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Fusion Gene Summary | |
Fusion Gene ORF analysis | |
Fusion Genomic Features | |
Fusion Protein Features | |
Fusion Gene Sequence | |
Fusion Gene PPI analysis | |
Related Drugs | |
Related Diseases |
Fusion gene:FKBP1A-CDS2 (FusionGDB2 ID:30463) |
Fusion Gene Summary for FKBP1A-CDS2 |
Fusion gene summary |
Fusion gene information | Fusion gene name: FKBP1A-CDS2 | Fusion gene ID: 30463 | Hgene | Tgene | Gene symbol | FKBP1A | CDS2 | Gene ID | 2280 | 8760 |
Gene name | FKBP prolyl isomerase 1A | CDP-diacylglycerol synthase 2 | |
Synonyms | FKBP-12|FKBP-1A|FKBP1|FKBP12|PKC12|PKCI2|PPIASE | - | |
Cytomap | 20p13 | 20p12.3 | |
Type of gene | protein-coding | protein-coding | |
Description | peptidyl-prolyl cis-trans isomerase FKBP1A12 kDa FK506-binding protein12 kDa FKBPFK506 binding protein 1A, 12kDaFK506 binding protein12FK506-binding protein 1FK506-binding protein 12FK506-binding protein 1AFK506-binding protein, T-cell, 12-kDFKBP | phosphatidate cytidylyltransferase 2CDP-DAG synthase 2CDP-DG synthase 2CDP-DG synthetase 2CDP-diacylglycerol synthase (phosphatidate cytidylyltransferase) 2CDP-diglyceride diphosphorylase 2CDP-diglyceride pyrophosphorylase 2CDP-diglyceride synthase | |
Modification date | 20200313 | 20200327 | |
UniProtAcc | P62942 | O95674 | |
Ensembl transtripts involved in fusion gene | ENST00000381715, ENST00000381719, ENST00000381724, ENST00000400137, ENST00000439640, ENST00000460490, | ENST00000379070, ENST00000535100, ENST00000379062, ENST00000460006, | |
Fusion gene scores | * DoF score | 6 X 6 X 5=180 | 10 X 11 X 7=770 |
# samples | 7 | 13 | |
** MAII score | log2(7/180*10)=-1.36257007938471 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | log2(13/770*10)=-2.56634682255381 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | |
Context | PubMed: FKBP1A [Title/Abstract] AND CDS2 [Title/Abstract] AND fusion [Title/Abstract] | ||
Most frequent breakpoint | FKBP1A(1373478)-CDS2(5169713), # samples:3 | ||
Anticipated loss of major functional domain due to fusion event. | FKBP1A-CDS2 seems lost the major protein functional domain in Hgene partner, which is a IUPHAR drug target due to the frame-shifted ORF. FKBP1A-CDS2 seems lost the major protein functional domain in Tgene partner, which is a cell metabolism gene due to the frame-shifted ORF. |
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types ** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10) |
Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez |
Partner | Gene | GO ID | GO term | PubMed ID |
Hgene | FKBP1A | GO:0000413 | protein peptidyl-prolyl isomerization | 1696686 |
Hgene | FKBP1A | GO:0007183 | SMAD protein complex assembly | 16720724 |
Hgene | FKBP1A | GO:0031398 | positive regulation of protein ubiquitination | 16720724 |
Hgene | FKBP1A | GO:0032092 | positive regulation of protein binding | 18346205 |
Hgene | FKBP1A | GO:0032515 | negative regulation of phosphoprotein phosphatase activity | 7592869 |
Hgene | FKBP1A | GO:0032925 | regulation of activin receptor signaling pathway | 16720724 |
Hgene | FKBP1A | GO:0051280 | negative regulation of release of sequestered calcium ion into cytosol | 12443530 |
Hgene | FKBP1A | GO:0060314 | regulation of ryanodine-sensitive calcium-release channel activity | 7592869 |
Hgene | FKBP1A | GO:0060315 | negative regulation of ryanodine-sensitive calcium-release channel activity | 12443530 |
Hgene | FKBP1A | GO:0097435 | supramolecular fiber organization | 18346205 |
Hgene | FKBP1A | GO:1990000 | amyloid fibril formation | 18346205 |
Fusion gene breakpoints across FKBP1A (5'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
Fusion gene breakpoints across CDS2 (3'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
Fusion gene information from two resources (ChiTars 5.0 and ChimerDB 4.0) * All genome coordinats were lifted-over on hg19. * Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser. |
Source | Disease | Sample | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand |
ChimerDB4 | HNSC | TCGA-CV-6937-01A | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
ChimerDB4 | HNSC | TCGA-CV-6937 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
ChimerDB4 | HNSC | TCGA-CV-6937 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
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Fusion Gene ORF analysis for FKBP1A-CDS2 |
Open reading frame (ORF) analsis of fusion genes based on Ensembl gene isoform structure. * Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser. |
ORF | Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand |
5CDS-3UTR | ENST00000381715 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381715 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000381715 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381715 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000381719 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381719 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000381719 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381719 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000381724 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381724 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000381724 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000381724 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000400137 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000400137 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
5CDS-3UTR | ENST00000400137 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
5CDS-3UTR | ENST00000400137 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
Frame-shift | ENST00000381719 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
Frame-shift | ENST00000381719 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
Frame-shift | ENST00000381719 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
Frame-shift | ENST00000381719 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000381715 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000381715 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000381715 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000381715 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000381724 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000381724 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000381724 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000381724 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000400137 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000400137 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
In-frame | ENST00000400137 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
In-frame | ENST00000400137 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3CDS | ENST00000439640 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3CDS | ENST00000439640 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3CDS | ENST00000439640 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3CDS | ENST00000439640 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3CDS | ENST00000460490 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3CDS | ENST00000460490 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3CDS | ENST00000460490 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3CDS | ENST00000460490 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3UTR | ENST00000439640 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3UTR | ENST00000439640 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3UTR | ENST00000439640 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3UTR | ENST00000439640 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3UTR | ENST00000460490 | ENST00000379070 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3UTR | ENST00000460490 | ENST00000379070 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
intron-3UTR | ENST00000460490 | ENST00000535100 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + |
intron-3UTR | ENST00000460490 | ENST00000535100 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + |
ORFfinder result based on the fusion transcript sequence of in-frame fusion genes. |
Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | Seq length (transcript) | BP loci (transcript) | Predicted start (transcript) | Predicted stop (transcript) | Seq length (amino acids) |
ENST00000400137 | FKBP1A | chr20 | 1373478 | - | ENST00000460006 | CDS2 | chr20 | 5169713 | + | 8259 | 249 | 503 | 0 | 168 |
ENST00000400137 | FKBP1A | chr20 | 1373478 | - | ENST00000379062 | CDS2 | chr20 | 5169713 | + | 736 | 249 | 503 | 0 | 168 |
ENST00000381724 | FKBP1A | chr20 | 1373478 | - | ENST00000460006 | CDS2 | chr20 | 5169713 | + | 8215 | 205 | 7519 | 7938 | 139 |
ENST00000381724 | FKBP1A | chr20 | 1373478 | - | ENST00000379062 | CDS2 | chr20 | 5169713 | + | 692 | 205 | 145 | 561 | 138 |
ENST00000381715 | FKBP1A | chr20 | 1373478 | - | ENST00000460006 | CDS2 | chr20 | 5169713 | + | 8139 | 129 | 7443 | 7862 | 139 |
ENST00000381715 | FKBP1A | chr20 | 1373478 | - | ENST00000379062 | CDS2 | chr20 | 5169713 | + | 616 | 129 | 69 | 485 | 138 |
ENST00000400137 | FKBP1A | chr20 | 1373477 | - | ENST00000460006 | CDS2 | chr20 | 5169712 | + | 8259 | 249 | 503 | 0 | 168 |
ENST00000400137 | FKBP1A | chr20 | 1373477 | - | ENST00000379062 | CDS2 | chr20 | 5169712 | + | 736 | 249 | 503 | 0 | 168 |
ENST00000381724 | FKBP1A | chr20 | 1373477 | - | ENST00000460006 | CDS2 | chr20 | 5169712 | + | 8215 | 205 | 7519 | 7938 | 139 |
ENST00000381724 | FKBP1A | chr20 | 1373477 | - | ENST00000379062 | CDS2 | chr20 | 5169712 | + | 692 | 205 | 145 | 561 | 138 |
ENST00000381715 | FKBP1A | chr20 | 1373477 | - | ENST00000460006 | CDS2 | chr20 | 5169712 | + | 8139 | 129 | 7443 | 7862 | 139 |
ENST00000381715 | FKBP1A | chr20 | 1373477 | - | ENST00000379062 | CDS2 | chr20 | 5169712 | + | 616 | 129 | 69 | 485 | 138 |
DeepORF prediction of the coding potential based on the fusion transcript sequence of in-frame fusion genes. DeepORF is a coding potential classifier based on convolutional neural network by comparing the real Ribo-seq data. If the no-coding score < 0.5 and coding score > 0.5, then the in-frame fusion transcript is predicted as being likely translated. |
Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | No-coding score | Coding score |
ENST00000400137 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.63490695 | 0.365093 |
ENST00000400137 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.02750951 | 0.97249055 |
ENST00000381724 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.63171375 | 0.3682862 |
ENST00000381724 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.027346047 | 0.9726539 |
ENST00000381715 | ENST00000460006 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.6335957 | 0.3664043 |
ENST00000381715 | ENST00000379062 | FKBP1A | chr20 | 1373478 | - | CDS2 | chr20 | 5169713 | + | 0.02025719 | 0.9797428 |
ENST00000400137 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.63490695 | 0.365093 |
ENST00000400137 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.02750951 | 0.97249055 |
ENST00000381724 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.63171375 | 0.3682862 |
ENST00000381724 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.027346047 | 0.9726539 |
ENST00000381715 | ENST00000460006 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.6335957 | 0.3664043 |
ENST00000381715 | ENST00000379062 | FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.02025719 | 0.9797428 |
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Fusion Genomic Features for FKBP1A-CDS2 |
FusionAI prediction of the potential fusion gene breakpoint based on the pre-mature RNA sequence context (+/- 5kb of individual partner genes, total 20kb length sequence). FusionAI is a fusion gene breakpoint classifier based on convolutional neural network by comparing the fusion positive and negative sequence context of ~ 20K fusion gene data. From here, we can have the relative potentency of the 20K genomic sequence how individual sequnce will be likely used as the gene fusion breakpoints. |
Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | 1-p | p (fusion gene breakpoint) |
FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.0002663 | 0.99973375 |
FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.0002663 | 0.99973375 |
FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.0002663 | 0.99973375 |
FKBP1A | chr20 | 1373477 | - | CDS2 | chr20 | 5169712 | + | 0.0002663 | 0.99973375 |
Distribution of 44 human genomic features loci across 20kb length fusion breakpoint regions. We integrated a total of 44 different types of human genomic feature loci information across five big categories including virus integration sites, repeats, structural variants, chromatin states, and gene expression regulation. More details are in help page. |
Distribution of 44 human genomic features loci across 20kb length fusion breakpoint regions that are ovelapped with the top 1% feature importance score regions. More details are in help page. |
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Fusion Protein Features for FKBP1A-CDS2 |
Four levels of functional features of fusion genes Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr20:1373478/chr20:5169713) - FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels. - How to search 1. Put your fusion gene symbol. 2. Press the tab key until there will be shown the breakpoint information filled. 4. Go down and press 'Search' tab twice. 4. Go down to have the hyperlink of the search result. 5. Click the hyperlink. 6. See the FGviewer result for your fusion gene. |
Main function of each fusion partner protein. (from UniProt) |
Hgene | Tgene |
FKBP1A | CDS2 |
FUNCTION: Keeps in an inactive conformation TGFBR1, the TGF-beta type I serine/threonine kinase receptor, preventing TGF-beta receptor activation in absence of ligand. Recruits SMAD7 to ACVR1B which prevents the association of SMAD2 and SMAD3 with the activin receptor complex, thereby blocking the activin signal. May modulate the RYR1 calcium channel activity. PPIases accelerate the folding of proteins. It catalyzes the cis-trans isomerization of proline imidic peptide bonds in oligopeptides. {ECO:0000269|PubMed:16720724, ECO:0000269|PubMed:1696686, ECO:0000269|PubMed:1701173, ECO:0000269|PubMed:9233797}. | FUNCTION: Catalyzes the conversion of phosphatidic acid (PA) to CDP-diacylglycerol (CDP-DAG), an essential intermediate in the synthesis of phosphatidylglycerol, cardiolipin and phosphatidylinositol (PubMed:25375833). Exhibits specificity for the nature of the acyl chains at the sn-1 and sn-2 positions in the substrate, PA and the preferred acyl chain composition is 1-stearoyl-2-arachidonoyl-sn-phosphatidic acid (PubMed:25375833). Plays an important role in regulating the growth and maturation of lipid droplets which are storage organelles at the center of lipid and energy homeostasis (PubMed:26946540, PubMed:31548309). {ECO:0000269|PubMed:25375833, ECO:0000269|PubMed:26946540, ECO:0000269|PubMed:31548309}. |
Retention analysis result of each fusion partner protein across 39 protein features of UniProt such as six molecule processing features, 13 region features, four site features, six amino acid modification features, two natural variation features, five experimental info features, and 3 secondary structure features. Here, because of limited space for viewing, we only show the protein feature retention information belong to the 13 regional features. All retention annotation result can be downloaded at * Minus value of BPloci means that the break pointn is located before the CDS. |
- In-frame and retained protein feature among the 13 regional features. |
Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Protein feature | Protein feature note |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 340_360 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 340_360 | 327 | 446.0 | Transmembrane | Helical |
- In-frame and not-retained protein feature among the 13 regional features. |
Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Protein feature | Protein feature note |
Hgene | FKBP1A | chr20:1373477 | chr20:5169712 | ENST00000381719 | - | 2 | 4 | 20_108 | 28 | 109.0 | Domain | PPIase FKBP-type |
Hgene | FKBP1A | chr20:1373477 | chr20:5169712 | ENST00000400137 | - | 2 | 5 | 20_108 | 28 | 446.0 | Domain | PPIase FKBP-type |
Hgene | FKBP1A | chr20:1373478 | chr20:5169713 | ENST00000381719 | - | 2 | 4 | 20_108 | 28 | 109.0 | Domain | PPIase FKBP-type |
Hgene | FKBP1A | chr20:1373478 | chr20:5169713 | ENST00000400137 | - | 2 | 5 | 20_108 | 28 | 446.0 | Domain | PPIase FKBP-type |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 132_152 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 166_186 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 213_233 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 262_282 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373477 | chr20:5169712 | ENST00000460006 | 9 | 13 | 79_99 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 132_152 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 166_186 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 213_233 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 262_282 | 327 | 446.0 | Transmembrane | Helical | |
Tgene | CDS2 | chr20:1373478 | chr20:5169713 | ENST00000460006 | 9 | 13 | 79_99 | 327 | 446.0 | Transmembrane | Helical |
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Fusion Gene Sequence for FKBP1A-CDS2 |
For in-frame fusion transcripts, we provide the fusion transcript sequences and fusion amino acid sequences. To have fusion amino acid sequence, we ran ORFfinder and chose the longest ORF among the all predicted ones. |
>30463_30463_1_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381715_CDS2_chr20_5169712_ENST00000379062_length(transcript)=616nt_BP=129nt GGTGAGTAGTGGCGCGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCT TCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACC TTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCT GGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCT AACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGAC AAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCA >30463_30463_1_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381715_CDS2_chr20_5169712_ENST00000379062_length(amino acids)=138AA_BP=20 MSPQGAPSPSAARPAWCTTPKTVRMYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVNVYI -------------------------------------------------------------- >30463_30463_2_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381715_CDS2_chr20_5169712_ENST00000460006_length(transcript)=8139nt_BP=129nt GGTGAGTAGTGGCGCGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCT TCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACC TTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCT GGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCT AACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGAC AAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCA AGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTTTTTTTTTTTGGAGGGTATTTTTTATTTGTG GGTTCAAAAAATCTGTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTACAGCTTTGAGTTGGAAAGAAGTCACGGGTTG TAAAACCATTTGGATTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCCAGGTCAGGAGTGTTTTCTTGGTGGTTCCAG CCCCCATCAATTGAACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGACCAAATCAGGGGACTTCCCCACCTGTGGTGG GAGGCACAGCTTAGATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTGCAGAAGGGTTGCCTTCTGTAGGTCGGAGGA ATGGAGGCTTACTAACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGTAAGTAAGCTCTGCTTTATAAGATGGGTTCA CCTTCATCGCAGACTGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATTTATAATAGTCTGGAGAAAAAACACACTGTA ATATTTCAAGTGTATGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGCTCCAATGTCTCCTGTAGGTCCACCTAACTG TGTGTTTTCAGGGACAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCTTTCTGGGGACTTTCTCATCGGGCAGGGAGC AGAGGGCTTCTCGTTCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTATATATTACTCTTAAGAGGAGTGTGTGTGTC TGTGTTTGTTTTAAAAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTTCACTAAAACCACAAAGTCCTGCTTAAAACT ATGGAAAACCTAACCTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTATATAATGTGACCAGTTTAAATGTAGTTTGT ATTGTACTGGGGGACCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTCCCTAATTTCAGGGGTGAGATTGACTTTGGG AAGACAGATTAGTTCTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGCACCCAAATATATCAAACTATTCCGTGCCGT GGATGTTTTCATTGCCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTGGTTTGTGGTGTTTTTGTTTGTAAATTAGCC TCACTGCCTCCCTGAAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATGGAGCCCTCGGGATGTTTCAGCTCACACATC CTTGAGTGACTTCCCATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTATTTCCATTTCAGCCTCGTGGCTTCTCTTATT CAGGTCCAAGGCCCCTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTGGCTGTGTCACTGGCAGGATGCATCACTCTC CAGGGCCTCTTTTTCGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAGTTCATGCCGGTAGAGGCTCATTAAGTGAGG TCCTGGGCACCCCCCAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTGAGTAGGTATCTCAGCAGCACACCCGAACAG TAAAGGTGATCAATAACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAAACTAGATACCGAAAGGGCTCCTCATTTGTC TCTTTTGTCCCATTGTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGGCCTGGCTGCAGAGACCTGCTCTTGAATAGG GCTGCCTTTGGGATCAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGGAAGTGGTTACTTGGTGGGGGTGGGGTGGGG AAGGGGGGTCTAGGAAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGAGGGTCAGCTTGTGTTTTATTTTCTGATTTC TCCTGCATGCTTTCTGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACCTTGTGTCCATATAGCACAATGTTTCTCTTT CCTATTCACAGACAAGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGAATGGCATCACTTGCTTTAGACCCATTTTTT TTTTATTGGTCAGAAATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCCCTGTTTATCACTTCCATGCATGGTTTTATG CTTCTCATTTGTTTATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTTTGCTTTCCAACTTGTATCCCTACATTCTCA CAACAGCCTTCTTACCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCCAGGATAGTGTGGTGGAGTCAGGACTCACTC CATCCTGCACTTTACCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGAACGTCGTGTGAGTACACCGAGGTGTTGCAG CTTTCCTTCCCTCTAGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGTTGGCTCCTGCCTGGTGGAACAAGGGGGTCA TAGAAACCAGGGCTGATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCACAGGGTACCGAGTCTTTGCCTTTTGTGTGTG CGCATGCTGCCCTCTTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCCTGAAAGTGAAACCCTCTTAGGCAACTTGTT TCATATTCTGGGCATTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAGTATTGTACAGCCCTATAATGTATGAGAACT AGTTTCACATCCTTTGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTACACAGGTGGACTTTGAATCCATTTTTATAGA ATTTTTTTCCACTGTAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAAGGGAGACTACACAGACCTTGTGATTTGGTC TGAGCTAGTTGCTGAGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTCACACTGTCAGTGAGCCCTTGGCTCAGCCCT TGTCACCTGTTTGTATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGACAGAGTCGGGTAGTGGGAGAGTATAAGTGAC TTGAGACAGAGTGTCCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGCCAGTCCTAGTTGCATGTCCAAGGGGGTAGA TTTTCATCACCCTACTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAATATCTTAGGCACTATTGTCTTTTGTCTTCCA GAGTAACATATCTGGGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTGGAGTTGGGAGGACAATTTCACTTGAACAGG TTTCTGTTCTTCTGAGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTGCAAGACAGTAAGCCGCGGATGGACTCTCAC TTGTGCTTTGGAACACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGATGGCTAATACTCAGGCAGAGCCCCGTATTC TTCCCTGACTTGGTCAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCCAGCTTCCAGTTTTTAAAGAGATGAACAGCT CTCACTTCCTGACTCAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGGGTGCTAGGGTTTAAACCAAGTGGTCACGAA GGATTCTTATCTCAGGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATCCACATCCCTGCAGAAGGTGGGCCCTATTCT CAGAAGAGTCCTGGCTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGCAGTGGCCTTACCTGGCCTCTCAGGTGGATG GAGGCTGTTCTCATCTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGACCATGTTTCCCAACGCACTTTGAGTGCAGTT TAGGAGGTATCCTTTGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATGAGAATAGAGGGGCAGAGTTTGTGAAGTCTA GGGTTTTTTGTCCAGTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCCCACCCTCCCCTTCCTTTTCCCATCAAATGC CTACCTACTGAGGCGCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTATTAATAAGGATTGCAATAGTATAGTGCTTAA TATGTGCCAGGCATAGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAGCCTTTGATTAGGTATTGTTGTCTCCATTTT ATAGATGAGGAAACTGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTTGGGATCAAATCACCCTAGGTGCGGGCAGGT TTCTAGGCTGCTCTAAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTTCCTGGGGTGGTTGTGAGGATATAACGAGGT AATGCATGTAAGCATTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGTTACTTTTGTTGAGCTCAGCTGGTAGTTTGA CCTCCGTTGGTGCAATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCACACAGTCTGGGTCCCTCCGAGAGAAGCACG CCAACCTTAACATCCCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCTAACGAGGCAAGAGGACATGGGGGTGTGCAG AAGTTCTGTTCTTAGTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACAGTCTGGACTGCTTGTGGGAAGGCCATCTCC TCCTGTCTGGTGGTACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGACCCCACTTCCCGCTCTGGCCAAGGGCTGTCT TCTGTGCACATAGCTCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGGCCAAGAAGAGAAGAATGGGGACAACAGAAA CCTGCTTTGTAGGGGATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGACGCAGCCAATCTGGAGCTTCATGTTTCCTT CTAAAAGTAGTAACCGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATTTCTGCCGGATTCTAGGTTAGCAAAGACTCA AATGGGTGACTCATGAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTGAACTTAGTTTTCTGAATGGGGGTGGGGAGT TGGGGCACGTGTGTGTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAGGATCCATGAAATTCCTAGGTCAGTTGAATA ATAACTGAACTACTGGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGCACATTGCTATTAATAGTATGGAAATAATGG TCCCTCTGTTTCATTGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGTTGTGGGGGTTTCTAGGAAGCAGCTGCTGTG ACAGGCCAATCCCAGGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTTGCCTGGTGCTTCCTCCCTCATTGTGTTGTT GAATAGACCTAGGCAGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGGTTGTGGTAAGGGCCCTCTGGAAATCAAGCA GAGAATGCCTTTGCAGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCCAGAGGACCTTGCCTGCATAAAGCACTCAGA AGGGTTAGCCACCTGGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCACATAGCCACCTCTGTCCTCGCAGTTTGGATG CCTTTTTTTGACACCTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGAGTAGAAAAGAGGTTGAGAATGTTTTCTAGC AGGCAGAATGTGCATACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCCTCTGTGCACAGGGCTCTGGCCTTTAGTAAA CTGTTTTTCTGTCTTACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGAGTTGAACAGACATCAGGGGCCGATGAAACC AAAGGACTAGGAGTCAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGTTATCCAGCTGGAGGACTCCTAGGGGCAGCA GCAGGAGGAATACCAGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTAACAGATGCCAGCTGAACGCTCGCTGGCCCT GGATGTCATACGAGTTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTTGAAGCCATGGGTTATCTTCTAGAGTTGATA CTGATAATATATTTTAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGATCAGATGGGAAGCCCCTCTGTTGAAGGATCT TGGGAACCTTGGTGGTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGACATCCTTCTTAATTCGATTCTGAGGATTTGT TTAACTAAAAAGTTCCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTGTGCTGGGAGTGCCAGGCATCCCATGGGACC CATCACTGCCAGTGTCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCCTCTGTGACAGGGCAGAGCATTTCTGGTCAG TTTCTCCATGGTGCCTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGTCTCACCCTGATAGCCTGGGTGTTGATATTC ACTTTACCCGCACTCAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACGTGACAGTCCCCACAGCCTCCCCAGATAGCT GTGTGCCTGTGCGCTACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCTGATCTCTCTCTCTGTGCACTCGTGATCCAT GTTGAACAATACATGTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGTTGGAAAGCATTTACCTTATTTATATACCTG >30463_30463_2_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381715_CDS2_chr20_5169712_ENST00000460006_length(amino acids)=139AA_BP= MGSPSVEGSWEPWWFFFFFWFFFFDRAVDILLNSILRICLTKKFPNTERASPPALGSCLCWECQASHGTHHCQCLCLPEVSRVCPGSVSS -------------------------------------------------------------- >30463_30463_3_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381724_CDS2_chr20_5169712_ENST00000379062_length(transcript)=692nt_BP=205nt GCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGGAAACCATCTCCCCAGGAGACGGTGAGTAGTGGCG CGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCTTCCCCAAGCGCGGC CAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCAT TGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCAT CATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACT GATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGAC ATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCT >30463_30463_3_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381724_CDS2_chr20_5169712_ENST00000379062_length(amino acids)=138AA_BP=20 MSPQGAPSPSAARPAWCTTPKTVRMYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVNVYI -------------------------------------------------------------- >30463_30463_4_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381724_CDS2_chr20_5169712_ENST00000460006_length(transcript)=8215nt_BP=205nt GCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGGAAACCATCTCCCCAGGAGACGGTGAGTAGTGGCG CGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCTTCCCCAAGCGCGGC CAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCAT TGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCAT CATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACT GATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGAC ATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCT GGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTTTTTTTTTTTGGAGGGTATTTTTTATTTGTGGGTTCAAAAAATCT GTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTACAGCTTTGAGTTGGAAAGAAGTCACGGGTTGTAAAACCATTTGGA TTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCCAGGTCAGGAGTGTTTTCTTGGTGGTTCCAGCCCCCATCAATTGA ACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGACCAAATCAGGGGACTTCCCCACCTGTGGTGGGAGGCACAGCTTAG ATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTGCAGAAGGGTTGCCTTCTGTAGGTCGGAGGAATGGAGGCTTACTA ACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGTAAGTAAGCTCTGCTTTATAAGATGGGTTCACCTTCATCGCAGAC TGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATTTATAATAGTCTGGAGAAAAAACACACTGTAATATTTCAAGTGTA TGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGCTCCAATGTCTCCTGTAGGTCCACCTAACTGTGTGTTTTCAGGGA CAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCTTTCTGGGGACTTTCTCATCGGGCAGGGAGCAGAGGGCTTCTCGT TCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTATATATTACTCTTAAGAGGAGTGTGTGTGTCTGTGTTTGTTTTAA AAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTTCACTAAAACCACAAAGTCCTGCTTAAAACTATGGAAAACCTAAC CTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTATATAATGTGACCAGTTTAAATGTAGTTTGTATTGTACTGGGGGA CCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTCCCTAATTTCAGGGGTGAGATTGACTTTGGGAAGACAGATTAGTT CTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGCACCCAAATATATCAAACTATTCCGTGCCGTGGATGTTTTCATTG CCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTGGTTTGTGGTGTTTTTGTTTGTAAATTAGCCTCACTGCCTCCCTG AAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATGGAGCCCTCGGGATGTTTCAGCTCACACATCCTTGAGTGACTTCC CATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTATTTCCATTTCAGCCTCGTGGCTTCTCTTATTCAGGTCCAAGGCCC CTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTGGCTGTGTCACTGGCAGGATGCATCACTCTCCAGGGCCTCTTTTT CGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAGTTCATGCCGGTAGAGGCTCATTAAGTGAGGTCCTGGGCACCCCC CAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTGAGTAGGTATCTCAGCAGCACACCCGAACAGTAAAGGTGATCAAT AACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAAACTAGATACCGAAAGGGCTCCTCATTTGTCTCTTTTGTCCCATT GTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGGCCTGGCTGCAGAGACCTGCTCTTGAATAGGGCTGCCTTTGGGAT CAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGGAAGTGGTTACTTGGTGGGGGTGGGGTGGGGAAGGGGGGTCTAGG AAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGAGGGTCAGCTTGTGTTTTATTTTCTGATTTCTCCTGCATGCTTTC TGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACCTTGTGTCCATATAGCACAATGTTTCTCTTTCCTATTCACAGACA AGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGAATGGCATCACTTGCTTTAGACCCATTTTTTTTTTATTGGTCAGA AATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCCCTGTTTATCACTTCCATGCATGGTTTTATGCTTCTCATTTGTTT ATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTTTGCTTTCCAACTTGTATCCCTACATTCTCACAACAGCCTTCTTA CCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCCAGGATAGTGTGGTGGAGTCAGGACTCACTCCATCCTGCACTTTA CCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGAACGTCGTGTGAGTACACCGAGGTGTTGCAGCTTTCCTTCCCTCT AGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGTTGGCTCCTGCCTGGTGGAACAAGGGGGTCATAGAAACCAGGGCT GATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCACAGGGTACCGAGTCTTTGCCTTTTGTGTGTGCGCATGCTGCCCTC TTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCCTGAAAGTGAAACCCTCTTAGGCAACTTGTTTCATATTCTGGGCA TTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAGTATTGTACAGCCCTATAATGTATGAGAACTAGTTTCACATCCTT TGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTACACAGGTGGACTTTGAATCCATTTTTATAGAATTTTTTTCCACTG TAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAAGGGAGACTACACAGACCTTGTGATTTGGTCTGAGCTAGTTGCTG AGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTCACACTGTCAGTGAGCCCTTGGCTCAGCCCTTGTCACCTGTTTGT ATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGACAGAGTCGGGTAGTGGGAGAGTATAAGTGACTTGAGACAGAGTGT CCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGCCAGTCCTAGTTGCATGTCCAAGGGGGTAGATTTTCATCACCCTA CTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAATATCTTAGGCACTATTGTCTTTTGTCTTCCAGAGTAACATATCTG GGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTGGAGTTGGGAGGACAATTTCACTTGAACAGGTTTCTGTTCTTCTG AGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTGCAAGACAGTAAGCCGCGGATGGACTCTCACTTGTGCTTTGGAAC ACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGATGGCTAATACTCAGGCAGAGCCCCGTATTCTTCCCTGACTTGGT CAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCCAGCTTCCAGTTTTTAAAGAGATGAACAGCTCTCACTTCCTGACT CAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGGGTGCTAGGGTTTAAACCAAGTGGTCACGAAGGATTCTTATCTCA GGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATCCACATCCCTGCAGAAGGTGGGCCCTATTCTCAGAAGAGTCCTGG CTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGCAGTGGCCTTACCTGGCCTCTCAGGTGGATGGAGGCTGTTCTCAT CTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGACCATGTTTCCCAACGCACTTTGAGTGCAGTTTAGGAGGTATCCTT TGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATGAGAATAGAGGGGCAGAGTTTGTGAAGTCTAGGGTTTTTTGTCCA GTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCCCACCCTCCCCTTCCTTTTCCCATCAAATGCCTACCTACTGAGGC GCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTATTAATAAGGATTGCAATAGTATAGTGCTTAATATGTGCCAGGCAT AGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAGCCTTTGATTAGGTATTGTTGTCTCCATTTTATAGATGAGGAAAC TGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTTGGGATCAAATCACCCTAGGTGCGGGCAGGTTTCTAGGCTGCTCT AAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTTCCTGGGGTGGTTGTGAGGATATAACGAGGTAATGCATGTAAGCA TTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGTTACTTTTGTTGAGCTCAGCTGGTAGTTTGACCTCCGTTGGTGCA ATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCACACAGTCTGGGTCCCTCCGAGAGAAGCACGCCAACCTTAACATC CCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCTAACGAGGCAAGAGGACATGGGGGTGTGCAGAAGTTCTGTTCTTA GTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACAGTCTGGACTGCTTGTGGGAAGGCCATCTCCTCCTGTCTGGTGGT ACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGACCCCACTTCCCGCTCTGGCCAAGGGCTGTCTTCTGTGCACATAGC TCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGGCCAAGAAGAGAAGAATGGGGACAACAGAAACCTGCTTTGTAGGG GATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGACGCAGCCAATCTGGAGCTTCATGTTTCCTTCTAAAAGTAGTAAC CGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATTTCTGCCGGATTCTAGGTTAGCAAAGACTCAAATGGGTGACTCAT GAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTGAACTTAGTTTTCTGAATGGGGGTGGGGAGTTGGGGCACGTGTGT GTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAGGATCCATGAAATTCCTAGGTCAGTTGAATAATAACTGAACTACT GGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGCACATTGCTATTAATAGTATGGAAATAATGGTCCCTCTGTTTCAT TGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGTTGTGGGGGTTTCTAGGAAGCAGCTGCTGTGACAGGCCAATCCCA GGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTTGCCTGGTGCTTCCTCCCTCATTGTGTTGTTGAATAGACCTAGGC AGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGGTTGTGGTAAGGGCCCTCTGGAAATCAAGCAGAGAATGCCTTTGC AGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCCAGAGGACCTTGCCTGCATAAAGCACTCAGAAGGGTTAGCCACCT GGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCACATAGCCACCTCTGTCCTCGCAGTTTGGATGCCTTTTTTTGACAC CTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGAGTAGAAAAGAGGTTGAGAATGTTTTCTAGCAGGCAGAATGTGCA TACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCCTCTGTGCACAGGGCTCTGGCCTTTAGTAAACTGTTTTTCTGTCT TACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGAGTTGAACAGACATCAGGGGCCGATGAAACCAAAGGACTAGGAGT CAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGTTATCCAGCTGGAGGACTCCTAGGGGCAGCAGCAGGAGGAATACC AGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTAACAGATGCCAGCTGAACGCTCGCTGGCCCTGGATGTCATACGAG TTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTTGAAGCCATGGGTTATCTTCTAGAGTTGATACTGATAATATATTT TAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGATCAGATGGGAAGCCCCTCTGTTGAAGGATCTTGGGAACCTTGGTG GTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGACATCCTTCTTAATTCGATTCTGAGGATTTGTTTAACTAAAAAGTT CCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTGTGCTGGGAGTGCCAGGCATCCCATGGGACCCATCACTGCCAGTG TCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCCTCTGTGACAGGGCAGAGCATTTCTGGTCAGTTTCTCCATGGTGC CTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGTCTCACCCTGATAGCCTGGGTGTTGATATTCACTTTACCCGCACT CAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACGTGACAGTCCCCACAGCCTCCCCAGATAGCTGTGTGCCTGTGCGC TACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCTGATCTCTCTCTCTGTGCACTCGTGATCCATGTTGAACAATACAT GTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGTTGGAAAGCATTTACCTTATTTATATACCTGAATGTTCCTACTAC >30463_30463_4_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000381724_CDS2_chr20_5169712_ENST00000460006_length(amino acids)=139AA_BP= MGSPSVEGSWEPWWFFFFFWFFFFDRAVDILLNSILRICLTKKFPNTERASPPALGSCLCWECQASHGTHHCQCLCLPEVSRVCPGSVSS -------------------------------------------------------------- >30463_30463_5_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000400137_CDS2_chr20_5169712_ENST00000379062_length(transcript)=736nt_BP=249nt GTCGCGCGCCGTGTGGGGCGCGCACGCAGGGCTGGGCGTGAGGGGGCGTGCGCGTGCGCAGGCGACGCGCCGAGGTACTAGGCAGAGCCG TGGAACCGCCGCCAGGTCGCTGTTGGTCCACGCCGCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGG AAACCATCTCCCCAGGAGACGGGCGCACCTTCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCC TTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTT AAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAAT GTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATC TTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACA GGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTT >30463_30463_5_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000400137_CDS2_chr20_5169712_ENST00000379062_length(amino acids)=168AA_BP=1 MLNQFAWVRASDKTGDVYIDKGGHQILAVKAIHDASMARNGIGKVFDFKGSFESTCEESSKGANERGKGGESDAVNLEGVHPDRFRCSAP -------------------------------------------------------------- >30463_30463_6_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000400137_CDS2_chr20_5169712_ENST00000460006_length(transcript)=8259nt_BP=249nt GTCGCGCGCCGTGTGGGGCGCGCACGCAGGGCTGGGCGTGAGGGGGCGTGCGCGTGCGCAGGCGACGCGCCGAGGTACTAGGCAGAGCCG TGGAACCGCCGCCAGGTCGCTGTTGGTCCACGCCGCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGG AAACCATCTCCCCAGGAGACGGGCGCACCTTCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCC TTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTT AAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAAT GTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATC TTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACA GGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTT TTTTTTTTTGGAGGGTATTTTTTATTTGTGGGTTCAAAAAATCTGTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTAC AGCTTTGAGTTGGAAAGAAGTCACGGGTTGTAAAACCATTTGGATTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCC AGGTCAGGAGTGTTTTCTTGGTGGTTCCAGCCCCCATCAATTGAACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGAC CAAATCAGGGGACTTCCCCACCTGTGGTGGGAGGCACAGCTTAGATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTG CAGAAGGGTTGCCTTCTGTAGGTCGGAGGAATGGAGGCTTACTAACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGT AAGTAAGCTCTGCTTTATAAGATGGGTTCACCTTCATCGCAGACTGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATT TATAATAGTCTGGAGAAAAAACACACTGTAATATTTCAAGTGTATGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGC TCCAATGTCTCCTGTAGGTCCACCTAACTGTGTGTTTTCAGGGACAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCT TTCTGGGGACTTTCTCATCGGGCAGGGAGCAGAGGGCTTCTCGTTCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTA TATATTACTCTTAAGAGGAGTGTGTGTGTCTGTGTTTGTTTTAAAAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTT CACTAAAACCACAAAGTCCTGCTTAAAACTATGGAAAACCTAACCTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTA TATAATGTGACCAGTTTAAATGTAGTTTGTATTGTACTGGGGGACCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTC CCTAATTTCAGGGGTGAGATTGACTTTGGGAAGACAGATTAGTTCTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGC ACCCAAATATATCAAACTATTCCGTGCCGTGGATGTTTTCATTGCCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTG GTTTGTGGTGTTTTTGTTTGTAAATTAGCCTCACTGCCTCCCTGAAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATG GAGCCCTCGGGATGTTTCAGCTCACACATCCTTGAGTGACTTCCCATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTAT TTCCATTTCAGCCTCGTGGCTTCTCTTATTCAGGTCCAAGGCCCCTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTG GCTGTGTCACTGGCAGGATGCATCACTCTCCAGGGCCTCTTTTTCGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAG TTCATGCCGGTAGAGGCTCATTAAGTGAGGTCCTGGGCACCCCCCAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTG AGTAGGTATCTCAGCAGCACACCCGAACAGTAAAGGTGATCAATAACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAA ACTAGATACCGAAAGGGCTCCTCATTTGTCTCTTTTGTCCCATTGTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGG CCTGGCTGCAGAGACCTGCTCTTGAATAGGGCTGCCTTTGGGATCAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGG AAGTGGTTACTTGGTGGGGGTGGGGTGGGGAAGGGGGGTCTAGGAAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGA GGGTCAGCTTGTGTTTTATTTTCTGATTTCTCCTGCATGCTTTCTGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACC TTGTGTCCATATAGCACAATGTTTCTCTTTCCTATTCACAGACAAGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGA ATGGCATCACTTGCTTTAGACCCATTTTTTTTTTATTGGTCAGAAATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCC CTGTTTATCACTTCCATGCATGGTTTTATGCTTCTCATTTGTTTATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTT TGCTTTCCAACTTGTATCCCTACATTCTCACAACAGCCTTCTTACCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCC AGGATAGTGTGGTGGAGTCAGGACTCACTCCATCCTGCACTTTACCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGA ACGTCGTGTGAGTACACCGAGGTGTTGCAGCTTTCCTTCCCTCTAGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGT TGGCTCCTGCCTGGTGGAACAAGGGGGTCATAGAAACCAGGGCTGATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCAC AGGGTACCGAGTCTTTGCCTTTTGTGTGTGCGCATGCTGCCCTCTTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCC TGAAAGTGAAACCCTCTTAGGCAACTTGTTTCATATTCTGGGCATTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAG TATTGTACAGCCCTATAATGTATGAGAACTAGTTTCACATCCTTTGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTAC ACAGGTGGACTTTGAATCCATTTTTATAGAATTTTTTTCCACTGTAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAA GGGAGACTACACAGACCTTGTGATTTGGTCTGAGCTAGTTGCTGAGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTC ACACTGTCAGTGAGCCCTTGGCTCAGCCCTTGTCACCTGTTTGTATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGAC AGAGTCGGGTAGTGGGAGAGTATAAGTGACTTGAGACAGAGTGTCCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGC CAGTCCTAGTTGCATGTCCAAGGGGGTAGATTTTCATCACCCTACTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAAT ATCTTAGGCACTATTGTCTTTTGTCTTCCAGAGTAACATATCTGGGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTG GAGTTGGGAGGACAATTTCACTTGAACAGGTTTCTGTTCTTCTGAGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTG CAAGACAGTAAGCCGCGGATGGACTCTCACTTGTGCTTTGGAACACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGA TGGCTAATACTCAGGCAGAGCCCCGTATTCTTCCCTGACTTGGTCAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCC AGCTTCCAGTTTTTAAAGAGATGAACAGCTCTCACTTCCTGACTCAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGG GTGCTAGGGTTTAAACCAAGTGGTCACGAAGGATTCTTATCTCAGGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATC CACATCCCTGCAGAAGGTGGGCCCTATTCTCAGAAGAGTCCTGGCTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGC AGTGGCCTTACCTGGCCTCTCAGGTGGATGGAGGCTGTTCTCATCTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGAC CATGTTTCCCAACGCACTTTGAGTGCAGTTTAGGAGGTATCCTTTGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATG AGAATAGAGGGGCAGAGTTTGTGAAGTCTAGGGTTTTTTGTCCAGTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCC CACCCTCCCCTTCCTTTTCCCATCAAATGCCTACCTACTGAGGCGCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTAT TAATAAGGATTGCAATAGTATAGTGCTTAATATGTGCCAGGCATAGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAG CCTTTGATTAGGTATTGTTGTCTCCATTTTATAGATGAGGAAACTGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTT GGGATCAAATCACCCTAGGTGCGGGCAGGTTTCTAGGCTGCTCTAAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTT CCTGGGGTGGTTGTGAGGATATAACGAGGTAATGCATGTAAGCATTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGT TACTTTTGTTGAGCTCAGCTGGTAGTTTGACCTCCGTTGGTGCAATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCA CACAGTCTGGGTCCCTCCGAGAGAAGCACGCCAACCTTAACATCCCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCT AACGAGGCAAGAGGACATGGGGGTGTGCAGAAGTTCTGTTCTTAGTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACA GTCTGGACTGCTTGTGGGAAGGCCATCTCCTCCTGTCTGGTGGTACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGAC CCCACTTCCCGCTCTGGCCAAGGGCTGTCTTCTGTGCACATAGCTCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGG CCAAGAAGAGAAGAATGGGGACAACAGAAACCTGCTTTGTAGGGGATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGA CGCAGCCAATCTGGAGCTTCATGTTTCCTTCTAAAAGTAGTAACCGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATT TCTGCCGGATTCTAGGTTAGCAAAGACTCAAATGGGTGACTCATGAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTG AACTTAGTTTTCTGAATGGGGGTGGGGAGTTGGGGCACGTGTGTGTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAG GATCCATGAAATTCCTAGGTCAGTTGAATAATAACTGAACTACTGGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGC ACATTGCTATTAATAGTATGGAAATAATGGTCCCTCTGTTTCATTGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGT TGTGGGGGTTTCTAGGAAGCAGCTGCTGTGACAGGCCAATCCCAGGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTT GCCTGGTGCTTCCTCCCTCATTGTGTTGTTGAATAGACCTAGGCAGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGG TTGTGGTAAGGGCCCTCTGGAAATCAAGCAGAGAATGCCTTTGCAGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCC AGAGGACCTTGCCTGCATAAAGCACTCAGAAGGGTTAGCCACCTGGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCAC ATAGCCACCTCTGTCCTCGCAGTTTGGATGCCTTTTTTTGACACCTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGA GTAGAAAAGAGGTTGAGAATGTTTTCTAGCAGGCAGAATGTGCATACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCC TCTGTGCACAGGGCTCTGGCCTTTAGTAAACTGTTTTTCTGTCTTACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGA GTTGAACAGACATCAGGGGCCGATGAAACCAAAGGACTAGGAGTCAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGT TATCCAGCTGGAGGACTCCTAGGGGCAGCAGCAGGAGGAATACCAGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTA ACAGATGCCAGCTGAACGCTCGCTGGCCCTGGATGTCATACGAGTTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTT GAAGCCATGGGTTATCTTCTAGAGTTGATACTGATAATATATTTTAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGAT CAGATGGGAAGCCCCTCTGTTGAAGGATCTTGGGAACCTTGGTGGTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGAC ATCCTTCTTAATTCGATTCTGAGGATTTGTTTAACTAAAAAGTTCCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTG TGCTGGGAGTGCCAGGCATCCCATGGGACCCATCACTGCCAGTGTCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCC TCTGTGACAGGGCAGAGCATTTCTGGTCAGTTTCTCCATGGTGCCTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGT CTCACCCTGATAGCCTGGGTGTTGATATTCACTTTACCCGCACTCAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACG TGACAGTCCCCACAGCCTCCCCAGATAGCTGTGTGCCTGTGCGCTACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCT GATCTCTCTCTCTGTGCACTCGTGATCCATGTTGAACAATACATGTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGT >30463_30463_6_FKBP1A-CDS2_FKBP1A_chr20_1373477_ENST00000400137_CDS2_chr20_5169712_ENST00000460006_length(amino acids)=168AA_BP=1 MLNQFAWVRASDKTGDVYIDKGGHQILAVKAIHDASMARNGIGKVFDFKGSFESTCEESSKGANERGKGGESDAVNLEGVHPDRFRCSAP -------------------------------------------------------------- >30463_30463_7_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381715_CDS2_chr20_5169713_ENST00000379062_length(transcript)=616nt_BP=129nt GGTGAGTAGTGGCGCGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCT TCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACC TTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCT GGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCT AACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGAC AAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCA >30463_30463_7_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381715_CDS2_chr20_5169713_ENST00000379062_length(amino acids)=138AA_BP=20 MSPQGAPSPSAARPAWCTTPKTVRMYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVNVYI -------------------------------------------------------------- >30463_30463_8_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381715_CDS2_chr20_5169713_ENST00000460006_length(transcript)=8139nt_BP=129nt GGTGAGTAGTGGCGCGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCT TCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACC TTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCT GGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCT AACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGAC AAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCA AGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTTTTTTTTTTTGGAGGGTATTTTTTATTTGTG GGTTCAAAAAATCTGTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTACAGCTTTGAGTTGGAAAGAAGTCACGGGTTG TAAAACCATTTGGATTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCCAGGTCAGGAGTGTTTTCTTGGTGGTTCCAG CCCCCATCAATTGAACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGACCAAATCAGGGGACTTCCCCACCTGTGGTGG GAGGCACAGCTTAGATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTGCAGAAGGGTTGCCTTCTGTAGGTCGGAGGA ATGGAGGCTTACTAACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGTAAGTAAGCTCTGCTTTATAAGATGGGTTCA CCTTCATCGCAGACTGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATTTATAATAGTCTGGAGAAAAAACACACTGTA ATATTTCAAGTGTATGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGCTCCAATGTCTCCTGTAGGTCCACCTAACTG TGTGTTTTCAGGGACAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCTTTCTGGGGACTTTCTCATCGGGCAGGGAGC AGAGGGCTTCTCGTTCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTATATATTACTCTTAAGAGGAGTGTGTGTGTC TGTGTTTGTTTTAAAAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTTCACTAAAACCACAAAGTCCTGCTTAAAACT ATGGAAAACCTAACCTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTATATAATGTGACCAGTTTAAATGTAGTTTGT ATTGTACTGGGGGACCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTCCCTAATTTCAGGGGTGAGATTGACTTTGGG AAGACAGATTAGTTCTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGCACCCAAATATATCAAACTATTCCGTGCCGT GGATGTTTTCATTGCCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTGGTTTGTGGTGTTTTTGTTTGTAAATTAGCC TCACTGCCTCCCTGAAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATGGAGCCCTCGGGATGTTTCAGCTCACACATC CTTGAGTGACTTCCCATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTATTTCCATTTCAGCCTCGTGGCTTCTCTTATT CAGGTCCAAGGCCCCTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTGGCTGTGTCACTGGCAGGATGCATCACTCTC CAGGGCCTCTTTTTCGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAGTTCATGCCGGTAGAGGCTCATTAAGTGAGG TCCTGGGCACCCCCCAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTGAGTAGGTATCTCAGCAGCACACCCGAACAG TAAAGGTGATCAATAACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAAACTAGATACCGAAAGGGCTCCTCATTTGTC TCTTTTGTCCCATTGTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGGCCTGGCTGCAGAGACCTGCTCTTGAATAGG GCTGCCTTTGGGATCAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGGAAGTGGTTACTTGGTGGGGGTGGGGTGGGG AAGGGGGGTCTAGGAAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGAGGGTCAGCTTGTGTTTTATTTTCTGATTTC TCCTGCATGCTTTCTGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACCTTGTGTCCATATAGCACAATGTTTCTCTTT CCTATTCACAGACAAGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGAATGGCATCACTTGCTTTAGACCCATTTTTT TTTTATTGGTCAGAAATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCCCTGTTTATCACTTCCATGCATGGTTTTATG CTTCTCATTTGTTTATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTTTGCTTTCCAACTTGTATCCCTACATTCTCA CAACAGCCTTCTTACCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCCAGGATAGTGTGGTGGAGTCAGGACTCACTC CATCCTGCACTTTACCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGAACGTCGTGTGAGTACACCGAGGTGTTGCAG CTTTCCTTCCCTCTAGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGTTGGCTCCTGCCTGGTGGAACAAGGGGGTCA TAGAAACCAGGGCTGATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCACAGGGTACCGAGTCTTTGCCTTTTGTGTGTG CGCATGCTGCCCTCTTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCCTGAAAGTGAAACCCTCTTAGGCAACTTGTT TCATATTCTGGGCATTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAGTATTGTACAGCCCTATAATGTATGAGAACT AGTTTCACATCCTTTGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTACACAGGTGGACTTTGAATCCATTTTTATAGA ATTTTTTTCCACTGTAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAAGGGAGACTACACAGACCTTGTGATTTGGTC TGAGCTAGTTGCTGAGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTCACACTGTCAGTGAGCCCTTGGCTCAGCCCT TGTCACCTGTTTGTATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGACAGAGTCGGGTAGTGGGAGAGTATAAGTGAC TTGAGACAGAGTGTCCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGCCAGTCCTAGTTGCATGTCCAAGGGGGTAGA TTTTCATCACCCTACTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAATATCTTAGGCACTATTGTCTTTTGTCTTCCA GAGTAACATATCTGGGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTGGAGTTGGGAGGACAATTTCACTTGAACAGG TTTCTGTTCTTCTGAGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTGCAAGACAGTAAGCCGCGGATGGACTCTCAC TTGTGCTTTGGAACACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGATGGCTAATACTCAGGCAGAGCCCCGTATTC TTCCCTGACTTGGTCAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCCAGCTTCCAGTTTTTAAAGAGATGAACAGCT CTCACTTCCTGACTCAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGGGTGCTAGGGTTTAAACCAAGTGGTCACGAA GGATTCTTATCTCAGGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATCCACATCCCTGCAGAAGGTGGGCCCTATTCT CAGAAGAGTCCTGGCTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGCAGTGGCCTTACCTGGCCTCTCAGGTGGATG GAGGCTGTTCTCATCTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGACCATGTTTCCCAACGCACTTTGAGTGCAGTT TAGGAGGTATCCTTTGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATGAGAATAGAGGGGCAGAGTTTGTGAAGTCTA GGGTTTTTTGTCCAGTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCCCACCCTCCCCTTCCTTTTCCCATCAAATGC CTACCTACTGAGGCGCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTATTAATAAGGATTGCAATAGTATAGTGCTTAA TATGTGCCAGGCATAGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAGCCTTTGATTAGGTATTGTTGTCTCCATTTT ATAGATGAGGAAACTGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTTGGGATCAAATCACCCTAGGTGCGGGCAGGT TTCTAGGCTGCTCTAAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTTCCTGGGGTGGTTGTGAGGATATAACGAGGT AATGCATGTAAGCATTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGTTACTTTTGTTGAGCTCAGCTGGTAGTTTGA CCTCCGTTGGTGCAATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCACACAGTCTGGGTCCCTCCGAGAGAAGCACG CCAACCTTAACATCCCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCTAACGAGGCAAGAGGACATGGGGGTGTGCAG AAGTTCTGTTCTTAGTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACAGTCTGGACTGCTTGTGGGAAGGCCATCTCC TCCTGTCTGGTGGTACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGACCCCACTTCCCGCTCTGGCCAAGGGCTGTCT TCTGTGCACATAGCTCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGGCCAAGAAGAGAAGAATGGGGACAACAGAAA CCTGCTTTGTAGGGGATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGACGCAGCCAATCTGGAGCTTCATGTTTCCTT CTAAAAGTAGTAACCGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATTTCTGCCGGATTCTAGGTTAGCAAAGACTCA AATGGGTGACTCATGAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTGAACTTAGTTTTCTGAATGGGGGTGGGGAGT TGGGGCACGTGTGTGTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAGGATCCATGAAATTCCTAGGTCAGTTGAATA ATAACTGAACTACTGGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGCACATTGCTATTAATAGTATGGAAATAATGG TCCCTCTGTTTCATTGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGTTGTGGGGGTTTCTAGGAAGCAGCTGCTGTG ACAGGCCAATCCCAGGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTTGCCTGGTGCTTCCTCCCTCATTGTGTTGTT GAATAGACCTAGGCAGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGGTTGTGGTAAGGGCCCTCTGGAAATCAAGCA GAGAATGCCTTTGCAGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCCAGAGGACCTTGCCTGCATAAAGCACTCAGA AGGGTTAGCCACCTGGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCACATAGCCACCTCTGTCCTCGCAGTTTGGATG CCTTTTTTTGACACCTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGAGTAGAAAAGAGGTTGAGAATGTTTTCTAGC AGGCAGAATGTGCATACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCCTCTGTGCACAGGGCTCTGGCCTTTAGTAAA CTGTTTTTCTGTCTTACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGAGTTGAACAGACATCAGGGGCCGATGAAACC AAAGGACTAGGAGTCAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGTTATCCAGCTGGAGGACTCCTAGGGGCAGCA GCAGGAGGAATACCAGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTAACAGATGCCAGCTGAACGCTCGCTGGCCCT GGATGTCATACGAGTTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTTGAAGCCATGGGTTATCTTCTAGAGTTGATA CTGATAATATATTTTAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGATCAGATGGGAAGCCCCTCTGTTGAAGGATCT TGGGAACCTTGGTGGTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGACATCCTTCTTAATTCGATTCTGAGGATTTGT TTAACTAAAAAGTTCCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTGTGCTGGGAGTGCCAGGCATCCCATGGGACC CATCACTGCCAGTGTCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCCTCTGTGACAGGGCAGAGCATTTCTGGTCAG TTTCTCCATGGTGCCTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGTCTCACCCTGATAGCCTGGGTGTTGATATTC ACTTTACCCGCACTCAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACGTGACAGTCCCCACAGCCTCCCCAGATAGCT GTGTGCCTGTGCGCTACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCTGATCTCTCTCTCTGTGCACTCGTGATCCAT GTTGAACAATACATGTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGTTGGAAAGCATTTACCTTATTTATATACCTG >30463_30463_8_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381715_CDS2_chr20_5169713_ENST00000460006_length(amino acids)=139AA_BP= MGSPSVEGSWEPWWFFFFFWFFFFDRAVDILLNSILRICLTKKFPNTERASPPALGSCLCWECQASHGTHHCQCLCLPEVSRVCPGSVSS -------------------------------------------------------------- >30463_30463_9_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381724_CDS2_chr20_5169713_ENST00000379062_length(transcript)=692nt_BP=205nt GCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGGAAACCATCTCCCCAGGAGACGGTGAGTAGTGGCG CGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCTTCCCCAAGCGCGGC CAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCAT TGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCAT CATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACT GATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGAC ATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCT >30463_30463_9_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381724_CDS2_chr20_5169713_ENST00000379062_length(amino acids)=138AA_BP=20 MSPQGAPSPSAARPAWCTTPKTVRMYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVNVYI -------------------------------------------------------------- >30463_30463_10_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381724_CDS2_chr20_5169713_ENST00000460006_length(transcript)=8215nt_BP=205nt GCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGGAAACCATCTCCCCAGGAGACGGTGAGTAGTGGCG CGCGGCGGCTCGGAGTACCTCTGCCGCCGCGCGCATCGGCTCAGCATGCCCGTCTCTGTCTCCTCAGGGCGCACCTTCCCCAAGCGCGGC CAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCCTTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCAT TGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTTAAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCAT CATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAATGTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACT GATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATCTTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGAC ATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACAGGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCT GGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTTTTTTTTTTTGGAGGGTATTTTTTATTTGTGGGTTCAAAAAATCT GTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTACAGCTTTGAGTTGGAAAGAAGTCACGGGTTGTAAAACCATTTGGA TTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCCAGGTCAGGAGTGTTTTCTTGGTGGTTCCAGCCCCCATCAATTGA ACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGACCAAATCAGGGGACTTCCCCACCTGTGGTGGGAGGCACAGCTTAG ATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTGCAGAAGGGTTGCCTTCTGTAGGTCGGAGGAATGGAGGCTTACTA ACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGTAAGTAAGCTCTGCTTTATAAGATGGGTTCACCTTCATCGCAGAC TGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATTTATAATAGTCTGGAGAAAAAACACACTGTAATATTTCAAGTGTA TGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGCTCCAATGTCTCCTGTAGGTCCACCTAACTGTGTGTTTTCAGGGA CAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCTTTCTGGGGACTTTCTCATCGGGCAGGGAGCAGAGGGCTTCTCGT TCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTATATATTACTCTTAAGAGGAGTGTGTGTGTCTGTGTTTGTTTTAA AAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTTCACTAAAACCACAAAGTCCTGCTTAAAACTATGGAAAACCTAAC CTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTATATAATGTGACCAGTTTAAATGTAGTTTGTATTGTACTGGGGGA CCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTCCCTAATTTCAGGGGTGAGATTGACTTTGGGAAGACAGATTAGTT CTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGCACCCAAATATATCAAACTATTCCGTGCCGTGGATGTTTTCATTG CCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTGGTTTGTGGTGTTTTTGTTTGTAAATTAGCCTCACTGCCTCCCTG AAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATGGAGCCCTCGGGATGTTTCAGCTCACACATCCTTGAGTGACTTCC CATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTATTTCCATTTCAGCCTCGTGGCTTCTCTTATTCAGGTCCAAGGCCC CTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTGGCTGTGTCACTGGCAGGATGCATCACTCTCCAGGGCCTCTTTTT CGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAGTTCATGCCGGTAGAGGCTCATTAAGTGAGGTCCTGGGCACCCCC CAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTGAGTAGGTATCTCAGCAGCACACCCGAACAGTAAAGGTGATCAAT AACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAAACTAGATACCGAAAGGGCTCCTCATTTGTCTCTTTTGTCCCATT GTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGGCCTGGCTGCAGAGACCTGCTCTTGAATAGGGCTGCCTTTGGGAT CAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGGAAGTGGTTACTTGGTGGGGGTGGGGTGGGGAAGGGGGGTCTAGG AAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGAGGGTCAGCTTGTGTTTTATTTTCTGATTTCTCCTGCATGCTTTC TGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACCTTGTGTCCATATAGCACAATGTTTCTCTTTCCTATTCACAGACA AGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGAATGGCATCACTTGCTTTAGACCCATTTTTTTTTTATTGGTCAGA AATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCCCTGTTTATCACTTCCATGCATGGTTTTATGCTTCTCATTTGTTT ATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTTTGCTTTCCAACTTGTATCCCTACATTCTCACAACAGCCTTCTTA CCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCCAGGATAGTGTGGTGGAGTCAGGACTCACTCCATCCTGCACTTTA CCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGAACGTCGTGTGAGTACACCGAGGTGTTGCAGCTTTCCTTCCCTCT AGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGTTGGCTCCTGCCTGGTGGAACAAGGGGGTCATAGAAACCAGGGCT GATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCACAGGGTACCGAGTCTTTGCCTTTTGTGTGTGCGCATGCTGCCCTC TTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCCTGAAAGTGAAACCCTCTTAGGCAACTTGTTTCATATTCTGGGCA TTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAGTATTGTACAGCCCTATAATGTATGAGAACTAGTTTCACATCCTT TGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTACACAGGTGGACTTTGAATCCATTTTTATAGAATTTTTTTCCACTG TAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAAGGGAGACTACACAGACCTTGTGATTTGGTCTGAGCTAGTTGCTG AGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTCACACTGTCAGTGAGCCCTTGGCTCAGCCCTTGTCACCTGTTTGT ATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGACAGAGTCGGGTAGTGGGAGAGTATAAGTGACTTGAGACAGAGTGT CCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGCCAGTCCTAGTTGCATGTCCAAGGGGGTAGATTTTCATCACCCTA CTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAATATCTTAGGCACTATTGTCTTTTGTCTTCCAGAGTAACATATCTG GGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTGGAGTTGGGAGGACAATTTCACTTGAACAGGTTTCTGTTCTTCTG AGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTGCAAGACAGTAAGCCGCGGATGGACTCTCACTTGTGCTTTGGAAC ACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGATGGCTAATACTCAGGCAGAGCCCCGTATTCTTCCCTGACTTGGT CAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCCAGCTTCCAGTTTTTAAAGAGATGAACAGCTCTCACTTCCTGACT CAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGGGTGCTAGGGTTTAAACCAAGTGGTCACGAAGGATTCTTATCTCA GGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATCCACATCCCTGCAGAAGGTGGGCCCTATTCTCAGAAGAGTCCTGG CTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGCAGTGGCCTTACCTGGCCTCTCAGGTGGATGGAGGCTGTTCTCAT CTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGACCATGTTTCCCAACGCACTTTGAGTGCAGTTTAGGAGGTATCCTT TGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATGAGAATAGAGGGGCAGAGTTTGTGAAGTCTAGGGTTTTTTGTCCA GTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCCCACCCTCCCCTTCCTTTTCCCATCAAATGCCTACCTACTGAGGC GCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTATTAATAAGGATTGCAATAGTATAGTGCTTAATATGTGCCAGGCAT AGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAGCCTTTGATTAGGTATTGTTGTCTCCATTTTATAGATGAGGAAAC TGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTTGGGATCAAATCACCCTAGGTGCGGGCAGGTTTCTAGGCTGCTCT AAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTTCCTGGGGTGGTTGTGAGGATATAACGAGGTAATGCATGTAAGCA TTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGTTACTTTTGTTGAGCTCAGCTGGTAGTTTGACCTCCGTTGGTGCA ATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCACACAGTCTGGGTCCCTCCGAGAGAAGCACGCCAACCTTAACATC CCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCTAACGAGGCAAGAGGACATGGGGGTGTGCAGAAGTTCTGTTCTTA GTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACAGTCTGGACTGCTTGTGGGAAGGCCATCTCCTCCTGTCTGGTGGT ACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGACCCCACTTCCCGCTCTGGCCAAGGGCTGTCTTCTGTGCACATAGC TCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGGCCAAGAAGAGAAGAATGGGGACAACAGAAACCTGCTTTGTAGGG GATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGACGCAGCCAATCTGGAGCTTCATGTTTCCTTCTAAAAGTAGTAAC CGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATTTCTGCCGGATTCTAGGTTAGCAAAGACTCAAATGGGTGACTCAT GAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTGAACTTAGTTTTCTGAATGGGGGTGGGGAGTTGGGGCACGTGTGT GTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAGGATCCATGAAATTCCTAGGTCAGTTGAATAATAACTGAACTACT GGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGCACATTGCTATTAATAGTATGGAAATAATGGTCCCTCTGTTTCAT TGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGTTGTGGGGGTTTCTAGGAAGCAGCTGCTGTGACAGGCCAATCCCA GGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTTGCCTGGTGCTTCCTCCCTCATTGTGTTGTTGAATAGACCTAGGC AGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGGTTGTGGTAAGGGCCCTCTGGAAATCAAGCAGAGAATGCCTTTGC AGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCCAGAGGACCTTGCCTGCATAAAGCACTCAGAAGGGTTAGCCACCT GGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCACATAGCCACCTCTGTCCTCGCAGTTTGGATGCCTTTTTTTGACAC CTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGAGTAGAAAAGAGGTTGAGAATGTTTTCTAGCAGGCAGAATGTGCA TACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCCTCTGTGCACAGGGCTCTGGCCTTTAGTAAACTGTTTTTCTGTCT TACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGAGTTGAACAGACATCAGGGGCCGATGAAACCAAAGGACTAGGAGT CAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGTTATCCAGCTGGAGGACTCCTAGGGGCAGCAGCAGGAGGAATACC AGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTAACAGATGCCAGCTGAACGCTCGCTGGCCCTGGATGTCATACGAG TTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTTGAAGCCATGGGTTATCTTCTAGAGTTGATACTGATAATATATTT TAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGATCAGATGGGAAGCCCCTCTGTTGAAGGATCTTGGGAACCTTGGTG GTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGACATCCTTCTTAATTCGATTCTGAGGATTTGTTTAACTAAAAAGTT CCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTGTGCTGGGAGTGCCAGGCATCCCATGGGACCCATCACTGCCAGTG TCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCCTCTGTGACAGGGCAGAGCATTTCTGGTCAGTTTCTCCATGGTGC CTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGTCTCACCCTGATAGCCTGGGTGTTGATATTCACTTTACCCGCACT CAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACGTGACAGTCCCCACAGCCTCCCCAGATAGCTGTGTGCCTGTGCGC TACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCTGATCTCTCTCTCTGTGCACTCGTGATCCATGTTGAACAATACAT GTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGTTGGAAAGCATTTACCTTATTTATATACCTGAATGTTCCTACTAC >30463_30463_10_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000381724_CDS2_chr20_5169713_ENST00000460006_length(amino acids)=139AA_BP= MGSPSVEGSWEPWWFFFFFWFFFFDRAVDILLNSILRICLTKKFPNTERASPPALGSCLCWECQASHGTHHCQCLCLPEVSRVCPGSVSS -------------------------------------------------------------- >30463_30463_11_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000400137_CDS2_chr20_5169713_ENST00000379062_length(transcript)=736nt_BP=249nt GTCGCGCGCCGTGTGGGGCGCGCACGCAGGGCTGGGCGTGAGGGGGCGTGCGCGTGCGCAGGCGACGCGCCGAGGTACTAGGCAGAGCCG TGGAACCGCCGCCAGGTCGCTGTTGGTCCACGCCGCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGG AAACCATCTCCCCAGGAGACGGGCGCACCTTCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCC TTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTT AAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAAT GTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATC TTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACA GGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTT >30463_30463_11_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000400137_CDS2_chr20_5169713_ENST00000379062_length(amino acids)=168AA_BP=1 MLNQFAWVRASDKTGDVYIDKGGHQILAVKAIHDASMARNGIGKVFDFKGSFESTCEESSKGANERGKGGESDAVNLEGVHPDRFRCSAP -------------------------------------------------------------- >30463_30463_12_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000400137_CDS2_chr20_5169713_ENST00000460006_length(transcript)=8259nt_BP=249nt GTCGCGCGCCGTGTGGGGCGCGCACGCAGGGCTGGGCGTGAGGGGGCGTGCGCGTGCGCAGGCGACGCGCCGAGGTACTAGGCAGAGCCG TGGAACCGCCGCCAGGTCGCTGTTGGTCCACGCCGCCCGTCGCGCCGCCCGCCCGCTCAGCGTCCGCCGCCGCCATGGGAGTGCAGGTGG AAACCATCTCCCCAGGAGACGGGCGCACCTTCCCCAAGCGCGGCCAGACCTGCGTGGTGCACTACACCGAAAACGGTCCGGATGTACCCC TTCCAGATTCACAGCATCGCTCTCTCCACCTTTGCCTCGCTCATTGGCCCCTTTGGAGGATTCTTCGCAAGTGGATTCAAACGAGCCTTT AAAATCAAAGACTTTGCCAATACCATTCCTGGCCATGGAGGCATCATGGATCGCTTTGACTGCCAGTATCTGATGGCCACCTTTGTCAAT GTATACATCGCCAGTTTTATCAGAGGCCCTAACCCAAGCAAACTGATTCAGCAGTTCCTGACTTTACGGCCAGATCAGCAGCTCCACATC TTCAACACGCTGCGGTCTCATCTGATCGACAAAGGGATGCTGACATCCACCACAGAGGACGAGTAGGGGCCACCCAGGGCCAGGAGAACA GGAACAGAACTGAGCAGGGGCAGGTCTCCAAGGCAAGCCCAGCTGGTGTGACTTAGACAATGACGAGGCTTCAACTCACTGTCTTTTTTT TTTTTTTTTGGAGGGTATTTTTTATTTGTGGGTTCAAAAAATCTGTATATACAGTCTATGTGTTTAGAATTTGTGTTGTAAGTAAACTAC AGCTTTGAGTTGGAAAGAAGTCACGGGTTGTAAAACCATTTGGATTTTTTTAAAACAAAAGTATTAATAATCTGGAAGACAGTGTTGCCC AGGTCAGGAGTGTTTTCTTGGTGGTTCCAGCCCCCATCAATTGAACTGTTTCTGGGCTCAGTCAGACACAGACATTCATCTGTGTCTGAC CAAATCAGGGGACTTCCCCACCTGTGGTGGGAGGCACAGCTTAGATGTTTTGTACACCTGGTCTTTTCTAGAAATCCCTGCTTGGAGCTG CAGAAGGGTTGCCTTCTGTAGGTCGGAGGAATGGAGGCTTACTAACCAGGTAAGCCTTCTATGCATCCACACCAAAATCCTGCAGAATGT AAGTAAGCTCTGCTTTATAAGATGGGTTCACCTTCATCGCAGACTGAAAGTTTCAGTTTTTATTTTTTTCAGAAAGCACGAAAAATTATT TATAATAGTCTGGAGAAAAAACACACTGTAATATTTCAAGTGTATGCAGTAGAATGTACTGTAACTGAGCCCTTTCCCACATGTCTAGGC TCCAATGTCTCCTGTAGGTCCACCTAACTGTGTGTTTTCAGGGACAATGCCATCCATGTTTGTGCTGTAGACTTGCTGCTGCTGAATCCT TTCTGGGGACTTTCTCATCGGGCAGGGAGCAGAGGGCTTCTCGTTCATGCACCCTTTGCCTGAACACCCATGTAGCTGCTGTGTTGTGTA TATATTACTCTTAAGAGGAGTGTGTGTGTCTGTGTTTGTTTTAAAAGTCACTTATTTCTTACAGTGATTTCAATTGCACCATGACTTCTT CACTAAAACCACAAAGTCCTGCTTAAAACTATGGAAAACCTAACCTGATTAGAGCCTTGACTATTTTGAAGATTAAATGCACACTTTTTA TATAATGTGACCAGTTTAAATGTAGTTTGTATTGTACTGGGGGACCTTTCGTTGTTGTTGTTTGCTTAAACTGTGATTTTTTTTCCCCTC CCTAATTTCAGGGGTGAGATTGACTTTGGGAAGACAGATTAGTTCTTTGTCAGGCCAACAAGTGATGGAGTGCGGGAGAGAGAACTTGGC ACCCAAATATATCAAACTATTCCGTGCCGTGGATGTTTTCATTGCCAACGAGGGTGTAATGATTTGCTTCTGCACCTTGGTCTAGTGCTG GTTTGTGGTGTTTTTGTTTGTAAATTAGCCTCACTGCCTCCCTGAAAGTGCACAGTCAGCCCAGGTCTCTAGAGTGTCCAGCAGAGGATG GAGCCCTCGGGATGTTTCAGCTCACACATCCTTGAGTGACTTCCCATATGTGTGTGGGGCTGAAGCGGCTTCTTTCCGCTGAACTTTTAT TTCCATTTCAGCCTCGTGGCTTCTCTTATTCAGGTCCAAGGCCCCTTAAAAACAAAACATATTATCGCAAGGGCTTTCATTTCAGTATTG GCTGTGTCACTGGCAGGATGCATCACTCTCCAGGGCCTCTTTTTCGGAGCTACTCCCAATTCCACTCTTCTGTGATTCTGGCTGAGCAAG TTCATGCCGGTAGAGGCTCATTAAGTGAGGTCCTGGGCACCCCCCAAACAGGAAGTGTTTTCAGGCCCTTACATGCTTATCCTTAAGGTG AGTAGGTATCTCAGCAGCACACCCGAACAGTAAAGGTGATCAATAACGAAACTGTAGTTTTCAGATTGAAGAATGAACCTGGATCACCAA ACTAGATACCGAAAGGGCTCCTCATTTGTCTCTTTTGTCCCATTGTGGGCATATGGTGGGCTCCTTGAGAGGAGGGAGTCTCAGCTGGGG CCTGGCTGCAGAGACCTGCTCTTGAATAGGGCTGCCTTTGGGATCAGGGAGCCGAGCATACTGGGCAAGGCTCATCATGTTCCTTTGTGG AAGTGGTTACTTGGTGGGGGTGGGGTGGGGAAGGGGGGTCTAGGAAGCCGAAGCTGAGTGCGCACTAGAGCTGCTAGCAGGCAGGCCAGA GGGTCAGCTTGTGTTTTATTTTCTGATTTCTCCTGCATGCTTTCTGGAGATGAGGATTTTTTGTCAGGTAGCTAGGAGAGCACTGCCACC TTGTGTCCATATAGCACAATGTTTCTCTTTCCTATTCACAGACAAGATTCAAGAAACCATTTTTACGTGTGTACATTCAAATCTTCATGA ATGGCATCACTTGCTTTAGACCCATTTTTTTTTTATTGGTCAGAAATAAAATGTGACTGCAACTGTGTGCCCTCCCTTGTCGTGAATTCC CTGTTTATCACTTCCATGCATGGTTTTATGCTTCTCATTTGTTTATGTATTCATGAATACTGCATAGTCCTGATTCAGAGACTTTTGCTT TGCTTTCCAACTTGTATCCCTACATTCTCACAACAGCCTTCTTACCTCGGGTGAGAGTCATGAGCACCTTACCAGGCAGGGAGCTTCCCC AGGATAGTGTGGTGGAGTCAGGACTCACTCCATCCTGCACTTTACCCACAGGACACCTGGAGGGTCCCCCAGCCCTGCTTGCTTTTGTGA ACGTCGTGTGAGTACACCGAGGTGTTGCAGCTTTCCTTCCCTCTAGCTCAGGAGGCCTGGCCTGAGCCAGGTTGGAGCTTAAATTGCTGT TGGCTCCTGCCTGGTGGAACAAGGGGGTCATAGAAACCAGGGCTGATGGGCACCCCCCAGCCCCTGGGAGCTCTGCTCATGACCGCTCAC AGGGTACCGAGTCTTTGCCTTTTGTGTGTGCGCATGCTGCCCTCTTAACTGCTTTTAGTATTCAGAAAGGTTCCATTTATGTTTTACTCC TGAAAGTGAAACCCTCTTAGGCAACTTGTTTCATATTCTGGGCATTTTAGTAGCTACAGTATTTTGCATTTAAAATGTAATTACTCTTAG TATTGTACAGCCCTATAATGTATGAGAACTAGTTTCACATCCTTTGAAACTAATCTCTTTCATTGGGGAGGATACAACTTTTGACTTTAC ACAGGTGGACTTTGAATCCATTTTTATAGAATTTTTTTCCACTGTAACTTGACCTATATTATGCAAGAAAATCCCAAAAATATGTTTTAA GGGAGACTACACAGACCTTGTGATTTGGTCTGAGCTAGTTGCTGAGTTGACTGGAGCCTTATTTGAATGGATCTTTGAGTTGAGATCTTC ACACTGTCAGTGAGCCCTTGGCTCAGCCCTTGTCACCTGTTTGTATGGGGACCATGTTTCCCAAAGCTCAGGTTCATCTCCACTATTGAC AGAGTCGGGTAGTGGGAGAGTATAAGTGACTTGAGACAGAGTGTCCTTGCTCAGAAAACTGTGAAGCAGGGGTCTTGTTAGTTACAAAGC CAGTCCTAGTTGCATGTCCAAGGGGGTAGATTTTCATCACCCTACTAAATGTGGTATGTCACTGCTGAAGCCTTTTCCTGTTTTAGTAAT ATCTTAGGCACTATTGTCTTTTGTCTTCCAGAGTAACATATCTGGGCCCACCTTTCTTGCACACTGTGATTATGTGCTAAGAAAAGGGTG GAGTTGGGAGGACAATTTCACTTGAACAGGTTTCTGTTCTTCTGAGGTCAGGGTGGGGAGGATGTCCAGGTGACTTTTATGGACACATTG CAAGACAGTAAGCCGCGGATGGACTCTCACTTGTGCTTTGGAACACTGGACTCCAAAGAGCAGGTGGAACAAACTCTGGCCTGAAGATGA TGGCTAATACTCAGGCAGAGCCCCGTATTCTTCCCTGACTTGGTCAAAACAAACTTCCTTTTCCCTTGATCACCCTGCACGCAGCTGCCC AGCTTCCAGTTTTTAAAGAGATGAACAGCTCTCACTTCCTGACTCAGTTTCTCTTGTTGGGTGGGGGCCTTGTGCCACAACCTGCATGGG GTGCTAGGGTTTAAACCAAGTGGTCACGAAGGATTCTTATCTCAGGGCTCTGCCTGGCCCACCTTCTCTTGGGCCTGGACTCTCCTTATC CACATCCCTGCAGAAGGTGGGCCCTATTCTCAGAAGAGTCCTGGCTGCTGTTGCCATCTGAATGCGCCCTTCCCTTTCAGGTTGACCAGC AGTGGCCTTACCTGGCCTCTCAGGTGGATGGAGGCTGTTCTCATCTGGGGCTGTCTCTTGATTAAGGCTGTCACCTGTTTGTATAGGGAC CATGTTTCCCAACGCACTTTGAGTGCAGTTTAGGAGGTATCCTTTGGATGCTGAAGTGTTGGGATTTTGAGGACATGCGGATGATTTATG AGAATAGAGGGGCAGAGTTTGTGAAGTCTAGGGTTTTTTGTCCAGTGGGTTTCAAATTTGTTGGCTGTTTAAAGACCCTGTCTCCTCCCC CACCCTCCCCTTCCTTTTCCCATCAAATGCCTACCTACTGAGGCGCCTTCTCTTTTTATTCTTGAGCCAATGAGATATCAGTGTGTTTAT TAATAAGGATTGCAATAGTATAGTGCTTAATATGTGCCAGGCATAGTGCTAAGGGTTTACATACGTTATCCCTTTTAATCCAGAAAACAG CCTTTGATTAGGTATTGTTGTCTCCATTTTATAGATGAGGAAACTGAGGCAGTATGACTGAGGCCGAGAGCAGTGGTTAAGACAGACTTT GGGATCAAATCACCCTAGGTGCGGGCAGGTTTCTAGGCTGCTCTAAGCTTCTACCTTGAAGGCAGTTGGGTCTGATAATAGTACCTTCTT CCTGGGGTGGTTGTGAGGATATAACGAGGTAATGCATGTAAGCATTTAGTACCATGCCTGGCACATAGTAAGCACTCAATAAATGGTAGT TACTTTTGTTGAGCTCAGCTGGTAGTTTGACCTCCGTTGGTGCAATGCCAGAGATGGGATTGTCAGCCACCACACTGCCACCACCCTGCA CACAGTCTGGGTCCCTCCGAGAGAAGCACGCCAACCTTAACATCCCCTACAGCATCTTGGTGCTTCACACACCATTTAGGAGGCCACCCT AACGAGGCAAGAGGACATGGGGGTGTGCAGAAGTTCTGTTCTTAGTGAGAATGGCTGGCCTGAGAATCCAGCTCACCTCCTCTGCCCACA GTCTGGACTGCTTGTGGGAAGGCCATCTCCTCCTGTCTGGTGGTACCTCCACTCTGGGCAGGGAGGGCCTGTCTGTGACTCGCTCTGGAC CCCACTTCCCGCTCTGGCCAAGGGCTGTCTTCTGTGCACATAGCTCAGGAGCCTGCAGCAGTTCCCTGTATGGGTGGATGTCCTCAGGGG CCAAGAAGAGAAGAATGGGGACAACAGAAACCTGCTTTGTAGGGGATTATGTAGACTAAAAGCCTAGAAGTTCTGCCCACATCCTTATGA CGCAGCCAATCTGGAGCTTCATGTTTCCTTCTAAAAGTAGTAACCGGGTAGAAGTGGGTGACCCATTGAGGACACATGATGTGAGGTATT TCTGCCGGATTCTAGGTTAGCAAAGACTCAAATGGGTGACTCATGAATGAAGGGAGAACAGGCACAGGACTTAATGAAAAGAGTTTCTTG AACTTAGTTTTCTGAATGGGGGTGGGGAGTTGGGGCACGTGTGTGTAAGGGGAGGCTGCCTCACTTTGAAGGAATGGTGTTGGCTAACAG GATCCATGAAATTCCTAGGTCAGTTGAATAATAACTGAACTACTGGTTTGACTGTGGATTATTTCCTGGGTATTAGTGGGACCCAACAGC ACATTGCTATTAATAGTATGGAAATAATGGTCCCTCTGTTTCATTGAATTGCTGAAGTAATGATAATGCCATGAACCAGGAGAAGATGGT TGTGGGGGTTTCTAGGAAGCAGCTGCTGTGACAGGCCAATCCCAGGCTTGCCCCCGAGCCCTCCTGTCCTTCTGGGTTTGTGTTTGCCTT GCCTGGTGCTTCCTCCCTCATTGTGTTGTTGAATAGACCTAGGCAGCCTTGTATCCATAGAAAGCCTCCACTGCTGGGCCGGGGAGGGGG TTGTGGTAAGGGCCCTCTGGAAATCAAGCAGAGAATGCCTTTGCAGTGGTCTCCCGGGCATTGGGCAGGGCCTAGCCTTTTGCAGCCCCC AGAGGACCTTGCCTGCATAAAGCACTCAGAAGGGTTAGCCACCTGGTGATTTTGTCTCTAGTGAAACTGTGTTTGCCGATAATCATCCAC ATAGCCACCTCTGTCCTCGCAGTTTGGATGCCTTTTTTTGACACCTGCGCTAGGTTCTTGTATGCTGGCTTTTCTTAAAGGAACAGCAGA GTAGAAAAGAGGTTGAGAATGTTTTCTAGCAGGCAGAATGTGCATACATGTTTTCATGAGTGTCCTTTGGGTGCTGTTTCTTTTAAATCC TCTGTGCACAGGGCTCTGGCCTTTAGTAAACTGTTTTTCTGTCTTACGTCATGCTGACTGGGTGCTAGGGGCTGATTACAAAGGGGAAGA GTTGAACAGACATCAGGGGCCGATGAAACCAAAGGACTAGGAGTCAGGAGAACAAGTCAGGGATTAGGAGACAGCGGTTTGGTTTATTGT TATCCAGCTGGAGGACTCCTAGGGGCAGCAGCAGGAGGAATACCAGGGCCACGGAGGGGCCAGGAGTCTCACAGTGGAGGGCAGACTCTA ACAGATGCCAGCTGAACGCTCGCTGGCCCTGGATGTCATACGAGTTGGGGACCAGAAATCTGGGCTCAGAGAACCCGTCCAGGGAGATTT GAAGCCATGGGTTATCTTCTAGAGTTGATACTGATAATATATTTTAATTTTTATTGATGTTTAATACCTTCTGAAACAGGAGGGTAAGAT CAGATGGGAAGCCCCTCTGTTGAAGGATCTTGGGAACCTTGGTGGTTTTTTTTTTTTTTTTGGTTTTTTTTTTTTGATCGAGCTGTGGAC ATCCTTCTTAATTCGATTCTGAGGATTTGTTTAACTAAAAAGTTCCCAAACACAGAAAGGGCCTCCCCACCTGCTTTGGGGAGCTGTCTG TGCTGGGAGTGCCAGGCATCCCATGGGACCCATCACTGCCAGTGTCTGTGCCTCCCAGAGGTCAGCCGTGTCTGCCCTGGCTCTGTCTCC TCTGTGACAGGGCAGAGCATTTCTGGTCAGTTTCTCCATGGTGCCTCCCACCCCTTTGTAAAGTGGATGGACATGATGGAATTCAGTTGT CTCACCCTGATAGCCTGGGTGTTGATATTCACTTTACCCGCACTCAGACACAGGCGACCTTGAAGCAGTTCTCGGTGTGTAGAGTCCACG TGACAGTCCCCACAGCCTCCCCAGATAGCTGTGTGCCTGTGCGCTACTGCTGTGCCATTTTCCCAACTTGGCGTTTCACTAAATGCAGCT GATCTCTCTCTCTGTGCACTCGTGATCCATGTTGAACAATACATGTAGGTTCTTTTTCCACGCAATGTAAGAACATGATATACTGTACGT >30463_30463_12_FKBP1A-CDS2_FKBP1A_chr20_1373478_ENST00000400137_CDS2_chr20_5169713_ENST00000460006_length(amino acids)=168AA_BP=1 MLNQFAWVRASDKTGDVYIDKGGHQILAVKAIHDASMARNGIGKVFDFKGSFESTCEESSKGANERGKGGESDAVNLEGVHPDRFRCSAP -------------------------------------------------------------- |
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Fusion Gene PPI Analysis for FKBP1A-CDS2 |
Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in |
Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160) |
Hgene | Hgene's interactors | Tgene | Tgene's interactors |
- Retained PPIs in in-frame fusion. |
Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Still interaction with |
- Lost PPIs in in-frame fusion. |
Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Interaction lost with |
- Retained PPIs, but lost function due to frame-shift fusion. |
Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Interaction lost with |
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Related Drugs for FKBP1A-CDS2 |
Drugs targeting genes involved in this fusion gene. (DrugBank Version 5.1.8 2021-05-08) |
Partner | Gene | UniProtAcc | DrugBank ID | Drug name | Drug activity | Drug type | Drug status |
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Related Diseases for FKBP1A-CDS2 |
Diseases associated with fusion partners. (DisGeNet 4.0) |
Partner | Gene | Disease ID | Disease name | # pubmeds | Source |