METHODS AND COMPOSITIONS FOR IMPROVING GUT MICROBIOTA POPULATION

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of the filing date of Chinese Patent Application No. 201210185004.2 filed Jun. 6, 2012, the entire disclosure of which is incorporated by reference herein.

TECHNICAL FIELD

The present application relates to compositions and methods for improving gut microbiota populations and related application in drugs, nutritional supplements, health care products, food and beverage.

BACKGROUND

Unless otherwise indicated herein, the materials described in this section are not prior art to the claims in this application and are not admitted to be prior art by inclusion in this section.

Inside the human body lives a large number of symbiotic microbes, among which the gut microbiota acts asan important environmental factor to host health. There are more than 1000 species of bacteria, whose number exceeds 10 folds of the number of human cells, and whose gene number is about 150 folds of that in human cells. In this context, the human body as a “superorganism” made of host cells and symbioticmicrobes including gut microbiota, and the genome encoding a consortium of gut microbes (microbiome) is considered as the second human genome, also known as “humanmetagenome”. When human health status changes, the composition of symbioticmicrobes changes accordingly. Conversely, changes in the composition of symbioticmicrobes lead to the change in the human health status. Together, the diversity in human genome and the genome of gut microbiome affects immunity, nutrition, metabolism, and the health and disease status of the human host. However, up to now, it is not clear by what mechanisms the gut microbiota contribute to disease etiology and pathology, which type of bacteria is positively correlated with the health status of the host, and which type of bacteria is negatively correlated with the health status of the host.

SUMMARY

The following summary is illustrative only and is not intended to be in any way limiting. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features will become apparent by reference to the drawings and the following detailed description.

In one aspect, the application provides methods for improving gut microbiota population. In one embodiment, the method includes administering to a subject a composition to increase a first gut microbiota population while simultaneously decrease a second gut microbiota population in the subject. The first gut microbiota population may include a short-chain fatty acid (SCFA)-producing bacteria. The second gut microbiota population may include an endotoxin-producing bacterium.

In another aspect, the application provides methods for screening a test compound that may be active in improving gut microbiota population. In one embodiment, the method includes administering to a control subject an effective amount of a control composition to increase a first gut microbiota population while simultaneously decrease a second gut microbiota population in the control subject, administering to a test subject an amount of a test compound, and comparing the gut microbiota population of the controlled subject with the gut microbiota population of the test subject. A similarity of at least about 80% is indicative that the test compound is active in improving gut microbiota population. The first gut microbiota population may include a short-chain fatty acid (SCFA)-producing bacteria. The second gut microbiota population may include an endotoxin-producing bacterium.

In a further aspect, the application provides compositions for improving gut microbiota population. In one embodiment, the composition is capable of selectively increasing a first gut microbiota population while simultaneously decreasing a second gut microbiota population in a subject. The first gut microbiota population may include a short-chain fatty acid (SCFA)-producing bacteria. The second gut microbiota population may include an endotoxin-producing bacterium. In one embodiment, the composition is administered to the subject at a dosage of from about 50 mg/kg body weight to about 400 mg/body weight and with once a day administration for at least two weeks.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features of this disclosure will become more fully apparent from the following description and appended claims, taken in conjunction with the accompanying drawings. Understanding that these drawings depict only several embodiments arranged in accordance with the disclosure and are, therefore, not to be considered limiting of its scope, the disclosure will be described with additional specificity and detail through use of the accompanying drawings, in which:

FIG. 1 illustrates the effect of berberine on the rat gut microbiota structure; FIG. 1A is the PCoA score plot of changes in the rat gut microbiota structure in response to HFD feeding and berberine administration; FIG. 1B shows the clustering of the gut microbiota based on mahalanobis distances calculated using MANOVA; and FIG. 1C shows the Shannon-Wiener index, calculated after rarefying to an equal number of sequence reads for all samples;

FIG. 2 illustrates some representative differences in the gut microbiota structure caused by berberine treatment using distance triplot of the RDA of gut microbiota;

FIG. 3 illustrates the effect on the short-chain fatty acid contents in rat feces when the rats were fed with high fat diet or normal chow diet; FIG. 3A shows the levels of total short-chain fatty acids (SCFAs); FIG. 3B shows the level of acetic acid; FIG. 3C shows the level of propionic acid; and FIG. 3D shows the level of butyric acid (D);

FIG. 4 illustrates the effect of berberine on obesity phenotypes and food intake in rats; FIG. 4A shows the effect of berberine on the body weight gain; FIG. 4B shows the effect of berberine on the adiposity index, calculated as the fat pad weight (sum of epididymal and perirenal fat pads) per 100 g of total body weight; and FIG. 4C shows the food intake of rats during the entire trial;

FIG. 5 illustrates the effect of berberine on the insulin sensitivity in rats; FIG. 5A shows the effect of berberine on fasting blood glucose (FBG); FIG. 5B shows the effect of berberine on fasting serum insulin (FINS); FIG. 5C shows the effect of berberine onhomeostasis assessment of insulin resistance (HOMA-IR) value, calculated according to the formula fasting insulin (μU/mL)×fasting glucose (mmol/L)/22.5; FIG. 5D shows the effect of berberine onoral glucose tolerance test (OGTT); and FIG. 5E shows the effect of berberine onintra-peritoneal insulin tolerance test (ITT); and

FIG. 6 illustrates the effect of berberine on the level of inflammation factors in rats; FIG. 6A shows the effect of berberine onserum lipopolysaccharide (LPS)-binding protein (LBP); FIG. 6B shows the effect of berberine onserum leptin; FIG. 6C shows the effect of berberine onserum MCP-1; and FIG. 6D shows the effect of berberine onserum adiponectin corrected for body fat.

DETAILED DESCRIPTION

In the following detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented herein. It will be readily understood that the aspects of the present disclosure, as generally described herein, and illustrated in the Figures, can be arranged, substituted, combined, separated, and designed in a wide variety of different configurations, all of which are explicitly contemplated herein.

This application is generally drawn, inter alia, to compositions, methods, processes, apparatus, systems, devices, and/or products related to improving gut microbiota population.

The application provides novel compositions and methods for improving gut microbiota population. The application identifies bacteria families that are closely related to host metabolism utilizing, for example, high throughput sequencing and multivariate statistical methods.

In one aspect, the application provides methods for improving gut microbiota population. In one embodiment, the method may include selectively enriching a first gut microbiota population. The first gut microbiota population may include, for example, an short-chain fatty acid (SCFA)-producing bacterium. In one embodiment, the method may include suppressing a second gut microbiota population. The second gut microbiota population may include, for example, an endotoxin-producing bacterium.

In one embodiment, the method may include the step of administering to a subject a composition. The composition may be an oral or parenteral formulation. The composition may selectively increase the first gut microbiota population while simultaneously decrease the second gut microbiota population.

The enrichment of the first gut microbiota population and suppression of the second microbiota population may be carried out simultaneously. The method may result in the prevention or treatment of metabolic syndrome including, without limitation, obesity, diabetes mellitus, insulin resistance, hyperlipoproteinemia, hyperuricemia, hepatic steatosis, hypercholesterolemia, hypertriglyceridemia, inflammation, and other disorders.

The short-chain fatty acid (SCFA)-producing bacteria inside gut are mostly beneficial bacteria. These bacteria either directly or, by increasing short-chain fatty acid inside gut, thus indirectly, perform functions including without limitation anti-inflammation, protecting intestinal barrier function, and regulating metabolism and immune system. These functions lead to the prevention or treatment of obesity, insulin resistance, diabetes, and other metabolic diseases.

Using the disclosed methods for improving gut microbiota population, the increased gut microbiota populationmay include Alistipes, Allobaculum, Bacteroides, Barnesiella, Blautia, Butyricicoccus, Butyricimonas, Dorea, Helicobacter, Hespellia, Holdemania, Lawsonia, Oscillibacter, Parabacteroides, Phascolarctobacterium, Prevotella, or Sedimentibacter. In one embodiment, the increased gut microbiota population may include Bacteroidaceae, Coriobacteriaceae, Desulfovibrionaceae, Erysipelotrichaceae, Flavobacteriaceae, Helicobacteracea, IncertaeSedis XI, IncertaeSedis XIV, Lachnospiraceae, Porphyromonadaceae, Prevotellaceae, Rikenellaceae, Ruminococcaceae, or Veillonellaceae; alternatively, the increased gut bacteria may include Campylobacterales, Desulfovibrionales, Bacteroidales, Coriobacteriales, Flavobacteriales, Clostridiales, or Erysipelotrichales; alternatively, the increased gut bacteria may include Epsilonproteobacteria, Deltaproteobacteria, Bacteroidia, Coriobacteridae, Flavobacteria, Clostridia, or Erysipelotrichi; alternatively, the increased gut bacteria may include Proteobacteria, Bacteroidetes, Actinobacteria, or Firmicutes.

For example, the increased gut microbiota population may include a bacterium whose V3 region of 16S rRNA gene sequence has at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 98%, or at least about 99% similarity with a nucleic acid sequence selected from a group consisting of SEQ ID NO: 1-93.

The endotoxin-producing bacteria inside gut are mostly harmful bacteria, which, either directly or indirectly by increasing endotoxin, promote inflammation, damage intestinal barrier function, and increase disorder in metabolism and immune system, as a result inducing obesity, insulin resistance, diabetes and other metabolic diseases.

According to the methods for improving gut microbiota population disclosed herein, the decreased gut bacteria may include Alistipes, Anaeroplasma, Barnesiella, Bifidobacterium, Butyricimonas, Butyrivibrio, Coprococcus, Fastidiosipila, Helicobacter, Hespellia, Marvinbryantia, Oribacterium, Oscillibacter, Prevotella, Roseburia, Ruminococcus, or TM7_genera_incertae_sedis; alternatively, the decreased gut bacteria may include Helicobacteraceae, Lachnospiraceae, Porphyromonadaceae, Prevotellaceae, Rikenellaceae, Ruminococcaceae, Anaeroplasmataceae, or Bifidobacteriaceae. In one embodiment, the decreased gut microbiota population may include Campylobacterales, Bacteroidales, Clostridiales, Anaeroplasmatales, or Bifidobacteriales; alternatively, the decreased gut bacteria may include Epsilonproteobacteria, Alphaaproteobacteria, Bacteroidia, Clostridia, Actinobacteridae, or Mollicutes. In one embodiment, the decreased gut microbiota population may include Proteobacteria, Bacteroidetes, Actinobacteria, Firmicutes, or Tenericutes.

For example, the decreased gut bacteria may include a bacteria whose V3 region of 16S rRNA gene sequence has at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 98%, or at least about 99% similarity with a nucleic acid sequence selected from a group consisting of SEQ ID NO: 94-268.

The methods may cause decrease of the serum level of pro-inflammatory factors. Example pro-inflammatory factors include without limitation cytokines such as lipopolysaccharide-binding protein, monocyte chemoattractant protein-1, or leptin. Additionally and optionally, the methods may increase the serum level of cytokine such as adiponectin.

The level of gut short-chain fatty acids may be increased using the disclosed methods. The short-chain fatty acids may include without limitation acetic acid, propionic acid, butyric acid, valeric acid, isobutyric acid, and isovaleric acid.

To improve the gut microbiota population, the compositions may be administered orally or parentally. In one embodiment, the composition may be a food, a drink, a supplement, or a pharmaceutical formulation. In one embodiment, the composition may be in the form of suppository, tablet, pill, granule, powder, film, microcapsule, aerosol, spirit, tincture, tonic, liquid suspension, or syrup. The composition may be administered at a dosage of from about 50 mg/kg body weight to about 400 mg/body weight.

In one example, the composition including berberine was administered to a subject. The gut microbiota population of the subject was then analyzed using 454 pyrosequencing techniques and the level of short-chain fatty acid was assayed by gas chromatography. The results demonstrated that berberine is capable of altering gut microbiota population: enriching certain bacteria including those that produce short-chain fatty acid while simultaneously suppressing or eliminating certain bacteria including those that produce endotoxin. It is further demonstrated that berberine administered orally is capable of increasing the level of shot-chain fatty acid inside the gut, and the increase is more pronounced in individuals who have metabolic syndrome. Additional experimentation and observation further demonstrated that above described effects by berberine on the gut microbiota population have beneficial results including without limitation improving insulin sensitivity, reducing inflammation, controlling weight gain, and preventing obesity induced by over-eating, chronic inflammation and insulin resistance.

In another aspect, the application provides methods for screening drugs, compounds, compositions, extracts, or formulations capable of improving gut microbiota population. The methods may be used in the development of drugs, nutritional supplements, health care products, food, and beverages that improve health and/or prevent obesity or other related metabolic syndromes by targeting gut microbiota population in a subject.

In one embodiment, the screening method may include administering to a control subject an effective amount of a control composition to increase the first gut microbiota population while simultaneously decrease the second gut microbiota population in the control subject, administering to a test subject an amount of a test composition, and comparing the gut microbiota population of the controlled subject and the gut microbiota population of the test subject.

As used herein, the term “subject” refers to an animal, such as a mammal, for example a human. In some embodiments, the subject may be a rat. In some embodiments, the subject may be a mouse. In some embodiments, the subject may be a human.

If the test compound demonstrates similar effect on gut microbiota as the control, the test compound is active in improving gut microbiota population. As used therein, “similar” refers to a similarity of at least about 75%, at least about 80%, at least about 90%, at least about 95%, at least about 98%, or at least about 99%.

The test composition may be a single compound, a mixture, a food, a food additive, a nutritional supplement, health care product, a pharmaceutical formulation, or a beverage.

In a further aspect, the application provides compositions for improving gut microbiota population. In one embodiment, the composition may be capable of selectively increasing the first gut microbiota population while simultaneously decreasing the second gut microbiota population in a subject.

The composition may include a chemical compound, a natural medicine, a natural product, or an herbal extract. In one embodiment, the chemical compound may include, without limitation, berberine, berberine derivatives, isoquinoline alkaloids, or any combinations thereof.

In one embodiment, the composition may include natural medicine, whole, fragmented or powdered herb, or herbal extract derived from plants of Berberis, Coptis, Scutellaria, Phellodendron, Momordica, Ilex, Sophora, Gentiana, Anemarrhena, Gardenia, Rheum, or Taraxacum. In one embodiment, the composition may include natural medicine, whole, fragmented or powdered herb, or herbal extract derived from plants of Berberidaceae, Ranunculaceae, Lamiaceae, Rutaceae, Cucurbitacea, Aquifoliaceae, Leguminosae, Gentianaceae, Agavaceae, Rubiaceae, Polygonaceae, Asteraceae, Menispermaceae, or Cucurbitaceae. In one embodiment, the composition may include natural medicine, whole, fragmented or powdered herb, or herbal extract derived from Berberis vulgaris, Coptischinensis, Scutellariabaicalensis, PhellodendriChinensis, Momordicacharantia, Ilex kudingcha, Sophoraflavescens, Gentianascabra, Anemarrhenaasphodeloides, Gardenia jasminoides, Rheum palmatum, or Herba Taraxaci.

The following examples are for illustration of the execution and property of representative method of the application. These examples are not intended to limit the scope of the application.

Examples

These examples use Wistar rats (8 weeks old, male) as testing subjects and berberine as a representative compound. 40 Wistar rats were acclimatized for two weeks and were subsequently randomly divided into four groups: normal diet group (NCD), normal diet plus berberine treatment (NCD+BBR), high fat diet (HFD), and high fat diet plus berberine treatment (HFD+BBR). Each group continued for another 18 weeks. During these 18 weeks, the NCD+BBR group received intragastric administration of berberine at stated levels. Feces samples from each animal were collected at various time points. 454 pyrosequencing was performed to analyze gut microbiota structure. Gas chromatography was used to assay the short-chain fatty acid level of the feces. In addition, weight, food intake, insulin sensitivity, systemic inflammation levels were monitored and measured during the 18-week period.

Berberine Altered the Gut Microbiota Population Under Both Normal Diet and High Fat Diet Conditions

The gut microbiota populations in rats from all four experimental groups were analyzed by 454 pyrosequencing and multivariate statistical analyses. PCoA analysis based on unweighted Unifrac distance demonstrated that berberine altered gut microbiota structure in both the normal diet group and high fat diet group at a statistically significant level; and berberine accounts for 12.6% of overall changes in the gut microbiota population (FIG. 1A). Diet also exerted statistically significant influence on gut microbiota population. FIG. 1A reveals a statistically significant difference (3.7%) in gut microbiota population between two different diets (NCD versus HFD) along the vertical axis. The multivariate variance analysis (MANOVA) on the four groups demonstrated that berberine or diet has a statistically significant influence on the gut microbiota (P<0.01), but the most pronounced difference derives from the presence of berberine (FIG. 1B). Shannon-Wiener parameter indicates that berberine reduces diversity of gut microbiota population at a statistically significant level (P<0.05).

Berberine Enriches the Short-Chain Fatty Acid-Producing Bacteria and Reduces Endotoxin-Producing Bacteria in Gut Microbiota Population

268 berberine-related OTU were identified by redundancy analysis (RDA) and the detailed results are shown in FIG. 2, TABLE 1, and TABLE 2. 93 OTU (SEQ_ID_NO 1-93) (TABLE 1) are enriched by berberine, while 175 OTU (SEQ_ID_NO 94-268) (TABLE 2) were suppressed or eliminated.

The taxonomy of these 268 OTU was analyzed using RDP classifier with representative sequence of the OTU. It was revealed that the berberine-suppressed bacteria included those of Alistipes, Anaeroplasma, Barnesiella, Bifidobacterium, Butyricimonas, Butyrivibrio, Coprococcus, Fastidiosipila, Helicobacter, Hespellia, Marvinbryantia, Oribacterium, Oscillibacter, Prevotella, Roseburia, Ruminococcus, TM7_genera_incertae_sedis, and others. Among them, the Helicobacter, belonging to Proteobacteria phylum, is capable of producing highly active endotoxin. In addition, it was revealed that the berberine-increased bacteria included those of Alistipes, Allobaculum, Bacteroides, Barnesiella, Blautia, Butyricicoccus, Butyricimonas, Dorea, Helicobacter, Hespellia, Holdemania, Lawsonia, Oscillibacter, Parabacteroides, Phascolarctobacterium, Prevotella, and Sedimentibacter. Among them, Blautia, Allobaculum, Prevotella, Bacteroides, and Butyricimonas are relatively abundant and are capable of producing short-chain fatty acid.

Therefore, when administered to a subject, berberine is capable of enriching the short-chain fatty acid-producing bacteria and reducing endotoxin-producing bacteria in gut microbiota population.

Berberine Increases Gut Short-Chain Fatty Acid Level in Rats Fed Normal Diet or High Fat Diet

The levels of short-chain fatty acid (including acetic acid, propionic acid, butyric acid, valeric acid, isobutyric acid, isovaleric acid, etc.) in rat feces were assayed by gas chromatography. The result demonstrated that oral administration of 100 mg/kg body weight may increase the level of gut short-chain fatty acid in rats fed with normal diet or high fat diet. The effect on the levels of acetic acid and propionic acid are especially pronounced (FIG. 3). Therefore, berberine is capable of increasing gut short-chain fatty acid level in rats fed normal diet or high fat diet.

Berberine Reduces Obesity Phenotype of Rats

The body weight of all four groups of rats were monitored during the duration of the experiments and analyzed. The results demonstrated that, after 18 weeks of high fat diet, the HFD group has significantly higher body weight than the normal diet group (P<0.01); intragastric administration of berberine at the dosage of 100 mg/kg effectively limits rat body weight growth, especially for rats fed high fat diet. The result is especially surprising that during the entire experimental process, the body weight of the HFD+BBR group is limited to a level similar to that of normal diet group, displaying no statistically significant difference (P>0.05). Berberine also influences, to a certain degree, the body weight of rats fed a normal diet (FIG. 4).

At the end of experiment, animals were euthanized. Fasting body weight, epididymal fat weight, and perirenal fat weight were measured. Adiposity index ([epididymal fat weight+perirenal fat]/fasting weight×100) is shown in FIG. 4B. After 18 weeks of high fat diet, the adiposity index of the HFD group is significantly higher than that of NCD, and berberine treatment significantly reduces adiposity index. Moreover, neither high fat diet nor berberine had significant effect on liver and pancreas, indicating surprisingly that long term use of berberine has no obvious side effect to rat's normal physiological function. Results of the calorie intake of these rats demonstrated that oral administration of berberine at 100 mg/kg body weight has a significant inhibitory effect on rat food intake, especially on rats fed a high fat diet (FIG. 4C).

Berberine Reduces Insulin sensitivity in Rats Fed a Normal Diet or High Fat Diet

The fasting blood glucose (FBG) and fasting insulin in serum (FINS) were measured for all four experimental groups of rats. Rats fed a HFD for 18 months had a significant higher level of FBG than that of NCD. Surprisingly, berberine effectively reduced FBG in NCD and HFD rats, especially in HFD rats where the FBG reduction was significant (P<0.05) (FIG. 5A). The result of berberine effect on insulin level is shown in FIG. 5B. The FINS of rat fed a HFD was significantly higher than that of NCD group; however, after 18 month of berberine intervention at the level of 100 mg/kg body weight, FINS level was significantly reduced even in rats fed a HFD (HFD+BBR), to reach a level comparable to that of normal diet. FIG. 5C shows the result of HOMA insulin resistance index to evaluate the insulin resistance status in rats, which demonstrates that after 18 weeks of HFD induction, rats formed apparent insulin resistance; yet berberine intervention at 100 mg/kg body weight prevented the formation of insulin resistance (P<0.05).

In order to further examine insulin sensitivity, oral glucose tolerance test and intraperitoneal injection of insulin tolerance test were conducted, and the results are shown in FIG. 5D, and 5E, respectively. Consistent with the FBG and FINS result, after 18 weeks of high fat diet inducement, oral glucose tolerance and intraperitoneal injection of insulin tolerance were significantly damaged, meanwhile, berberine intervention at 100 mg/kg body weight significantly prevented the loss of glucose tolerance and insulin tolerance, demonstrating the berberine may play an important role in improving glucosemetabolism.

Berberine Reduces Systemic inflammation Level in Rats
Fed a High Fat Diet

In order to evaluate the systemic inflammation levels of all four experimental groups of rats, the serum levels of lipopolysaccharide (LPS)-binding protein (LBP), monocyte chemoattractant protein-1 (MCP-1), leptin, and adiponectin were measured, and results are shown in FIG. 6. The experiments demonstrates that HFD significantly increased LBP level in serum; but administering berberine at 100 mg/kg significantly abrogated the increase of serum LBP (P<0.05, FIG. 6A).

MCP-1 is a pro-inflammatory cytokine that functions in chemotaxis and activation of monocytes/macrophages. Occurrence and development of many inflammation-related diseases are closely related to MCP-1, including atherosclerosis, obesity, type 2 diabetes, arthritis, sepsis, and chronic bacterial infection. The results from the experiment demonstrated that, in the process of the gradual onset of obesity and insulin resistance in rat induced by HFD, MCP-1 level is gradually elevated; however, after intervention with berberine administering, MCP-1 level was significantly reduced, and, surprisingly, was even lower than that of NCD group (FIG. 6B).

Leptin is a hormone secreted by adipose tissue, and broadly participates in lipid, glucose, and energy metabolism. The results from the experiment demonstrated that serum leptin level in HFD group is significantly higher than that of NCD group (P<0.01); however, berberine significantly reduced the serum leptin level in rat, especially in rats fed a HFD (P<0.05, FIG. 6C).

The adiponectin levels in all four groups were analyzed. The results show that the adiponectin level normalized against body fat weight, was significantly lower in HFD group when compared to that of NCD group (P<0.001); however, berberine administration significantly increased adiponectin level in rats fed a HFD (P<0.01, FIG. 6D). Therefore, berberine improves gut microbiota population, reduces LPB, MCP-1, and lpetin level, and increases adiponectin secretion. TABLE 1 16S rRNA gene V3 region sequence of those bacteria enriched by berberine.

List
OTUName
16S rRNA Gene V3 Region Sequence

SEQ_ID_NO_
R_U00449939
TAGGGAATATTGCTCAATGGGGGAAACCCTGAAGCA

1

GCAACGCCGCGTGGAGGATGAAGGTTTTCGGATTGT

AAACTCCTTTTCTAAGAGAAGATTATGACGGTATCTT

AGGAATAAGCACCGGCTAACTCCGTGCC

SEQ_ID_NO_
R_U01131573
GGGGAAACCCTGAAGCAGCAACGCCGCGTGGAGGAT

2

GAAGGTTTCGGATTGTAAACTCCTTTCTAAGAGAAGA

TTATGACGGTATCTTAGGAATAAGCACCGGCTAACTC

CGTGCC

SEQ_ID_NO_
R_U00442991
TGGGGAATATTGCGCAATGGGCGAAAGCCTGACGCA

3

GCGACGCCGCGTGAGGGATGAAGGTCCTCGGATCGT

AAACCTCTGTCAGGGGGGAAGAAGCGCCTGTGAGCA

AATAGTTCATGGGTTTGACGGTACCCCCAAAGGAAG

CACCGGCTAACTCCGTGCC

SEQ_ID_NO_
R_U01131468
TGAGGAATATTGGTCAATGGGCGCAGGCCTGAACCA

4

GCCAAGTAGCGTGAAGGATGACTGCCCTATGGGTTGT

AAACTTCTTTTATATGGGAATAAAGTTTTCCACGTGT

GGAATTTTGTATGTGCCATATGAATAAGGATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00000076
TGAGGAATATTGGTCAATGGACGAGAGTCTGAACCA

5

GCCAAGTAGCGTGAAGGATGACTGCCCTATGGGTTGT

AAACTTCTTTTATATGGGAATAAAGTGAGCCACGTGT

GGCTTTTTGTATGTACCATACGAATAAGGATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00000261
TGAGGAATATTGGTCAATGGGCGCAGGCCTGAACCA

6

GCCAAGTAGCGTGAAGGATGACTGCCCTATGGGTTGT

AAACTTCTTTTATATGGGAATAAAGTTTTCCACGTGT

GGAATTTTGTATGTACCATATGAATAAGGATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00277049
TGAGGAATATTGGTCAATGGGCGCAGGCCTGAACCA

7

GCCAAGTAGCGTGAAGGATGACTGCCCTATGGGTTGT

AAACTTCTTTTATATGGGAATAAAGTTTTCCTACGTG

TGGAATTTTGTTATGTACCATATGAATAAGGATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U01140154
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCA

8

GCCAAGTAGCGTGCAGGACGACGGCCCTATGGGTTG

TAAACTGTCTTTTATACGGGGATAAAGTATGCCACGT

GTGGTTTATTGCAGGTACCGTATGAATAAGGACCGGC

TAATTCCGTGCC

SEQ_ID_NO_
R_U00797917
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCA

9

GCCAAGTAGCGTGCAGGACGACGGCCCTATGGGTTG

TAAACTGCTTTTATACGGGGATAAAGTATGCCACGTG

TGGTTTATTGCAGGTACCGTATGAATAAGGACCGGCT

AATTCCGTGCC

SEQ_ID_NO_
R_U01135802
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

10

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGCCGGGGAGGCAATGCCCACGCTCG

CGAGCTGGGAAGGAGAGTACCCGGAGAAAAAGACAT

CGGCTAACTCCGTGCC

SEQ_ID_NO_
R_U01199632
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

11

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGCCGGGGAGCAATGCCCACGCTCGC

GAGCTGGGAAGGAGAGTACCCGGAGAAAAAGACATC

GGCTAACTCCGTGCC

SEQ_ID_NO_
R_U01136954
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

12

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGCCGGGGAGCAAATGCCCAGCTCGC

GAGCTGGGAAGGAGAGTACCCGGAGAAAAAGCATCG

GCTAAACTCCGTGCC

SEQ_ID_NO_
R_U01156163
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCA

13

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGTCAGGGAGCAAGAACAGGCACGT

GTGCCTGACTGAGAGTACCTGAAGAAAAAGACATCG

GCTAACTCCGTGCC

SEQ_ID_NO_
R_U00436427
TGAGGAATATTGGTCAATGGCCGGAAGGCTGAACCA

14

GCCAAGTCGCGTGAGGGACTAAGGCCCTACGGGTCG

TAAACCTCTTTTGCCGGGGAGCAATGGGGCCCTTGCG

AGGGCCCAGGGAGAGTACCCGGAGAAAAAGCATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U01161731
TGAGGAATATTGGTCAATGGCCGGGAGGCTGAACCA

15

GCCAAGTCGCGTGAGGGATGACGGCCCTACGGGTTG

TAAACCTCTTTTGTCGGGGAGCAAAGGACTTCACGAG

TGGAGTTTCGAGAGTACCCGAAGAAAAAGACATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U00804243
TGAGGAATATTGGTCAATGGCCGGGAGGCTGAACCA

16

GCCAAGTCGCGTGAGGGATGACGGCCCTACGGGTTG

TAAACCTCTTTTGTCGGGGAGCAAAGGACTTCACGAG

TGGAGTTTCGAGAGTACCCGAAGAAAAAGCATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U00832647
TGAGGAATATTGGTCAATGGCCGGGAGGCTGAACCA

17

GCCAAGTCGCGTGAGGGATGACGGCCCTACGGGTTG

TAAACCTCTTTGTCGGGGAGCAAAGGACTTCACGAGT

GGAGTTTCGAGAGTACCCGAAGAAAGACATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00013412
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCA

18

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGTCAGGGAGCAAGAACAGGCACGT

GTGCCTGACTGAGAGTACCTGAAGAAAAAGCATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U00807079
TGAGGAATATTGGTCAATGGCCGAGAGGCTGAACCA

19

GCCAAGTCGCGTGAGGGATGACGGCCCTACGGGTTG

TAAACCTCTTTTGTCGGGGAGCAAAGGACTTCACGTG

TGAAGTTTCGAGAGTACCCGAAGAAAAAGCATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U00005346
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

20

GCCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTG

TAAACCTCTTTTGCCGGGGAGCAATGCCGCTCTTGCG

AGAGCGGAGGGAGAGTACCCGGAGAAAAAGCATCG

GCTAACTCCGTGCC

SEQ_ID_NO_
R_U00004086
TGAGGAATATTGGTCAATGGCCGGAAGGCTGAACCA

21

GCCAAGTCGCGTGAGGGAATAAGGCCCTACGGGTCG

TAAACCTCTTTTGTCAGGGAGCAAAGCTGGCTACGCG

TAGCCAGAAGGAGAGTACCTGAAGAAAAAGCATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U01130438
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

22

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTGCCGGGAGCAATGCCCAGCTCGCGAG

CTGGGAAGGAGAGTACCCGGAGAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U01131459
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

23

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTGCCGGGGAGCAATGCCCAGCTCGCGA

GCTGGGAAGGAGAGTACCCGGAGAAAAGACATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U00436448
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

24

GCCAAGTCGCGTGAGGGACTAAGGCCCTACGGGTCG

TAAACCTCTTTTGCCGGGGAGCAAGCCGTCCCACGTG

TGGGCCGGTGGAGAGTACCCGGAGAAAAAGCATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U00474862
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

25

GCCAAGTCGCGTGAGGGACTAAGGCCCTACGGGTCG

TAAACCTCTTTTGCCGGGGAGCAAGCCGTCCCACGTG

TGGGCCGGTGGAGAGTACCCGGAGAAAAAGACATCG

GCTAACTCCGTGCC

SEQ_ID_NO_
R_U00001388
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

26

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTGCCGGGGAGCAATGCCCAGCTCGCG

AGCTGGGAAGGAGAGTACCCGGAGAAAAAGCATCGG

CTAACTCCGTGCC

SEQ_ID_NO_
R_U01185184
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCA

27

GCCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTG

TAAACCTCTTTTTGCCGGGGGAGCAATGCCCAGCTCG

CGAGCTGGGAAGGAGAGTACCCGGAGAAAAAAGCAT

CGGCTAACTCCGTGCC

SEQ_ID_NO_
R_U00000528
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCA

28

GCCAAGTCGCGTGAAGGATGAAGGATCTATGGTTTGT

AAACTTCTTTTATATGGGAATAAAGTGAGGAACGTGT

TCCTTTTTGTATGTACCATATGAATAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00000002
TGAGGAATATTGGTCAATGGACGAGAGTCTGAACCA

29

GCCAAGTAGCGTGAAGGATGACTGCCCTATGGGTTGT

AAACTTCTTTTATACGGGAATAAAGTGAGGCACGTGT

GCCTTTTTGTATGTACCGTATGAATAAGGATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U00147566
TGAGGAATATTGGTCAATGGACGCAAGTCTGAACCA

30

GCCATGCCGCGTGCAGGAAGACGGCTCTATGAGTTGT

AAACTGTCTTTTGTACTAGGGTAAACGCTCTTACGTG

TAGGAGCCTGAAAGTATAGTACGAATAAGGATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U00000394
TGAGGAATATTGGTCAATGGACGCAAGTCTGAACCA

31

GCCATGCCGCGTGCAGGAAGACGGCTCTATGAGTTGT

AAACTGCTTTTGTACTAGGGTAAACGCTTCTACGTGT

AGGAGCCTGAAAGTATAGTACGAATAAGGATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U00047397
TGGGGAATTTTGCGCAATGGGGGGAACCCTGACGCA

32

GCAACGCCGCGTGCGGGATGACGGCCCTCGGGTTGT

AAACCGCTTTCAGCAGGGAAGACCACGACGGTACCT

GCAGAAGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000552
TGAGGAATATTGGGCAATGGGCGGAAGCCTGACCCA

33

GCCATGCCGCGTGCAGGAAGACAGCCCTATGGGTCG

TAAACTGCTTTTTTAGAGGAAGAATAAAGTCTACGTG

TAGACCGATGACGGTACTTTAAGAAAAAGCATCGGC

TAACTCCGTGCC

SEQ_ID-NO_
R_U00441706
GTAGGGAATATTGCACAATGGGGGAAACCCTGATGC

34

AGCGACGCCGCGTGAAGGAAGAAGTATCTCGGTATG

TAAACTTCTATCAGCAGGGAAGACAATGACGGTACC

TGACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00119974
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

35

GCGACGCCGCGTGAAGGAAGAAGTATTTCGGTATGT

AAACTTCTATCAGCAGGGAAGAAAGTGACAGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00104206
TGGGGAATATTGCACAATGGGGGAAACCCGTACGAT

36

GCAGCGACGCCGCGTGAAGGAAGAAGTATCTCGGTA

TGTAAACTTCTATCAGCAGGGAAGATAATGACGGTA

CCTGACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00580795
TGGGGAATATTGCACAATGGGGGAAACCCGTACGAT

37

GCAGCGACGCCGCGTGAAGGAAGAAGTATCTCGGTA

TGTAAACTTACTATCAGCAGGGAAGATAATGACGGT

ACCTGACTAAGAAGCCCCGGCCTAACTACGTGCC

SEQ_ID_NO_
R_U01129900
AAACCCTGATGCAGCGACGCCGCGTGAAGGAAGAAG

38

TATCTCGGTATGTAAACTTCTATCAGCAGGGAAGACA

ATGACGGTACCTGACTAAGAACGCCCGGCTAACTAC

GTGCC

SEQ_ID_NO_
R_U00016467
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

39

GCGACGCCGCGTGAAGGAAGAAGTATCTCGGTATGT

AAACTTCTATCAGCAGGGAAGATAATGACGGTACCT

GACTAAGAAGCCCCGGCTAATTACGTGCC

SEQ_ID_NO_
R_U00000367
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

40

GCGACGCCGCGTGAAGGAAGAAGTATCTCGGTATGT

AAACTTCTATCAGCAGGGAAGATAATGACGGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00459481
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

41

GCAACGCCGCGTGGGTGAAGGAGCGTTTCGGCGCGT

AAAGCCCTGTCAGCGGGGAAGAAAAAAGACGGTACC

CGACCAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000215
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCA

42

GCGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGT

AAAGCTCTATCAGCAGGGAAGAAAATGACGGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00071963
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

43

GCGACGCCGCGTGAAAGATGAAGTATTTCGGTATGT

AAACTTCTATCAGCAGGGAAGAAAATGACGGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000939
TGGGGAATATTGCACAATGGAGGAAACTCTGATGCA

44

GCGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGT

AAAGCTCTATCAGCAGGGAAGACAGTGACGGTACCT

GACTAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U00472681
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCA

45

GCGACGCCGCGTGAGTGACGAAGTATCTCGGTATGT

AAAGCTCTGTCAGCAGGGAAGAAGAATGACGGTACC

TGAAGAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U00000105
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCA

46

GCGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGT

AAAGCTCTATCAGCAGGGAAGAAAATGACGGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000279
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCA

47

GCAACGCCGCGTGAAGGAAGACGGTTTTCGGATTGT

AAACTTCTATCAATAGGGAAGAAAGAAATGACGGTA

CCTAAATAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00022935
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

48

GCAACGCCGCGTGAAGGAAGACGGTTTTCGGATTGT

AAACTTCTATCAATAGGGAAGAAAGAAATGACGGTA

CCTAAATAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000550
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

49

GCGACGCCGCGTGGAGGAAGAAGGTCTTCGGATTGT

AAACTCCTGTCCCAGGGGACGATAATGACGGTACCCT

GGGAGGAAGCACCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00009280
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCA

50

GCAACGCCGCGTGAAGGAAGACGGTTTTCGGATTGT

AAACTTCTGTTCTTAGTGAAGAAGAATGACGGTAGCT

AAGGAGCAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00164237
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCA

51

GCAACGCCGCGTGAAGGAAGACGGTTTTCGGATTGT

AAACTTCTGTTCTTAGTGAAGAATAATGACGGTAACT

AAGGAGCAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00032911
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

52

GCGACGCCGAGTGAGGGAAGAAGGTTTTCGGATTGT

AAACCTCTGTCCTTGGTGAAGATAATGACGGTAGCCA

AGGAGGAAGCTACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00040533
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCA

53

GCGACGCCGCGTGAGGGAAGACGGCCTTCGGGTTGT

AAACCTCTGTCGCAGGGGACGAAGGAAGTGACGGTA

CCCTGTGAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01145869
GAATATTGCGCAATGGGGGCAACCCTGACGCAGCAA

54

CGCCGCGTGAAGGATGAAGGTTTTCGGATTGTAAACT

TCTTTTATCAAGGACGAAGGACGTGACGGTACTTGAT

GAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00211687
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

55

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTACCAGGGGACGAAGGACGTGACGGT

ACCTGGAGAAAAAGCAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01206474
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

56

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTACCTAGGGACGAAGGACGTGACGGTA

CCTGGAGAAAAAGACAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01219720
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

57

GCAACGCCGCGTGAAGGAAGAAGGTTTTCGGGTTGT

AAACTTCTTTTACCAGGGACGAAGGACGTGACGGTA

CCTGGAGAAAAAGCAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01210669
GACCCAGCAACGCCGCGTGAAGGAAGAAGGTCGTTT

58

CGGGTTAGTAAACTTCTTTTACCGAGGGACGAAGGAC

GTGACGGTACCTGGAGAAAAAGCAACGGCTAACTAC

GTGCC

SEQ_ID_NO_
R_U00001394
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

59

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTACCAGGGACGAAGGACGTGACGGTA

CCTGGAGAAAAAGCAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00460521
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

60

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTACCTAGGGACGAAGGACGTGACGGTA

CCTGGAGAAAAAGACAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00831992
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

61

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTACCAGGGACGAAGGACGTGACGGTA

CCTGGAGAAAAGACAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01143501
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCA

62

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTCTGGGGGACGAAGAAAGTGACGGTA

CCCCACGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00815791
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCA

63

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTCTGGGGGGCGAAGAAAGTGACGGTA

CCCCAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00043629
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCA

64

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTCTGGGGGACGAAGAAAGTGACGGTA

CCCCAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00164098
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCA

65

GCAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGT

AAACTTCTTTTCTCGGGGACGAACAAATGACGGTACC

CGAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000374
TGGGGAATATTGCGCAATGGGGGCAACCCTGACGCA

66

GCAACGCCGCGTGATTGAAGAAGGTCTTCGGATTGTA

AAAATCTTTTATCAAGGACGAAGAAGTGACGGTACTT

GATGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00003296
TGGGGAATATTGGGCAATGGGGGGAACCCTGACCCA

67

GCAACGCCGCGTGAGGGAAGAAGGTTTTCGGATCGT

AAACCTCTGTCCTTGGTGAAGAGGAGAAGACGGTAG

CCAAGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00027329
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCA

68

GCAACGCCGCGTGAGGGAAGAAGGTTTTCGGATCGT

AAACCTCTGTCCTTGGTGAAGAGAAGAAGACGGTAG

CCAAGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00003420
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCA

69

GCAACGCCGCGTGAAGGATGAAGTATTTCGGTATGT

AAACTTCTATCAGCAGGGAAGATAACGACGGTACCT

GACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00436238
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCA

70

GCAACGCCGCGTGAACGAAGAAGGTCTTCGGATTGT

AAAGTTCTGTCCTTAGGGAAGAAGAAAGTGACGGTA

CCTAAGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00439751
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCA

71

GCGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGT

AAAGCTCTATCAGCAGGGAAGAAAATGACGGTACCT

G

SEQ_ID_NO_
R_U00004741
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCA

72

GCGACGCCGCGTGAAGGAAGAAGTATTTCGGTATGT

AAACTTCTATCAGCAGGGAAGAAAATGACGGTACCT

GACTAAGAAGCCCCGGCTAATTACGTGCC

SEQ_ID_NO_
R_U01160251
TAGGGAATTTTTCGTCAATGGGCGCAAGCCTGAACGA

73

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAGGAAGGGAAGAG

GAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01166410
TAGGGAATTTTTCGTCAATGGGCGCAAGCCTGAACGA

74

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAGGAAGGAAAGAG

GAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01169117
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

75

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAAACTCTGTTGCGGGGGAAAAAAGGAAGGGAAG

AGGAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAA

GTCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01180557
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

76

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTTGCGGGGGGAAAAAGGAAGGGAAGA

GGAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAG

TCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00804007
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

77

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAGGAAGGGAAGAG

GAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01143008
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

78

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGAAAAGGAAGGGAAGAGGA

AATGCTTTTCTTTTGTATGGTACCCCGCCAGAAAGTC

ACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01145549
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

79

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAGGAAGGGAAGAGG

AAATGCTTTTCTTTTGTATGGTACCCCGCCAGAAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00808391
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

80

GCAATGCCGCGTGGGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAGGAAGGGAAGAGG

AAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGTC

ACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01144224
GGTAATTTTCGTCAATGGGCGCAAGCCTGAACGAGC

81

AATGCCGCGTGGGCGAAGAAGGTCTTCGGATACGTA

AACTCTGTTGCGGGGGAAAAAGGAAGGGAAGAGGA

AATGCTTTCTTTTGATGGTACCCCGCCAGAAAGTCAC

GGCTAACTACGTGCC

SEQ_ID_NO_
R_U01214804
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

82

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAGGAAGGGAAGAG

GAAATGCTTTTCTTTTGATGGTACCCCGCCCAGAAAG

TCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01173110
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

83

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAAGGAAGGGAAGA

GGAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAG

TCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00305232
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

84

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAAGGAAGGGAAGAG

GAAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00043735
TAGGGAATTTTTCGTCAATGGGCGCAAGCCTGAACGA

85

GCAATGCCGCGTGAACGAGGAAGGTCTTCGGATCGT

AAAGTTCTGTTGAGAGGGAAAAAGGGTCACCAGAGG

AAATGCTGGTGAAGTGATATTACCTTTCGAGGAAGTC

ACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000409
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

86

GCAATGCCGCGTGAACGAGGAAGGTCTTCGGATCGT

AAAGTTCTGTTGAGAGGGAAAAAGGGTCACCAGAGG

AAATGCTGGTGAAGTGATATTACCTTTCGAGGAAGTC

ACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00029718
GGTAATTTTCGTCAATGGGCGCAAGCCTGAACGAGC

87

AATGCCGCGTGAACGAGGAAGGTCTTCGGATCGTAA

AGTTCTGTTGAGAGGGAAAAAGGGTCACCAGAGGAA

ATGCTGGTGAAGTGATATTACCTTTCGAGGAAGTCAC

GGCTAACTACGTGCC

SEQ_ID_NO_
R_U00007185
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

88

GCAATGCCGCGTGAACGAGGAAGGTCTTCGGATCGT

AAAGTTCTGTTGAGAGGGAAAAAAGGGTCACCAGAG

GAAATGCTGGTGAAGTGATATTACCTTTCGAGGAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00011248
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

89

GCAATGCCGCGTGAACGAGGAAGGTCTTCGGATCGT

AAAGTTCTGTTGAGAGGGAAAAGGGTCACCAGAGGA

AATGCTGGTGAAGTGATATTACCTTTCGAGGAAGTCA

CGGCTAACTACGTGCC

SEQ_ID_NO_
R_U01156257
TAGGGAATTTTCGTCAAGTGGGCGCAAGCCTGAACG

90

AGCAATGCCGCGTGAACGAGGAAGGTCTTCGGATAC

GTAAAGTTCTGTTGAGAGGAAAAAGGGTCACCAGAG

GAAATGCTGGTGAAGTGATATTACCTTTCGAGGAAGT

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00808203
TAGGGAATTTTCGTCAATGGGCGCAAGCCTGAACGA

91

GCAATGCCGCGTGAGCGAAGAAGGTCTTCGGATCGT

AAAACTCTGTTGCGGGGGAAAAGGAAGGGAAGAGG

AAATGCTTTTCTTTTGATGGTACCCCGCCAGAAAGTC

ACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00003073
TAGGGAATTTTCGGCAATGGGCGAAAGCCTGACCGA

92

GCAACGCCGCGTGAGTGAAGAAGGCCTTCGGGTTGT

AAAGCTCTGTTGTGAAGGAAGAACGGCTCATAGAGG

GAATGCTATGGGAGTGACGGTACTTTACCAGAAAGC

CACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U00000235
TGGGGAATCTTCCGCAATGGACGAAAGTCTGACGGA

93

GCAACGCCGCGTGAGTGATGAAGGATTTCGGTCTGTA

AAGCTCTGTTGTTTATGACGAACGTGCAGTGTGTGAA

CAATGCATTGCAATGACGGTAGTAAACGAGGAAGCC

ACGGCTAACTACGTGCC

TABLE 2

16S rRNA gene V3 region sequence of those bacteria

suppressed/eliminated by berberine.

List
OTUName
16S rRNA Gene V3 Region Sequence

SEQ_ID_NO_
R_U0043619
TGAGGAATATTGGGCAATGGGGGCAACCCTGACCCAG

94
5
CCATGCCGCGTGAGTGAAGAAGGTTTTCGGATTGTAA

AGCTCTTTCGGATGTGACGATGATGACGGTAGCATCT

AAAGAAGCCCCGGCAAACTTCGTGCC

SEQ_ID_NO_
R_U0010141
GNGGGAAACCCTGAAGCAGCAACGCCGCGTGGAGGA

95
6
TGAAGGTTTCGGATTGTAAACTCCTTTGTTAGAGAAG

ATAATGACGGTATCTAACGAATAAGCACCGGCTAACT

CCGTGCC

SEQ_ID_NO_
R_U0000040
TAGGGAATATTGCTCAATGGGGGAAACCCTGAAGCAG

96
7
CAACGCCGCGTGGAGGATGAAGGTTTTCGGATTGTAA

ACTCCTTTTGTTAGAGAAGATAATGACGGTATCTAAC

GAATAAGCACCGGCTAACTCCGTGCC

SEQ_ID_NO_
R_U0080096
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

97
6
CCAAGTAGCGTGCAGGAAGACGGCCCTACGGGTTGTA

AACTGCTTTTATGCGGGGATAAAGTGCAATACGTGTA

TTGCTTTGCAGGTACCGCATGAATAAGGACCGGCTAA

TTCCGTGCC

SEQ_ID_NO_
R_U0113198
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

98
2
CCAAGTAGCGTGCAGGATGACGGCCCTACGGGTTGTA

AACTGCTTTTTTGCGGGAATAAAGCGGCTCACGTGTG

AGCCTTTGCATGTACCGCACGAATAAGGACCGGCTAA

TTCCGTGCC

SEQ_ID_NO_
R_U0079783
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

99
9
CCAAGTAGCGTGCAGGATGACGGCCCTATGGGTTGTA

AACTGCTTTTATACGGGGATAAAGTTGGGGACGTGTC

CCCATTTGTAGGTACCGTATGAATAAGGACCGGCTAA

TTCCGTGCC

SEQ_ID_NO_
R_U0000398
TGAGGAATATTGGTCAATGGTCGTGAGACTGAACCAG

100
1
CCAAGTAGCGTGCGGGATGAAGGCCCTCCGGGTCGTA

AACCGCTTTTAGACGGGGATAAAAGGGCATACGTGTA

TGCCGTATTGCATGTACCGTCAGAAAAAGGACCGGCT

AATTCCGTGCC

SEQ_ID_NO_
R_U0000140
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

101
4
CCAAGTAGCGTGAAGGAAGACTGCCCTATGGGTTGTA

AACTTCTTTTATAAGGGAATAAAGAGCGCCACGTGTG

GTGTGTTGTATGTACCTTATGAATAAGCATCGGCTAAT

TCCGTGCC

SEQ_ID_NO_
R_U0000005
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

102
2
CCAAGCCGCGTGAGGGAAGAAGGCGCCAGGCGTCGT

AAACCTCTTTTGCCGGGGAACAAAGGGCGCCACGTGT

GGCGTTGTGAGTGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000096
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

103
4
CCAAGCCGCGTGAGGGAGGAAGGCGCCAGGCGTCGT

AAACCTCTTTTGCCGGGGAACAAAGGGCGCCACGTGT

GGCGTTGTGAGTGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0004069
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

104
0
CCAAGCCGCGTGAGGGAGGAAGGCGCCAGGCGTCGT

AAACCTCTTTTGCCGGGGAACAAAGGGCGCCACGTGT

GGCGTTGTGAGTGTACCCGGAGAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0082399
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

105
1
CCAAGCCGCGTGAGGGAGGAAGGCGCCAGGCGTCGT

AAACCTCTTTTGCCGGGGAACAAAGGGCGCCACGTGT

GGCGTTGTGAGTGTACCCGGAGAAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000080
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

106
4
CCAAGCCGCGTGAGGGAATAAGGCGCCAAGCGTCGTA

AACCTCTTTTGTCAGGGAACAAAAGCGGGCACGCGTG

CCCGTCCGAGTGTACCTGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0115591
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

107
5
CCAAGCCGCGTGAAGGAAGAAGGTGCTAAGCATTGTA

AACTTCTTTTGTCAGGGAACAAAGAGCGCGACGAGTC

GCGCCGTGAGTGTACCTGAAGAAAAAGACATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0045985
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

108
0
CCAAGCCGCGTGAAGGAAGAAGGTGCTAAGCATTGTA

AACTTCTTTTGTCAGGGAACAAAGAGCGCGACGAGTC

GCGCCGTGAGTGTACCTGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0079809
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

109
8
CCAAGCCGCGTGAAGGAAGAAGGTGCTAAGCATTGTA

AACTTCTTTTGTCAGGGAACAAAGAGCGCGACGAGTC

GCGCCGTGAGTGTACCTGAAGAAAAGCATCGGCTAAC

TCCGTGCC

SEQ_ID_NO_
R_U0000917
TGAGGAATATTGGTCAATGGTCGGAAGACTGAACCAG

110
0
CCAAGCCGCGTGAAGGAAGAAGGTGCTCGGCATCGTA

AACTTCTTTTGTCAGGGAACAAAGGGCGGTACGTGTA

CCGCTGTGAGTGTACCTGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0110215
TGAGGAATATTGGTCAATGGTCGGAAGACTGAACCAG

111
3
CCAAGCCGCGTGAAGGAAGAAGGTGCTCGGCATCGTA

AACTTCTTTTGTCAGGGAACAAAGGGCGGTACGTGTA

CCGCTGTGAGTGTACCTGAAGAAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000623
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

112
0
CCAAGCCGCGTGAAGGAAGAAGGTGCAGGGCATCGT

AAACTTCTTTTGCCGGGGAACAATAAGCGGGACTAGT

CCCGCGACGAGTGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0046534
TGAGGAATATTGGTCAATGGGCGTGAGCCTGAACCAG

113
4
CCAAGCCGCGTGAAGGAAGAAGGTGCAGGGCATCGT

AAACTTCTTTTGCCGGGGAACAATAAGCGGGACTAGT

CCCGCGACGAGTGTACCCGGAGAAAAGACATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000120
TGAGGAATATTGGTCAATGGTCGGGAGACTGAACCAG

114
2
CCAAGCCGCGTGAGGGATGGAGGTACAGAGTATCGTA

AACCTCTTTTGTCAGGGAACAAAGGGCGCCACGTGTG

GCGCTATGAGGGTACCTGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000138
TGAGGAATATTGGTCAATGGGAGAGATCCTGAACCAG

115
4
CCAAGCCGCGTGAGGGAAGACGGCACTACGTGTTGTA

AACCTCTTTTGCCGGGGAACAAAAGCGGGGACGCGTC

CCCGTCCGCGTGTACCCGGAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0080279
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

116
9
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGCGCCACGCGTG

GCGAGATGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0080845
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

117
3
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGCGCCACGCGTG

GCGAGATGAGAGTACCCGAAGAAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0002671
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

118
1
CCAAGCCGCGTGAAGGAAGACGGCCCTACGGGTTGTA

AACTTCTTTTGTTGCAGGACAACACCCCGGACGCGTCC

GGGCATGAGTGTATGCAAAGAAAAAGCATCGGCTAAC

TCCGTGCC

SEQ_ID_NO_
R_U0000065
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

119
0
CCAAGCCGCGTGAGGGAATAAGGCCCTACGGGTCGTA

AACCTCTTTTGTCGGGGAACAAAACCGGAGACGAGTC

TCCGGCTGCGTGTACCCGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000083
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

120
9
CCAAGCCGCGTGAGGGAAGAAGGCGCTCAGCGTCGTA

AACCTCTTTAGCCGGGGAACAAAGAGCTGCTCGGGAA

GCAGCGTTGAGCGTACCCGGAGAATAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0115793
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

121
0
CCAAGTCGCGTGAGGGACGACGGTCCTACGGATTGTA

AACCTCTTTTGCCGGGGAGCAATGCGCGGTACGCGTA

CCGCGACGGAGAGTACCCGGAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0079842
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

122
0
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGCGCCACGCGTG

GCGAGATGAGAGTACCCGAAGAAAAGACATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000193
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCAG

123
3
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAGGACTGCCACGAGTG

GCAGGGCGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000149
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

124
1
CCAAGTCGCGTGAGGGAAGACGGTCTTACGGATTGTA

AACCTCTTTTGCCGGGGAGCAAAGGGCGCCACGCGTG

GCGTTTCGAGAGTACCCGGAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000647
TGAGGAATATTGGTCAATGGCCGAGAGGCTGAACCAG

125
6
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAAAGGCGTCACGTGTG

ACGCTATGAGAGTACCCGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000150
TGAGGAATATTGGTCAATGGCCGGAAGGCTGAACCAG

126
2
CCAAGCCGCGTGAGGGAGGAAGGCGCAGAGCGTCGC

AGACCTCTTTTGCCGGGGGACAAAAGGCCGGACTCGT

CCGGTCCTGAGGGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000150
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCAG

127
4
CCAAGTCGCGTGAGGGATGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAATTCCGTTACGTGTAA

CGGAGTCGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000060
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

128
9
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGCAGGGGAGCAAGGCACGGTACGTGTA

CCGTGAAGGAGAGTACCCTGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000926
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

129
1
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCTCACGTGTG

AGCGGAAGGAGAGTACCCGAAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0113699
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

130
2
CCAAGTCGCGTGAGGGAGGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCTCACGTGTG

AGCGGAAGGAGAGTACCCGAAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000049
TGAGGAATATTGGTCAATGGCCGAAGGGCTGAACCAG

131
7
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGCCGGGGAGCAAAGGCGGTCACTGGTG

ACCGGATGAGAGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000088
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

132
6
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCAGGGAGCAAGGAGGGCCACGAGTG

GCGCTTCGGAGAGTACCTGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0114329
TGAGGAATATTGGTCAATGGCCGAGAGGCTGAACCAG

133
2
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAACAGCGCAACGCGCT

TGCGCATTGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0080318
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

134
8
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGCGCCACGCGTG

GCGAGATGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000878
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

135
2
CCAAGTCGCGTGAGGGAAGACGGCCCTATGGGTTGTA

AACCTCTTTTGCCGGGGAGCAAAGAACCGCACGTGTG

CGGTCTGGAGAGTACCCGGAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000140
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

136
6
CCAAGTCGCGTGAGGGAATAAGGCCCTAAGGGTCGTA

AACCTCTTTTGCCGGGGAGCAATGGTTCGCTTGCGAG

CGGACAGGGAGAGTACCCGGAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0003088
TGAGGAATATTGGTCAATGGCCGTAAGGCTGAACCAG

137
0
CCAAGTCGCGTGAGGGAAGACGGCCCTACGGGTTGTA

AACCTCTTTTGCCGGGGAGCAAAAGGCGCCACGCGTG

GCGTTTCGAGAGTACCCGGAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0045093
TGAGGAATATTGGTCAATGGGCGTAAGCCTGAACCAG

138
8
CCAAGTCGCGTGAGGGAAGACGGCCCTATGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCCCACGTGTG

GGCGGAAGGAGAGTACCCGAAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000976
TGAGGAATATTGGTCAATGGGCGTAAGCCTGAACCAG

139
3
CCAAGTCGCGTGAGGGAAGACGGCCCTATGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCCCACGAGTG

GGCGGAAGGAGAGTACCCGAAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0115549
TGAGGAATATTGGTCAATGGGCGTAAGCCTGAACCAG

140
5
CCAAGTCGCGTGAGGGAAGACGGCCCTATGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCCCACGAGTG

GGCGGAAGGAGAGTACCCGAAGAAAAAGACATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U0079869
TGAGGAATATTGGTCAATGGGCGTAAGCCTGAACCAG

141
4
CCAAGTCGCGTGAGGGAAGACGGCCCTATGGGTTGTA

AACCTCTTTTGTCGGGGAGCAAAGCCGCCCACGAGTG

GGCGGAAGGAGAGTACCCGAAGAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0080236
TGAGGAATATTGGTCAATGGGCGGTAGCCTGAACCAG

142
0
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGCCGGGGAGCAAGGCCATGTACGTGTA

CGTGGCCTGAGAGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0116278
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCAG

143
2
CCAAGTCGCGTGAGGGAAGACGGTCCTAAGGATTGTA

AACCTCTTTTGTCAGGGAGCAAGGAGCGCCACGTGTG

GCGCGGCGAGAGTACCTGAAGAAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000270
TGAGGAATATTGGTCAATGGGCGCGAGCCTGAACCAG

144
9
CCAAGTCGCGTGAGGGAAGACGGTCCTAAGGATTGTA

AACCTCTTTTGTCAGGGAGCAAGGAGCGCCACGTGTG

GCGCGGCGAGAGTACCTGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000523
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

145
2
CCAAGTCGCGTGAGGGAAGACAGTCCTATGGATTGTA

AACCTCTTTTGCCGGGGAGCAAAGAGCGGCACGTGTG

CCGCGCCGAGAGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000030
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

146
5
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGCCGGGGAGCAAAGAGCGGCACGTGTG

CCGCGCCGAGAGTACCCGGAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0000682
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

147
1
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAACGAAGGCACGTGTGC

CAGAAGCGAGATTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0119940
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

148
5
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAACGAAGGCACGTGTGC

CAGAAGCGAGATTACCCGAAGAAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000615
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

149
0
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAACGAAGGCACGTGTGC

CTGAAGCGAGATTACCCGAAGAAAAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000020
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

150
6
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGGCCACGTGTGG

TCAAAAGCGAGAGTACCCGAAGAAAAAGCATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0115067
TGAGGAATATTGGTCAATGGGCGGGAGCCTGAACCAG

151
3
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAAGAGGCCACGTGTGG

TCAAAAGCGAGAGTACCCGAAGAAAAAGACATCGGC

TAACTCCGTGCC

SEQ_ID_NO_
R_U0080581
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

152
1
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAGGATCCGCACGAGTG

CGGAGGCGAGAGTACCCGAAGAAAAAGCATCGGCTA

ACTCCGTGCC

SEQ_ID_NO_
R_U0119947
TGAGGAATATTGGTCAATGGGCGGAAGCCTGAACCAG

153
1
CCAAGTCGCGTGAGGGAAGACGGTCCTATGGATTGTA

AACCTCTTTTGTCGGGGAGCAAGGATCCGCACGAGTG

CGGAGGCGAGAGTACCCGAAGAAAAAGACATCGGCT

AACTCCGTGCC

SEQ_ID_NO_
R_U0000006
TGAGGAATATTGGTCAATGGGCGAGAGCCTGAACCAG

154
8
CCAAGTCGCGTGAGGGAAGAATGGTCTATGGCCTGTA

AACCTCTTTTGTCAGGGAAGAATAAGGATGACGAGTC

ATTCGATGCCAGTACTTGACGAATAAGCATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0000555
TGAGGAATATTGGTCAATGGACGCAAGTCTGAACCAG

155
9
CCATGCCGCGTGCAGGAAGACGGCTCTATGAGTTGTA

AACTGCTTTTGTACGAGGGTAAACCCGGATACGTGTA

TCCGGCTGAAAGTATCGTACGAATAAGGATCGGCTAA

CTCCGTGCC

SEQ_ID_NO_
R_U0080196
CTAAGGATATTCCGCAACGGGCGGAAGCCCGGCGGAG

156
1
CGACGCCGCGTGGACGAGGAAGGCCGGAAGGTTGCA

GAGTCCTTTTGCGGGGGAAGAAGGAGCCGCGGAGGG

AATGCCGCGGCGGCGACCGAACCCCGCGAATAAGGG

GCGGCTAATTACGTGCC

SEQ_ID_NO_
R_U0000012
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAG

157
6
CGACGCCGCGTGCGGGATGGAGGCCTTCGGGTTGTAA

ACCGCTTTTGTTCAAGGGCAAGGCACGGCTTCGGGCC

GTGTTGAGTGGATTGTTCGAATAAGCACCGGCTAACT

ACGTGCC

SEQ_ID_NO_
R_U0016410
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

158
5
CGACGCCGCGTGGGTGAAGAAGTATTTCGGTATGTAA

AGCCCTATCAGCAGGGAAGAAAAAGACGGTACCTGA

CTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0011807
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

159
8
CGACGCCGCGTGAAGGAAGAAGTATTTCGGTATGTAA

ACTTCTATCAGCAGGGAAGAAAATGACGGTATCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0114837
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

160
6
CGACGCCGCGTGGGTGAAGAAGTATTTCGGTATGTAA

AGCCCTATCAGCAGGGAAGAAAATGACAGTACCTGAA

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0044400
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

161
2
CGACGCCGCGTGGGTGAAGAAGTATTTCGGTATGTAA

AGCCCTATCAGCAGGGAAGAAAGAAGACGGTACCTG

AGTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0113039
TGGGGAGTATTGCACAATGGGGGAAACCCGTGATGCA

162
6
GCGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTA

AAGCTCTATCAGCAGGGAAGAAAATAGACGGTACCTG

ACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0001158
TGGGGGATATTGGACAATGGGGGGAACCCTGATCCAG

163
2
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAGAAATGACGGTACCT

GACCAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0043988
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

164
8
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTACGTAA

AGCTCTATCAGCAGGGAAGAAAAAGAAATGACGGTA

CCTGATTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0116361
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

165
7
CAATGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAAAAGACGGTACCTG

ACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0002930
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

166
6
CAATGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAAAAGACGGTACCTG

ACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0079798
TGGGGAATATTGCACAATGGAGGAAACTCTGATGCAG

167
5
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTACGTAA

AGCTCTATCAGCAGGGAAGAAAAAATGACGGTACCTG

ACTAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0117359
TGGGGAATATTGCACAATGGAGGAAACTCTGATGCAG

168
4
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTACGTAA

AGCTCTATCAGCAGGGAGAAAAAAATGACGGTACCTG

ACTAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0000928
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

169
2
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAGATGACAGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016528
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

170
8
CAACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0000348
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

171
1
CGATGCCGCGTGGAGGAAGAAGGTTTTCGGATTGTAA

ACTCCTGTCTTAAAGGACGATAATGACGGTACTTTAG

GAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000354
TGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAG

172
8
CGACGCCGCGTGAGTGAGGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAGAATGACGGTACCTGA

CTAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0079847
TGGGGAATATTGCACAATGGAGGGAACTCTGATGCAG

173
2
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTATGTAA

AGCTCTGTCAGCAGGGAAGAAAGTGACGGTACCTGAA

AAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0080400
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

174
5
CGACGCCGCGTGAGTGAAGAAATATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAG

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016481
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

175
4
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTATGTAA

AGCTCTATCAGCAAGGAAGAAAAAAGACGGTACTTGA

CTAAGAAGCCCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0050740
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

176
9
CGACGCCGCGTGGGTGAAGAAGTATTTCGGTATGTAA

AGCCCTATCAGCAGGGAAGAAGATGACAGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000995
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

177
2
CGACGCCGCGTGGGTGAAGGAGTACTCCGGTATGTAA

AGCCCTATCGGCAGGGAAGAAGATGACGGTACCTGAC

TAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0083254
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

178
9
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAGTGACAGTACCTGAG

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0001347
TGGGGGATATTGGACAATGGGGGGAACCCTGATCCAG

179
6
CGACGCCGCGTGAGTGAAGAAGTATCTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAGAAATGACGGTACCT

GAGTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000001
TGGGGGATATTGGACAATGGGGGGAACCCTGATCCAG

180
2
CGACGCCGCGTGAGTGAAGAAGTATCTCGGTATGTAA

AGCTCTGTCAGCAGGGAAGAAAGAAATGACGGTACCT

GACCAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080806
TGGGGGATATTGGACAATGGGGGGAACCCTGATCCAG

181
5
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTGTCAGCAGGGAAGAAAGAAATGACGGTACCT

GAAGAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0081662
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

182
5
CGACGCCGCGTGGGTGAAGGAGTGCTTCGGCATGTAA

AGCCCTATCGGCAGGGAAGAAGAAGGACGGTACCTG

ACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016460
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

183
5
CGACGCCGCGTGGGTGAAGAAGCGCCCCGGCGCGTAA

AGCCCTATCGGCAGGGAAGAAGATGACGGTACCTGGC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0023209
GGGGATATTGCACAATGGGGGAACCCGTGATGCAGCG

184
6
ACGCCGCGTGGGTGAAGAAGCGCCCCGGCGCGTAAA

GCCCTATCGGCAGGGAAGAAGATGACGGTACCTGGCT

AAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0003150
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

185
2
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGAACGAAGAAGACGGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0113068
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

186
3
CGACGCCGCGTGAGTGAAGAAGTAATTCGTTACGTAA

AGCTCTATCAGCAGGAAAGAAAGAAGACGGTACCTG

ACTAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0113935
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

187
5
CGACGCCGCGTGAGCGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCGGGGAAGAGAATGACGGTACCCGAC

TAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0085159
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

188
9
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAGATGACAGTACCTGAA

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0001004
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

189
7
CGACGCCGCGTGAGCGAGGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016413
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

190
5
CAACGCCGCGTGAGCGATGAAGGTCTTCGGATTGTAA

AGCTCTGTCGCAGGGGACGAAGTATGACGGTACCCTG

TAAGAAAGCCCCGGCAAACTACGTGCC

SEQ_ID_NO_
R_U0003405
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

191
0
CGACGCCGCGTGAGCGAAGAAGTATCTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAGAATGACGGTACCTGA

GTAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0113967
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

192
0
CGACGCCGCGTGAGCGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAA

CAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0003367
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

193
0
CAACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCACCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0003369
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

194
3
CGACGCCGCGTGAGTGAAGGAGTACTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAGCAAGACGGTACCTGA

CCAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000258
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

195
3
CGACGCCGCGTGAGCGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0004412
TGGGGAATATTGGGCAATGGAGGCAACTCTGACCCAG

196
9
CAACGCCGCGTGAGCGATGAAGGTCTTCGGATTGTAA

AGCTCTTTAAGTGGGGACGAAGAAAGTGACTGTACCC

ACAGAATAAGCCTCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0004265
TGGGGAATATTGGGCAATGGAGGAAACTCTGACCCAG

197
3
CAACGCCGCGTGAATGATGAAGGTCTTCGGATTGTAA

AGTTCTTTTCTAAGGGAAGAAGAAAGTGACGGTACCT

TAGGAATAAGCCTCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0085532
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

198
8
CAATGCCGCGTGGGTGAAGAAGTACCCCGGTATGTAA

AGCCCTATCAGCAGGGAAGAAAATGACGGTACCTGGC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016419
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

199
6
CGACGCCGCGTGAGCGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAAGGAAGATAATGACGGTACTTGAC

TAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0016425
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCAG

200
6
CAACGCCGCGTGAAGGAAGAAGGGTTTCGGCTCGTAA

ACTTCTATCAACAGGGACGAAGGAAGTGACGGTACCT

GAATAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000307
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

201
9
CAACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCTCCGGCTAAATACGTGCC

SEQ_ID_NO_
R_U0000240
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

202
4
CGACGCCGCGTGGAGGAAGAAGGCCCTCGGGTTGTAA

ACTCCTGTCTTTGGGGACGATAATGACGGTACCCAAG

GAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080437
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

203
5
CGACGCCGCGTGGAGGAAGAAGGCCCTCGGGTTGTAA

ACTCCTGTCTTCGGGGACGATAATGACGGTACCCGAG

GAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0044387
TGGGGGATATTGCACAATGGGGGGAACCCTGATGCAG

204
2
CGACGCCGCGTGAGCGAAGAAGATCTTCGGATTGTAA

AGCTCTGTCTTAGGGGACGATGATGACGGTACCCTGA

GAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000012
TGGGGGATATTGCGCAATGGGGGCAACCCTGACGCAG

205
8
CAACGCCGCGTGAAGGATGAAGGTTTTCGGATTGTAA

ACTTCTTTTCTTAAGGACGAAATTTGACGGTACTTAAG

GAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000277
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

206
7
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTAAGAGGGACGAAGGAAGTGACGGTACCT

CTTGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000116
TGAGGGATATTGGTCAATGGGGGAAACCCTGAACCAG

207
6
CAACGCCGCGTGAGGGAAGACGGTCTTCGGATTGTAA

ACCTTTGTCCTCTGTGAAGATAATGACGGTAGCAGAG

GAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000208
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

208
7
CAACGCCGCGTGAAGGAAGAAGGTCTTCGGATTGTAA

ACTTTTGTCCTTGGTGAAGATAATGACGGTAGCCAAG

GAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000809
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

209
8
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGTCAGGGAAGAGCAGAAGACGGTACCTG

ACGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000098
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

210
1
CGACGCCGCGTGTGGGAAGACGGTCCTCTGGATTGTA

AACCACTGTCCCCAGGGACGAAGATGACGGTACCTGG

GGAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0043629
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

211
2
CGATGCCGCGTGGAGGAAGAAGGTTTTCGGATTGTAA

ACTCCTGTCGACAGGAAAGAAAAAGGACTGTACCTGT

CAAGAAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000255
TGGGGAATATTGCACAATGGGGGGAACCCTGATGCAG

212
1
CGATGCCGCGTGGAGGAAGAAGGTTTTCGGATTGTAA

ACTCCTGTCTTAAAGGACGATAATGACGGTACTTTAG

GAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016429
TGGGGAATATTGCACAATGGAGGAAACTCTGATGCAG

213
7
CGATGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTCTTAAGGGACGATAATGACGGTACCTTAG

GAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080693
TGGGGGATATTGCACAATGGAGGGAACTCTGATGCAG

214
7
CGATGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTGGACAGAGACGATAATGACGGTATCTGTC

AAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000272
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

215
3
CGATGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTGGAGGGGGACGATAATGACGGTACCCCTT

AAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000487
TGGGGGATATTGGACAATGGGGGAAACCCTTATCCAG

216
8
CGACGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTCAGCGGGGACGATAATGACGGTACCCGCG

GAGGAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0114298
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

217
2
CGACGCCGCGTGAAGGAAGACGGTCTTCGGATTGTAA

ACTTTAGTACTCAGGGACGAAGAAATGACGGTACCTG

AGGTTAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080688
TGGGGGATATTGCGCAATGGGGGAAACCCTGACGCAG

218
4
CAACGCCGCGTGAAGGAAGAAGGTTTTCGGATTGTAA

ACTTCTTTTATTAAGGACGAAAGATGACGGTACTTAAT

GAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0081053
TGGGGAATATTGGGCAATGGACGCAAGTCTGACCCAG

219
1
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGTCAGGGAAGAGAAGAAGACGGTACCTG

ACGAACAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000014
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

220
9
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGACAGGGAAGAGCAGAAGACGGTACCTG

TCGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000450
TGGGGGATATTGCGCAATGGGGGCAACCCTGACGCAG

221
1
CAACGCCGCGTGAAGGATGAAGGTTTTCGGATTGTAA

ACTTCTTTTATTAAGGACGAATTTTGACGGTACTTAAT

GAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0013288
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

222
2
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTAAGAGGGAAGAGCAGAAGACGGTACCTC

TTGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080038
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCAG

223
7
CAACGCCGCGTGAGGGAAGAAGGCTTTCGGGTTGTAA

ACCTCTTTTACCAGGGACGAAGGACGTGACGGTACCT

GGAGAAAAAGCAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000090
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCAG

224
8
CAACGCCGCGTGAAGGAAGAAGGCCTTCGGGTTGTAA

ACTTCTTTTACCAGGGACGAAGGACGTGACGGTACCT

GGAGAAAAAGCAACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0020438
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

225
6
CAACGCCGCGTGAAGGAAGAAGGCCTTCGGGTTGTAA

ACTTCTTTTAAGAGGGACGAAGAAAGTGACGGTACCT

CTTGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0079945
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

226
3
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGAGAGGGACGAAACAAATGACGGTACCT

CTTGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080607
TGGGGAATATTGGGCAATGGGCGGAAGCCTGACCCAG

227
1
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTCTTGGGGACGAAGAAAGTGACGGTACCC

AAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0113290
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

228
7
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGAGGGGGACGAAGGATGTGACGGTACCC

CTTGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0046333
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

229
7
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTCTTGGGGACGAAGAAAGTGACGGTACCC

GAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0081299
TGGGGAATATTGCACAATGGGGGAAACCCTGATGCAG

230
4
CGACGCCGCGTGGGTGAAGAAGTATTTCGGTATGTAA

AGCCCTATCAGCAGGGAAGATCATGACGGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0001001
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

231
8
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTCTGAGGGACGAAGCAAGTGACGGTACCT

TAGGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0016472
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

232
0
CAACGCCGCGTGAAGGAAGAAGGCTTTCGGGTTGTAA

ACTTCTTTTGACAGGGAAGAGGAGAAGACGGTACCTG

TCGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000441
TGGGGAATATTGGGCAATGGGCGCAAGCCTGACCCAG

233
8
CAACGCCGCGTGAAGGAAGAAGGCCCTCGGGTTGTAA

ACTTCTTTTATCAGGGACGAAGAAGTGACGGTACCTG

ATGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0020815
TGGGGAATATTGCGCAATGGGGGAAACCCTGACGCAG

234
3
CAACGCCGCGTGATTGAAGAAGGCCTTCGGGTTGTAA

AGATCTTTAATCGGGGACGAATTTTGACGGTACCCGA

AGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0003087
TGGGGAATATTGCGCAATGGGGGAAACCCTGACGCAG

235
0
CAACGCCGCGTGATTGAAGAAGGCCCTCGGGTTGTAA

AGATCTTTAATCGGGGACGAAGAATGACGGTACCCGA

AGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0083779
TGGGGAATATTGCGCAATGGGGGAAACCCTGACGCAG

236
7
CAACGCCGCGTGAGTGAAGAAGGCCTTCGGGTTGTAA

AGCTCTTTAATCAGGGACGAAGAACGACGGTACCTGA

AGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0044980
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

237
4
CAACGCCGCGTGAAGGAAGAAGGTCTTCGGATTGTAA

ACTTCTTTTATCAGGGACGAAGGAAGTGACGGTACCT

GATGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0043633
TCGGGAATATTGCGCAATGGAGGCAACTCTGACGCAG

238
2
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCCACAGGGAAGAAAAGGACTGTACCTGTG

AAGAAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000343
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

239
5
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCCACAGGGAAGATAAAAGACTGTACCTGT

GAAGAAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0019867
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

240
3
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGATAGGGAAGAAAAAAGACTGTACCTAT

CAAGAAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000272
TCGGGAATATTGCGCAATGGAGGGAACTCTGACGCAG

241
0
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTTTAGTCAGGGAAGAAAGCAGACGGTACCTGA

AGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0019570
TCGGGAATATTGCACAATGGAGGAAACTCTGATGCAG

242
7
TGACGCCGCGTGCAGGAAGAAGGTTTTCGGATTGTAA

ACTGCTTTAGACAGGGAAGAAAAAAGACAGTACCTGT

AGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000268
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

243
6
TGACGCCGCGTATAGGAAGAAGTTTTTCGGAATGTAA

ACTATTGTCGTTAGGGAAGAGAAAGGACAGTACCTAA

GGAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000895
TCGGGAATATTGCGCAATGGAGGGAACTCTGACGCAG

244
9
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGTTAGGGAAGAAAAAAGACAGTACCTAA

GGAGGAAGCCCCGGCTAACTATGTGCC

SEQ_ID_NO_
R_U0003435
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

245
1
TGACGCCGCGTATAGGAAGAAGGTCTTCGGATTGTAA

ACTATTGTCGTTAGGGAAGAGAAAGGACAGTACCTAA

GGAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0043700
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

246
9
TGACGCCGCGTGCAGGAAGAAGGTTTTCGGATTGTAA

ACTGCTTTAGACAGGGAAGAAACAAATGACAGTACCT

GTAGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0003248
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

247
6
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGTGAGGGAAGAAATTGACAGTACCTCAG

GAGGAAGCTCCGGCTAACTATGTGCC

SEQ_ID_NO_
R_U0000099
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

248
9
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGTTAGGGAAGAGAAAGGACAGTACCTAA

GGAGGAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000220
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

249
1
TGACGCCGCGTGCAGGAAGAAGGTTTTCGGATTGTAA

ACTGCTTTAGACAGGGAAGAAAGAAATGACGGTACCT

GTAGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000189
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

250
1
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGTTAGGGAAGATAAAAGACTGTACCTAA

GGAGGAAGCCCCGGCTAACTATGTGCC

SEQ_ID_NO_
R_U0080366
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

251
5
TGACGCCGCGTATAGGAAGAAGTTTTTCGGAATGTAA

ACTATTGTCATTAGGGAAGAGAAAGGACGGTACCTAA

GGAGGAAGCCCCGGCTAACTATGTGCC

SEQ_ID_NO_
R_U0002711
TCGGGAATATTGCGCAATGGAGGAAACTCTGACGCAG

252
1
TGACGCCGCGTATAGGAAGAAGGTTTTCGGATTGTAA

ACTATTGTCGTTAGGGAAGAAAAAAGACAGTACCTAA

GGAGGAAGCCCCGGCTAACTATGTGCC

SEQ_ID_NO_
R_U0045415
TTGGGAATATTGGACAATGGAGGAAACTCTGATCCAG

253
7
TGACGCCGCGTGAAGGAAGAAGGTCTTCGGATTGTAA

ACTTATTTTGTCAGGGAAGAATAAATGACTGTACCTG

AAGAAAAAGCACCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0008017
TGGGGAATATTGCGCAATGGGGGAAACCCTGACGCAG

254
4
CAACGCCGCGTGCAGGAAGAAGGTCTTCGGATTGTAA

ACTGTTGTCGCAGGGGAAGAAGACAGTGACGGTACCC

TGTGAGAAAGTCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080330
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

255
2
CAACGCCGCGTGGAGGAAGAAGGTTTTCGGATCGTAA

ACTCCTGTCCTAAGAGACGAGGAAGAGACGGTATCTT

AGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0003220
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

256
8
CAACGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTCCTAAGTGACGAAGGAAGTGACGGTAGCT

TAGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000111
TGGGGAATATTGGGCAATGGGCGAAAGCCTTACCCAG

257
6
CAACGCCGCGTGAGGGAAGAAGGTTTTCGGATTGTAA

ACCTCTGTCCTGGGGGACGAAGGAAGTGACGGTACCC

CGGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080770
TGGGGAATATTGGGCAATGGGGGAAACCCTGACCCAG

258
4
CAACGCCGCGTGAAGGAAGAAGGTTTTCGGATCGTAA

ACTTCTATCCTTGGTGAAAATGATGATGGTAGCCAAG

AAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000027
TGGGGAATATTGGGCAATGGGCGAAAGCCTGACCCAG

259
2
CAACGCCGCGTGAGGGAAGAAGGGTTTCGGCTCGTAA

ACCTCTGTCCTATGGGACGAAGGAAGTGACGGTACCA

TAGGAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0080527
TGGGGAATATTGCACAATGGGCGAAAGCCTGATGCAG

260
7
CAACGCCGCGTGAGCGAAGAAGGTCTTCGGATCGTAA

AGCTCTGTCCTTGGGGAAGATAATGACGGTACCCAAG

GAGGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0113623
TGGGGAATATTGGGCAATGGAGGCAACTCTGACCCAG

261
8
CAACGCCGCGTGAATGAAGAAGGTCCTAGGATTGTAA

AGTTCTTTTATGATAGACGAATAAAATGACGGTATAT

CATGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0084863
TGGGGAATATTGGGCAATGGAGGCAACTCTGACCCAG

262
9
CAACGCCGCGTGAATGAAGAAGGCCTTCGGGTTGTAA

AGTTCTTTAATGGGGGACGAAGAAAGTGACGGTACCC

CAAGAATAAGCCACGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0000424
TGGGGGATATTGCACAATGGGGGAAACCCTGATGCAG

263
9
CGACGCCGCGTGAGTGAAGAAGTATTTCGGTATGTAA

AGCTCTATCAGCAGGGAAGAAAATGACGGTACCTGAC

TAAGAAGCCCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0001209
TTAGGAATATTCGTCAATGGGGGAAACCCTGAACGAG

264
6
CAATGCCGCGTGAGTGATGACGGTCTTTATGATTGTA

AAACTCTGTTGTAAGGAAAGAACCCTTATCATAGGAA

ATGATGATAAGTTGACGGTACCTTACCAGAAAGCCCC

GGCTAACTACGTGCC

SEQ_ID_NO_
R_U0115212
TAGGGAATTTTCGGCAATGGGGGGAACCCTGACCGAG

265
2
CAACGCCGCGTGAACGAAGAAGTTATTCGTAATGTAA

AGTTCTTTTATCAGGGAAGAAAAGAAGGGAATTGACG

GTACCTGATGAATAAGCTCCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0112319
TGGGGAATCTTCCGCAATGGGCGAAAGCCTGACGGAG

266
9
CGACGCCGCGTGAGTGAAGAAGGTCTTCGGACCGTAA

AGCTCTTTTGTTGCAGGCGAAAGGACTTAAGAGGAAA

TGCTTAAGTTAAGACGGTATGGAACGAATAAGCCACG

GCTAACTACGTGCC

SEQ_ID_NO_
R_U0000073
TAGGGAATCTTTCACAATGGGCGAAAGCCTGATGGAG

267
7
CAACGCCGCGTGCAGGATGAAGGCCTTCGGGTTGTAA

ACTGCTTTTATAAGCGAGAAATATGATGGTAACTTAT

GAATAAGGATCGGCTAACTACGTGCC

SEQ_ID_NO_
R_U0082204
TGGGGAATTTTGGACAATGGACGGAAGTCTGATCCAG

268
0
CAACGCAGCGTGAAGGACGAAGGTTCTCGGATTGTAA

ACTTCTTTTGCAGGGGAAGAAAAAAATGACGGTACCC

TGTGAATAAGCCACGGCTAACTACGTGCC

In the above detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be used, and other changes may be made, without departing from the spirit or scope of the subject matter presented herein. It will be readily understood that the aspects of the present disclosure, as generally described herein, and illustrated in the Figures, may be arranged, substituted, combined, separated, and designed in a wide variety of different configurations, all of which are explicitly contemplated herein.

The present disclosure is not to be limited in terms of the particular embodiments described in this application, which are intended as illustrations of various aspects. Many modifications and variations can be made without departing from its spirit and scope, as will be apparent to those skilled in the art. Functionally equivalent methods and apparatuses within the scope of the disclosure, in addition to those enumerated herein, will be apparent to those skilled in the art from the foregoing descriptions. Such modifications and variations are intended to fall within the scope of the appended claims. The present disclosure is to be limited only by the terms of the appended claims, along with the full scope of equivalents to which such claims are entitled. It is to be understood that this disclosure is not limited to particular methods, reagents, compounds, compositions or biological systems, which can, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting.

With respect to the use of substantially any plural and/or singular terms herein, those having skill in the art can translate from the plural to the singular and/or from the singular to the plural as is appropriate to the context and/or application. The various singular/plural permutations may be expressly set forth herein for sake of clarity.

It will be understood by those within the art that, in general, terms used herein, and especially in the appended claims (e.g., bodies of the appended claims) are generally intended as “open” terms (e.g., the term “including” should be interpreted as “including but not limited to,” the term “having” should be interpreted as “having at least,” the term “includes” should be interpreted as “includes but is not limited to,” etc.). It will be further understood by those within the art that if a specific number of an introduced claim recitation is intended, such an intent will be explicitly recited in the claim, and in the absence of such recitation no such intent is present. For example, as an aid to understanding, the following appended claims may contain usage of the introductory phrases “at least one” and “one or more” to introduce claim recitations. However, the use of such phrases should not be construed to imply that the introduction of a claim recitation by the indefinite articles “a” or “an” limits any particular claim containing such introduced claim recitation to embodiments containing only one such recitation, even when the same claim includes the introductory phrases “one or more” or “at least one” and indefinite articles such as “a” or “an” (e.g., “a” and/or “an” should be interpreted to mean “at least one” or “one or more”); the same holds true for the use of definite articles used to introduce claim recitations. In addition, even if a specific number of an introduced claim recitation is explicitly recited, those skilled in the art will recognize that such recitation should be interpreted to mean at least the recited number (e.g., the bare recitation of “two recitations,” without other modifiers, means at least two recitations, or two or more recitations). Furthermore, in those instances where a convention analogous to “at least one of A, B, and C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, and C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). In those instances where a convention analogous to “at least one of A, B, or C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, or C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). It will be further understood by those within the art that virtually any disjunctive word and/or phrase presenting two or more alternative terms, whether in the description, claims, or drawings, should be understood to contemplate the possibilities of including one of the terms, either of the terms, or both terms. For example, the phrase “A or B” will be understood to include the possibilities of “A” or “B” or “A and B.”

In addition, where features or aspects of the disclosure are described in terms of Markush groups, those skilled in the art will recognize that the disclosure is also thereby described in terms of any individual member or subgroup of members of the Markush group.

As will be understood by one skilled in the art, for any and all purposes, such as in terms of providing a written description, all ranges disclosed herein also encompass any and all possible subranges and combinations of subranges thereof. Any listed range can be easily recognized as sufficiently describing and enabling the same range being broken down into at least equal halves, thirds, quarters, fifths, tenths, etc. As a non-limiting example, each range discussed herein can be readily broken down into a lower third, middle third and upper third, etc. As will also be understood by one skilled in the art all language such as “up to,” “at least,” and the like include the number recited and refer to ranges which can be subsequently broken down into subranges as discussed above. Finally, as will be understood by one skilled in the art, a range includes each individual member. Thus, for example, a group having 1-3 cells refers to groups having 1, 2, or 3 cells. Similarly, a group having 1-5 cells refers to groups having 1, 2, 3, 4, or 5 cells, and so forth.

From the foregoing, it will be appreciated that various embodiments of the present disclosure have been described herein for purposes of illustration, and that various modifications may be made without departing from the scope and spirit of the present disclosure. Accordingly, the various embodiments disclosed herein are not intended to be limiting, with the true scope and spirit being indicated by the following claims.

METHODS AND COMPOSITIONS FOR IMPROVING GUT MICROBIOTA POPULATION

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