKRVSWSLVYLPTIQSCWNYGFSCSSDELPVLGLTKSGGSDRTIAYENKALMLCEGLFVADVTDFEGWKAAIPS

ALDTNSSKSTSSFPCPAGHFNGFRTVIRPFYLTNSSGVD

PRDX1_HUMA
ATGAGCAGCGGCAACGCGAAAATTGGCCATCCGGCGCCGAACTTTAAAGCGACCGCGGTGATGCCGGATGGCCAGTTT
7

AAAGATATTAGCCTGAGCGATTATAAAGGCAAATATGTGGTGTTTTTTTTTTATCCGCTGGATTTTACCTTTGTGTGC

CCGACCGAAATTATTGCGTTTAGCGATCGCGCGGAAGAATTTAAAAAACTGAACTGCCAGGTGATTGGCGCGAGCGTG

GATAGCCATTTTTGCCATCTGGCGTGGGTGAACACCCCGAAAAAACAGGGCGGCCTGGGCCCGATGAACATTCCGCTG

GTGAGCGATCCGAAACGCACCATTGCGCAGGATTATGGCGTGCTGAAAGCGGATGAAGGCATTAGCTTTCGCGGCCTG

TTTATTATTGATGATAAAGGCATTCTGCGCCAGATTACCGTGAACGATCTGCCGGTGGGCCGCAGCGTGGATGAAACC

CTGCGCCTGGTGCAGGCGTTTCAGTTTACCGATAAACATGGCGAAGTGTGCCCGGCGGGCTGGAAACCGGGCAGCGAT

ACCATTAAACCGGATGTGCAGAAAAGCAAAGAATATTTTAGCAAACAGAAA

PRDX1_HUMAN
MSSGNAKIGHPAPNFKATAVMPDGQFKDISLSDYKGKYVVFFFYPLDFTFVCPTEIIAFSDRAEEFKKLNCQVIGASV
8

DSHFCHLAWVNTPKKQGGLGPMNIPLVSDPKRTIAQDYGVLKADEGISFRGLFIIDDKGILRQITVNDLPVGRSVDET

LRLVQAFQFTDKHGEVCPAGWKPGSDTIKPDVQKSKEYFSKQK

TSP1_HUMAN
ATGGGGCTGGCCTGGGGACTAGGCGTCCTGTTCCTGATGCATGTGTGTGGCACCAACCGCATTCCAGAGTCTGGCGGA
9

GACAACAGCGTGTTTGACATCTTTGAACTCACCGGGGCCGCCCGCAAGGGGTCTGGGCGCCGACTGGTGAAGGGCCCC

GACCCTTCCAGCCCAGCTTTCCGCATCGAGGATGCCAACCTGATCCCCCCTGTGCCTGATGACAAGTTCCAAGACCTG

GTGGATGCTGTGCGGGCAGAAAAGGGTTTCCTCCTTCTGGCATCCCTGAGGCAGATGAAGAAGACCCGGGGCACGCTG

CTGGCCCTGGAGCGGAAAGACCACTCTGGCCAGGTCTTCAGCGTGGTGTCCAATGGCAAGGCGGGCACCCTGGACCTC

AGCCTGACCGTCCAAGGAAAGCAGCACGTGGTGTCTGTGGAAGAAGCTCTCCTGGCAACCGGCCAGTGGAAGAGCATC

ACCCTGTTTGTGCAGGAAGACAGGGCCCAGCTGTACATCGACTGTGAAAAGATGGAGAATGCTGAGTTGGACGTCCCC

ATCCAAAGCGTCTTCACCAGAGACCTGGCCAGCATCGCCAGACTCCGCATCGCAAAGGGGGGCGTCAATGACAATTTC

CAGGGGGTGCTGCAGAATGTGAGGTTTGTCTTTGGAACCACACCAGAAGACATCCTCAGGAACAAAGGCTGCTCCAGC

TCTACCAGTGTCCTCCTCACCCTTGACAACAACGTGGTGAATGGTTCCAGCCCTGCCATCCGCACTAACTACATTGGC

CACAAGACAAAGGACTTGCAAGCCATCTGCGGCATCTCCTGTGATGAGCTGTCCAGCATGGTCCTGGAACTCAGGGGC

CTGCGCACCATTGTGACCACGCTGCAGGACAGCATCCGCAAAGTGACTGAAGAGAACAAAGAGTTGGCCAATGAGCTG

AGGCGGCCTCCCCTATGCTATCACAACGGAGTTCAGTACAGAAATAACGAGGAATGGACTGTTGATAGCTGCACTGAG

TGTCACTGTCAGAACTCAGTTACCATCTGCAAAAAGGTGTCCTGCCCCATCATGCCCTGCTCCAATGCCACAGTTCCT

GATGGAGAATGCTGTCCTCGCTGTTGGCCCAGCGACTCTGCGGACGATGGCTGGTCTCCATGGTCCGAGTGGACCTCC

TGTTCTACGAGCTGTGGCAATGGAATTCAGCAGCGCGGCCGCTCCTGCGATAGCCTCAACAACCGATGTGAGGGCTCC

TCGGTCCAGACACGGACCTGCCACATTCAGGAGTGTGACAAGAGATTTAAACAGGATGGTGGCTGGAGCCACTGGTCC

CCGTGGTCATCTTGTTCTGTGACATGTGGTGATGGTGTGATCACAAGGATCCGGCTCTGCAACTCTCCCAGCCCCCAG

ATGAACGGGAAACCCTGTGAAGGCGAAGCGCGGGAGACCAAAGCCTGCAAGAAAGACGCCTGCCCCATCAATGGAGGC

TGGGGTCCTTGGTCACCATGGGACATCTGTTCTGTCACCTGTGGAGGAGGGGTACAGAAACGTAGTCGTCTCTGCAAC

AACCCCACACCCCAGTTTGGAGGCAAGGACTGCGTTGGTGATGTAACAGAAAACCAGATCTGCAACAAGCAGGACTGT

CCAATTGATGGATGCCTGTCCAATCCCTGCTTTGCCGGCGTGAAGTGTACTAGCTACCCTGATGGCAGCTGGAAATGT

GGTGCTTGTCCCCCTGGTTACAGTGGAAATGGCATCCAGTGCACAGATGTTGATGAGTGCAAAGAAGTGCCTGATGCC

TGCTTCAACCACAATGGAGAGCACCGGTGTGAGAACACGGACCCCGGCTACAACTGCCTGCCCTGCCCCCCACGCTTC

ACCGGCTCACAGCCCTTCGGCCAGGGTGTCGAACATGCCACGGCCAACAAACAGGTGTGCAAGCCCCGTAACCCCTGC

ACGGATGGGACCCACGACTGCAACAAGAACGCCAAGTGCAACTACCTGGGCCACTATAGCGACCCCATGTACCGCTGC

GAGTGCAAGCCTGGCTACGCTGGCAATGGCATCATCTGCGGGGAGGACACAGACCTGGATGGCTGGCCCAATGAGAAC

CTGGTGTGCGTGGCCAATGCGACTTACCACTGCAAAAAGGATAATTGCCCCAACCTTCCCAACTCAGGGCAGGAAGAC

TATGACAAGGATGGAATTGGTGATGCCTGTGATGATGACGATGACAATGATAAAATTCCAGATGACAGGGACAACTGT

CCATTCCATTACAACCCAGCTCAGTATGACTATGACAGAGATGATGTGGGAGACCGCTGTGACAACTGTCCCTACAAC

CACAACCCAGATCAGGCAGACACAGACAACAATGGGGAAGGAGACGCCTGTGCTGCAGACATTGATGGAGACGGTATC

CTCAATGAACGGGACAACTGCCAGTACGTCTACAATGTGGACCAGAGAGACACTGATATGGATGGGGTTGGAGATCAG

TGTGACAATTGCCCCTTGGAACACAATCCGGATCAGCTGGACTCTGACTCAGACCGCATTGGAGATACCTGTGACAAC

AATCAGGATATTGATGAAGATGGCCACCAGAACAATCTGGACAACTGTCCCTATGTGCCCAATGCCAACCAGGCTGAC

CATGACAAAGATGGCAAGGGAGATGCCTGTGACCACGATGATGACAACGATGGCATTCCTGATGACAAGGACAACTGC

AGACTCGTGCCCAATCCCGACCAGAAGGACTCTGACGGCGATGGTCGAGGTGATGCCTGCAAAGATGATTTTGACCAT

GACAGTGTGCCAGACATCGATGACATCTGTCCTGAGAATGTTGACATCAGTGAGACCGATTTCCGCCGATTCCAGATG

ATTCCTCTGGACCCCAAAGGGACATCCCAAAATGACCCTAACTGGGTTGTACGCCATCAGGGTAAAGAACTCGTCCAG

ACTGTCAACTGTGATCCTGGACTCGCTGTAGGTTATGATGAGTTTAATGCTGTGGACTTCAGTGGCACCTTCTTCATC

AACACCGAAAGGGACGATGACTATGCTGGATTTGTCTTTGGCTACCAGTCCAGCAGCCGCTTTTATGTTGTGATGTGG

AAGCAAGTCACCCAGTCCTACTGGGACACCAACCCCACGAGGGCTCAGGGATACTCGGGCCTTTCTGTGAAAGTTGTA

AACTCCACCACAGGGCCTGGCGAGCACCTGCGGAACGCCCTGTGGCACACAGGAAACACCCCTGGCCAGGTGCGCACC

CTGTGGCATGACCCTCGTCACATAGGCTGGAAAGATTTCACCGCCTACAGATGGCGTCTCAGCCACAGGCCAAAGACG

GGTTTCATTAGAGTGGTGATGTATGAAGGGAAGAAAATCATGGCTGACTCAGGACCCATCTATGATAAAACCTATGCT

GGTGGTAGACTAGGGTTGTTTGTCTTCTCTCAAGAAATGGTGTTCTTCTCTGACCTGAAATACGAATGTAGAGATCCC

TAA

TSP1_HUMAN
MGLAWGLGVLFLMHVCGTNRIPESGGDNSVFDIFELTGAARKGSGRRLVKGPDPSSPAFRIEDANLIPPVPDDKFQDL
10

VDAVRAEKGFLLLASLRQMKKTRGTLLALERKDHSGQVFSVVSNGKAGTLDLSLTVQGKQHVVSVEEALLATGQWKSI

TLFVQEDRAQLYIDCEKMENAELDVPIQSVFTRDLASIARLRIAKGGVNDNFQGVLQNVREVEGTTPEDILRNKGCSS

STSVLLTLDNNVVNGSSPAIRTNYIGHKTKDLQAICGISCDELSSMVLELRGLRTIVTTLQDSIRKVTEENKELANEL

RRPPLCYHNGVQYRNNEEWTVDSCTECHCQNSVTICKKVSCPIMPCSNATVPDGECCPRCWPSDSADDGWSPWSEWTS

CSTSCGNGIQQRGRSCDSLNNRCEGSSVQTRTCHIQECDKRFKQDGGWSHWSPWSSCSVTCGDGVITRIRLCNSPSPQ

MNGKPCEGEARETKACKKDACPINGGWGPWSPWDICSVTCGGGVQKRSRLCNNPTPQFGGKDCVGDVTENQICNKQDC

PIDGCLSNPCFAGVKCTSYPDGSWKCGACPPGYSGNGIQCTDVDECKEVPDACFNHNGEHRCENTDPGYNCLPCPPRF

TGSQPFGQGVEHATANKQVCKPRNPCTDGTHDCNKNAKCNYLGHYSDPMYRCECKPGYAGNGIICGEDTDLDGWPNEN

LVCVANATYHCKKDNCPNLPNSGQEDYDKDGIGDACDDDDDNDKIPDDRDNCPFHYNPAQYDYDRDDVGDRCDNCPYN

HNPDQADTDNNGEGDACAADIDGDGILNERDNCQYVYNVDQRDTDMDGVGDQCDNCPLEHNPDQLDSDSDRIGDTCDN

NQDIDEDGHQNNLDNCPYVPNANQADHDKDGKGDACDHDDDNDGIPDDKDNCRLVPNPDQKDSDGDGRGDACKDDFDH

DSVPDIDDICPENVDISETDFRRFQMIPLDPKGTSQNDPNWVVRHQGKELVQTVNCDPGLAVGYDEFNAVDFSGTFFI

NTERDDDYAGFVEGYQSSSRFYVVMWKQVTQSYWDTNPTRAQGYSGLSVKVVNSTTGPGEHLRNALWHTGNTPGQVRT

LWHDPRHIGWKDFTAYRWRLSHRPKTGFIRVVMYEGKKIMADSGPIYDKTYAGGRLGLFVFSQEMVFFSDLKYECRDP

CD44_HUMAN
ATGGATAAATTTTGGTGGCATGCGGCGTGGGGCCTGTGCCTGGTGCCGCTGAGCCTGGCGCAGATTGATCTGAACATT
11

ACCTGCCGCTTTGCGGGCGTGTTTCATGTGGAAAAAAACGGCCGCTATAGCATTAGCCGCACCGAAGCGGCGGATCTG

TGCAAAGCGTTTAACAGCACCCTGCCGACCATGGCGCAGATGGAAAAAGCGCTGAGCATTGGCTTTGAAACCTGCCGC

TATGGCTTTATTGAAGGCCATGTGGTGATTCCGCGCATTCATCCGAACAGCATTTGCGCGGCGAACAACACCGGCGTG

TATATTCTGACCAGCAACACCAGCCAGTATGATACCTATTGCTTTAACGCGAGCGCGCCGCCGGAAGAAGATTGCACC

AGCGTGACCGATCTGCCGAACGCGTTTGATGGCCCGATTACCATTACCATTGTGAACCGCGATGGCACCCGCTATGTG

CAGAAAGGCGAATATCGCACCAACCCGGAAGATATTTATCCGAGCAACCCGACCGATGATGATGTGAGCAGCGGCAGC

AGCAGCGAACGCAGCAGCACCAGCGGCGGCTATATTTTTTATACCTTTAGCACCGTGCATCCGATTCCGGATGAAGAT

AGCCCGTGGATTACCGATAGCACCGATCGCATTCCGGCGACCACCCTGATGAGCACCAGCGCGACCGCGACCGAAACC

GCGACCAAACGCCAGGAAACCTGGGATTGGTTTAGCTGGCTGTTTCTGCCGAGCGAAAGCAAAAACCATCTGCATACC

ACCACCCAGATGGCGGGCACCAGCAGCAACACCATTAGCGCGGGCTGGGAACCGAACGAAGAAAACGAAGATGAACGC

GATCGCCATCTGAGCTTTAGCGGCAGCGGCATTGATGATGATGAAGATTTTATTAGCAGCACCATTAGCACCACCCCG

CGCGCGTTTGATCATACCAAACAGAACCAGGATTGGACCCAGTGGAACCCGAGCCATAGCAACCCGGAAGTGCTGCTG

CAGACCACCACCCGCATGACCGATGTGGATCGCAACGGCACCACCGCGTATGAAGGCAACTGGAACCCGGAAGCGCAT

CCGCCGCTGATTCATCATGAACATCATGAAGAAGAAGAAACCCCGCATAGCACCAGCACCATTCAGGCGACCCCGAGC

AGCACCACCGAAGAAACCGCGACCCAGAAAGAACAGTGGTTTGGCAACCGCTGGCATGAAGGCTATCGCCAGACCCCG

AAAGAAGATAGCCATAGCACCACCGGCACCGCGGCGGCGAGCGCGCATACCAGCCATCCGATGCAGGGCCGCACCACC

CCGAGCCCGGAAGATAGCAGCTGGACCGATTTTTTTAACCCGATTAGCCATCCGATGGGCCGCGGCCATCAGGCGGGC

CGCCGCATGGATATGGATAGCAGCCATAGCATTACCCTGCAGCCGACCGCGAACCCGAACACCGGCCTGGTGGAAGAT

CTGGATCGCACCGGCCCGCTGAGCATGACCACCCAGCAGAGCAACAGCCAGAGCTTTAGCACCAGCCATGAAGGCCTG

GAAGAAGATAAAGATCATCCGACCACCAGCACCCTGACCAGCAGCAACCGCAACGATGTGACCGGCGGCCGCCGCGAT

CCGAACCATAGCGAAGGCAGCACCACCCTGCTGGAAGGCTATACCAGCCATTATCCGCATACCAAAGAAAGCCGCACC

TTTATTCCGGTGACCAGCGCGAAAACCGGCAGCTTTGGCGTGACCGCGGTGACCGTGGGCGATAGCAACAGCAACGTG

AACCGCAGCCTGAGCGGCGATCAGGATACCTTTCATCCGAGCGGCGGCAGCCATACCACCCATGGCAGCGAAAGCGAT

GGCCATAGCCATGGCAGCCAGGAAGGCGGCGCGAACACCACCAGCGGCCCGATTCGCACCCCGCAGATTCCGGAATGG

CTGATTATTCTGGCGAGCCTGCTGGCGCTGGCGCTGATTCTGGCGGTGTGCATTGCGGTGAACAGCCGCCGCCGCTGC

GGCCAGAAAAAAAAACTGGTGATTAACAGCGGCAACGGCGCGGTGGAAGATCGCAAACCGAGCGGCCTGAACGGCGAA

GCGAGCAAAAGCCAGGAAATGGTGCATCTGGTGAACAAAGAAAGCAGCGAAACCCCGGATCAGTTTATGACCGCGGAT

GAAACCCGCAACCTGCAGAACGTGGATATGAAAATTGGCGTG

CD44_HUMAN
MDKFWWHAAWGLCLVPLSLAQIDLNITCRFAGVFHVEKNGRYSISRTEAADLCKAFNSTLPTMAQMEKALSIGFETCR
12

YGFIEGHVVIPRIHPNSICAANNTGVYILTSNTSQYDTYCFNASAPPEEDCTSVTDLPNAFDGPITITIVNRDGTRYV

QKGEYRTNPEDIYPSNPTDDDVSSGSSSERSSTSGGYIFYTFSTVHPIPDEDSPWITDSTDRIPATTLMSTSATATET

ATKRQETWDWFSWLFLPSESKNHLHTTTQMAGTSSNTISAGWEPNEENEDERDRHLSFSGSGIDDDEDFISSTISTTP

RAFDHTKQNQDWTQWNPSHSNPEVLLQTTTRMTDVDRNGTTAYEGNWNPEAHPPLIHHEHHEEEETPHSTSTIQATPS

STTEETATQKEQWFGNRWHEGYRQTPKEDSHSTTGTAAASAHTSHPMQGRTTPSPEDSSWTDFFNPISHPMGRGHQAG

RRMDMDSSHSITLQPTANPNTGLVEDLDRTGPLSMTTQQSNSQSFSTSHEGLEEDKDHPTTSTLTSSNRNDVTGGRRD

PNHSEGSTTLLEGYTSHYPHTKESRTFIPVTSAKTGSFGVTAVTVGDSNSNVNRSLSGDQDTFHPSGGSHTTHGSESD

GHSHGSQEGGANTTSGPIRTPQIPEWLIILASLLALALILAVCIAVNSRRRCGQKKKLVINSGNGAVEDRKPSGLNGE

ASKSQEMVHLVNKESSETPDQFMTADETRNLQNVDMKIGV

ENPL_HUMAN
ATGCGCGCGCTGTGGGTGCTGGGCCTGTGCTGCGTGCTGCTGACCTTTGGCAGCGTGCGCGCGGATGATGAAGTGGAT
13

GTGGATGGCACCGTGGAAGAAGATCTGGGCAAAAGCCGCGAAGGCAGCCGCACCGATGATGAAGTGGTGCAGCGCGAA

GAAGAAGCGATTCAGCTGGATGGCCTGAACGCGAGCCAGATTCGCGAACTGCGCGAAAAAAGCGAAAAATTTGCGTTT

CAGGCGGAAGTGAACCGCATGATGAAACTGATTATTAACAGCCTGTATAAAAACAAAGAAATTTTTCTGCGCGAACTG

ATTAGCAACGCGAGCGATGCGCTGGATAAAATTCGCCTGATTAGCCTGACCGATGAAAACGCGCTGAGCGGCAACGAA

GAACTGACCGTGAAAATTAAATGCGATAAAGAAAAAAACCTGCTGCATGTGACCGATACCGGCGTGGGCATGACCCGC

GAAGAACTGGTGAAAAACCTGGGCACCATTGCGAAAAGCGGCACCAGCGAATTTCTGAACAAAATGACCGAAGCGCAG

GAAGATGGCCAGAGCACCAGCGAACTGATTGGCCAGTTTGGCGTGGGCTTTTATAGCGCGTTTCTGGTGGCGGATAAA

GTGATTGTGACCAGCAAACATAACAACGATACCCAGCATATTTGGGAAAGCGATAGCAACGAATTTAGCGTGATTGCG

GATCCGCGCGGCAACACCCTGGGCCGCGGCACCACCATTACCCTGGTGCTGAAAGAAGAAGCGAGCGATTATCTGGAA

CTGGATACCATTAAAAACCTGGTGAAAAAATATAGCCAGTTTATTAACTTTCCGATTTATGTGTGGAGCAGCAAAACC

GAAACCGTGGAAGAACCGATGGAAGAAGAAGAAGCGGCGAAAGAAGAAAAAGAAGAAAGCGATGATGAAGCGGCGGTG

GAAGAAGAAGAAGAAGAAAAAAAACCGAAAACCAAAAAAGTGGAAAAAACCGTGTGGGATTGGGAACTGATGAACGAT

ATTAAACCGATTTGGCAGCGCCCGAGCAAAGAAGTGGAAGAAGATGAATATAAAGCGTTTTATAAAAGCTTTAGCAAA

GAAAGCGATGATCCGATGGCGTATATTCATTTTACCGCGGAAGGCGAAGTGACCTTTAAAAGCATTCTGTTTGTGCCG

ACCAGCGCGCCGCGCGGCCTGTTTGATGAATATGGCAGCAAAAAAAGCGATTATATTAAACTGTATGTGCGCCGCGTG

TTTATTACCGATGATTTTCATGATATGATGCCGAAATATCTGAACTTTGTGAAAGGCGTGGTGGATAGCGATGATCTG

CCGCTGAACGTGAGCCGCGAAACCCTGCAGCAGCATAAACTGCTGAAAGTGATTCGCAAAAAACTGGTGCGCAAAACC

CTGGATATGATTAAAAAAATTGCGGATGATAAATATAACGATACCTTTTGGAAAGAATTTGGCACCAACATTAAACTG

GGCGTGATTGAAGATCATAGCAACCGCACCCGCCTGGCGAAACTGCTGCGCTTTCAGAGCAGCCATCATCCGACCGAT

ATTACCAGCCTGGATCAGTATGTGGAACGCATGAAAGAAAAACAGGATAAAATTTATTTTATGGCGGGCAGCAGCCGC

AAAGAAGCGGAAAGCAGCCCGTTTGTGGAACGCCTGCTGAAAAAAGGCTATGAAGTGATTTATCTGACCGAACCGGTG

GATGAATATTGCATTCAGGCGCTGCCGGAATTTGATGGCAAACGCTTTCAGAACGTGGCGAAAGAAGGCGTGAAATTT

GATGAAAGCGAAAAAACCAAAGAAAGCCGCGAAGCGGTGGAAAAAGAATTTGAACCGCTGCTGAACTGGATGAAAGAT

AAAGCGCTGAAAGATAAAATTGAAAAAGCGGTGGTGAGCCAGCGCCTGACCGAAAGCCCGTGCGCGCTGGTGGCGAGC

CAGTATGGCTGGAGCGGCAACATGGAACGCATTATGAAAGCGCAGGCGTATCAGACCGGCAAAGATATTAGCACCAAC

TATTATGCGAGCCAGAAAAAAACCTTTGAAATTAACCCGCGCCATCCGCTGATTCGCGATATGCTGCGCCGCATTAAA

GAAGATGAAGATGATAAAACCGTGCTGGATCTGGCGGTGGTGCTGTTTGAAACCGCGACCCTGCGCAGCGGCTATCTG

CTGCCGGATACCAAAGCGTATGGCGATCGCATTGAACGCATGCTGCGCCTGAGCCTGAACATTGATCCGGATGCGAAA

GTGGAAGAAGAACCGGAAGAAGAACCGGAAGAAACCGCGGAAGATACCACCGAAGATACCGAACAGGATGAAGATGAA

GAAATGGATGTGGGCACCGATGAAGAAGAAGAAACCGCGAAAGAAAGCACCGCGGAAAAAGATGAACTG

ENPL_HUMAN
MRALWVLGLCCVLLTFGSVRADDEVDVDGTVEEDLGKSREGSRTDDEVVQREEEAIQLDGLNASQIRELREKSEKFAF
14

QAEVNRMMKLIINSLYKNKEIFLRELISNASDALDKIRLISLTDENALSGNEELTVKIKCDKEKNLLHVTDTGVGMTR

EELVKNLGTIAKSGTSEFLNKMTEAQEDGQSTSELIGQFGVGFYSAFLVADKVIVTSKHNNDTQHIWESDSNEFSVIA

DPRGNTLGRGTTITLVLKEEASDYLELDTIKNLVKKYSQFINEPIYVWSSKTETVEEPMEEEEAAKEEKEESDDEAAV

EEEEEEKKPKTKKVEKTVWDWELMNDIKPIWQRPSKEVEEDEYKAFYKSFSKESDDPMAYIHFTAEGEVTFKSILFVP

TSAPRGLFDEYGSKKSDYIKLYVRRVFITDDFHDMMPKYLNFVKGVVDSDDLPLNVSRETLQQHKLLKVIRKKLVRKT

LDMIKKIADDKYNDTFWKEFGTNIKLGVIEDHSNRTRLAKLLRFQSSHHPTDITSLDQYVERMKEKQDKIYFMAGSSR

KEAESSPFVERLLKKGYEVIYLTEPVDEYCIQALPEFDGKREQNVAKEGVKFDESEKTKESREAVEKEFEPLLNWMKD

KALKDKIEKAVVSQRLTESPCALVASQYGWSGNMERIMKAQAYQTGKDISTNYYASQKKTFEINPRHPLIRDMLRRIK

EDEDDKTVLDLAVVLFETATLRSGYLLPDTKAYGDRIERMLRLSLNIDPDAKVEEEPEEEPEETAEDTTEDTEQDEDE

EMDVGTDEEEETAKESTAEKDEL

TENX_HUMAN
ATGATGCCGGCGCAGTATGCGCTGACCAGCAGCCTGGTGCTGCTGGTGCTGCTGAGCACCGCGCGCGCGGGCCCGTTT
15

AGCAGCCGCAGCAACGTGACCCTGCCGGCGCCGCGCCCGCCGCCGCAGCCGGGCGGCCATACCGTGGGCGCGGGCGTG

GGCAGCCCGAGCAGCCAGCTGTATGAACATACCGTGGAAGGCGGCGAAAAACAGGTGGTGTTTACCCATCGCATTAAC

CTGCCGCCGAGCACCGGCTGCGGCTGCCCGCCGGGCACCGAACCGCCGGTGCTGGCGAGCGAAGTGCAGGCGCTGCGC

GTGCGCCTGGAAATTCTGGAAGAACTGGTGAAAGGCCTGAAAGAACAGTGCACCGGCGGCTGCTGCCCGGCGAGCGCG

CAGGCGGGCACCGGCCAGACCGATGTGCGCACCCTGTGCAGCCTGCATGGCGTGTTTGATCTGAGCCGCTGCACCTGC

AGCTGCGAACCGGGCTGGGGCGGCCCGACCTGCAGCGATCCGACCGATGCGGAAATTCCGCCGAGCAGCCCGCCGAGC

GCGAGCGGCAGCTGCCCGGATGATTGCAACGATCAGGGCCGCTGCGTGCGCGGCCGCTGCGTGTGCTTTCCGGGCTAT

ACCGGCCCGAGCTGCGGCTGGCCGAGCTGCCCGGGCGATTGCCAGGGCCGCGGCCGCTGCGTGCAGGGCGTGTGCGTG

TGCCGCGCGGGCTTTAGCGGCCCGGATTGCAGCCAGCGCAGCTGCCCGCGCGGCTGCAGCCAGCGCGGCCGCTGCGAA

GGCGGCCGCTGCGTGTGCGATCCGGGCTATACCGGCGATGATTGCGGCATGCGCAGCTGCCCGCGCGGCTGCAGCCAG

CGCGGCCGCTGCGAAAACGGCCGCTGCGTGTGCAACCCGGGCTATACCGGCGAAGATTGCGGCGTGCGCAGCTGCCCG

CGCGGCTGCAGCCAGCGCGGCCGCTGCAAAGATGGCCGCTGCGTGTGCGATCCGGGCTATACCGGCGAAGATTGCGGC

ACCCGCAGCTGCCCGTGGGATTGCGGCGAAGGCGGCCGCTGCGTGGATGGCCGCTGCGTGTGCTGGCCGGGCTATACC

GGCGAAGATTGCAGCACCCGCACCTGCCCGCGCGATTGCCGCGGCCGCGGCCGCTGCGAAGATGGCGAATGCATTTGC

GATACCGGCTATAGCGGCGATGATTGCGGCGTGCGCAGCTGCCCGGGCGATTGCAACCAGCGCGGCCGCTGCGAAGAT

GGCCGCTGCGTGTGCTGGCCGGGCTATACCGGCACCGATTGCGGCAGCCGCGCGTGCCCGCGCGATTGCCGCGGCCGC

GGCCGCTGCGAAAACGGCGTGTGCGTGTGCAACGCGGGCTATAGCGGCGAAGATTGCGGCGTGCGCAGCTGCCCGGGC

GATTGCCGCGGCCGCGGCCGCTGCGAAAGCGGCCGCTGCATGTGCTGGCCGGGCTATACCGGCCGCGATTGCGGCACC

CGCGCGTGCCCGGGCGATTGCCGCGGCCGCGGCCGCTGCGTGGATGGCCGCTGCGTGTGCAACCCGGGCTTTACCGGC

GAAGATTGCGGCAGCCGCCGCTGCCCGGGCGATTGCCGCGGCCATGGCCTGTGCGAAGATGGCGTGTGCGTGTGCGAT

GCGGGCTATAGCGGCGAAGATTGCAGCACCCGCAGCTGCCCGGGCGGCTGCCGCGGCCGCGGCCAGTGCCTGGATGGC

CGCTGCGTGTGCGAAGATGGCTATAGCGGCGAAGATTGCGGCGTGCGCCAGTGCCCGAACGATTGCAGCCAGCATGGC

GTGTGCCAGGATGGCGTGTGCATTTGCTGGGAAGGCTATGTGAGCGAAGATTGCAGCATTCGCACCTGCCCGAGCAAC

TGCCATGGCCGCGGCCGCTGCGAAGAAGGCCGCTGCCTGTGCGATCCGGGCTATACCGGCCCGACCTGCGCGACCCGC

ATGTGCCCGGCGGATTGCCGCGGCCGCGGCCGCTGCGTGCAGGGCGTGTGCCTGTGCCATGTGGGCTATGGCGGCGAA

GATTGCGGCCAGGAAGAACCGCCGGCGAGCGCGTGCCCGGGCGGCTGCGGCCCGCGCGAACTGTGCCGCGCGGGCCAG

TGCGTGTGCGTGGAAGGCTTTCGCGGCCCGGATTGCGCGATTCAGACCTGCCCGGGCGATTGCCGCGGCCGCGGCGAA

TGCCATGATGGCAGCTGCGTGTGCAAAGATGGCTATGCGGGCGAAGATTGCGGCGAAGCGCGCGTGCCGAGCAGCGCG

AGCGCGTATGATCAGCGCGGCCTGGCGCCGGGCCAGGAATATCAGGTGACCGTGCGCGCGCTGCGCGGCACCAGCTGG

GGCCTGCCGGCGAGCAAAACCATTACCACCATGATTGATGGCCCGCAGGATCTGCGCGTGGTGGCGGTGACCCCGACC

ACCCTGGAACTGGGCTGGCTGCGCCCGCAGGCGGAAGTGGATCGCTTTGTGGTGAGCTATGTGAGCGCGGGCAACCAG

CGCGTGCGCCTGGAAGTGCCGCCGGAAGCGGATGGCACCCTGCTGACCGATCTGATGCCGGGCGTGGAATATGTGGTG

ACCGTGACCGCGGAACGCGGCCGCGCGGTGAGCTATCCGGCGAGCGTGCGCGCGAACACCGAAGAACGCGAAGAAGAA

AGCCCGCCGCGCCCGAGCCTGAGCCAGCCGCCGCGCCGCCCGTGGGGCAACCTGACCGCGGAACTGAGCCGCTTTCGC

GGCACCGTGCAGGATCTGGAACGCCATCTGCGCGCGCATGGCTATCCGCTGCGCGCGAACCAGACCTATACCAGCGTG

GCGCGCCATATTCATGAATATCTGCAGCGCCAGGTGCTGGGCAGCAGCGCGGATGGCGCGCTGCTGGTGAGCCTGGAT

GGCCTGCGCGGCCAGTTTGAACGCGTGGTGCTGCGCTGGCGCCCGCAGCCGCCGGCGGAAGGCCCGGGCGGCGAACTG

ACCGTGCCGGGCACCACCCGCACCGTGAGCCTGCCGGATCTGCGCCCGGGCACCACCTATCATGTGGAAGTGCATGGC

GTGCGCGCGGGCCAGACCAGCAAAAGCTATGCGTTTATTACCACCACCGGCCCGAGCACCACCCAGGGCGCGCAGGCG

CCGCTGCTGCAGCAGCGCCCGCAGGAACTGGGCGAACTGCGCGTGCTGGGCCGCGATGAAACCGGCCGCCTGCGCGTG

GTGTGGACCGCGCAGCCGGATACCTTTGCGTATTTTCAGCTGCGCATGCGCGTGCCGGAAGGCCCGGGCGCGCATGAA

GAAGTGCTGCCGGGCGATGTGCGCCAGGCGCTGGTGCCGCCGCCGCCGCCGGGCACCCCGTATGAACTGAGCCTGCAT

GGCGTGCCGCCGGGCGGCAAACCGAGCGATCCGATTATTTATCAGGGCATTATGGATAAAGATGAAGAAAAACCGGGC

AAAAGCAGCGGCCCGCCGCGCCTGGGCGAACTGACCGTGACCGATCGCACCAGCGATAGCCTGCTGCTGCGCTGGACC

GTGCCGGAAGGCGAATTTGATAGCTTTGTGATTCAGTATAAAGATCGCGATGGCCAGCCGCAGGTGGTGCCGGTGGAA

GGCCCGCAGCGCAGCGCGGTGATTACCAGCCTGGATCCGGGCCGCAAATATAAATTTGTGCTGTATGGCTTTGTGGGC

AAAAAACGCCATGGCCCGCTGGTGGCGGAAGCGAAAATTCTGCCGCAGAGCGATCCGAGCCCGGGCACCCCGCCGCAT

CTGGGCAACCTGTGGGTGACCGATCCGACCCCGGATAGCCTGCATCTGAGCTGGACCGTGCCGGAAGGCCAGTTTGAT

ACCTTTATGGTGCAGTATCGCGATCGCGATGGCCGCCCGCAGGTGGTGCCGGTGGAAGGCCCGGAACGCAGCTTTGTG

GTGAGCAGCCTGGATCCGGATCATAAATATCGCTTTACCCTGTTTGGCATTGCGAACAAAAAACGCTATGGCCCGCTG

ACCGCGGATGGCACCACCGCGCCGGAACGCAAAGAAGAACCGCCGCGCCCGGAATTTCTGGAACAGCCGCTGCTGGGC

GAACTGACCGTGACCGGCGTGACCCCGGATAGCCTGCGCCTGAGCTGGACCGTGGCGCAGGGCCCGTTTGATAGCTTT

ATGGTGCAGTATAAAGATGCGCAGGGCCAGCCGCAGGCGGTGCCGGTGGCGGGCGATGAAAACGAAGTGACCGTGCCG

GGCCTGGATCCGGATCGCAAATATAAAATGAACCTGTATGGCCTGCGCGGCCGCCAGCGCGTGGGCCCGGAAAGCGTG

GTGGCGAAAACCGCGCCGCAGGAAGATGTGGATGAAACCCCGAGCCCGACCGAACTGGGCACCGAAGCGCCGGAAAGC

CCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGATAGCCTGAGCCTGTTTTGGACCGTGCCG

CAGGGCAGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGCCCGCGCGCGGTGCGCGTGGGCGGCAAA

GAAAGCGAAGTGACCGTGGGCGGCCTGGAACCGGGCCATAAATATAAAATGCATCTGTATGGCCTGCATGAAGGCCAG

CGCGTGGGCCCGGTGAGCGCGGTGGGCGTGACCGCGCCGCAGCAGGAAGAAACCCCGCCGGCGACCGAAAGCCCGCTG

GAACCGCGCCTGGGCGAACTGACCGTGACCGATGTGACCCCGAACAGCGTGGGCCTGAGCTGGACCGTGCCGGAAGGC

CAGTTTGATAGCTTTATTGTGCAGTATAAAGATAAAGATGGCCAGCCGCAGGTGGTGCCGGTGGCGGCGGATCAGCGC

GAAGTGACCGTGTATAACCTGGAACCGGAACGCAAATATAAAATGAACATGTATGGCCTGCATGATGGCCAGCGCATG

GGCCCGCTGAGCGTGGTGATTGTGACCGCGCCGGCGACCGAAGCGAGCAAACCGCCGCTGGAACCGCGCCTGGGCGAA

CTGACCGTGACCGATATTACCCCGGATAGCGTGGGCCTGAGCTGGACCGTGCCGGAAGGCGAATTTGATAGCTTTGTG

GTGCAGTATAAAGATCGCGATGGCCAGCCGCAGGTGGTGCCGGTGGCGGCGGATCAGCGCGAAGTGACCATTCCGGAT

CTGGAACCGAGCCGCAAATATAAATTTCTGCTGTTTGGCATTCAGGATGGCAAACGCCGCAGCCCGGTGAGCGTGGAA

GCGAAAACCGTGGCGCGCGGCGATGCGAGCCCGGGCGCGCCGCCGCGCCTGGGCGAACTGTGGGTGACCGATCCGACC

CCGGATAGCCTGCGCCTGAGCTGGACCGTGCCGGAAGGCCAGTTTGATAGCTTTGTGGTGCAGTTTAAAGATAAAGAT

GGCCCGCAGGTGGTGCCGGTGGAAGGCCATGAACGCAGCGTGACCGTGACCCCGCTGGATGCGGGCCGCAAATATCGC

TTTCTGCTGTATGGCCTGCTGGGCAAAAAACGCCATGGCCCGCTGACCGCGGATGGCACCACCGAAGCGCGCAGCGCG

ATGGATGATACCGGCACCAAACGCCCGCCGAAACCGCGCCTGGGCGAAGAACTGCAGGTGACCACCGTGACCCAGAAC

AGCGTGGGCCTGAGCTGGACCGTGCCGGAAGGCCAGTTTGATAGCTTTGTGGTGCAGTATAAAGATCGCGATGGCCAG

CCGCAGGTGGTGCCGGTGGAAGGCAGCCTGCGCGAAGTGAGCGTGCCGGGCCTGGATCCGGCGCATCGCTATAAACTG

CTGCTGTATGGCCTGCATCATGGCAAACGCGTGGGCCCGATTAGCGCGGTGGCGATTACCGCGGGCCGCGAAGAAACC

GAAACCGAAACCACCGCGCCGACCCCGCCGGCGCCGGAACCGCATCTGGGCGAACTGACCGTGGAAGAAGCGACCAGC

CATACCCTGCATCTGAGCTGGATGGTGACCGAAGGCGAATTTGATAGCTTTGAAATTCAGTATACCGATCGCGATGGC

CAGCTGCAGATGGTGCGCATTGGCGGCGATCGCAACGATATTACCCTGAGCGGCCTGGAAAGCGATCATCGCTATCTG

GTGACCCTGTATGGCTTTAGCGATGGCAAACATGTGGGCCCGGTGCATGTGGAAGCGCTGACCGTGCCGGAAGAAGAA

AAACCGAGCGAACCGCCGACCGCGACCCCGGAACCGCCGATTAAACCGCGCCTGGGCGAACTGACCGTGACCGATGCG

ACCCCGGATAGCCTGAGCCTGAGCTGGACCGTGCCGGAAGGCCAGTTTGATCATTTTCTGGTGCAGTATCGCAACGGC

GATGGCCAGCCGAAAGCGGTGCGCGTGCCGGGCCATGAAGAAGGCGTGACCATTAGCGGCCTGGAACCGGATCATAAA

TATAAAATGAACCTGTATGGCTTTCATGGCGGCCAGCGCATGGGCCCGGTGAGCGTGGTGGGCGTGACCGAACCGAGC

ATGGAAGCGCCGGAACCGGCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGATAGCCTGAGC

CTGAGCTGGACCGTGCCGCAGGGCCGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGCCCGCAGGTG

GTGCGCGTGGGCGGCGAAGAAAGCGAAGTGACCGTGGGCGGCCTGGAACCGGGCCGCAAATATAAAATGCATCTGTAT

GGCCTGCATGAAGGCCGCCGCGTGGGCCCGGTGAGCGCGGTGGGCGTGACCGCGCCGGAAGAAGAAAGCCCGGATGCG

CCGCTGGCGAAACTGCGCCTGGGCCAGATGACCGTGCGCGATATTACCAGCGATAGCCTGAGCCTGAGCTGGACCGTG

CCGGAAGGCCAGTTTGATCATTTTCTGGTGCAGTTTAAAAACGGCGATGGCCAGCCGAAAGCGGTGCGCGTGCCGGGC

CATGAAGATGGCGTGACCATTAGCGGCCTGGAACCGGATCATAAATATAAAATGAACCTGTATGGCTTTCATGGCGGC

CAGCGCGTGGGCCCGGTGAGCGCGGTGGGCCTGACCGCGAGCACCGAACCGCCGACCCCGGAACCGCCGATTAAACCG

CGCCTGGAAGAACTGACCGTGACCGATGCGACCCCGGATAGCCTGAGCCTGAGCTGGACCGTGCCGGAAGGCCAGTTT

GATCATTTTCTGGTGCAGTATAAAAACGGCGATGGCCAGCCGAAAGCGACCCGCGTGCCGGGCCATGAAGATCGCGTG

ACCATTAGCGGCCTGGAACCGGATAACAAATATAAAATGAACCTGTATGGCTTTCATGGCGGCCAGCGCGTGGGCCCG

GTGAGCGCGATTGGCGTGACCGAAGAAGAAACCCCGAGCCCGACCGAACCGAGCATGGAAGCGCCGGAACCGCCGGAA

GAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGATAGCCTGAGCCTGAGCTGGACCGTGCCGCAGGGC

CGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGCCCGCAGGTGGTGCGCGTGGGCGGCGAAGAAAGC

GAAGTGACCGTGGGCGGCCTGGAACCGGGCCGCAAATATAAAATGCATCTGTATGGCCTGCATGAAGGCCGCCGCGTG

GGCCCGGTGAGCACCGTGGGCGTGACCGCGCCGCAGGAAGATGTGGATGAAACCCCGAGCCCGACCGAACCGGGCACC

GAAGCGCCGGGCCCGCCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGATAGCCTGAGCCTG

AGCTGGACCGTGCCGCAGGGCCGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGCCCGCAGGCGGTG

CGCGTGGGCGGCCAGGAAAGCAAAGTGACCGTGCGCGGCCTGGAACCGGGCCGCAAATATAAAATGCATCTGTATGGC

CTGCATGAAGGCCGCCGCCTGGGCCCGGTGAGCGCGGTGGGCGTGACCGAAGATGAAGCGGAAACCACCCAGGCGGTG

CCGACCATGACCCCGGAACCGCCGATTAAACCGCGCCTGGGCGAACTGACCATGACCGATGCGACCCCGGATAGCCTG

AGCCTGAGCTGGACCGTGCCGGAAGGCCAGTTTGATCATTTTCTGGTGCAGTATCGCAACGGCGATGGCCAGCCGAAA

GCGGTGCGCGTGCCGGGCCATGAAGATGGCGTGACCATTAGCGGCCTGGAACCGGATCATAAATATAAAATGAACCTG

TATGGCTTTCATGGCGGCCAGCGCGTGGGCCCGATTAGCGTGATTGGCGTGACCGAAGAAGAAACCCCGAGCCCGACC

GAACTGAGCACCGAAGCGCCGGAACCGCCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGAT

AGCCTGAGCCTGAGCTGGACCATTCCGCAGGGCCATTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGC

CCGCAGGTGATGCGCGTGCGCGGCGAAGAAAGCGAAGTGACCGTGGGCGGCCTGGAACCGGGCCGCAAATATAAAATG

CATCTGTATGGCCTGCATGAAGGCCGCCGCGTGGGCCCGGTGAGCACCGTGGGCGTGACCGTGCCGACCACCACCCCG

GAACCGCCGAACAAACCGCGCCTGGGCGAACTGACCGTGACCGATGCGACCCCGGATAGCCTGAGCCTGAGCTGGATG

GTGCCGGAAGGCCAGTTTGATCATTTTCTGGTGCAGTATCGCAACGGCGATGGCCAGCCGAAAGTGGTGCGCGTGCCG

GGCCATGAAGATGGCGTGACCATTAGCGGCCTGGAACCGGATCATAAATATAAAATGAACCTGTATGGCTTTCATGGC

GGCCAGCGCGTGGGCCCGATTAGCGTGATTGGCGTGACCGAAGAAGAAACCCCGGCGCCGACCGAACCGAGCACCGAA

GCGCCGGAACCGCCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCGGATAGCCTGAGCCTGAGC

TGGACCATTCCGCAGGGCCGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGCCGCCCGCAGGTGGTGCGC

GTGCGCGGCGAAGAAAGCGAAGTGACCGTGGGCGGCCTGGAACCGGGCTGCAAATATAAAATGCATCTGTATGGCCTG

CATGAAGGCCAGCGCGTGGGCCCGGTGAGCGCGGTGGGCGTGACCGCGCCGAAAGATGAAGCGGAAACCACCCAGGCG

GTGCCGACCATGACCCCGGAACCGCCGATTAAACCGCGCCTGGGCGAACTGACCGTGACCGATGCGACCCCGGATAGC

CTGAGCCTGAGCTGGATGGTGCCGGAAGGCCAGTTTGATCATTTTCTGGTGCAGTATCGCAACGGCGATGGCCAGCCG

AAAGCGGTGCGCGTGCCGGGCCATGAAGATGGCGTGACCATTAGCGGCCTGGAACCGGATCATAAATATAAAATGAAC

CTGTATGGCTTTCATGGCGGCCAGCGCGTGGGCCCGGTGAGCGCGATTGGCGTGACCGAAGAAGAAACCCCGAGCCCG

ACCGAACCGAGCACCGAAGCGCCGGAAGCGCCGGAAGAACCGCTGCTGGGCGAACTGACCGTGACCGGCAGCAGCCCG

GATAGCCTGAGCCTGAGCTGGACCGTGCCGCAGGGCCGCTTTGATAGCTTTACCGTGCAGTATAAAGATCGCGATGGC

CAGCCGCAGGTGGTGCGCGTGCGCGGCGAAGAAAGCGAAGTGACCGTGGGCGGCCTGGAACCGGGCCGCAAATATAAA

ATGCATCTGTATGGCCTGCATGAAGGCCAGCGCGTGGGCCCGGTGAGCACCGTGGGCATTACCGCGCCGCTGCCGACC

CCGCTGCCGGTGGAACCGCGCCTGGGCGAACTGGCGGTGGCGGCGGTGACCAGCGATAGCGTGGGCCTGAGCTGGACC

GTGGCGCAGGGCCCGTTTGATAGCTTTCTGGTGCAGTATCGCGATGCGCAGGGCCAGCCGCAGGCGGTGCCGGTGAGC

GGCGATCTGCGCGCGGTGGCGGTGAGCGGCCTGGATCCGGCGCGCAAATATAAATTTCTGCTGTTTGGCCTGCAGAAC

GGCAAACGCCATGGCCCGGTGCCGGTGGAAGCGCGCACCGCGCCGGATACCAAACCGAGCCCGCGCCTGGGCGAACTG

ACCGTGACCGATGCGACCCCGGATAGCGTGGGCCTGAGCTGGACCGTGCCGGAAGGCGAATTTGATAGCTTTGTGGTG

CAGTATAAAGATAAAGATGGCCGCCTGCAGGTGGTGCCGGTGGCGGCGAACCAGCGCGAAGTGACCGTGCAGGGCCTG

GAACCGAGCCGCAAATATCGCTTTCTGCTGTATGGCCTGAGCGGCCGCAAACGCCTGGGCCCGATTAGCGCGGATAGC

ACCACCGCGCCGCTGGAAAAAGAACTGCCGCCGCATCTGGGCGAACTGACCGTGGCGGAAGAAACCAGCAGCAGCCTG

CGCCTGAGCTGGACCGTGGCGCAGGGCCCGTTTGATAGCTTTGTGGTGCAGTATCGCGATACCGATGGCCAGCCGCGC

GCGGTGCCGGTGGCGGCGGATCAGCGCACCGTGACCGTGGAAGATCTGGAACCGGGCAAAAAATATAAATTTCTGCTG

TATGGCCTGCTGGGCGGCAAACGCCTGGGCCCGGTGAGCGCGCTGGGCATGACCGCGCCGGAAGAAGATACCCCGGCG

CCGGAACTGGCGCCGGAAGCGCCGGAACCGCCGGAAGAACCGCGCCTGGGCGTGCTGACCGTGACCGATACCACCCCG

GATAGCATGCGCCTGAGCTGGAGCGTGGCGCAGGGCCCGTTTGATAGCTTTGTGGTGCAGTATGAAGATACCAACGGC

CAGCCGCAGGCGCTGCTGGTGGATGGCGATCAGAGCAAAATTCTGATTAGCGGCCTGGAACCGAGCACCCCGTATCGC

TTTCTGCTGTATGGCCTGCATGAAGGCAAACGCCTGGGCCCGCTGAGCGCGGAAGGCACCACCGGCCTGGCGCCGGCG

GGCCAGACCAGCGAAGAAAGCCGCCCGCGCCTGAGCCAGCTGAGCGTGACCGATGTGACCACCAGCAGCCTGCGCCTG

AACTGGGAAGCGCCGCCGGGCGCGTTTGATAGCTTTCTGCTGCGCTTTGGCGTGCCGAGCCCGAGCACCCTGGAACCG

CATCCGCGCCCGCTGCTGCAGCGCGAACTGATGGTGCCGGGCACCCGCCATAGCGCGGTGCTGCGCGATCTGCGCAGC

GGCACCCTGTATAGCCTGACCCTGTATGGCCTGCGCGGCCCGCATAAAGCGGATAGCATTCAGGGCACCGCGCGCACC

CTGAGCCCGGTGCTGGAAAGCCCGCGCGATCTGCAGTTTAGCGAAATTCGCGAAACCAGCGCGAAAGTGAACTGGATG

CCGCCGCCGAGCCGCGCGGATAGCTTTAAAGTGAGCTATCAGCTGGCGGATGGCGGCGAACCGCAGAGCGTGCAGGTG

GATGGCCAGGCGCGCACCCAGAAACTGCAGGGCCTGATTCCGGGCGCGCGCTATGAAGTGACCGTGGTGAGCGTGCGC

GGCTTTGAAGAAAGCGAACCGCTGACCGGCTTTCTGACCACCGTGCCGGATGGCCCGACCCAGCTGCGCGCGCTGAAC

CTGACCGAAGGCTTTGCGGTGCTGCATTGGAAACCGCCGCAGAACCCGGTGGATACCTATGATGTGCAGGTGACCGCG

CCGGGCGCGCCGCCGCTGCAGGCGGAAACCCCGGGCAGCGCGGTGGATTATCCGCTGCATGATCTGGTGCTGCATACC

AACTATACCGCGACCGTGCGCGGCCTGCGCGGCCCGAACCTGACCAGCCCGGCGAGCATTACCTTTACCACCGGCCTG

GAAGCGCCGCGCGATCTGGAAGCGAAAGAAGTGACCCCGCGCACCGCGCTGCTGACCTGGACCGAACCGCCGGTGCGC

CCGGCGGGCTATCTGCTGAGCTTTCATACCCCGGGCGGCCAGAACCAGGAAATTCTGCTGCCGGGCGGCATTACCAGC

CATCAGCTGCTGGGCCTGTTTCCGAGCACCAGCTATAACGCGCGCCTGCAGGCGATGTGGGGCCAGAGCCTGCTGCCG

CCGGTGAGCACCAGCTTTACCACCGGCGGCCTGCGCATTCCGTTTCCGCGCGATTGCGGCGAAGAAATGCAGAACGGC

GCGGGCGCGAGCCGCACCAGCACCATTTTTCTGAACGGCAACCGCGAACGCCCGCTGAACGTGTTTTGCGATATGGAA

ACCGATGGCGGCGGCTGGCTGGTGTTTCAGCGCCGCATGGATGGCCAGACCGATTTTTGGCGCGATTGGGAAGATTAT

GCGCATGGCTTTGGCAACATTAGCGGCGAATTTTGGCTGGGCAACGAAGCGCTGCATAGCCTGACCCAGGCGGGCGAT

TATAGCATGCGCGTGGATCTGCGCGCGGGCGATGAAGCGGTGTTTGCGCAGTATGATAGCTTTCATGTGGATAGCGCG

GCGGAATATTATCGCCTGCATCTGGAAGGCTATCATGGCACCGCGGGCGATAGCATGAGCTATCATAGCGGCAGCGTG

TTTAGCGCGCGCGATCGCGATCCGAACAGCCTGCTGATTAGCTGCGCGGTGAGCTATCGCGGCGCGTGGTGGTATCGC

AACTGCCATTATGCGAACCTGAACGGCCTGTATGGCAGCACCGTGGATCATCAGGGCGTGAGCTGGTATCATTGGAAA

GGCTTTGAATTTAGCGTGCCGTTTACCGAAATGAAACTGCGCCCGCGCAACTTTCGCAGCCCGGCGGGCGGCGGC

TENX_HUMAN
MMPAQYALTSSLVLLVLLSTARAGPFSSRSNVTLPAPRPPPQPGGHTVGAGVGSPSSQLYEHTVEGGEKQVVFTHRIN
16

LPPSTGCGCPPGTEPPVLASEVQALRVRLEILEELVKGLKEQCTGGCCPASAQAGTGQTDVRTLCSLHGVFDLSRCTC

SCEPGWGGPTCSDPTDAEIPPSSPPSASGSCPDDCNDQGRCVRGRCVCFPGYTGPSCGWPSCPGDCQGRGRCVQGVCV

CRAGFSGPDCSQRSCPRGCSQRGRCEGGRCVCDPGYTGDDCGMRSCPRGCSQRGRCENGRCVCNPGYTGEDCGVRSCP

RGCSQRGRCKDGRCVCDPGYTGEDCGTRSCPWDCGEGGRCVDGRCVCWPGYTGEDCSTRTCPRDCRGRGRCEDGECIC

DTGYSGDDCGVRSCPGDCNQRGRCEDGRCVCWPGYTGTDCGSRACPRDCRGRGRCENGVCVCNAGYSGEDCGVRSCPG

DCRGRGRCESGRCMCWPGYTGRDCGTRACPGDCRGRGRCVDGRCVCNPGFTGEDCGSRRCPGDCRGHGLCEDGVCVCD

AGYSGEDCSTRSCPGGCRGRGQCLDGRCVCEDGYSGEDCGVRQCPNDCSQHGVCQDGVCICWEGYVSEDCSIRTCPSN

CHGRGRCEEGRCLCDPGYTGPTCATRMCPADCRGRGRCVQGVCLCHVGYGGEDCGQEEPPASACPGGCGPRELCRAGQ

CVCVEGFRGPDCAIQTCPGDCRGRGECHDGSCVCKDGYAGEDCGEARVPSSASAYDQRGLAPGQEYQVTVRALRGTSW

GLPASKTITTMIDGPQDLRVVAVTPTTLELGWLRPQAEVDREVVSYVSAGNQRVRLEVPPEADGTLLTDLMPGVEYVV

TVTAERGRAVSYPASVRANTEEREEESPPRPSLSQPPRRPWGNLTAELSRFRGTVQDLERHLRAHGYPLRANQTYTSV

ARHIHEYLQRQVLGSSADGALLVSLDGLRGQFERVVLRWRPQPPAEGPGGELTVPGTTRTVSLPDLRPGTTYHVEVHG

VRAGQTSKSYAFITTTGPSTTQGAQAPLLQQRPQELGELRVLGRDETGRLRVVWTAQPDTFAYFQLRMRVPEGPGAHE

EVLPGDVRQALVPPPPPGTPYELSLHGVPPGGKPSDPIIYQGIMDKDEEKPGKSSGPPRLGELTVTDRTSDSLLLRWT

VPEGEFDSEVIQYKDRDGQPQVVPVEGPQRSAVITSLDPGRKYKFVLYGFVGKKRHGPLVAEAKILPQSDPSPGTPPH

LGNLWVTDPTPDSLHLSWTVPEGQFDTFMVQYRDRDGRPQVVPVEGPERSFVVSSLDPDHKYRFTLFGIANKKRYGPL

TADGTTAPERKEEPPRPEFLEQPLLGELTVTGVTPDSLRLSWTVAQGPFDSFMVQYKDAQGQPQAVPVAGDENEVTVP

GLDPDRKYKMNLYGLRGRQRVGPESVVAKTAPQEDVDETPSPTELGTEAPESPEEPLLGELTVTGSSPDSLSLFWTVP

QGSFDSFTVQYKDRDGRPRAVRVGGKESEVTVGGLEPGHKYKMHLYGLHEGQRVGPVSAVGVTAPQQEETPPATESPL

EPRLGELTVTDVTPNSVGLSWTVPEGQFDSFIVQYKDKDGQPQVVPVAADQREVTVYNLEPERKYKMNMYGLHDGQRM

GPLSVVIVTAPATEASKPPLEPRLGELTVTDITPDSVGLSWTVPEGEFDSFVVQYKDRDGQPQVVPVAADQREVTIPD

LEPSRKYKFLLFGIQDGKRRSPVSVEAKTVARGDASPGAPPRLGELWVTDPTPDSLRLSWTVPEGQFDSFVVQFKDKD

GPQVVPVEGHERSVTVTPLDAGRKYRFLLYGLLGKKRHGPLTADGTTEARSAMDDTGTKRPPKPRLGEELQVTTVTQN

SVGLSWTVPEGQFDSFVVQYKDRDGQPQVVPVEGSLREVSVPGLDPAHRYKLLLYGLHHGKRVGPISAVAITAGREET

ETETTAPTPPAPEPHLGELTVEEATSHTLHLSWMVTEGEFDSFEIQYTDRDGQLQMVRIGGDRNDITLSGLESDHRYL

VTLYGESDGKHVGPVHVEALTVPEEEKPSEPPTATPEPPIKPRLGELTVTDATPDSLSLSWTVPEGQFDHELVQYRNG

DGQPKAVRVPGHEEGVTISGLEPDHKYKMNLYGFHGGQRMGPVSVVGVTEPSMEAPEPAEEPLLGELTVTGSSPDSLS

LSWTVPQGRFDSFTVQYKDRDGRPQVVRVGGEESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSAVGVTAPEEESPDA

PLAKLRLGQMTVRDITSDSLSLSWTVPEGQFDHELVQFKNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFHGG

QRVGPVSAVGLTASTEPPTPEPPIKPRLEELTVTDATPDSLSLSWTVPEGQFDHELVQYKNGDGQPKATRVPGHEDRV

TISGLEPDNKYKMNLYGFHGGQRVGPVSAIGVTEEETPSPTEPSMEAPEPPEEPLLGELTVTGSSPDSLSLSWTVPQG

RFDSFTVQYKDRDGRPQVVRVGGEESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSTVGVTAPQEDVDETPSPTEPGT

EAPGPPEEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQAVRVGGQESKVTVRGLEPGRKYKMHLYG

LHEGRRLGPVSAVGVTEDEAETTQAVPTMTPEPPIKPRLGELTMTDATPDSLSLSWTVPEGQFDHELVQYRNGDGQPK

AVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPISVIGVTEEETPSPTELSTEAPEPPEEPLLGELTVTGSSPD

SLSLSWTIPQGHFDSFTVQYKDRDGRPQVMRVRGEESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSTVGVTVPTTTP

EPPNKPRLGELTVTDATPDSLSLSWMVPEGQFDHELVQYRNGDGQPKVVRVPGHEDGVTISGLEPDHKYKMNLYGFHG

GQRVGPISVIGVTEEETPAPTEPSTEAPEPPEEPLLGELTVTGSSPDSLSLSWTIPQGRFDSFTVQYKDRDGRPQVVR

VRGEESEVTVGGLEPGCKYKMHLYGLHEGQRVGPVSAVGVTAPKDEAETTQAVPTMTPEPPIKPRLGELTVTDATPDS

LSLSWMVPEGQFDHFLVQYRNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPVSAIGVTEEETPSP

TEPSTEAPEAPEEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGQPQVVRVRGEESEVTVGGLEPGRKYK

MHLYGLHEGQRVGPVSTVGITAPLPTPLPVEPRLGELAVAAVTSDSVGLSWTVAQGPFDSFLVQYRDAQGQPQAVPVS

GDLRAVAVSGLDPARKYKFLLFGLQNGKRHGPVPVEARTAPDTKPSPRLGELTVTDATPDSVGLSWTVPEGEFDSFVV

QYKDKDGRLQVVPVAANQREVTVQGLEPSRKYRELLYGLSGRKRLGPISADSTTAPLEKELPPHLGELTVAEETSSSL

RLSWTVAQGPFDSFVVQYRDTDGQPRAVPVAADQRTVTVEDLEPGKKYKFLLYGLLGGKRLGPVSALGMTAPEEDTPA

PELAPEAPEPPEEPRLGVLTVTDTTPDSMRLSWSVAQGPFDSFVVQYEDTNGQPQALLVDGDQSKILISGLEPSTPYR

FLLYGLHEGKRLGPLSAEGTTGLAPAGQTSEESRPRLSQLSVTDVTTSSLRLNWEAPPGAFDSFLLREGVPSPSTLEP

HPRPLLQRELMVPGTRHSAVLRDLRSGTLYSLTLYGLRGPHKADSIQGTARTLSPVLESPRDLQFSEIRETSAKVNWM

PPPSRADSFKVSYQLADGGEPQSVQVDGQARTQKLQGLIPGARYEVTVVSVRGFEESEPLTGFLTTVPDGPTQLRALN

LTEGFAVLHWKPPQNPVDTYDVQVTAPGAPPLQAETPGSAVDYPLHDLVLHTNYTATVRGLRGPNLTSPASITFTTGL

EAPRDLEAKEVTPRTALLTWTEPPVRPAGYLLSFHTPGGQNQEILLPGGITSHQLLGLFPSTSYNARLQAMWGQSLLP

PVSTSFTTGGLRIPFPRDCGEEMQNGAGASRTSTIFLNGNRERPLNVECDMETDGGGWLVFQRRMDGQTDEWRDWEDY

AHGEGNISGEFWLGNEALHSLTQAGDYSMRVDLRAGDEAVFAQYDSFHVDSAAEYYRLHLEGYHGTAGDSMSYHSGSV

FSARDRDPNSLLISCAVSYRGAWWYRNCHYANLNGLYGSTVDHQGVSWYHWKGFEFSVPFTEMKLRPRNFRSPAGGG

CLUS_HUMAN
ATGATGAAAACCCTGCTGCTGTTTGTGGGCCTGCTGCTGACCTGGGAAAGCGGCCAGGTGCTGGGCGATCAGACCGTG
17

AGCGATAACGAACTGCAGGAAATGAGCAACCAGGGCAGCAAATATGTGAACAAAGAAATTCAGAACGCGGTGAACGGC

GTGAAACAGATTAAAACCCTGATTGAAAAAACCAACGAAGAACGCAAAACCCTGCTGAGCAACCTGGAAGAAGCGAAA

AAAAAAAAAGAAGATGCGCTGAACGAAACCCGCGAAAGCGAAACCAAACTGAAAGAACTGCCGGGCGTGTGCAACGAA

ACCATGATGGCGCTGTGGGAAGAATGCAAACCGTGCCTGAAACAGACCTGCATGAAATTTTATGCGCGCGTGTGCCGC

AGCGGCAGCGGCCTGGTGGGCCGCCAGCTGGAAGAATTTCTGAACCAGAGCAGCCCGTTTTATTTTTGGATGAACGGC

GATCGCATTGATAGCCTGCTGGAAAACGATCGCCAGCAGACCCATATGCTGGATGTGATGCAGGATCATTTTAGCCGC

GCGAGCAGCATTATTGATGAACTGTTTCAGGATCGCTTTTTTACCCGCGAACCGCAGGATACCTATCATTATCTGCCG

TTTAGCCTGCCGCATCGCCGCCCGCATTTTTTTTTTCCGAAAAGCCGCATTGTGCGCAGCCTGATGCCGTTTAGCCCG

TATGAACCGCTGAACTTTCATGCGATGTTTCAGCCGTTTCTGGAAATGATTCATGAAGCGCAGCAGGCGATGGATATT

CATTTTCATAGCCCGGCGTTTCAGCATCCGCCGACCGAATTTATTCGCGAAGGCGATGATGATCGCACCGTGTGCCGC

GAAATTCGCCATAACAGCACCGGCTGCCTGCGCATGAAAGATCAGTGCGATAAATGCCGCGAAATTCTGAGCGTGGAT

TGCAGCACCAACAACCCGAGCCAGGCGAAACTGCGCCGCGAACTGGATGAAAGCCTGCAGGTGGCGGAACGCCTGACC

CGCAAATATAACGAACTGCTGAAAAGCTATCAGTGGAAAATGCTGAACACCAGCAGCCTGCTGGAACAGCTGAACGAA

CAGTTTAACTGGGTGAGCCGCCTGGCGAACCTGACCCAGGGCGAAGATCAGTATTATCTGCGCGTGACCACCGTGGCG

AGCCATACCAGCGATAGCGATGTGCCGAGCGGCGTGACCGAAGTGGTGGTGAAACTGTTTGATAGCGATCCGATTACC

GTGACCGTGCCGGTGGAAGTGAGCCGCAAAAACCCGAAATTTATGGAAACCGTGGCGGAAAAAGCGCTGCAGGAATAT

CGCAAAAAACATCGCGAAGAA

CLUS_HUMAN
MMKTLLLFVGLLLTWESGQVLGDQTVSDNELQEMSNQGSKYVNKEIQNAVNGVKQIKTLIEKTNEERKTLLSNLEEAK

KKKEDALNETRESETKLKELPGVCNETMMALWEECKPCLKQTCMKFYARVCRSGSGLVGRQLEEFLNQSSPFYFWMNG

DRIDSLLENDRQQTHMLDVMQDHFSRASSIIDELFQDRFFTREPQDTYHYLPFSLPHRRPHFFFPKSRIVRSLMPFSP
18

YEPLNFHAMFQPFLEMIHEAQQAMDIHFHSPAFQHPPTEFIREGDDDRTVCREIRHNSTGCLRMKDQCDKCREILSVD

CSTNNPSQAKLRRELDESLQVAERLTRKYNELLKSYQWKMLNTSSLLEQLNEQFNWVSRLANLTQGEDQYYLRVTTVA

SHTSDSDVPSGVTEVVVKLFDSDPITVTVPVEVSRKNPKFMETVAEKALQEYRKKHREE

IBP3_HUMAN
ATGCAGCGCGCGCGCCCGACCCTGTGGGCGGCGGCGCTGACCCTGCTGGTGCTGCTGCGCGGCCCGCCGGTGGCGCGC
19

GCGGGCGCGAGCAGCGCGGGCCTGGGCCCGGTGGTGCGCTGCGAACCGTGCGATGCGCGCGCGCTGGCGCAGTGCGCG

CCGCCGCCGGCGGTGTGCGCGGAACTGGTGCGCGAACCGGGCTGCGGCTGCTGCCTGACCTGCGCGCTGAGCGAAGGC

CAGCCGTGCGGCATTTATACCGAACGCTGCGGCAGCGGCCTGCGCTGCCAGCCGAGCCCGGATGAAGCGCGCCCGCTG

CAGGCGCTGCTGGATGGCCGCGGCCTGTGCGTGAACGCGAGCGCGGTGAGCCGCCTGCGCGCGTATCTGCTGCCGGCG

CCGCCGGCGCCGGGCAACGCGAGCGAAAGCGAAGAAGATCGCAGCGCGGGCAGCGTGGAAAGCCCGAGCGTGAGCAGC

ACCCATCGCGTGAGCGATCCGAAATTTCATCCGCTGCATAGCAAAATTATTATTATTAAAAAAGGCCATGCGAAAGAT

AGCCAGCGCTATAAAGTGGATTATGAAAGCCAGAGCACCGATACCCAGAACTTTAGCAGCGAAAGCAAACGCGAAACC

GAATATGGCCCGTGCCGCCGCGAAATGGAAGATACCCTGAACCATCTGAAATTTCTGAACGTGCTGAGCCCGCGCGGC

GTGCATATTCCGAACTGCGATAAAAAAGGCTTTTATAAAAAAAAACAGTGCCGCCCGAGCAAAGGCCGCAAACGCGGC

TTTTGCTGGTGCGTGGATAAATATGGCCAGCCGCTGCCGGGCTATACCACCAAAGGCAAAGAAGATGTGCATTGCTAT

AGCATGCAGAGCAAA

IBP3_HUMAN
MQRARPTLWAAALTLLVLLRGPPVARAGASSAGLGPVVRCEPCDARALAQCAPPPAVCAELVREPGCGCCLTCALSEG
20

QPCGIYTERCGSGLRCQPSPDEARPLQALLDGRGLCVNASAVSRLRAYLLPAPPAPGNASESEEDRSAGSVESPSVSS

THRVSDPKFHPLHSKIIIIKKGHAKDSQRYKVDYESQSTDTQNFSSESKRETEYGPCRREMEDTLNHLKFLNVLSPRG

VHIPNCDKKGFYKKKQCRPSKGRKRGFCWCVDKYGQPLPGYTTKGKEDVHCYSMQSK

GELS_HUMAN
ATGGCGCCGCATCGCCCGGCGCCGGCGCTGCTGTGCGCGCTGAGCCTGGCGCTGTGCGCGCTGAGCCTGCCGGTGCGC
21

GCGGCGACCGCGAGCCGCGGCGCGAGCCAGGCGGGCGCGCCGCAGGGCCGCGTGCCGGAAGCGCGCCCGAACAGCATG

GTGGTGGAACATCCGGAATTTCTGAAAGCGGGCAAAGAACCGGGCCTGCAGATTTGGCGCGTGGAAAAATTTGATCTG

GTGCCGGTGCCGACCAACCTGTATGGCGATTTTTTTACCGGCGATGCGTATGTGATTCTGAAAACCGTGCAGCTGCGC

AACGGCAACCTGCAGTATGATCTGCATTATTGGCTGGGCAACGAATGCAGCCAGGATGAAAGCGGCGCGGCGGCGATT

TTTACCGTGCAGCTGGATGATTATCTGAACGGCCGCGCGGTGCAGCATCGCGAAGTGCAGGGCTTTGAAAGCGCGACC

TTTCTGGGCTATTTTAAAAGCGGCCTGAAATATAAAAAAGGCGGCGTGGCGAGCGGCTTTAAACATGTGGTGCCGAAC

GAAGTGGTGGTGCAGCGCCTGTTTCAGGTGAAAGGCCGCCGCGTGGTGCGCGCGACCGAAGTGCCGGTGAGCTGGGAA

AGCTTTAACAACGGCGATTGCTTTATTCTGGATCTGGGCAACAACATTCATCAGTGGTGCGGCAGCAACAGCAACCGC

TATGAACGCCTGAAAGCGACCCAGGTGAGCAAAGGCATTCGCGATAACGAACGCAGCGGCCGCGCGCGCGTGCATGTG

AGCGAAGAAGGCACCGAACCGGAAGCGATGCTGCAGGTGCTGGGCCCGAAACCGGCGCTGCCGGCGGGCACCGAAGAT

ACCGCGAAAGAAGATGCGGCGAACCGCAAACTGGCGAAACTGTATAAAGTGAGCAACGGCGCGGGCACCATGAGCGTG

AGCCTGGTGGCGGATGAAAACCCGTTTGCGCAGGGCGCGCTGAAAAGCGAAGATTGCTTTATTCTGGATCATGGCAAA

GATGGCAAAATTTTTGTGTGGAAAGGCAAACAGGCGAACACCGAAGAACGCAAAGCGGCGCTGAAAACCGCGAGCGAT

TTTATTACCAAAATGGATTATCCGAAACAGACCCAGGTGAGCGTGCTGCCGGAAGGCGGCGAAACCCCGCTGTTTAAA

CAGTTTTTTAAAAACTGGCGCGATCCGGATCAGACCGATGGCCTGGGCCTGAGCTATCTGAGCAGCCATATTGCGAAC

GTGGAACGCGTGCCGTTTGATGCGGCGACCCTGCATACCAGCACCGCGATGGCGGCGCAGCATGGCATGGATGATGAT

GGCACCGGCCAGAAACAGATTTGGCGCATTGAAGGCAGCAACAAAGTGCCGGTGGATCCGGCGACCTATGGCCAGTTT

TATGGCGGCGATAGCTATATTATTCTGTATAACTATCGCCATGGCGGCCGCCAGGGCCAGATTATTTATAACTGGCAG

GGCGCGCAGAGCACCCAGGATGAAGTGGCGGCGAGCGCGATTCTGACCGCGCAGCTGGATGAAGAACTGGGCGGCACC

CCGGTGCAGAGCCGCGTGGTGCAGGGCAAAGAACCGGCGCATCTGATGAGCCTGTTTGGCGGCAAACCGATGATTATT

TATAAAGGCGGCACCAGCCGCGAAGGCGGCCAGACCGCGCCGGCGAGCACCCGCCTGTTTCAGGTGCGCGCGAACAGC

GCGGGCGCGACCCGCGCGGTGGAAGTGCTGCCGAAAGCGGGCGCGCTGAACAGCAACGATGCGTTTGTGCTGAAAACC

CCGAGCGCGGCGTATCTGTGGGTGGGCACCGGCGCGAGCGAAGCGGAAAAAACCGGCGCGCAGGAACTGCTGCGCGTG

CTGCGCGCGCAGCCGGTGCAGGTGGCGGAAGGCAGCGAACCGGATGGCTTTTGGGAAGCGCTGGGCGGCAAAGCGGCG

TATCGCACCAGCCCGCGCCTGAAAGATAAAAAAATGGATGCGCATCCGCCGCGCCTGTTTGCGTGCAGCAACAAAATT

GGCCGCTTTGTGATTGAAGAAGTGCCGGGCGAACTGATGCAGGAAGATCTGGCGACCGATGATGTGATGCTGCTGGAT

ACCTGGGATCAGGTGTTTGTGTGGGTGGGCAAAGATAGCCAGGAAGAAGAAAAAACCGAAGCGCTGACCAGCGCGAAA

CGCTATATTGAAACCGATCCGGCGAACCGCGATCGCCGCACCCCGATTACCGTGGTGAAACAGGGCTTTGAACCGCCG

AGCTTTGTGGGCTGGTTTCTGGGCTGGGATGATGATTATTGGAGCGTGGATCCGCTGGATCGCGCGATGGCGGAACTG

GCGGCGGGCTGCGGCTGCGGCTGCTGCTGCGGCTGCACCGGCTGCGCGGGCGGCTGCGGCTGCACCGGCTGCACCGGC

GGCGCGACCGGCGGCTGCTGCGGCTGCGGCGGCTGCTGCACCGGCACCGGCTGCGGCACCGGCGCGGCGTGCGGCTGC

GGCGCGGGCTGCGGCTGCGGCGGCACCGGCGCGGGCTGCTGCGGCTGCTGCACCGGCTGCGGCTGCGGCTGCGGCACC

GCGACCTGCACCGGCTGCACCGGCTGCTGCGGCGGCTGCGGCTGCTGCGGCTGCTGCGGCGGCTGCGGCTGCTGCGGC

GGCGGCTGCGGCGCGGCGTGCTGCGGCTGCTGCGGCGGCTGCGGCTGCTGCGGCGGCGGCTGCGCGGCGTGCGGCTGC

GGCGCGGGCTGCGGCGCGGCGGCGGGCTGCGGCGCGGCGGGCGCGGCGGGCGCGACCTGCGGCTGCGCGGGCTGCGGC

TGCGGCGGCGGCTGCGCGGGCTGCGGCACCGGCGGCGCGGCGGCGGGCTGCTGCTGCGGCGCGGGCTGCGGCACCGGC

GCGGGCTGCGCGGGCTGCGCGTGCTGCTGCGCGACCTGCGGCTGCGGCACCGGCGCGGGCTGCGGCGCGACCTGCTGC

GGCGCGGCGGCGACCACCACCTGCGCGACCTGCTGCGGCTGCACCGGCTGCGCGACCGCGGGCTGCGCGGCGGCGGCG

ACCACCGCGACCACCGCGACCACCGCGACCACCGCGGCGGCGGCGGCGGCGGGCGGCTGCTGCGCGACCGGCTGCGGC

GCGGCGGCGGGCGCGACCGCGGGCTGCTGCGCGGGCTGCGGCTGCACCGCGACCGCGGCGGCGGGCACCGGCGGCGCG

ACCACCGCGACCGGCGCGGCGGCGGGCTGCTGCGCGGGCGCGGGCTGCGCGTGCTGCGGCGCGACCGCGTGCTGCTGC

GCGGGCGCGGCGTGCACCACCACCGCGGGCTGCGCGGGCTGCGGCGCGGCGGCGGGCTGCGCGGCGGCGTGCGGCTGC

GGCGCGGCGGCGTGCTGCGGCGCGGCGACCGCGACCGGCGGCTGCTGCTGCGGCACCGGCTGCTGCGGCTGCTGCGGC

TGCGGCGCGGCGGCGACCGGCGGCGCGGCGGGCGCGACCGCGTGCTGCTGCACCGGCGCGGCGTGCTGCGCGACCTGC

ACCGGCGCGGCGGCGACCACCACCTGCACCGGCGCGGCGTGCGGCACCGGCTGCACCGGCGCGGGCTGCTGCTGCGGC

TGCGGCTGCGGCGGCTGCGGCACCGGCTGCGCGACCGCGACCACCTGCTGCGGCGCGGCGTGCACCGGCTGCGGCGCG

ACCGCGGCGGCGGCGGCGGCGGGCGGCTGCACCACCACCACCGCGACCGCGGCGGCGGCGGCGGCGGCGGCGGCGTGC

GCGGGCACCGGCTGCTGCGGCTGCTGCTGCGGCGCGGGCTGCGCGGCGGCGGGCGGCTGCTGCGGCTGCGCGGCGGCG

TGCGGCTGCGGCGGCTGCACCACCACCACCGGCTGCACCGGCGGCACCGGCTGCGGCACCGGCGGCGCGACCGCGGCG

GCGACCGCGACCGGCGGCTGCTGCGCGGGCTGCTGCGGCTGCACCGGCTGCTGCGGCGGCGGCTGCACCGCGACCGCG

TGCTGCGCGTGCTGCGCGGCGGCGGGCGGCTGCGCGGCGGCGGGCGCGGCGGGCGCGACCGGCACCGGCTGCGCGACC

ACCGGCTGCACCGCGACCGCGGGCTGCGCGACCGGCTGCGCGGGCGCGGGCTGCGCGGCGGCGGCGCGCCCGCTGCAG

GCGCTGCTGGATGGCCGCGGCCTGTGCGTGAACGCGAGCGCGGTGAGCCGCCTGCGCGCGTATCTGCTGCCGGCGCCG

CCGGCGCCGGGCGAACCGCCGGCGCCGGGCAACGCGAGCGAAAGCGAAGAAGATCGCAGCGCGGGCAGCGTGGAAAGC

CCGAGCGTGAGCAGCACCCATCGCGTGAGCGATCCGAAATTTCATCCGCTGCATAGCAAAATTATTATTATTAAAAAA

GGCCATGCGAAAGATAGCCAGCGCTATAAAGTGGATTATGAAAGCCAGAGCACCGATACCCAGAACTTTAGCAGCGAA

AGCAAACGCGAAACCGAATATGGCCCGTGCCGCCGCGAAATGGAAGATACCCTGAACCATCTGAAATTTCTGAACGTG

CTGAGCCCGCGCGGCGTGCATATTCCGAACTGCGATAAAAAAGGCTTTTATAAAAAAAAACAGTGCCGCCCGAGCAAA

GGCCGCAAACGCGGCTTTTGCTGGTGCGTGGATAAATATGGCCAGCCGCTGCCGGGCTATACCACCAAAGGCAAAGAA

GATGTGCATTGCTATAGCATGCAGAGCAAA

GELS_HUMAN
MAPHRPAPALLCALSLALCALSLPVRAATASRGASQAGAPQGRVPEARPNSMVVEHPEFLKAGKEPGLQIWRVEKFDL
22

VPVPTNLYGDFFTGDAYVILKTVQLRNGNLQYDLHYWLGNECSQDESGAAAIFTVQLDDYLNGRAVQHREVQGFESAT

FLGYFKSGLKYKKGGVASGFKHVVPNEVVVQRLFQVKGRRVVRATEVPVSWESFNNGDCFILDLGNNIHQWCGSNSNR

YERLKATQVSKGIRDNERSGRARVHVSEEGTEPEAMLQVLGPKPALPAGTEDTAKEDAANRKLAKLYKVSNGAGTMSV

SLVADENPFAQGALKSEDCFILDHGKDGKIFVWKGKQANTEERKAALKTASDFITKMDYPKQTQVSVLPEGGETPLFK

QFFKNWRDPDQTDGLGLSYLSSHIANVERVPFDAATLHTSTAMAAQHGMDDDGTGQKQIWRIEGSNKVPVDPATYGQF

YGGDSYIILYNYRHGGRQGQIIYNWQGAQSTQDEVAASAILTAQLDEELGGTPVQSRVVQGKEPAHLMSLFGGKPMII

YKGGTSREGGQTAPASTRLFQVRANSAGATRAVEVLPKAGALNSNDAFVLKTPSAAYLWVGTGASEAEKTGAQELLRV

LRAQPVQVAEGSEPDGFWEALGGKAAYRTSPRLKDKKMDAHPPRLFACSNKIGRFVIEEVPGELMQEDLATDDVMLLD

TWDQVFVWVGKDSQEEEKTEALTSAKRYIETDPANRDRRTPITVVKQGFEPPSFVGWFLGWDDDYWSVDPLDRAMAEL

AAGCGCGCCCGCTGCAGGCGCTGCTGGATGGCCGCGGCCTGTGCGTGAACGCGAGCGCGGTGAGCCGCCTGCGCGCGT

ATCTGCTGCCGGCGCCGCCGGCGCCGGGCGAACCGCCGGCGCCGGGCAACGCGAGCGAAAGCGAAGAAGATCGCAGCG

CGGGCAGCGTGGAAAGCCCGAGCGTGAGCAGCACCCATCGCGTGAGCGATCCGAAATTTCATCCGCTGCATAGCAAAA

TTATTATTATTAAAAAAGGCCATGCGAAAGATAGCCAGCGCTATAAAGTGGATTATGAAAGCCAGAGCACCGATACCC

AGAACTTTAGCAGCGAAAGCAAACGCGAAACCGAATATGGCCCGTGCCGCCGCGAAATGGAAGATACCCTGAACCATC

TGAAATTTCTGAACGTGCTGAGCCCGCGCGGCGTGCATATTCCGAACTGCGATAAAAAAGGCTTTTATAAAAAAAAAC

AGTGCCGCCCGAGCAAAGGCCGCAAACGCGGCTTTTGCTGGTGCGTGGATAAATATGGCCAGCCGCTGCCGGGCTATA

CCACCAAAGGCAAAGAAGATGTGCATTGCTATAGCATGCAGAGCAAA

MASP1_HUMAN
ATGCGCTGGCTGCTGCTGTATTATGCGCTGTGCTTTAGCCTGAGCAAAGCGAGCGCGCATACCGTGGAACTGAACAAC
23

ATGTTTGGCCAGATTCAGAGCCCGGGCTATCCGGATAGCTATCCGAGCGATAGCGAAGTGACCTGGAACATTACCGTG

CCGGATGGCTTTCGCATTAAACTGTATTTTATGCATTTTAACCTGGAAAGCAGCTATCTGTGCGAATATGATTATGTG

AAAGTGGAAACCGAAGATCAGGTGCTGGCGACCTTTTGCGGCCGCGAAACCACCGATACCGAACAGACCCCGGGCCAG

GAAGTGGTGCTGAGCCCGGGCAGCTTTATGAGCATTACCTTTCGCAGCGATTTTAGCAACGAAGAACGCTTTACCGGC

TTTGATGCGCATTATATGGCGGTGGATGTGGATGAATGCAAAGAACGCGAAGATGAAGAACTGAGCTGCGATCATTAT

TGCCATAACTATATTGGCGGCTATTATTGCAGCTGCCGCTTTGGCTATATTCTGCATACCGATAACCGCACCTGCCGC

GTGGAATGCAGCGATAACCTGTTTACCCAGCGCACCGGCGTGATTACCAGCCCGGATTTTCCGAACCCGTATCCGAAA

AGCAGCGAATGCCTGTATACCATTGAACTGGAAGAAGGCTTTATGGTGAACCTGCAGTTTGAAGATATTTTTGATATT

GAAGATCATCCGGAAGTGCCGTGCCCGTATGATTATATTAAAATTAAAGTGGGCCCGAAAGTGCTGGGCCCGTTTTGC

GGCGAAAAAGCGCCGGAACCGATTAGCACCCAGAGCCATAGCGTGCTGATTCTGTTTCATAGCGATAACAGCGGCGAA

AACCGCGGCTGGCGCCTGAGCTATCGCGCGGCGGGCAACGAATGCCCGGAACTGCAGCCGCCGGTGCATGGCAAAATT

GAACCGAGCCAGGCGAAATATTTTTTTAAAGATCAGGTGCTGGTGAGCTGCGATACCGGCTATAAAGTGCTGAAAGAT

AACGTGGAAATGGATACCTTTCAGATTGAATGCCTGAAAGATGGCACCTGGAGCAACAAAATTCCGACCTGCAAAATT

GTGGATTGCCGCGCGCCGGGCGAACTGGAACATGGCCTGATTACCTTTAGCACCCGCAACAACCTGACCACCTATAAA

AGCGAAATTAAATATAGCTGCCAGGAACCGTATTATAAAATGCTGAACAACAACACCGGCATTTATACCTGCAGCGCG

CAGGGCGTGTGGATGAACAAAGTGCTGGGCCGCAGCCTGCCGACCTGCCTGCCGGTGTGCGGCCTGCCGAAATTTAGC

CGCAAACTGATGGCGCGCATTTTTAACGGCCGCCCGGCGCAGAAAGGCACCACCCCGTGGATTGCGATGCTGAGCCAT

CTGAACGGCCAGCCGTTTTGCGGCGGCAGCCTGCTGGGCAGCAGCTGGATTGTGACCGCGGCGCATTGCCTGCATCAG

AGCCTGGATCCGGAAGATCCGACCCTGCGCGATAGCGATCTGCTGAGCCCGAGCGATTTTAAAATTATTCTGGGCAAA

CATTGGCGCCTGCGCAGCGATGAAAACGAACAGCATCTGGGCGTGAAACATACCACCCTGCATCCGCAGTATGATCCG

AACACCTTTGAAAACGATGTGGCGCTGGTGGAACTGCTGGAAAGCCCGGTGCTGAACGCGTTTGTGATGCCGATTTGC

CTGCCGGAAGGCCCGCAGCAGGAAGGCGCGATGGTGATTGTGAGCGGCTGGGGCAAACAGTTTCTGCAGCGCTTTCCG

GAAACCCTGATGGAAATTGAAATTCCGATTGTGGATCATAGCACCTGCCAGAAAGCGTATGCGCCGCTGAAAAAAAAA

GTGACCCGCGATATGATTTGCGCGGGCGAAAAAGAAGGCGGCAAAGATGCGTGCGCGGGCGATAGCGGCGGCCCGATG

GTGACCCTGAACCGCGAACGCGGCCAGTGGTATCTGGTGGGCACCGTGAGCTGGGGCGATGATTGCGGCAAAAAAGAT

CGCTATGGCGTGTATAGCTATATTCATCATAACAAAGATTGGATTCAGCGCGTGACCGGCGTGCGCAAC

MASP1_HUMAN
MRWLLLYYALCFSLSKASAHTVELNNMFGQIQSPGYPDSYPSDSEVTWNITVPDGFRIKLYFMHFNLESSYLCEYDYV
24

KVETEDQVLATFCGRETTDTEQTPGQEVVLSPGSFMSITFRSDFSNEERFTGFDAHYMAVDVDECKEREDEELSCDHY

CHNYIGGYYCSCRFGYILHTDNRTCRVECSDNLFTQRTGVITSPDFPNPYPKSSECLYTIELEEGFMVNLQFEDIFDI

EDHPEVPCPYDYIKIKVGPKVLGPFCGEKAPEPISTQSHSVLILFHSDNSGENRGWRLSYRAAGNECPELQPPVHGKI

EPSQAKYFFKDQVLVSCDTGYKVLKDNVEMDTFQIECLKDGTWSNKIPTCKIVDCRAPGELEHGLITFSTRNNLTTYK

SEIKYSCQEPYYKMLNNNTGIYTCSAQGVWMNKVLGRSLPTCLPVCGLPKFSRKLMARIFNGRPAQKGTTPWIAMLSH

LNGQPFCGGSLLGSSWIVTAAHCLHQSLDPEDPTLRDSDLLSPSDFKIILGKHWRLRSDENEQHLGVKHTTLHPQYDP

NTFENDVALVELLESPVLNAFVMPICLPEGPQQEGAMVIVSGWGKQFLQRFPETLMEIEIPIVDHSTCQKAYAPLKKK

VTRDMICAGEKEGGKDACAGDSGGPMVTLNRERGQWYLVGTVSWGDDCGKKDRYGVYSYIHHNKDWIQRVTGVRN

COIA1_HUMAN
ATGGCGCCGTATCCGTGCGGCTGCCATATTCTGCTGCTGCTGTTTTGCTGCCTGGCGGCGGCGCGCGCGAACCTGCTG
25

AACCTGAACTGGCTGTGGTTTAACAACGAAGATACCAGCCATGCGGCGACCACCATTCCGGAACCGCAGGGCCCGCTG

CCGGTGCAGCCGACCGCGGATACCACCACCCATGTGACCCCGCGCAACGGCAGCACCGAACCGGCGACCGCGCCGGGC

AGCCCGGAACCGCCGAGCGAACTGCTGGAAGATGGCCAGGATACCCCGACCAGCGCGGAAAGCCCGGATGCGCCGGAA

GAAAACATTGCGGGCGTGGGCGCGGAAATTCTGAACGTGGCGAAAGGCATTCGCAGCTTTGTGCAGCTGTGGAACGAT

ACCGTGCCGACCGAAAGCCTGGCGCGCGCGGAAACCCTGGTGCTGGAAACCCCGGTGGGCCCGCTGGCGCTGGCGGGC

CCGAGCAGCACCCCGCAGGAAAACGGCACCACCCTGTGGCCGAGCCGCGGCATTCCGAGCAGCCCGGGCGCGCATACC

ACCGAAGCGGGCACCCTGCCGGCGCCGACCCCGAGCCCGCCGAGCCTGGGCCGCCCGTGGGCGCCGCTGACCGGCCCG

AGCGTGCCGCCGCCGAGCAGCGGCCGCGCGAGCCTGAGCAGCCTGCTGGGCGGCGCGCCGCCGTGGGGCAGCCTGCAG

GATCCGGATAGCCAGGGCCTGAGCCCGGCGGCGGCGGCGCCGAGCCAGCAGCTGCAGCGCCCGGATGTGCGCCTGCGC

ACCCCGCTGCTGCATCCGCTGGTGATGGGCAGCCTGGGCAAACATGCGGCGCCGAGCGCGTTTAGCAGCGGCCTGCCG

GGCGCGCTGAGCCAGGTGGCGGTGACCACCCTGACCCGCGATAGCGGCGCGTGGGTGAGCCATGTGGCGAACAGCGTG

GGCCCGGGCCTGGCGAACAACAGCGCGCTGCTGGGCGCGGATCCGGAAGCGCCGGCGGGCCGCTGCCTGCCGCTGCCG

CCGAGCCTGCCGGTGTGCGGCCATCTGGGCATTAGCCGCTTTTGGCTGCCGAACCATCTGCATCATGAAAGCGGCGAA

CAGGTGCGCGCGGGCGCGCGCGCGTGGGGCGGCCTGCTGCAGACCCATTGCCATCCGTTTCTGGCGTGGTTTTTTTGC

CTGCTGCTGGTGCCGCCGTGCGGCAGCGTGCCGCCGCCGGCGCCGCCGCCGTGCTGCCAGTTTTGCGAAGCGCTGCAG

GATGCGTGCTGGAGCCGCCTGGGCGGCGGCCGCCTGCCGGTGGCGTGCGCGAGCCTGCCGACCCAGGAAGATGGCTAT

TGCGTGCTGATTGGCCCGGCGGCGGAACGCATTAGCGAAGAAGTGGGCCTGCTGCAGCTGCTGGGCGATCCGCCGCCG

CAGCAGGTGACCCAGACCGATGATCCGGATGTGGGCCTGGCGTATGTGTTTGGCCCGGATGCGAACAGCGGCCAGGTG

GCGCGCTATCATTTTCCGAGCCTGTTTTTTCGCGATTTTAGCCTGCTGTTTCATATTCGCCCGGCGACCGAAGGCCCG

GGCGTGCTGTTTGCGATTACCGATAGCGCGCAGGCGATGGTGCTGCTGGGCGTGAAACTGAGCGGCGTGCAGGATGGC

CATCAGGATATTAGCCTGCTGTATACCGAACCGGGCGCGGGCCAGACCCATACCGCGGCGAGCTTTCGCCTGCCGGCG

TTTGTGGGCCAGTGGACCCATCTGGCGCTGAGCGTGGCGGGCGGCTTTGTGGCGCTGTATGTGGATTGCGAAGAATTT

CAGCGCATGCCGCTGGCGCGCAGCAGCCGCGGCCTGGAACTGGAACCGGGCGCGGGCCTGTTTGTGGCGCAGGCGGGC

GGCGCGGATCCGGATAAATTTCAGGGCGTGATTGCGGAACTGAAAGTGCGCCGCGATCCGCAGGTGAGCCCGATGCAT

TGCCTGGATGAAGAAGGCGATGATAGCGATGGCGCGAGCGGCGATAGCGGCAGCGGCCTGGGCGATGCGCGCGAACTG

CTGCGCGAAGAAACCGGCGCGGCGCTGAAACCGCGCCTGCCGGCGCCGCCGCCGGTGACCACCCCGCCGCTGGCGGGC

GGCAGCAGCACCGAAGATAGCCGCAGCGAAGAAGTGGAAGAACAGACCACCGTGGCGAGCCTGGGCGCGCAGACCCTG

CCGGGCAGCGATAGCGTGAGCACCTGGGATGGCAGCGTGCGCACCCCGGGCGGCCGCGTGAAAGAAGGCGGCCTGAAA

GGCCAGAAAGGCGAACCGGGCGTGCCGGGCCCGCCGGGCCGCGCGGGCCCGCCGGGCAGCCCGTGCCTGCCGGGCCCG

CCGGGCCTGCCGTGCCCGGTGAGCCCGCTGGGCCCGGCGGGCCCGGCGCTGCAGACCGTGCCGGGCCCGCAGGGCCCG

CCGGGCCCGCCGGGCCGCGATGGCACCCCGGGCCGCGATGGCGAACCGGGCGATCCGGGCGAAGATGGCAAACCGGGC

GATACCGGCCCGCAGGGCTTTCCGGGCACCCCGGGCGATGTGGGCCCGAAAGGCGATAAAGGCGATCCGGGCGTGGGC

GAACGCGGCCCGCCGGGCCCGCAGGGCCCGCCGGGCCCGCCGGGCCCGAGCTTTCGCCATGATAAACTGACCTTTATT

GATATGGAAGGCAGCGGCTTTGGCGGCGATCTGGAAGCGCTGCGCGGCCCGCGCGGCTTTCCGGGCCCGCCGGGCCCG

CCGGGCGTGCCGGGCCTGCCGGGCGAACCGGGCCGCTTTGGCGTGAACAGCAGCGATGTGCCGGGCCCGGCGGGCCTG

CCGGGCGTGCCGGGCCGCGAAGGCCCGCCGGGCTTTCCGGGCCTGCCGGGCCCGCCGGGCCCGCCGGGCCGCGAAGGC

CCGCCGGGCCGCACCGGCCAGAAAGGCAGCCTGGGCGAAGCGGGCGCGCCGGGCCATAAAGGCAGCAAAGGCGCGCCG

GGCCCGGCGGGCGCGCGCGGCGAAAGCGGCCTGGCGGGCGCGCCGGGCCCGGCGGGCCCGCCGGGCCCGCCGGGCCCG

CCGGGCCCGCCGGGCCCGGGCCTGCCGGCGGGCTTTGATGATATGGAAGGCAGCGGCGGCCCGTTTTGGAGCACCGCG

CGCAGCGCGGATGGCCCGCAGGGCCCGCCGGGCCTGCCGGGCCTGAAAGGCGATCCGGGCGTGCCGGGCCTGCCGGGC

GCGAAAGGCGAAGTGGGCGCGGATGGCGTGCCGGGCTTTCCGGGCCTGCCGGGCCGCGAAGGCATTGCGGGCCCGCAG

GGCCCGAAAGGCGATCGCGGCAGCCGCGGCGAAAAAGGCGATCCGGGCAAAGATGGCGTGGGCCAGCCGGGCCTGCCG

GGCCCGCCGGGCCCGCCGGGCCCGGTGGTGTATGTGAGCGAACAGGATGGCAGCGTGCTGAGCGTGCCGGGCCCGGAA

GGCCGCCCGGGCTTTGCGGGCTTTCCGGGCCCGGCGGGCCCGAAAGGCAACCTGGGCAGCAAAGGCGAACGCGGCAGC

CCGGGCCCGAAAGGCGAAAAAGGCGAACCGGGCAGCATTTTTAGCCCGGATGGCGGCGCGCTGGGCCCGGCGCAGAAA

GGCGCGAAAGGCGAACCGGGCTTTCGCGGCCCGCCGGGCCCGTATGGCCGCCCGGGCTATAAAGGCGAAATTGGCTTT

CCGGGCCGCCCGGGCCGCCCGGGCATGAACGGCCTGAAAGGCGAAAAAGGCGAACCGGGCGATGCGAGCCTGGGCTTT

GGCATGCGCGGCATGCCGGGCCCGCCGGGCCCGCCGGGCCCGCCGGGCCCGCCGGGCACCCCGGTGTATGATAGCAAC

GTGTTTGCGGAAAGCAGCCGCCCGGGCCCGCCGGGCCTGCCGGGCAACCAGGGCCCGCCGGGCCCGAAAGGCGCGAAA

GGCGAAGTGGGCCCGCCGGGCCCGCCGGGCCAGTTTCCGTTTGATTTTCTGCAGCTGGAAGCGGAAATGAAAGGCGAA

AAAGGCGATCGCGGCGATGCGGGCCAGAAAGGCGAACGCGGCGAACCGGGCGGCGGCGGCTTTTTTGGCAGCAGCCTG

CCGGGCCCGCCGGGCCCGCCGGGCCCGCCGGGCCCGCGCGGCTATCCGGGCATTCCGGGCCCGAAAGGCGAAAGCATT

CGCGGCCAGCCGGGCCCGCCGGGCCCGCAGGGCCCGCCGGGCATTGGCTATGAAGGCCGCCAGGGCCCGCCGGGCCCG

CCGGGCCCGCCGGGCCCGCCGAGCTTTCCGGGCCCGCATCGCCAGACCATTAGCGTGCCGGGCCCGCCGGGCCCGCCG

GGCCCGCCGGGCCCGCCGGGCACCATGGGCGCGAGCAGCGGCGTGCGCCTGTGGGCGACCCGCCAGGCGATGCTGGGC

CAGGTGCATGAAGTGCCGGAAGGCTGGCTGATTTTTGTGGCGGAACAGGAAGAACTGTATGTGCGCGTGCAGAACGGC

TTTCGCAAAGTGCAGCTGGAAGCGCGCACCCCGCTGCCGCGCGGCACCGATAACGAAGTGGCGGCGCTGCAGCCGCCG

GTGGTGCAGCTGCATGATAGCAACCCGTATCCGCGCCGCGAACATCCGCATCCGACCGCGCGCCCGTGGCGCGCGGAT

GATATTCTGGCGAGCCCGCCGCGCCTGCCGGAACCGCAGCCGTATCCGGGCGCGCCGCATCATAGCAGCTATGTGCAT

CTGCGCCCGGCGCGCCCGACCAGCCCGCCGGCGCATAGCCATCGCGATTTTCAGCCGGTGCTGCATCTGGTGGCGCTG

AACAGCCCGCTGAGCGGCGGCATGCGCGGCATTCGCGGCGCGGATTTTCAGTGCTTTCAGCAGGCGCGCGCGGTGGGC

CTGGCGGGCACCTTTCGCGCGTTTCTGAGCAGCCGCCTGCAGGATCTGTATAGCATTGTGCGCCGCGCGGATCGCGCG

GCGGTGCCGATTGTGAACCTGAAAGATGAACTGCTGTTTCCGAGCTGGGAAGCGCTGTTTAGCGGCAGCGAAGGCCCG

CTGAAACCGGGCGCGCGCATTTTTAGCTTTGATGGCAAAGATGTGCTGCGCCATCCGACCTGGCCGCAGAAAAGCGTG

TGGCATGGCAGCGATCCGAACGGCCGCCGCCTGACCGAAAGCTATTGCGAAACCTGGCGCACCGAAGCGCCGAGCGCG

ACCGGCCAGGCGAGCAGCCTGCTGGGCGGCCGCCTGCTGGGCCAGAGCGCGGCGAGCTGCCATCATGCGTATATTGTG

CTGTGCATTGAAAACAGCTTTATGACCGCGAGCAAA

COIA1_HUMAN
MAPYPCGCHILLLLFCCLAAARANLLNLNWLWFNNEDTSHAATTIPEPQGPLPVQPTADTTTHVTPRNGSTEPATAPG
26

SPEPPSELLEDGQDTPTSAESPDAPEENIAGVGAEILNVAKGIRSFVQLWNDTVPTESLARAETLVLETPVGPLALAG

PSSTPQENGTTLWPSRGIPSSPGAHTTEAGTLPAPTPSPPSLGRPWAPLTGPSVPPPSSGRASLSSLLGGAPPWGSLQ

DPDSQGLSPAAAAPSQQLQRPDVRLRTPLLHPLVMGSLGKHAAPSAFSSGLPGALSQVAVTTLTRDSGAWVSHVANSV

GPGLANNSALLGADPEAPAGRCLPLPPSLPVCGHLGISRFWLPNHLHHESGEQVRAGARAWGGLLQTHCHPFLAWFFC

LLLVPPCGSVPPPAPPPCCQFCEALQDACWSRLGGGRLPVACASLPTQEDGYCVLIGPAAERISEEVGLLQLLGDPPP

QQVTQTDDPDVGLAYVEGPDANSGQVARYHFPSLFERDFSLLFHIRPATEGPGVLFATTDSAQAMVLLGVKLSGVQDG

HQDISLLYTEPGAGQTHTAASFRLPAFVGQWTHLALSVAGGFVALYVDCEEFQRMPLARSSRGLELEPGAGLFVAQAG

GADPDKFQGVIAELKVRRDPQVSPMHCLDEEGDDSDGASGDSGSGLGDARELLREETGAALKPRLPAPPPVTTPPLAG

GSSTEDSRSEEVEEQTTVASLGAQTLPGSDSVSTWDGSVRTPGGRVKEGGLKGQKGEPGVPGPPGRAGPPGSPCLPGP

PGLPCPVSPLGPAGPALQTVPGPQGPPGPPGRDGTPGRDGEPGDPGEDGKPGDTGPQGFPGTPGDVGPKGDKGDPGVG

ERGPPGPQGPPGPPGPSFRHDKLTFIDMEGSGFGGDLEALRGPRGFPGPPGPPGVPGLPGEPGRFGVNSSDVPGPAGL

PGVPGREGPPGFPGLPGPPGPPGREGPPGRTGQKGSLGEAGAPGHKGSKGAPGPAGARGESGLAGAPGPAGPPGPPGP

PGPPGPGLPAGFDDMEGSGGPFWSTARSADGPQGPPGLPGLKGDPGVPGLPGAKGEVGADGVPGFPGLPGREGIAGPQ

GPKGDRGSRGEKGDPGKDGVGQPGLPGPPGPPGPVVYVSEQDGSVLSVPGPEGRPGFAGFPGPAGPKGNLGSKGERGS

PGPKGEKGEPGSIFSPDGGALGPAQKGAKGEPGFRGPPGPYGRPGYKGEIGFPGRPGRPGMNGLKGEKGEPGDASLGF

GMRGMPGPPGPPGPPGPPGTPVYDSNVFAESSRPGPPGLPGNQGPPGPKGAKGEVGPPGPPGQFPFDFLQLEAEMKGE

KGDRGDAGQKGERGEPGGGGFEGSSLPGPPGPPGPPGPRGYPGIPGPKGESIRGQPGPPGPQGPPGIGYEGRQGPPGP

PGPPGPPSFPGPHRQTISVPGPPGPPGPPGPPGTMGASSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNG

FRKVQLEARTPLPRGTDNEVAALQPPVVQLHDSNPYPRREHPHPTARPWRADDILASPPRLPEPQPYPGAPHHSSYVH

LRPARPTSPPAHSHRDFQPVLHLVALNSPLSGGMRGIRGADFQCFQQARAVGLAGTFRAFLSSRLQDLYSIVRRADRA

AVPIVNLKDELLFPSWEALFSGSEGPLKPGARIFSFDGKDVLRHPTWPQKSVWHGSDPNGRRLTESYCETWRTEAPSA

TGQASSLLGGRLLGQSAASCHHAYIVLCIENSFMTASK

GRP78_HUMAN
ATGAAACTGAGCCTGGTGGCGGCGATGCTGCTGCTGCTGAGCGCGGCGCGCGCGGAAGAAGAAGATAAAAAAGAAGAT
27

GTGGGCACCGTGGTGGGCATTGATCTGGGCACCACCTATAGCTGCGTGGGCGTGTTTAAAAACGGCCGCGTGGAAATT

ATTGCGAACGATCAGGGCAACCGCATTACCCCGAGCTATGTGGCGTTTACCCCGGAAGGCGAACGCCTGATTGGCGAT

GCGGCGAAAAACCAGCTGACCAGCAACCCGGAAAACACCGTGTTTGATGCGAAACGCCTGATTGGCCGCACCTGGAAC

GATCCGAGCGTGCAGCAGGATATTAAATTTCTGCCGTTTAAAGTGGTGGAAAAAAAAACCAAACCGTATATTCAGGTG

GATATTGGCGGCGGCCAGACCAAAACCTTTGCGCCGGAAGAAATTAGCGCGATGGTGCTGACCAAAATGAAAGAAACC

GCGGAAGCGTATCTGGGCAAAAAAGTGACCCATGCGGTGGTGACCGTGCCGGCGTATTTTAACGATGCGCAGCGCCAG

GCGACCAAAGATGCGGGCACCATTGCGGGCCTGAACGTGATGCGCATTATTAACGAACCGACCGCGGCGGCGATTGCG

TATGGCCTGGATAAACGCGAAGGCGAAAAAAACATTCTGGTGTTTGATCTGGGCGGCGGCACCTTTGATGTGAGCCTG

CTGACCATTGATAACGGCGTGTTTGAAGTGGTGGCGACCAACGGCGATACCCATCTGGGCGGCGAAGATTTTGATCAG

CGCGTGATGGAACATTTTATTAAACTGTATAAAAAAAAAACCGGCAAAGATGTGCGCAAAGATAACCGCGCGGTGCAG

AAACTGCGCCGCGAAGTGGAAAAAGCGAAACGCGCGCTGAGCAGCCAGCATCAGGCGCGCATTGAAATTGAAAGCTTT

TATGAAGGCGAAGATTTTAGCGAAACCCTGACCCGCGCGAAATTTGAAGAACTGAACATGGATCTGTTTCGCAGCACC

ATGAAACCGGTGCAGAAAGTGCTGGAAGATAGCGATCTGAAAAAAAGCGATATTGATGAAATTGTGCTGGTGGGCGGC

AGCACCCGCATTCCGAAAATTCAGCAGCTGGTGAAAGAATTTTTTAACGGCAAAGAACCGAGCCGCGGCATTAACCCG

GATGAAGCGGTGGCGTATGGCGCGGCGGTGCAGGCGGGCGTGCTGAGCGGCGATCAGGATACCGGCGATCTGGTGCTG

CTGGATGTGTGCCCGCTGACCCTGGGCATTGAAACCGTGGGCGGCGTGATGACCAAACTGATTCCGCGCAACACCGTG

GTGCCGACCAAAAAAAGCCAGATTTTTAGCACCGCGAGCGATAACCAGCCGACCGTGACCATTAAAGTGTATGAAGGC

GAACGCCCGCTGACCAAAGATAACCATCTGCTGGGCACCTTTGATCTGACCGGCATTCCGCCGGCGCCGCGCGGCGTG

CCGCAGATTGAAGTGACCTTTGAAATTGATGTGAACGGCATTCTGCGCGTGACCGCGGAAGATAAAGGCACCGGCAAC

AAAAACAAAATTACCATTACCAACGATCAGAACCGCCTGACCCCGGAAGAAATTGAACGCATGGTGAACGATGCGGAA

AAATTTGCGGAAGAAGATAAAAAACTGAAAGAACGCATTGATACCCGCAACGAACTGGAAAGCTATGCGTATAGCCTG

AAAAACCAGATTGGCGATAAAGAAAAACTGGGCGGCAAACTGAGCAGCGAAGATAAAGAAACCATGGAAAAAGCGGTG

GAAGAAAAAATTGAATGGCTGGAAAGCCATCAGGATGCGGATATTGAAGATTTTAAAGCGAAAAAAAAAGAACTGGAA

GAAATTGTGCAGCCGATTATTAGCAAACTGTATGGCAGCGCGGGCCCGCCGCCGACCGGCGAAGAAGATACCGCGGAA

AAAGATGAACTG

GRP78_HUMAN
MKLSLVAAMLLLLSAARAEEEDKKEDVGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGD
28

AAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKET

AEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSL

LTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESF

YEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINP

DEAVAYGAAVQAGVLSGDQDTGDLVLLDVCPLTLGIETVGGVMTKLIPRNTVVPTKKSQIFSTASDNQPTVTIKVYEG

ERPLTKDNHLLGTFDLTGIPPAPRGVPQIEVTFEIDVNGILRVTAEDKGTGNKNKITITNDQNRLTPEEIERMVNDAE

KFAEEDKKLKERIDTRNELESYAYSLKNQIGDKEKLGGKLSSEDKETMEKAVEEKIEWLESHQDADIEDFKAKKKELE

EIVQPIISKLYGSAGPPPTGEEDTAEKDEL

KIT_HUMAN
ATGCGCGGCGCGCGCGGCGCGTGGGATTTTCTGTGCGTGCTGCTGCTGCTGCTGCGCGTGCAGACCGGCAGCAGCCAG
29

CCGAGCGTGAGCCCGGGCGAACCGAGCCCGCCGAGCATTCATCCGGGCAAAAGCGATCTGATTGTGCGCGTGGGCGAT

GAAATTCGCCTGCTGTGCACCGATCCGGGCTTTGTGAAATGGACCTTTGAAATTCTGGATGAAACCAACGAAAACAAA

CAGAACGAATGGATTACCGAAAAAGCGGAAGCGACCAACACCGGCAAATATACCTGCACCAACAAACATGGCCTGAGC

AACAGCATTTATGTGTTTGTGCGCGATCCGGCGAAACTGTTTCTGGTGGATCGCAGCCTGTATGGCAAAGAAGATAAC

GATACCCTGGTGCGCTGCCCGCTGACCGATCCGGAAGTGACCAACTATAGCCTGAAAGGCTGCCAGGGCAAACCGCTG

CCGAAAGATCTGCGCTTTATTCCGGATCCGAAAGCGGGCATTATGATTAAAAGCGTGAAACGCGCGTATCATCGCCTG

TGCCTGCATTGCAGCGTGGATCAGGAAGGCAAAAGCGTGCTGAGCGAAAAATTTATTCTGAAAGTGCGCCCGGCGTTT

AAAGCGGTGCCGGTGGTGAGCGTGAGCAAAGCGAGCTATCTGCTGCGCGAAGGCGAAGAATTTACCGTGACCTGCACC

ATTAAAGATGTGAGCAGCAGCGTGTATAGCACCTGGAAACGCGAAAACAGCCAGACCAAACTGCAGGAAAAATATAAC

AGCTGGCATCATGGCGATTTTAACTATGAACGCCAGGCGACCCTGACCATTAGCAGCGCGCGCGTGAACGATAGCGGC

GTGTTTATGTGCTATGCGAACAACACCTTTGGCAGCGCGAACGTGACCACCACCCTGGAAGTGGTGGATAAAGGCTTT

ATTAACATTTTTCCGATGATTAACACCACCGTGTTTGTGAACGATGGCGAAAACGTGGATCTGATTGTGGAATATGAA

GCGTTTCCGAAACCGGAACATCAGCAGTGGATTTATATGAACCGCACCTTTACCGATAAATGGGAAGATTATCCGAAA

AGCGAAAACGAAAGCAACATTCGCTATGTGAGCGAACTGCATCTGACCCGCCTGAAAGGCACCGAAGGCGGCACCTAT

ACCTTTCTGGTGAGCAACAGCGATGTGAACGCGGCGATTGCGTTTAACGTGTATGTGAACACCAAACCGGAAATTCTG

ACCTATGATCGCCTGGTGAACGGCATGCTGCAGTGCGTGGCGGCGGGCTTTCCGGAACCGACCATTGATTGGTATTTT

TGCCCGGGCACCGAACAGCGCTGCAGCGCGAGCGTGCTGCCGGTGGATGTGCAGACCCTGAACAGCAGCGGCCCGCCG

TTTGGCAAACTGGTGGTGCAGAGCAGCATTGATAGCAGCGCGTTTAAACATAACGGCACCGTGGAATGCAAAGCGTAT

AACGATGTGGGCAAAACCAGCGCGTATTTTAACTTTGCGTTTAAAGGCAACAACAAAGAACAGATTCATCCGCATACC

CTGTTTACCCCGCTGCTGATTGGCTTTGTGATTGTGGCGGGCATGATGTGCATTATTGTGATGATTCTGACCTATAAA

TATCTGCAGAAACCGATGTATGAAGTGCAGTGGAAAGTGGTGGAAGAAATTAACGGCAACAACTATGTGTATATTGAT

CCGACCCAGCTGCCGTATGATCATAAATGGGAATTTCCGCGCAACCGCCTGAGCTTTGGCAAAACCCTGGGCGCGGGC

GCGTTTGGCAAAGTGGTGGAAGCGACCGCGTATGGCCTGATTAAAAGCGATGCGGCGATGACCGTGGCGGTGAAAATG

CTGAAACCGAGCGCGCATCTGACCGAACGCGAAGCGCTGATGAGCGAACTGAAAGTGCTGAGCTATCTGGGCAACCAT

ATGAACATTGTGAACCTGCTGGGCGCGTGCACCATTGGCGGCCCGACCCTGGTGATTACCGAATATTGCTGCTATGGC

GATCTGCTGAACTTTCTGCGCCGCAAACGCGATAGCTTTATTTGCAGCAAACAGGAAGATCATGCGGAAGCGGCGCTG

TATAAAAACCTGCTGCATAGCAAAGAAAGCAGCTGCAGCGATAGCACCAACGAATATATGGATATGAAACCGGGCGTG

AGCTATGTGGTGCCGACCAAAGCGGATAAACGCCGCAGCGTGCGCATTGGCAGCTATATTGAACGCGATGTGACCCCG

GCGATTATGGAAGATGATGAACTGGCGCTGGATCTGGAAGATCTGCTGAGCTTTAGCTATCAGGTGGCGAAAGGCATG

GCGTTTCTGGCGAGCAAAAACTGCATTCATCGCGATCTGGCGGCGCGCAACATTCTGCTGACCCATGGCCGCATTACC

AAAATTTGCGATTTTGGCCTGGCGCGCGATATTAAAAACGATAGCAACTATGTGGTGAAAGGCAACGCGCGCCTGCCG

GTGAAATGGATGGCGCCGGAAAGCATTTTTAACTGCGTGTATACCTTTGAAAGCGATGTGTGGAGCTATGGCATTTTT

CTGTGGGAACTGTTTAGCCTGGGCAGCAGCCCGTATCCGGGCATGCCGGTGGATAGCAAATTTTATAAAATGATTAAA

GAAGGCTTTCGCATGCTGAGCCCGGAACATGCGCCGGCGGAAATGTATGATATTATGAAAACCTGCTGGGATGCGGAT

CCGCTGAAACGCCCGACCTTTAAACAGATTGTGCAGCTGATTGAAAAACAGATTAGCGAAAGCACCAACCATATTTAT

AGCAACCTGGCGAACTGCAGCCCGAACCGCCAGAAACCGGTGGTGGATCATAGCGTGCGCATTAACAGCGTGGGCAGC

ACCGCGAGCAGCAGCCAGCCGCTGCTGGTGCATGATGATGTG

KIT_HUMAN
MRGARGAWDFLCVLLLLLRVQTGSSQPSVSPGEPSPPSIHPGKSDLIVRVGDEIRLLCTDPGFVKWTFEILDETNENK
30

QNEWITEKAEATNTGKYTCTNKHGLSNSIYVFVRDPAKLFLVDRSLYGKEDNDTLVRCPLTDPEVTNYSLKGCQGKPL

PKDLRFIPDPKAGIMIKSVKRAYHRLCLHCSVDQEGKSVLSEKFILKVRPAFKAVPVVSVSKASYLLREGEEFTVTCT

IKDVSSSVYSTWKRENSQTKLQEKYNSWHHGDFNYERQATLTISSARVNDSGVFMCYANNTFGSANVTTTLEVVDKGF

INTFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTY

TFLVSNSDVNAAIAFNVYVNTKPEILTYDRLVNGMLQCVAAGFPEPTIDWYFCPGTEQRCSASVLPVDVQTLNSSGPP

FGKLVVQSSIDSSAFKHNGTVECKAYNDVGKTSAYFNFAFKGNNKEQIHPHTLFTPLLIGFVIVAGMMCIIVMILTYK

YLQKPMYEVQWKVVEEINGNNYVYIDPTQLPYDHKWEFPRNRLSFGKTLGAGAFGKVVEATAYGLIKSDAAMTVAVKM

LKPSAHLTEREALMSELKVLSYLGNHMNIVNLLGACTIGGPTLVITEYCCYGDLLNFLRRKRDSFICSKQEDHAEAAL

YKNLLHSKESSCSDSTNEYMDMKPGVSYVVPTKADKRRSVRIGSYIERDVTPAIMEDDELALDLEDLLSFSYQVAKGM

AFLASKNCIHRDLAARNILLTHGRITKICDFGLARDIKNDSNYVVKGNARLPVKWMAPESIFNCVYTFESDVWSYGIF

LWELFSLGSSPYPGMPVDSKEYKMIKEGFRMLSPEHAPAEMYDIMKTCWDADPLKRPTFKQIVQLIEKQISESTNHIY

SNLANCSPNRQKPVVDHSVRINSVGSTASSSQPLLVHDDV

PROF1_HUMAN
ATGGCGGGCTGGAACGCGTATATTGATAACCTGATGGCGGATGGCACCTGCCAGGATGCGGCGATTGTGGGCTATAAA
31

GATAGCCCGAGCGTGTGGGCGGCGGTGCCGGGCAAAACCTTTGTGAACATTACCCCGGCGGAAGTGGGCGTGCTGGTG

GGCAAAGATCGCAGCAGCTTTTATGTGAACGGCCTGACCCTGGGCGGCCAGAAATGCAGCGTGATTCGCGATAGCCTG

CTGCAGGATGGCGAATTTAGCATGGATCTGCGCACCAAAAGCACCGGCGGCGCGCCGACCTTTAACGTGACCGTGACC

AAAACCGATAAAACCCTGGTGCTGCTGATGGGCAAAGAAGGCGTGCATGGCGGCCTGATTAACAAAAAATGCTATGAA

ATGGCGAGCCATCTGCGCCGCAGCCAGTAT

PROF1_HUMAN
MAGWNAYIDNLMADGTCQDAAIVGYKDSPSVWAAVPGKTFVNITPAEVGVLVGKDRSSFYVNGLTLGGQKCSVIRDSL
32

LQDGEFSMDLRTKSTGGAPTFNVTVTKTDKTLVLLMGKEGVHGGLINKKCYEMASHLRRSQY

PEDF_HUMAN
ATGCAGGCGCTGGTGCTGCTGCTGTGCATTGGCGCGCTGCTGGGCCATAGCAGCTGCCAGAACCCGGCGAGCCCGCCG
33

GAAGAAGGCAGCCCGGATCCGGATAGCACCGGCGCGCTGGTGGAAGAAGAAGATCCGTTTTTTAAAGTGCCGGTGAAC

AAACTGGCGGCGGCGGTGAGCAACTTTGGCTATGATCTGTATCGCGTGCGCAGCAGCACCAGCCCGACCACCAACGTG

CTGCTGAGCCCGCTGAGCGTGGCGACCGCGCTGAGCGCGCTGAGCCTGGGCGCGGAACAGCGCACCGAAAGCATTATT

CATCGCGCGCTGTATTATGATCTGATTAGCAGCCCGGATATTCATGGCACCTATAAAGAACTGCTGGATACCGTGACC

GCGCCGCAGAAAAACCTGAAAAGCGCGAGCCGCATTGTGTTTGAAAAAAAACTGCGCATTAAAAGCAGCTTTGTGGCG

CCGCTGGAAAAAAGCTATGGCACCCGCCCGCGCGTGCTGACCGGCAACCCGCGCCTGGATCTGCAGGAAATTAACAAC

TGGGTGCAGGCGCAGATGAAAGGCAAACTGGCGCGCAGCACCAAAGAAATTCCGGATGAAATTAGCATTCTGCTGCTG

GGCGTGGCGCATTTTAAAGGCCAGTGGGTGACCAAATTTGATAGCCGCAAAACCAGCCTGGAAGATTTTTATCTGGAT

GAAGAACGCACCGTGCGCGTGCCGATGATGAGCGATCCGAAAGCGGTGCTGCGCTATGGCCTGGATAGCGATCTGAGC

TGCAAAATTGCGCAGCTGCCGCTGACCGGCAGCATGAGCATTATTTTTTTTCTGCCGCTGAAAGTGACCCAGAACCTG

ACCCTGATTGAAGAAAGCCTGACCAGCGAATTTATTCATGATATTGATCGCGAACTGAAAACCGTGCAGGCGGTGCTG

ACCGTGCCGAAACTGAAACTGAGCTATGAAGGCGAAGTGACCAAAAGCCTGCAGGAAATGAAACTGCAGAGCCTGTTT

GATAGCCCGGATTTTAGCAAAATTACCGGCAAACCGATTAAACTGACCCAGGTGGAACATCGCGCGGGCTTTGAATGG

AACGAAGATGGCGCGGGCACCACCCCGAGCCCGGGCCTGCAGCCGGCGCATCTGACCTTTCCGCTGGATTATCATCTG

AACCAGCCGTTTATTTTTGTGCTGCGCGATACCGATACCGGCGCGCTGCTGTTTATTGGCAAAATTCTGGATCCGCGC

GGCCCG

PEDF_HUMAN
MQALVLLLCIGALLGHSSCQNPASPPEEGSPDPDSTGALVEEEDPFEKVPVNKLAAAVSNEGYDLYRVRSSTSPTTNV
34

LLSPLSVATALSALSLGAEQRTESIIHRALYYDLISSPDIHGTYKELLDTVTAPQKNLKSASRIVFEKKLRIKSSFVA

PLEKSYGTRPRVLTGNPRLDLQEINNWVQAQMKGKLARSTKEIPDEISILLLGVAHFKGQWVTKFDSRKTSLEDFYLD

EERTVRVPMMSDPKAVLRYGLDSDLSCKIAQLPLTGSMSIIFELPLKVTQNLTLIEESLTSEFIHDIDRELKTVQAVL

TVPKLKLSYEGEVTKSLQEMKLQSLFDSPDFSKITGKPIKLTQVEHRAGFEWNEDGAGTTPSPGLQPAHLTFPLDYHL

NQPFIFVLRDTDTGALLFIGKILDPRGP

LUM_HUMAN
ATGAGCCTGAGCGCGTTTACCCTGTTTCTGGCGCTGATTGGCGGCACCAGCGGCCAGTATTATGATTATGATTTTCCG
35

CTGAGCATTTATGGCCAGAGCAGCCCGAACTGCGCGCCGGAATGCAACTGCCCGGAAAGCTATCCGAGCGCGATGTAT

TGCGATGAACTGAAACTGAAAAGCGTGCCGATGGTGCCGCCGGGCATTAAATATCTGTATCTGCGCAACAACCAGATT

GATCATATTGATGAAAAAGCGTTTGAAAACGTGACCGATCTGCAGTGGCTGATTCTGGATCATAACCTGCTGGAAAAC

AGCAAAATTAAAGGCCGCGTGTTTAGCAAACTGAAACAGCTGAAAAAACTGCATATTAACCATAACAACCTGACCGAA

AGCGTGGGCCCGCTGCCGAAAAGCCTGGAAGATCTGCAGCTGACCCATAACAAAATTACCAAACTGGGCAGCTTTGAA

GGCCTGGTGAACCTGACCTTTATTCATCTGCAGCATAACCGCCTGAAAGAAGATGCGGTGAGCGCGGCGTTTAAAGGC

CTGAAAAGCCTGGAATATCTGGATCTGAGCTTTAACCAGATTGCGCGCCTGCCGAGCGGCCTGCCGGTGAGCCTGCTG

ACCCTGTATCTGGATAACAACAAAATTAGCAACATTCCGGATGAATATTTTAAACGCTTTAACGCGCTGCAGTATCTG

CGCCTGAGCCATAACGAACTGGCGGATAGCGGCATTCCGGGCAACAGCTTTAACGTGAGCAGCCTGGTGGAACTGGAT

CTGAGCTATAACAAACTGAAAAACATTCCGACCGTGAACGAAAACCTGGAAAACTATTATCTGGAAGTGAACCAGCTG

GAAAAATTTGATATTAAAAGCTTTTGCAAAATTCTGGGCCCGCTGAGCTATAGCAAAATTAAACATCTGCGCCTGGAT

GGCAACCGCATTAGCGAAACCAGCCTGCCGCCGGATATGTATGAATGCCTGCGCGTGGCGAACGAAGTGACCCTGAAC

LUM_HUMAN
MSLSAFTLFLALIGGTSGQYYDYDFPLSIYGQSSPNCAPECNCPESYPSAMYCDELKLKSVPMVPPGIKYLYLRNNQI
36

DHIDEKAFENVTDLQWLILDHNLLENSKIKGRVFSKLKQLKKLHINHNNLTESVGPLPKSLEDLQLTHNKITKLGSFE

GLVNLTFIHLQHNRLKEDAVSAAFKGLKSLEYLDLSFNQIARLPSGLPVSLLTLYLDNNKISNIPDEYFKRFNALQYL

RLSHNELADSGIPGNSFNVSSLVELDLSYNKLKNIPTVNENLENYYLEVNQLEKEDIKSFCKILGPLSYSKIKHLRLD

GNRISETSLPPDMYECLRVANEVTLN

C163A_HUMAN
ATGAGCAAACTGCGCATGGTGCTGCTGGAAGATAGCGGCAGCGCGGATTTTCGCCGCCATTTTGTGAACCTGAGCCCG
37

TTTACCATTACCGTGGTGCTGCTGCTGAGCGCGTGCTTTGTGACCAGCAGCCTGGGCGGCACCGATAAAGAACTGCGC

CTGGTGGATGGCGAAAACAAATGCAGCGGCCGCGTGGAAGTGAAAGTGCAGGAAGAATGGGGCACCGTGTGCAACAAC

GGCTGGAGCATGGAAGCGGTGAGCGTGATTTGCAACCAGCTGGGCTGCCCGACCGCGATTAAAGCGCCGGGCTGGGCG

AACAGCAGCGCGGGCAGCGGCCGCATTTGGATGGATCATGTGAGCTGCCGCGGCAACGAAAGCGCGCTGTGGGATTGC

AAACATGATGGCTGGGGCAAACATAGCAACTGCACCCATCAGCAGGATGCGGGCGTGACCTGCAGCGATGGCAGCAAC

CTGGAAATGCGCCTGACCCGCGGCGGCAACATGTGCAGCGGCCGCATTGAAATTAAATTTCAGGGCCGCTGGGGCACC

GTGTGCGATGATAACTTTAACATTGATCATGCGAGCGTGATTTGCCGCCAGCTGGAATGCGGCAGCGCGGTGAGCTTT

AGCGGCAGCAGCAACTTTGGCGAAGGCAGCGGCCCGATTTGGTTTGATGATCTGATTTGCAACGGCAACGAAAGCGCG

CTGTGGAACTGCAAACATCAGGGCTGGGGCAAACATAACTGCGATCATGCGGAAGATGCGGGCGTGATTTGCAGCAAA

GGCGCGGATCTGAGCCTGCGCCTGGTGGATGGCGTGACCGAATGCAGCGGCCGCCTGGAAGTGCGCTTTCAGGGCGAA

TGGGGCACCATTTGCGATGATGGCTGGGATAGCTATGATGCGGCGGTGGCGTGCAAACAGCTGGGCTGCCCGACCGCG

GTGACCGCGATTGGCCGCGTGAACGCGAGCAAAGGCTTTGGCCATATTTGGCTGGATAGCGTGAGCTGCCAGGGCCAT

GAACCGGCGATTTGGCAGTGCAAACATCATGAATGGGGCAAACATTATTGCAACCATAACGAAGATGCGGGCGTGACC

TGCAGCGATGGCAGCGATCTGGAACTGCGCCTGCGCGGCGGCGGCAGCCGCTGCGCGGGCACCGTGGAAGTGGAAATT

CAGCGCCTGCTGGGCAAAGTGTGCGATCGCGGCTGGGGCCTGAAAGAAGCGGATGTGGTGTGCCGCCAGCTGGGCTGC

GGCAGCGCGCTGAAAACCAGCTATCAGGTGTATAGCAAAATTCAGGCGACCAACACCTGGCTGTTTCTGAGCAGCTGC

AACGGCAACGAAACCAGCCTGTGGGATTGCAAAAACTGGCAGTGGGGCGGCCTGACCTGCGATCATTATGAAGAAGCG

AAAATTACCTGCAGCGCGCATCGCGAACCGCGCCTGGTGGGCGGCGATATTCCGTGCAGCGGCCGCGTGGAAGTGAAA

CATGGCGATACCTGGGGCAGCATTTGCGATAGCGATTTTAGCCTGGAAGCGGCGAGCGTGCTGTGCCGCGAACTGCAG

TGCGGCACCGTGGTGAGCATTCTGGGCGGCGCGCATTTTGGCGAAGGCAACGGCCAGATTTGGGCGGAAGAATTTCAG

TGCGAAGGCCATGAAAGCCATCTGAGCCTGTGCCCGGTGGCGCCGCGCCCGGAAGGCACCTGCAGCCATAGCCGCGAT

GTGGGCGTGGTGTGCAGCCGCTATACCGAAATTCGCCTGGTGAACGGCAAAACCCCGTGCGAAGGCCGCGTGGAACTG

AAAACCCTGGGCGCGTGGGGCAGCCTGTGCAACAGCCATTGGGATATTGAAGATGCGCATGTGCTGTGCCAGCAGCTG

AAATGCGGCGTGGCGCTGAGCACCCCGGGCGGCGCGCGCTTTGGCAAAGGCAACGGCCAGATTTGGCGCCATATGTTT

CATTGCACCGGCACCGAACAGCATATGGGCGATTGCCCGGTGACCGCGCTGGGCGCGAGCCTGTGCCCGAGCGAACAG

GTGGCGAGCGTGATTTGCAGCGGCAACCAGAGCCAGACCCTGAGCAGCTGCAACAGCAGCAGCCTGGGCCCGACCCGC

CCGACCATTCCGGAAGAAAGCGCGGTGGCGTGCATTGAAAGCGGCCAGCTGCGCCTGGTGAACGGCGGCGGCCGCTGC

GCGGGCCGCGTGGAAATTTATCATGAAGGCAGCTGGGGCACCATTTGCGATGATAGCTGGGATCTGAGCGATGCGCAT

GTGGTGTGCCGCCAGCTGGGCTGCGGCGAAGCGATTAACGCGACCGGCAGCGCGCATTTTGGCGAAGGCACCGGCCCG

ATTTGGCTGGATGAAATGAAATGCAACGGCAAAGAAAGCCGCATTTGGCAGTGCCATAGCCATGGCTGGGGCCAGCAG

AACTGCCGCCATAAAGAAGATGCGGGCGTGATTTGCAGCGAATTTATGAGCCTGCGCCTGACCAGCGAAGCGAGCCGC

GAAGCGTGCGCGGGCCGCCTGGAAGTGTTTTATAACGGCGCGTGGGGCACCGTGGGCAAAAGCAGCATGAGCGAAACC

ACCGTGGGCGTGGTGTGCCGCCAGCTGGGCTGCGCGGATAAAGGCAAAATTAACCCGGCGAGCCTGGATAAAGCGATG

AGCATTCCGATGTGGGTGGATAACGTGCAGTGCCCGAAAGGCCCGGATACCCTGTGGCAGTGCCCGAGCAGCCCGTGG

GAAAAACGCCTGGCGAGCCCGAGCGAAGAAACCTGGATTACCTGCGATAACAAAATTCGCCTGCAGGAAGGCCCGACC

AGCTGCAGCGGCCGCGTGGAAATTTGGCATGGCGGCAGCTGGGGCACCGTGTGCGATGATAGCTGGGATCTGGATGAT

GCGCAGGTGGTGTGCCAGCAGCTGGGCTGCGGCCCGGCGCTGAAAGCGTTTAAAGAAGCGGAATTTGGCCAGGGCACC

GGCCCGATTTGGCTGAACGAAGTGAAATGCAAAGGCAACGAAAGCAGCCTGTGGGATTGCCCGGCGCGCCGCTGGGGC

CATAGCGAATGCGGCCATAAAGAAGATGCGGCGGTGAACTGCACCGATATTAGCGTGCAGAAAACCCCGCAGAAAGCG

ACCACCGGCCGCAGCAGCCGCCAGAGCAGCTTTATTGCGGTGGGCATTCTGGGCGTGGTGCTGCTGGCGATTTTTGTG

GCGCTGTTTTTTCTGACCAAAAAACGCCGCCAGCGCCAGCGCCTGGCGGTGAGCAGCCGCGGCGAAAACCTGGTGCAT

CAGATTCAGTATCGCGAAATGAACAGCTGCCTGAACGCGGATGATCTGGATCTGATGAACAGCAGCGAAAACAGCCAT

GAAAGCGCGGATTTTAGCGCGGCGGAACTGATTAGCGTGAGCAAATTTCTGCCGATTAGCGGCATGGAAAAAGAAGCG

ATTCTGAGCCATACCGAAAAAGAAAACGGCAACCTG

C163A_HUMAN
MSKLRMVLLEDSGSADERRHEVNLSPFTITVVLLLSACFVTSSLGGTDKELRLVDGENKCSGRVEVKVQEEWGTVCNN
38

GWSMEAVSVICNQLGCPTAIKAPGWANSSAGSGRIWMDHVSCRGNESALWDCKHDGWGKHSNCTHQQDAGVTCSDGSN

LEMRLTRGGNMCSGRIEIKFQGRWGTVCDDNFNIDHASVICRQLECGSAVSFSGSSNFGEGSGPIWFDDLICNGNESA

LWNCKHQGWGKHNCDHAEDAGVICSKGADLSLRLVDGVTECSGRLEVRFQGEWGTICDDGWDSYDAAVACKQLGCPTA

VTAIGRVNASKGFGHIWLDSVSCQGHEPAIWQCKHHEWGKHYCNHNEDAGVTCSDGSDLELRLRGGGSRCAGTVEVEI

QRLLGKVCDRGWGLKEADVVCRQLGCGSALKTSYQVYSKIQATNTWLFLSSCNGNETSLWDCKNWQWGGLTCDHYEEA

KITCSAHREPRLVGGDIPCSGRVEVKHGDTWGSICDSDFSLEAASVLCRELQCGTVVSILGGAHFGEGNGQIWAEEFQ

CEGHESHLSLCPVAPRPEGTCSHSRDVGVVCSRYTEIRLVNGKTPCEGRVELKTLGAWGSLCNSHWDIEDAHVLCQQL

KCGVALSTPGGARFGKGNGQIWRHMFHCTGTEQHMGDCPVTALGASLCPSEQVASVICSGNQSQTLSSCNSSSLGPTR

PTIPEESAVACIESGQLRLVNGGGRCAGRVEIYHEGSWGTICDDSWDLSDAHVVCRQLGCGEAINATGSAHFGEGTGP

IWLDEMKCNGKESRIWQCHSHGWGQQNCRHKEDAGVICSEFMSLRLTSEASREACAGRLEVFYNGAWGTVGKSSMSET

TVGVVCRQLGCADKGKINPASLDKAMSIPMWVDNVQCPKGPDTLWQCPSSPWEKRLASPSEETWITCDNKIRLQEGPT

SCSGRVEIWHGGSWGTVCDDSWDLDDAQVVCQQLGCGPALKAFKEAEFGQGTGPIWLNEVKCKGNESSLWDCPARRWG

HSECGHKEDAAVNCTDISVQKTPQKATTGRSSRQSSFIAVGILGVVLLAIEVALFFLTKKRRQRQRLAVSSRGENLVH

QIQYREMNSCLNADDLDLMNSSENSHESADFSAAELISVSKFLPISGMEKEAILSHTEKENGNL

PTPRJ_HUMAN
ATGAAACCGGCGGCGCGCGAAGCGCGCCTGCCGCCGCGCAGCCCGGGCCTGCGCTGGGCGCTGCCGCTGCTGCTGCTG
39

CTGCTGCGCCTGGGCCAGATTCTGTGCGCGGGCGGCACCCCGAGCCCGATTCCGGATCCGAGCGTGGCGACCGTGGCG

ACCGGCGAAAACGGCATTACCCAGATTAGCAGCACCGCGGAAAGCTTTCATAAACAGAACGGCACCGGCACCCCGCAG

GTGGAAACCAACACCAGCGAAGATGGCGAAAGCAGCGGCGCGAACGATAGCCTGCGCACCCCGGAACAGGGCAGCAAC

GGCACCGATGGCGCGAGCCAGAAAACCCCGAGCAGCACCGGCCCGAGCCCGGTGTTTGATATTAAAGCGGTGAGCATT

AGCCCGACCAACGTGATTCTGACCTGGAAAAGCAACGATACCGCGGCGAGCGAATATAAATATGTGGTGAAACATAAA

ATGGAAAACGAAAAAACCATTACCGTGGTGCATCAGCCGTGGTGCAACATTACCGGCCTGCGCCCGGCGACCAGCTAT

GTGTTTAGCATTACCCCGGGCATTGGCAACGAAACCTGGGGCGATCCGCGCGTGATTAAAGTGATTACCGAACCGATT

CCGGTGAGCGATCTGCGCGTGGCGCTGACCGGCGTGCGCAAAGCGGCGCTGAGCTGGAGCAACGGCAACGGCACCGCG

AGCTGCCGCGTGCTGCTGGAAAGCATTGGCAGCCATGAAGAACTGACCCAGGATAGCCGCCTGCAGGTGAACATTAGC

GGCCTGAAACCGGGCGTGCAGTATAACATTAACCCGTATCTGCTGCAGAGCAACAAAACCAAAGGCGATCCGCTGGGC

ACCGAAGGCGGCCTGGATGCGAGCAACACCGAACGCAGCCGCGCGGGCAGCCCGACCGCGCCGGTGCATGATGAAAGC

CTGGTGGGCCCGGTGGATCCGAGCAGCGGCCAGCAGAGCCGCGATACCGAAGTGCTGCTGGTGGGCCTGGAACCGGGC

ACCCGCTATAACGCGACCGTGTATAGCCAGGCGGCGAACGGCACCGAAGGCCAGCCGCAGGCGATTGAATTTCGCACC

AACGCGATTCAGGTGTTTGATGTGACCGCGGTGAACATTAGCGCGACCAGCCTGACCCTGATTTGGAAAGTGAGCGAT

AACGAAAGCAGCAGCAACTATACCTATAAAATTCATGTGGCGGGCGAAACCGATAGCAGCAACCTGAACGTGAGCGAA

CCGCGCGCGGTGATTCCGGGCCTGCGCAGCAGCACCTTTTATAACATTACCGTGTGCCCGGTGCTGGGCGATATTGAA

GGCACCCCGGGCTTTCTGCAGGTGCATACCCCGCCGGTGCCGGTGAGCGATTTTCGCGTGACCGTGGTGAGCACCACC

GAAATTGGCCTGGCGTGGAGCAGCCATGATGCGGAAAGCTTTCAGATGCATATTACCCAGGAAGGCGCGGGCAACAGC

CGCGTGGAAATTACCACCAACCAGAGCATTATTATTGGCGGCCTGTTTCCGGGCACCAAATATTGCTTTGAAATTGTG

CCGAAAGGCCCGAACGGCACCGAAGGCGCGAGCCGCACCGTGTGCAACCGCACCGTGCCGAGCGCGGTGTTTGATATT

CATGTGGTGTATGTGACCACCACCGAAATGTGGCTGGATTGGAAAAGCCCGGATGGCGCGAGCGAATATGTGTATCAT

CTGGTGATTGAAAGCAAACATGGCAGCAACCATACCAGCACCTATGATAAAGCGATTACCCTGCAGGGCCTGATTCCG

GGCACCCTGTATAACATTACCATTAGCCCGGAAGTGGATCATGTGTGGGGCGATCCGAACAGCACCGCGCAGTATACC

CGCCCGAGCAACGTGAGCAACATTGATGTGAGCACCAACACCACCGCGGCGACCCTGAGCTGGCAGAACTTTGATGAT

GCGAGCCCGACCTATAGCTATTGCCTGCTGATTGAAAAAGCGGGCAACAGCAGCAACGCGACCCAGGTGGTGACCGAT

ATTGGCATTACCGATGCGACCGTGACCGAACTGATTCCGGGCAGCAGCTATACCGTGGAAATTTTTGCGCAGGTGGGC

GATGGCATTAAAAGCCTGGAACCGGGCCGCAAAAGCTTTTGCACCGATCCGGCGAGCATGGCGAGCTTTGATTGCGAA

GTGGTGCCGAAAGAACCGGCGCTGGTGCTGAAATGGACCTGCCCGCCGGGCGCGAACGCGGGCTTTGAACTGGAAGTG

AGCAGCGGCGCGTGGAACAACGCGACCCATCTGGAAAGCTGCAGCAGCGAAAACGGCACCGAATATCGCACCGAAGTG

ACCTATCTGAACTTTAGCACCAGCTATAACATTAGCATTACCACCGTGAGCTGCGGCAAAATGGCGGCGCCGACCCGC

AACACCTGCACCACCGGCATTACCGATCCGCCGCCGCCGGATGGCAGCCCGAACATTACCAGCGTGAGCCATAACAGC

GTGAAAGTGAAATTTAGCGGCTTTGAAGCGAGCCATGGCCCGATTAAAGCGTATGCGGTGATTCTGACCACCGGCGAA

GCGGGCCATCCGAGCGCGGATGTGCTGAAATATACCTATGAAGATTTTAAAAAAGGCGCGAGCGATACCTATGTGACC

TATCTGATTCGCACCGAAGAAAAAGGCCGCAGCCAGAGCCTGAGCGAAGTGCTGAAATATGAAATTGATGTGGGCAAC

GAAAGCACCACCCTGGGCTATTATAACGGCAAACTGGAACCGCTGGGCAGCTATCGCGCGTGCGTGGCGGGCTTTACC

AACATTACCTTTCATCCGCAGAACAAAGGCCTGATTGATGGCGCGGAAAGCTATGTGAGCTTTAGCCGCTATAGCGAT

GCGGTGAGCCTGCCGCAGGATCCGGGCGTGATTTGCGGCGCGGTGTTTGGCTGCATTTTTGGCGCGCTGGTGATTGTG

ACCGTGGGCGGCTTTATTTTTTGGCGCAAAAAACGCAAAGATGCGAAAAACAACGAAGTGAGCTTTAGCCAGATTAAA

CCGAAAAAAAGCAAACTGATTCGCGTGGAAAACTTTGAAGCGTATTTTAAAAAACAGCAGGCGGATAGCAACTGCGGC

TTTGCGGAAGAATATGAAGATCTGAAACTGGTGGGCATTAGCCAGCCGAAATATGCGGCGGAACTGGCGGAAAACCGC

GGCAAAAACCGCTATAACAACGTGCTGCCGTATGATATTAGCCGCGTGAAACTGAGCGTGCAGACCCATAGCACCGAT

GATTATATTAACGCGAACTATATGCCGGGCTATCATAGCAAAAAAGATTTTATTGCGACCCAGGGCCCGCTGCCGAAC

ACCCTGAAAGATTTTTGGCGCATGGTGTGGGAAAAAAACGTGTATGCGATTATTATGCTGACCAAATGCGTGGAACAG

GGCCGCACCAAATGCGAAGAATATTGGCCGAGCAAACAGGCGCAGGATTATGGCGATATTACCGTGGCGATGACCAGC

GAAATTGTGCTGCCGGAATGGACCATTCGCGATTTTACCGTGAAAAACATTCAGACCAGCGAAAGCCATCCGCTGCGC

CAGTTTCATTTTACCAGCTGGCCGGATCATGGCGTGCCGGATACCACCGATCTGCTGATTAACTTTCGCTATCTGGTG

CGCGATTATATGAAACAGAGCCCGCCGGAAAGCCCGATTCTGGTGCATTGCAGCGCGGGCGTGGGCCGCACCGGCACC

TTTATTGCGATTGATCGCCTGATTTATCAGATTGAAAACGAAAACACCGTGGATGTGTATGGCATTGTGTATGATCTG

CGCATGCATCGCCCGCTGATGGTGCAGACCGAAGATCAGTATGTGTTTCTGAACCAGTGCGTGCTGGATATTGTGCGC

AGCCAGAAAGATAGCAAAGTGGATCTGATTTATCAGAACACCACCGCGATGACCATTTATGAAAACCTGGCGCCGGTG

ACCACCTTTGGCAAAACCAACGGCTATATTGCG

PTPRJ_HUMAN
MKPAAREARLPPRSPGLRWALPLLLLLLRLGQILCAGGTPSPIPDPSVATVATGENGITQISSTAESFHKQNGTGTPQ
40

VETNTSEDGESSGANDSLRTPEQGSNGTDGASQKTPSSTGPSPVFDIKAVSISPTNVILTWKSNDTAASEYKYVVKHK

MENEKTITVVHQPWCNITGLRPATSYVFSITPGIGNETWGDPRVIKVITEPIPVSDLRVALTGVRKAALSWSNGNGTA

SCRVLLESIGSHEELTQDSRLQVNISGLKPGVQYNINPYLLQSNKTKGDPLGTEGGLDASNTERSRAGSPTAPVHDES

LVGPVDPSSGQQSRDTEVLLVGLEPGTRYNATVYSQAANGTEGQPQAIEFRTNAIQVFDVTAVNISATSLTLIWKVSD

NESSSNYTYKIHVAGETDSSNLNVSEPRAVIPGLRSSTFYNITVCPVLGDIEGTPGFLQVHTPPVPVSDERVTVVSTT

EIGLAWSSHDAESFQMHITQEGAGNSRVEITTNQSIIIGGLFPGTKYCFEIVPKGPNGTEGASRTVCNRTVPSAVEDI

HVVYVTTTEMWLDWKSPDGASEYVYHLVIESKHGSNHTSTYDKAITLQGLIPGTLYNITISPEVDHVWGDPNSTAQYT

RPSNVSNIDVSTNTTAATLSWQNFDDASPTYSYCLLIEKAGNSSNATQVVTDIGITDATVTELIPGSSYTVEIFAQVG

DGIKSLEPGRKSFCTDPASMASFDCEVVPKEPALVLKWTCPPGANAGFELEVSSGAWNNATHLESCSSENGTEYRTEV

TYLNESTSYNISITTVSCGKMAAPTRNTCTTGITDPPPPDGSPNITSVSHNSVKVKFSGFEASHGPIKAYAVILTTGE

AGHPSADVLKYTYEDFKKGASDTYVTYLIRTEEKGRSQSLSEVLKYEIDVGNESTTLGYYNGKLEPLGSYRACVAGFT

NITFHPQNKGLIDGAESYVSFSRYSDAVSLPQDPGVICGAVFGCIFGALVIVTVGGFIFWRKKRKDAKNNEVSFSQIK

PKKSKLIRVENFEAYFKKQQADSNCGFAEEYEDLKLVGISQPKYAAELAENRGKNRYNNVLPYDISRVKLSVQTHSTD

DYINANYMPGYHSKKDFIATQGPLPNTLKDFWRMVWEKNVYAIIMLTKCVEQGRTKCEEYWPSKQAQDYGDITVAMTS

EIVLPEWTIRDFTVKNIQTSESHPLRQFHFTSWPDHGVPDTTDLLINFRYLVRDYMKQSPPESPILVHCSAGVGRTGT

FIAIDRLIYQIENENTVDVYGIVYDLRMHRPLMVQTEDQYVFLNQCVLDIVRSQKDSKVDLIYQNTTAMTIYENLAPV

TTFGKTNGYIA

ALDOA_HUMAN
ATGCCGTATCAGTATCCGGCGCTGACCCCGGAACAGAAAAAAGAACTGAGCGATATTGCGCATCGCATTGTGGCGCCG
41

GGCAAAGGCATTCTGGCGGCGGATGAAAGCACCGGCAGCATTGCGAAACGCCTGCAGAGCATTGGCACCGAAAACACC

GAAGAAAACCGCCGCTTTTATCGCCAGCTGCTGCTGACCGCGGATGATCGCGTGAACCCGTGCATTGGCGGCGTGATT

CTGTTTCATGAAACCCTGTATCAGAAAGCGGATGATGGCCGCCCGTTTCCGCAGGTGATTAAAAGCAAAGGCGGCGTG

GTGGGCATTAAAGTGGATAAAGGCGTGGTGCCGCTGGCGGGCACCAACGGCGAAACCACCACCCAGGGCCTGGATGGC

CTGAGCGAACGCTGCGCGCAGTATAAAAAAGATGGCGCGGATTTTGCGAAATGGCGCTGCGTGCTGAAAATTGGCGAA

CATACCCCGAGCGCGCTGGCGATTATGGAAAACGCGAACGTGCTGGCGCGCTATGCGAGCATTTGCCAGCAGAACGGC

ATTGTGCCGATTGTGGAACCGGAAATTCTGCCGGATGGCGATCATGATCTGAAACGCTGCCAGTATGTGACCGAAAAA

GTGCTGGCGGCGGTGTATAAAGCGCTGAGCGATCATCATATTTATCTGGAAGGCACCCTGCTGAAACCGAACATGGTG

ACCCCGGGCCATGCGTGCACCCAGAAATTTAGCCATGAAGAAATTGCGATGGCGACCGTGACCGCGCTGCGCCGCACC

GTGCCGCCGGCGGTGACCGGCATTACCTTTCTGAGCGGCGGCCAGAGCGAAGAAGAAGCGAGCATTAACCTGAACGCG

ATTAACAAATGCCCGCTGCTGAAACCGTGGGCGCTGACCTTTAGCTATGGCCGCGCGCTGCAGGCGAGCGCGCTGAAA

GCGTGGGGCGGCAAAAAAGAAAACCTGAAAGCGGCGCAGGAAGAATATGTGAAACGCGCGCTGGCGAACAGCCTGGCG

TGCCAGGGCAAATATACCCCGAGCGGCCAGGCGGGCGCGGCGGCGAGCGAAAGCCTGTTTGTGAGCAACCATGCGTAT

ALDOA_HUMAN
MPYQYPALTPEQKKELSDIAHRIVAPGKGILAADESTGSIAKRLQSIGTENTEENRRFYRQLLLTADDRVNPCIGGVI
42

LFHETLYQKADDGRPFPQVIKSKGGVVGIKVDKGVVPLAGTNGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKIGE

HTPSALAIMENANVLARYASICQQNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHIYLEGTLLKPNMV

TPGHACTQKFSHEEIAMATVTALRRTVPPAVTGITFLSGGQSEEEASINLNAINKCPLLKPWALTFSYGRALQASALK

AWGGKKENLKAAQEEYVKRALANSLACQGKYTPSGQAGAAASESLFVSNHAY

FRIL_HUMAN
AGCAGCCAGATTCGCCAGAACTATAGCACCGATGTGGAAGCGGCGGTGAACAGCCTGGTGAACCTGTATCTGCAGGCG
43

AGCTATACCTATCTGAGCCTGGGCTTTTATTTTGATCGCGATGATGTGGCGCTGGAAGGCGTGAGCCATTTTTTTCGC

GAACTGGCGGAAGAAAAACGCGAAGGCTATGAACGCCTGCTGAAAATGCAGAACCAGCGCGGCGGCCGCGCGCTGTTT

CAGGATATTAAAAAACCGGCGGAAGATGAATGGGGCAAAACCCCGGATGCGATGAAAGCGGCGATGGCGCTGGAAAAA

AAACTGAACCAGGCGCTGCTGGATCTGCATGCGCTGGGCAGCGCGCGCACCGATCCGCATCTGTGCGATTTTCTGGAA

ACCCATTTTCTGGATGAAGAAGTGAAACTGATTAAAAAAATGGGCGATCATCTGACCAACCTGCATCGCCTGGGCGGC

CCGGAAGCGGGCCTGGGCGAATATCTGTTTGAACGCCTGACCCTGAAACATGAT

FRIL_HUMAN
MSSQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRAL
44

FQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLG

GPEAGLGEYLFERLTLKHD

	Number	Date	Country
Parent	14491446	Sep 2014	US
Child	15427883		US

COMPOSITIONS, METHODS AND KITS FOR DIAGNOSIS OF LUNG CANCER

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CPC

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Abstract

Description

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RELATED APPLICATIONS

Provisional Applications (1)

Continuations (1)