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in Kim Lab

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Center for Computational Systems Medicine
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Fusion Gene Summary

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Fusion Gene ORF analysis

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Fusion Genomic Features

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Fusion Protein Features

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Fusion Gene Sequence

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Fusion Gene PPI analysis

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Related Drugs

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Related Diseases

Fusion gene:AMD1-EPG5 (FusionGDB2 ID:HG262TG57724)

Fusion Gene Summary for AMD1-EPG5

check button Fusion gene summary
Fusion gene informationFusion gene name: AMD1-EPG5
Fusion gene ID: hg262tg57724
HgeneTgene
Gene symbol

AMD1

EPG5

Gene ID

262

57724

Gene nameadenosylmethionine decarboxylase 1ectopic P-granules autophagy protein 5 homolog
SynonymsADOMETDC|AMD|SAMDCHEEW1|KIAA1632|VICIS
Cytomap('AMD1')('EPG5')

6q21

18q12.3-q21.1

Type of geneprotein-codingprotein-coding
DescriptionS-adenosylmethionine decarboxylase proenzymeS-adenosylmethionine decarboxylase 1ectopic P granules protein 5 homolog
Modification date2020031320200313
UniProtAcc..
Ensembl transtripts involved in fusion geneENST00000368877, ENST00000368885, 
ENST00000451850, ENST00000368882, 
ENST00000368876, 
Fusion gene scores* DoF score15 X 13 X 4=7806 X 7 X 3=126
# samples 157
** MAII scorelog2(15/780*10)=-2.37851162325373
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
log2(7/126*10)=-0.84799690655495
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: AMD1 [Title/Abstract] AND EPG5 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointAMD1(111196418)-EPG5(43479531), # samples:2
Anticipated loss of major functional domain due to fusion event.
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

check button Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez
PartnerGeneGO IDGO termPubMed ID

check buttonFusion gene breakpoints across AMD1 (5'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.
all structure
check buttonFusion gene breakpoints across EPG5 (3'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.
all structure

check button Fusion gene information
* 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.
SourceDiseaseSampleHgeneHchrHbpHstrandTgeneTchrTbpTstrand
ChimerDB4PRADTCGA-VP-A875-01AAMD1chr6

111196418

+EPG5chr18

43479531

-
ChimerDB4PRADTCGA-VP-A875AMD1chr6

111196418

+EPG5chr18

43479531

-


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Fusion Gene ORF analysis for AMD1-EPG5

check button 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.
ORFHenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrand
5CDS-5UTRENST00000368877ENST00000585906AMD1chr6

111196418

+EPG5chr18

43479531

-
5CDS-5UTRENST00000368885ENST00000585906AMD1chr6

111196418

+EPG5chr18

43479531

-
5CDS-5UTRENST00000451850ENST00000585906AMD1chr6

111196418

+EPG5chr18

43479531

-
5UTR-3CDSENST00000368882ENST00000282041AMD1chr6

111196418

+EPG5chr18

43479531

-
5UTR-5UTRENST00000368882ENST00000585906AMD1chr6

111196418

+EPG5chr18

43479531

-
In-frameENST00000368877ENST00000282041AMD1chr6

111196418

+EPG5chr18

43479531

-
In-frameENST00000368885ENST00000282041AMD1chr6

111196418

+EPG5chr18

43479531

-
In-frameENST00000451850ENST00000282041AMD1chr6

111196418

+EPG5chr18

43479531

-
intron-3CDSENST00000368876ENST00000282041AMD1chr6

111196418

+EPG5chr18

43479531

-
intron-5UTRENST00000368876ENST00000585906AMD1chr6

111196418

+EPG5chr18

43479531

-

check buttonORFfinder result based on the fusion transcript sequence of in-frame fusion genes.
HenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrandSeq length
(transcript)
BP loci
(transcript)
Predicted start
(transcript)
Predicted stop
(transcript)
Seq length
(amino acids)
ENST00000368885AMD1chr6111196418+ENST00000282041EPG5chr1843479531-839844629435391081
ENST00000451850AMD1chr6111196418+ENST00000282041EPG5chr1843479531-838443228035251081
ENST00000368877AMD1chr6111196418+ENST00000282041EPG5chr1843479531-838343127935241081

check buttonDeepORF 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.
HenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrandNo-coding scoreCoding score
ENST00000368885ENST00000282041AMD1chr6111196418+EPG5chr1843479531-0.0004329550.9995671
ENST00000451850ENST00000282041AMD1chr6111196418+EPG5chr1843479531-0.0004223860.9995776
ENST00000368877ENST00000282041AMD1chr6111196418+EPG5chr1843479531-0.0004230270.999577

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Fusion Genomic Features for AMD1-EPG5


check buttonFusionAI 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.
HgeneHchrHbpHstrandTgeneTchrTbpTstrand1-pp (fusion gene breakpoint)

check buttonDistribution 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.
genomic feature

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Fusion Protein Features for AMD1-EPG5


check button Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr6:111196418/chr18:43479531)
- 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.
FGviewer

check buttonMain function of each fusion partner protein. (from UniProt)
HgeneTgene
..
FUNCTION: Transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. Recruits CREB-binding protein (CREBBP) to nuclear bodies. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). {ECO:0000250}.FUNCTION: Transcriptional activator which is required for calcium-dependent dendritic growth and branching in cortical neurons. Recruits CREB-binding protein (CREBBP) to nuclear bodies. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC1 repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). {ECO:0000250}.

check buttonRetention 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

download page


* 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.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
TgeneEPG5chr6:111196418chr18:43479531ENST0000028204125441607_163315482580.0Coiled coilOntology_term=ECO:0000255

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note


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Fusion Gene Sequence for AMD1-EPG5


check button 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.
>4193_4193_1_AMD1-EPG5_AMD1_chr6_111196418_ENST00000368877_EPG5_chr18_43479531_ENST00000282041_length(transcript)=8383nt_BP=431nt
GCTTACACAGTATGGCCGGCGACATTAGCTAGCGCTCGCTCTACTCTCTCTAACGGGAAAGCAGCGGAATACAAGAGACTGAACTGTATC
TGCCTCTATTTCCAAAAGACTCACGTTCAACTTTCGCTCACACAAAGCCGGGAAAATTTTATTAGTCCTTTTTTTAAAAAAAGTTAATAT
AAAATTATAGCAAAAAAAAAAAGGAACCTGAACTTTAGTAACACAGCTGGAACAATCCGCAGCGGCGGCGGCAGCGGCGGGAGAAGAGGT
TTAATTTAGTTGATTTTCTGTGGTTGTTGGTTGTTCGCTAGTCTCACGGTGATGGAAGCTGCACATTTTTTCGAAGGGACCGAGAAGCTG
CTGGAGGTTTGGTTCTCCCGGCAGCAGCCCGACGCAAACCAAGGATCTGGGGATCTTCGCACTATCCCAAGAACCGCAGCTCTTCGGGAA
TCTCAGCAGGTTGCTCTGGATGGTGAGCTGTTAGACACAATGCCAAAGCAGTATGTGAATCGTGAAGAACAGACCACACTACATTTGGAG
TGCAGAGGCAGCAGCGGTAAGAAATGCCAAGGAGCCGCAGTTGTCACGGTTCAGTTTGAAGGCATGCATAAGAATGAAGCCATAAGCCAA
CAGCTTCATGTTTTACGGAAGGAAGTGAAGCAGTTGCAAGCAGAAGCTGCTAAACCACCATCACTTAATATTGTGGAAGCTGCTGTACAT
GCAGAAAACTTGATCACGGCCTTAGTGAATGCCTACAAGTTGCAGCCTACACCTGGGATTCAGAAAGTTGGCATTAGCCTTTTCTTTACT
ATTGTGGATTACGTCAGCGATGAGACGCAGCGTCATCCCCCAACAAGGCAGTTCTTTACTTCATGTATTGAGATCTTGGGACAGGTATTT
ATCAGTGGCATTAAATCAGAGTGCAGAAAAGTACTTGAAACCATTCTGAAGAACAGCAGGCTCTGCTCCCTGCTGTCTCCTTTCTTCACT
CCCAATGCTGCACCTGCAGAGTTCATACAGCTGTATGAGCAAGTGGTGAAGTTTCTAAGTGAGGACAACAGTGATATGATTTTCATGCTG
CTAACCAAGTTCGATCTTAAACAATGGTTAAGCGCCACTAAACCTCCTCTGTCTGATCGTACCAGGCTTCTGGAGTCCATTCACTTGGCA
CTTACTGCCTGGGGCCTTGAACCAGATGAGGATATTTTGATGCCATTTAATCTTTTCTGTAAGCACTGGACTTATCTTCTTCTCTACCAG
TTTCCTGACCAGTACAGTGACATTCTCAGGCTGCTTATGCAAAGCTCCGCGGAGCAGCTTCTGAGCCCCGAGTGTTGGAAGGCCACTCTG
AGAGCCCTGGGCTGCTGCGCCCCCAGCTGCCAGCAGGGGGCAGCGTCCACCGAGGGCGCCGTGCTTCCCAGCTCTTCTGATGCTCTCTTG
TCAGACAAGCAGGTAATGGAGACTATACAGTGGCTTTCAGACTTTTTTTATAAGCTTCGGTTATCCAAGATGGACTTTAAAAGCTTTGGT
TTATTCTCAAAATGGAGTCCTTATATGGCTGATGTGAAGACATTCTTGGGCTACCTTGTGAAAAGGCTGATTGACTTAGAAATGACCTGT
TTGGCCCAAGACCCAACTGCCAGCAGGAAAACAGTGCTGAAATCCCTACATTCAGTAATCATTCAGCTCTTTAAGCCATGGATCCTGGTT
TTAGAGGACAACGAAAGCAGCCAACAGCGGCATTACCCCTGGCTAGAGAGTGATACTGTGGTGGCCTCAAGCATTGTGCAGCTGTTCACT
GACTGTATTGACTCACTGCATGAGAGTTTTAAAGATAAGCTGTTGCCAGGTGATGCAGGAGCCCTTTGGTTGCACCTGATGCATTATTGT
GAAGCATGTACAGCACCCAAAATGCCAGAGTTCATTCTGTACGCTTTCCATAGCACGTACCGGAAACTGCCATGGAAGGACCTGCACCCT
GACCAGATGCTCATGGAGGCCTTCTTCAAAGTGGAACGAGGAAGCCCCAAGAGCTGTTTCTTATTTTTGGGGTCTGTACTCTGTGAAGTC
AACTGGGTTAGTGTGCTCTCTGATGCCTGGAATTCCAGTCCCCACCCAGAAACCCGCAGCATGATTGTCTGCCTCCTTTTCATGATGATT
TTATTGGCAAAGGAAGTTCAACTGGTAGACCAAACAGATTCACCTTTACTTAGTCTCCTTGGACAGACAAGCTCACTTTCATGGCATCTT
GTGGATATTGTGTCGTACCAGAGTGTGCTAAGTTATTTCAGCAGCCATTACCCGCCGTCCATCATCCTGGCAAAAGAATCTTATGCTGAA
TTAATCATGAAGCTCCTAAAAGTGTCTGCGGGCCTTTCTATTCCTACTGACAGCCAGAAGCATCTTGATGCAGTTCCAAAATGCCAAGCT
TTTACTCATCAGATGGTTCAATTCCTCAGCACCCTGGAACAAAATGGAAAAATCACCTTAGCAGTCCTAGAACAGGAAATGTCTAAGCTC
TTAGACGATATCATTGTCTTTAACCCGCCCGACATGGACAGCCAGACCCGCCACATGGCCCTCAGCAGCCTCTTTATGGAAGTCCTGATG
ATGATGAACAACGCGACTATTCCAACAGCAGAGTTCCTTCGGGGCAGTATCCGGACCTGGATTGGCCAAAAAATGCATGGGCTGGTGGTG
CTGCCCCTTTTAACAGCAGCCTGCCAGAGCCTGGCGTCCGTCCGCCACATGGCTGAGACTACAGAAGCCTGCATCACTGCCTACTTCAAA
GAAAGCCCTCTCAATCAGAATTCAGGATGGGGACCCATTCTGGTATCCCTTCAGGTTCCCGAGCTCACCATGGAAGAGTTCCTGCAGGAG
TGCCTCACCTTGGGCAGTTACTTGACTCTTTACGTCTACTTGCTTCAGTGTTTAAACAGCGAACAGACTTTAAGGAATGAAATGAAAGTG
CTGCTCATCTTAAGCAAGTGGCTGGAACAGGTGTACCCAAGCTCCGTGGAGGAAGAGGCAAAGCTGTTTTTGTGGTGGCACCAAGTCCTT
CAGCTCTCCCTCATTCAGACAGAGCAGAATGACTCCGTCCTGACAGAATCTGTCATTCGAATTCTGCTCTTGGTTCAGAGCAGGCAGAAC
CTCGTGGCTGAGGAGAGACTCAGCTCTGGGATCCTGGGGGCAATTGGGTTTGGCCGGAAGTCGCCTTTGTCTAACAGGTTCCGAGTGGTT
GCCCGAAGCATGGCTGCCTTCCTTTCAGTTCAGGTTCCTATGGAAGATCAGATCCGTTTGAGGCCTGGCTCTGAATTACATCTGACCCCC
AAAGCTCAGCAGGCTCTGAATGCTCTTGAATCCATGGCATCAAGTAAGCAGTATGTTGAATACCAGGATCAAATATTGCAAGCCACCCAA
TTTATAAGGCATCCTGGCCATTGCCTTCAAGATGGGAAAAGCTTCTTGGCTCTTCTCGTTAACTGTCTGTATCCAGAAGTGCATTATTTG
GACCACATACGATAGTTAACACTGAGGCTCTTGAAAAACCCATTGCTGTTTATGTTTACATTTAACTTTGCTGTTGCACAAGTAACTTTG
CTCAATTGCACTGTAGAGCTCAGTTTGGCCAATGTGTAGTTGACTGAGATGCAAGTTGGGAGGCGTTAGATATTAGATAATTTTGGGGTG
TGTGTGTGTGTGTGTGTGTGTTTTCTTAGCTCTTAAGACCTTCTGGGGACTCTTTAAGTTTTTATATTTATCCACAAGAGAAACTTACTA
AGTTCCACTTGGGTGCAGAGCCACTCACAGTTGCCGAATGTCCCAGTCATCTCACAAGACCTCCAGATGGAGTTCTTTGTATGTTTCCAC
TTCTGTCTCTGTTTTATGTAAATGTTCCAGATCTGACAACCTTGGAAGTCACTCAGTACCCTTACTTTTAAACCCCATTTGTGTTCCTCC
AAAGTAAAGAAGTCAATTTTGAAAAATTTCTGCATTTCTCAAATGTGGACAAATACAATAGTTTTAAAGTATTGTTTTTCTCAGAAGGGA
GATAAAAATGCCGAGTTAGTTAAAGTGGGTCATGTGTAAAATACGACCACTTGATCGTGATTATAGTGGGCAGTAGAGATGATGACAAGT
CAATTTCCATCCAGCCGTGTATCCTCATGGAGAAGCTGCCTGTCTGAATCAGGATGGCAAGCTGGCAGTCTGGGAGGAGCATGTTTTGCA
CAGATGTTTTGTTTGGTCCACTTGGTGAGGAGTGCAGACAGGGCTGCCTCTCTCTAGTCGGGAGAGTCTGTGCATTCCCTCGGGCCCTGA
CCCTAGCCTCATTCACATCACTTGCCCCTGTCGACACCTAAGTTTGCACCCTTTGATAGACACCATGTTCGATATCTGAAAGGCTCAGTG
TCAGGAGACAGAGACTGAGGGAGACTGAAGACCTGATTCTCTGTTCCCTGCTTGTTTTTTAACTTCAAACTCAGATGAAGCCAATGGACC
TGCTGAAACACTTGTCTGTGGAAACTGGGTCAGGTCGGGAGATCTACTGAAATTTGGCTTTTTTTCCATAGCCACGTGCCTTCTGTTGTT
GACAGTTCATTCATTACCAAAGCCTGTGTGTAACTTTGCCTTGTTCTGTGGCCATCTTCTTGCTCATGTTATTTCTCCTGGGAATGAGCA
GTTTGACTTCTGTTCCCACGTTCCTCATTCTATCAGCTCTAGATGGATTTTGCCTGCATAGCTGGCTTAATATGTCTTTGTGTATGGGTA
GTCTGTAGCCTGAGAATATTTACCTAAAAATGTCTAAACAGCCACCAAGAATGTTTATAGGGGTATAGGAATATAGTTAACAGAGTGCTA
ATCTCTCCTCAAATGTCCTTTTGGAATGCTTCCCCCAAAATTGGGAAGTTGGTAGGAGCTTTTCTTTACTTTGAATTTCTTTACTTGGAC
AGAACGATTCTGCCTTAAAGACACGCTTTGCAGCTCTGATAAAGAACATCCCTGTTTAGTCTCTTGAGTTTTACAGGCCACAAAATGTCC
GTCTCAGAGGGATCTGTCTCAGCTTTTCTTATTTTTGCTTCTCTCCGTTTTCAAAATTAATCATCTTGTTCTCTGTATAAGAAAATTTGA
GAAGCTGTGGACAATTTAATAGTCTGATCTGGCAACAGCGATTTTTGTTTGGAAATATTTTGTGTTTTCTTTGAGGAGGATATAATTACT
GATATCCTAGGATGTGAAATTTTTGAGTGACAGTATGCACATTTTAAAGAAAATTATGATTAATCTGTATAATGTTTTTTGGTCTGTAAA
AATTATAAAAAATAAAATCATTTATCTTTGGTTGTAACTGTTTAAAAACCAAATTATAGGGATATCACACTATCTTGTAAAGTGTTTCAG
CTGTTAAAGTTGCTGTAGGTTTTTATGCCTGATGTCATTTAATTTATTTGACATTGAACTTCATTAATAATCAGAGATGGTCAGTGAAAG
CGCTTCCTCTTTAACTCTTTCTTGCTTAACCTTGGAAGGTTGACTCAACTCCTAGGTGTCTATGGGAAACTCTGGGCTAGGAACGTGCTA
TAAAGACACTGAGCTAGTTCAGACATGGCCATGCTGCTGTAGCCTCCTGGGAAAGAAGGGCGGCAGAGAGACCAGCCCGCCTGTTGGCTT
GCAGGGGTAATGAGCCTTGGCTTGAAAAAATTGTTGGCCTCCAGAGAGCACGGGGCTGTGGTTTCAGAATCAGTGATGGGTGCCGCACAT
CAAGACGGGAATCAAGCAAGACCAAGGCCCTGTGGACTGAGCAGCGTGGAGGGCGAACGGCTGCAGGCTCCAGACTTCACCACAGGGTGG
CCAACAGTGGCATCGGGACCAAATAAAGATGTCTAACAGCTTCCTGGGAGCAGGAGGAGGCAGGATTCTGGTTGCCATGAAAAACATCTC
TCTCCCTCTCCATCACTCCCCATGCTGCAGTGCACAGGTGGGTTGCAGAGGCAGGCTGCATCCCGGAATCATGTTGTCCCACTGCCTATT
AATAGAACAAGTGAAGGGCAGAATGCTGGAACACACCAGACATAGAGGGAGGGAGGTCCTGCCAGATGTGTCTACACAACTGTCTACATA
GCATGACAGTAGCAGTGGATTCGGGACCCACCTGTACATGTTTCCAAAGCTCCTTCCTGCACACTCGGGACCTCAGCTCCAAGGCGTGAC
TCATTTCTCAGTCTCACCATCCTTTGTTGGCTCAGACATCGCATGCCTCTGCCCCACTGGGGTTGTGTGCCTGCGTCTCTCACTTCTTTG
AGGTTGGGGAAAGCCTAGTCCAGAAAATGAAAACCCATAGACCAGCCTAACTTCCTTTCAACCAAGTGACGGCCTCCTGGTTCCTCTCAG
TTCATCATCAAAATCAGTGTGTACATGTCATACAAGCCAAGAGTGTTCATGTCCTCGTTCCTTTCAAATGAAGGTGATATATACTTTTTC
ACTGAGTTTTTATTCCTGAAATTCTTTCTTCTGGAGCAGGAAGCAAATGTCCTGGAATCGTAGACTTTTACAGTCAGAAGGGTCATTCAC
GTTCATCTAGTGCCCCTCTCACTCTGCAGGGATCCTCCTGCCTCTCCTCTGCCCCTGTCCAGTGCCTGGTGGTCCAGCCTGTGATGGGCA
GGCCTAGGCTGCCATCCGCAGGCTCTGTAGTTCTGCTTTCTATTGAACCAAGATGTTTCTACGTTGCCTATTGGTCGTGGTTCTGTCCAG
AGCAGTTCAGGCTGGGGCTGTTCACTTGCCCCTCCTTGAGGCAGACCTTTAGATATTTTCAGTTTTCATCACATGTCTAACACCACTTCC
ACCCCACCCCTCACCTCTTAGGCTAAATCCAAGCTAAATCCCCCAATGTCTTTTTTTTTTTTTTTTTTTTGAGACGAGTCTCATCTGTCA
CCCAGGCTGGAGTGCAATGGCATGGTCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCTATTCTGCCTCAGCCTCCCAAGGAGCC
AGGACTACAGGTGCATGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCCAGCCATTGAGACAAGCTGGTT
TCAAACTCCTGACCTTGTGGTCCGCCCGCCCCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCATCTCCCCTGCAAT
GTCTTTAGTTAGACCTTTTCCACCATCATGTCTAACTGGGCTACGGTTTGGGGAAAGTGTCCAAATTAGTCCGTGTTATCCTAAAAGGGG
TGTGCCCCGGATTAGCAGGGCCAGGGCTAGGGTGAGACAAATGAGGCACCTGGGGCATACATTTAAGTTGGTGCTTGCTTGCAGGTGCCA
AGAGAGTGCTTCCTTGGGTTTACCCCCGTGGTGCCTCCTTTACCTCATTCTGGCCCCAGCCCTGGGGTTAGAGTCGCACCAGTGTGGTCC
AAGTGGCATAATTATCTCCCTAAATGCTTGGGCAGCATCAGCTTTCAGTAGCTGTGCCCCATGGGAGGCACATTAAGCTAGTGGCAAGTT
GAGACTGCAGACCTCAGCTTAATATCAGTTGTTGCCCAAGACAGATCTCACCCCACATCTTCATGACAGGCCTAACAACAAGGCACTTTG
CCCTTAATCCTCTACTACTGCCTGCTCTTCATTTTGGGCCAACTGTACAGCTCATTTTGAGATAGTAGCTGATCATTTTTCTGATCAGTT
AACTTTGTCTTATTAAGCAAAATGGAGAATATAATGTTGGGAAATAAGTGTGTTGATTAAAAGAAAGTATCCCCTTCTACCATCTTCCAT
TTGTGTCTGGGTTGTGCTGGGTAAAGTTCTAGACTTACTAACGCAGACTTCATTTTGGTCCGGTTTCCACAGCATGCCTCGGGCATCAGT
GTCCAGGAGTAGCTGTATTTGAGGTTTCCTTCACTCTGGTAGGTTCCTGATTCCTGATGAAAATAACTTGAAAAAAAAATAATTATACTA
CTGATCCTCTTTTGGGATAATGAAATTGCGAAGGAATGTTGTTGATTATAACTTTTATTTTTTAATGTACAGATGTACTGTCTCTCATTG
AGCACTGATAGAATTTATTTTTCTTTCAATAGTTTAAAATCACTTATGTGGAGACACATACTTAAGTGTGTTCAACTCGTTTTCTTCCCA
CATATCTAGTGTGACCTTTAAAAACCACAACTTTATTTTGGACATTAAATGTGCAATATTCACTACTTATTCATTGTTCCACATTTTTCA
TACTTGTACAAAGGGTAAGTTTTTATATAATGGTGAGAAACAGGAAGAAATGACAACTGGTTAAGTAAAATTCTGCAAATAAACTAGATT

>4193_4193_1_AMD1-EPG5_AMD1_chr6_111196418_ENST00000368877_EPG5_chr18_43479531_ENST00000282041_length(amino acids)=1081AA_BP=50
MIFCGCWLFASLTVMEAAHFFEGTEKLLEVWFSRQQPDANQGSGDLRTIPRTAALRESQQVALDGELLDTMPKQYVNREEQTTLHLECRG
SSGKKCQGAAVVTVQFEGMHKNEAISQQLHVLRKEVKQLQAEAAKPPSLNIVEAAVHAENLITALVNAYKLQPTPGIQKVGISLFFTIVD
YVSDETQRHPPTRQFFTSCIEILGQVFISGIKSECRKVLETILKNSRLCSLLSPFFTPNAAPAEFIQLYEQVVKFLSEDNSDMIFMLLTK
FDLKQWLSATKPPLSDRTRLLESIHLALTAWGLEPDEDILMPFNLFCKHWTYLLLYQFPDQYSDILRLLMQSSAEQLLSPECWKATLRAL
GCCAPSCQQGAASTEGAVLPSSSDALLSDKQVMETIQWLSDFFYKLRLSKMDFKSFGLFSKWSPYMADVKTFLGYLVKRLIDLEMTCLAQ
DPTASRKTVLKSLHSVIIQLFKPWILVLEDNESSQQRHYPWLESDTVVASSIVQLFTDCIDSLHESFKDKLLPGDAGALWLHLMHYCEAC
TAPKMPEFILYAFHSTYRKLPWKDLHPDQMLMEAFFKVERGSPKSCFLFLGSVLCEVNWVSVLSDAWNSSPHPETRSMIVCLLFMMILLA
KEVQLVDQTDSPLLSLLGQTSSLSWHLVDIVSYQSVLSYFSSHYPPSIILAKESYAELIMKLLKVSAGLSIPTDSQKHLDAVPKCQAFTH
QMVQFLSTLEQNGKITLAVLEQEMSKLLDDIIVFNPPDMDSQTRHMALSSLFMEVLMMMNNATIPTAEFLRGSIRTWIGQKMHGLVVLPL
LTAACQSLASVRHMAETTEACITAYFKESPLNQNSGWGPILVSLQVPELTMEEFLQECLTLGSYLTLYVYLLQCLNSEQTLRNEMKVLLI
LSKWLEQVYPSSVEEEAKLFLWWHQVLQLSLIQTEQNDSVLTESVIRILLLVQSRQNLVAEERLSSGILGAIGFGRKSPLSNRFRVVARS
MAAFLSVQVPMEDQIRLRPGSELHLTPKAQQALNALESMASSKQYVEYQDQILQATQFIRHPGHCLQDGKSFLALLVNCLYPEVHYLDHI

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>4193_4193_2_AMD1-EPG5_AMD1_chr6_111196418_ENST00000368885_EPG5_chr18_43479531_ENST00000282041_length(transcript)=8398nt_BP=446nt
TCACGCAGCGCTCTCGCTTACACAGTATGGCCGGCGACATTAGCTAGCGCTCGCTCTACTCTCTCTAACGGGAAAGCAGCGGAATACAAG
AGACTGAACTGTATCTGCCTCTATTTCCAAAAGACTCACGTTCAACTTTCGCTCACACAAAGCCGGGAAAATTTTATTAGTCCTTTTTTT
AAAAAAAGTTAATATAAAATTATAGCAAAAAAAAAAAGGAACCTGAACTTTAGTAACACAGCTGGAACAATCCGCAGCGGCGGCGGCAGC
GGCGGGAGAAGAGGTTTAATTTAGTTGATTTTCTGTGGTTGTTGGTTGTTCGCTAGTCTCACGGTGATGGAAGCTGCACATTTTTTCGAA
GGGACCGAGAAGCTGCTGGAGGTTTGGTTCTCCCGGCAGCAGCCCGACGCAAACCAAGGATCTGGGGATCTTCGCACTATCCCAAGAACC
GCAGCTCTTCGGGAATCTCAGCAGGTTGCTCTGGATGGTGAGCTGTTAGACACAATGCCAAAGCAGTATGTGAATCGTGAAGAACAGACC
ACACTACATTTGGAGTGCAGAGGCAGCAGCGGTAAGAAATGCCAAGGAGCCGCAGTTGTCACGGTTCAGTTTGAAGGCATGCATAAGAAT
GAAGCCATAAGCCAACAGCTTCATGTTTTACGGAAGGAAGTGAAGCAGTTGCAAGCAGAAGCTGCTAAACCACCATCACTTAATATTGTG
GAAGCTGCTGTACATGCAGAAAACTTGATCACGGCCTTAGTGAATGCCTACAAGTTGCAGCCTACACCTGGGATTCAGAAAGTTGGCATT
AGCCTTTTCTTTACTATTGTGGATTACGTCAGCGATGAGACGCAGCGTCATCCCCCAACAAGGCAGTTCTTTACTTCATGTATTGAGATC
TTGGGACAGGTATTTATCAGTGGCATTAAATCAGAGTGCAGAAAAGTACTTGAAACCATTCTGAAGAACAGCAGGCTCTGCTCCCTGCTG
TCTCCTTTCTTCACTCCCAATGCTGCACCTGCAGAGTTCATACAGCTGTATGAGCAAGTGGTGAAGTTTCTAAGTGAGGACAACAGTGAT
ATGATTTTCATGCTGCTAACCAAGTTCGATCTTAAACAATGGTTAAGCGCCACTAAACCTCCTCTGTCTGATCGTACCAGGCTTCTGGAG
TCCATTCACTTGGCACTTACTGCCTGGGGCCTTGAACCAGATGAGGATATTTTGATGCCATTTAATCTTTTCTGTAAGCACTGGACTTAT
CTTCTTCTCTACCAGTTTCCTGACCAGTACAGTGACATTCTCAGGCTGCTTATGCAAAGCTCCGCGGAGCAGCTTCTGAGCCCCGAGTGT
TGGAAGGCCACTCTGAGAGCCCTGGGCTGCTGCGCCCCCAGCTGCCAGCAGGGGGCAGCGTCCACCGAGGGCGCCGTGCTTCCCAGCTCT
TCTGATGCTCTCTTGTCAGACAAGCAGGTAATGGAGACTATACAGTGGCTTTCAGACTTTTTTTATAAGCTTCGGTTATCCAAGATGGAC
TTTAAAAGCTTTGGTTTATTCTCAAAATGGAGTCCTTATATGGCTGATGTGAAGACATTCTTGGGCTACCTTGTGAAAAGGCTGATTGAC
TTAGAAATGACCTGTTTGGCCCAAGACCCAACTGCCAGCAGGAAAACAGTGCTGAAATCCCTACATTCAGTAATCATTCAGCTCTTTAAG
CCATGGATCCTGGTTTTAGAGGACAACGAAAGCAGCCAACAGCGGCATTACCCCTGGCTAGAGAGTGATACTGTGGTGGCCTCAAGCATT
GTGCAGCTGTTCACTGACTGTATTGACTCACTGCATGAGAGTTTTAAAGATAAGCTGTTGCCAGGTGATGCAGGAGCCCTTTGGTTGCAC
CTGATGCATTATTGTGAAGCATGTACAGCACCCAAAATGCCAGAGTTCATTCTGTACGCTTTCCATAGCACGTACCGGAAACTGCCATGG
AAGGACCTGCACCCTGACCAGATGCTCATGGAGGCCTTCTTCAAAGTGGAACGAGGAAGCCCCAAGAGCTGTTTCTTATTTTTGGGGTCT
GTACTCTGTGAAGTCAACTGGGTTAGTGTGCTCTCTGATGCCTGGAATTCCAGTCCCCACCCAGAAACCCGCAGCATGATTGTCTGCCTC
CTTTTCATGATGATTTTATTGGCAAAGGAAGTTCAACTGGTAGACCAAACAGATTCACCTTTACTTAGTCTCCTTGGACAGACAAGCTCA
CTTTCATGGCATCTTGTGGATATTGTGTCGTACCAGAGTGTGCTAAGTTATTTCAGCAGCCATTACCCGCCGTCCATCATCCTGGCAAAA
GAATCTTATGCTGAATTAATCATGAAGCTCCTAAAAGTGTCTGCGGGCCTTTCTATTCCTACTGACAGCCAGAAGCATCTTGATGCAGTT
CCAAAATGCCAAGCTTTTACTCATCAGATGGTTCAATTCCTCAGCACCCTGGAACAAAATGGAAAAATCACCTTAGCAGTCCTAGAACAG
GAAATGTCTAAGCTCTTAGACGATATCATTGTCTTTAACCCGCCCGACATGGACAGCCAGACCCGCCACATGGCCCTCAGCAGCCTCTTT
ATGGAAGTCCTGATGATGATGAACAACGCGACTATTCCAACAGCAGAGTTCCTTCGGGGCAGTATCCGGACCTGGATTGGCCAAAAAATG
CATGGGCTGGTGGTGCTGCCCCTTTTAACAGCAGCCTGCCAGAGCCTGGCGTCCGTCCGCCACATGGCTGAGACTACAGAAGCCTGCATC
ACTGCCTACTTCAAAGAAAGCCCTCTCAATCAGAATTCAGGATGGGGACCCATTCTGGTATCCCTTCAGGTTCCCGAGCTCACCATGGAA
GAGTTCCTGCAGGAGTGCCTCACCTTGGGCAGTTACTTGACTCTTTACGTCTACTTGCTTCAGTGTTTAAACAGCGAACAGACTTTAAGG
AATGAAATGAAAGTGCTGCTCATCTTAAGCAAGTGGCTGGAACAGGTGTACCCAAGCTCCGTGGAGGAAGAGGCAAAGCTGTTTTTGTGG
TGGCACCAAGTCCTTCAGCTCTCCCTCATTCAGACAGAGCAGAATGACTCCGTCCTGACAGAATCTGTCATTCGAATTCTGCTCTTGGTT
CAGAGCAGGCAGAACCTCGTGGCTGAGGAGAGACTCAGCTCTGGGATCCTGGGGGCAATTGGGTTTGGCCGGAAGTCGCCTTTGTCTAAC
AGGTTCCGAGTGGTTGCCCGAAGCATGGCTGCCTTCCTTTCAGTTCAGGTTCCTATGGAAGATCAGATCCGTTTGAGGCCTGGCTCTGAA
TTACATCTGACCCCCAAAGCTCAGCAGGCTCTGAATGCTCTTGAATCCATGGCATCAAGTAAGCAGTATGTTGAATACCAGGATCAAATA
TTGCAAGCCACCCAATTTATAAGGCATCCTGGCCATTGCCTTCAAGATGGGAAAAGCTTCTTGGCTCTTCTCGTTAACTGTCTGTATCCA
GAAGTGCATTATTTGGACCACATACGATAGTTAACACTGAGGCTCTTGAAAAACCCATTGCTGTTTATGTTTACATTTAACTTTGCTGTT
GCACAAGTAACTTTGCTCAATTGCACTGTAGAGCTCAGTTTGGCCAATGTGTAGTTGACTGAGATGCAAGTTGGGAGGCGTTAGATATTA
GATAATTTTGGGGTGTGTGTGTGTGTGTGTGTGTGTTTTCTTAGCTCTTAAGACCTTCTGGGGACTCTTTAAGTTTTTATATTTATCCAC
AAGAGAAACTTACTAAGTTCCACTTGGGTGCAGAGCCACTCACAGTTGCCGAATGTCCCAGTCATCTCACAAGACCTCCAGATGGAGTTC
TTTGTATGTTTCCACTTCTGTCTCTGTTTTATGTAAATGTTCCAGATCTGACAACCTTGGAAGTCACTCAGTACCCTTACTTTTAAACCC
CATTTGTGTTCCTCCAAAGTAAAGAAGTCAATTTTGAAAAATTTCTGCATTTCTCAAATGTGGACAAATACAATAGTTTTAAAGTATTGT
TTTTCTCAGAAGGGAGATAAAAATGCCGAGTTAGTTAAAGTGGGTCATGTGTAAAATACGACCACTTGATCGTGATTATAGTGGGCAGTA
GAGATGATGACAAGTCAATTTCCATCCAGCCGTGTATCCTCATGGAGAAGCTGCCTGTCTGAATCAGGATGGCAAGCTGGCAGTCTGGGA
GGAGCATGTTTTGCACAGATGTTTTGTTTGGTCCACTTGGTGAGGAGTGCAGACAGGGCTGCCTCTCTCTAGTCGGGAGAGTCTGTGCAT
TCCCTCGGGCCCTGACCCTAGCCTCATTCACATCACTTGCCCCTGTCGACACCTAAGTTTGCACCCTTTGATAGACACCATGTTCGATAT
CTGAAAGGCTCAGTGTCAGGAGACAGAGACTGAGGGAGACTGAAGACCTGATTCTCTGTTCCCTGCTTGTTTTTTAACTTCAAACTCAGA
TGAAGCCAATGGACCTGCTGAAACACTTGTCTGTGGAAACTGGGTCAGGTCGGGAGATCTACTGAAATTTGGCTTTTTTTCCATAGCCAC
GTGCCTTCTGTTGTTGACAGTTCATTCATTACCAAAGCCTGTGTGTAACTTTGCCTTGTTCTGTGGCCATCTTCTTGCTCATGTTATTTC
TCCTGGGAATGAGCAGTTTGACTTCTGTTCCCACGTTCCTCATTCTATCAGCTCTAGATGGATTTTGCCTGCATAGCTGGCTTAATATGT
CTTTGTGTATGGGTAGTCTGTAGCCTGAGAATATTTACCTAAAAATGTCTAAACAGCCACCAAGAATGTTTATAGGGGTATAGGAATATA
GTTAACAGAGTGCTAATCTCTCCTCAAATGTCCTTTTGGAATGCTTCCCCCAAAATTGGGAAGTTGGTAGGAGCTTTTCTTTACTTTGAA
TTTCTTTACTTGGACAGAACGATTCTGCCTTAAAGACACGCTTTGCAGCTCTGATAAAGAACATCCCTGTTTAGTCTCTTGAGTTTTACA
GGCCACAAAATGTCCGTCTCAGAGGGATCTGTCTCAGCTTTTCTTATTTTTGCTTCTCTCCGTTTTCAAAATTAATCATCTTGTTCTCTG
TATAAGAAAATTTGAGAAGCTGTGGACAATTTAATAGTCTGATCTGGCAACAGCGATTTTTGTTTGGAAATATTTTGTGTTTTCTTTGAG
GAGGATATAATTACTGATATCCTAGGATGTGAAATTTTTGAGTGACAGTATGCACATTTTAAAGAAAATTATGATTAATCTGTATAATGT
TTTTTGGTCTGTAAAAATTATAAAAAATAAAATCATTTATCTTTGGTTGTAACTGTTTAAAAACCAAATTATAGGGATATCACACTATCT
TGTAAAGTGTTTCAGCTGTTAAAGTTGCTGTAGGTTTTTATGCCTGATGTCATTTAATTTATTTGACATTGAACTTCATTAATAATCAGA
GATGGTCAGTGAAAGCGCTTCCTCTTTAACTCTTTCTTGCTTAACCTTGGAAGGTTGACTCAACTCCTAGGTGTCTATGGGAAACTCTGG
GCTAGGAACGTGCTATAAAGACACTGAGCTAGTTCAGACATGGCCATGCTGCTGTAGCCTCCTGGGAAAGAAGGGCGGCAGAGAGACCAG
CCCGCCTGTTGGCTTGCAGGGGTAATGAGCCTTGGCTTGAAAAAATTGTTGGCCTCCAGAGAGCACGGGGCTGTGGTTTCAGAATCAGTG
ATGGGTGCCGCACATCAAGACGGGAATCAAGCAAGACCAAGGCCCTGTGGACTGAGCAGCGTGGAGGGCGAACGGCTGCAGGCTCCAGAC
TTCACCACAGGGTGGCCAACAGTGGCATCGGGACCAAATAAAGATGTCTAACAGCTTCCTGGGAGCAGGAGGAGGCAGGATTCTGGTTGC
CATGAAAAACATCTCTCTCCCTCTCCATCACTCCCCATGCTGCAGTGCACAGGTGGGTTGCAGAGGCAGGCTGCATCCCGGAATCATGTT
GTCCCACTGCCTATTAATAGAACAAGTGAAGGGCAGAATGCTGGAACACACCAGACATAGAGGGAGGGAGGTCCTGCCAGATGTGTCTAC
ACAACTGTCTACATAGCATGACAGTAGCAGTGGATTCGGGACCCACCTGTACATGTTTCCAAAGCTCCTTCCTGCACACTCGGGACCTCA
GCTCCAAGGCGTGACTCATTTCTCAGTCTCACCATCCTTTGTTGGCTCAGACATCGCATGCCTCTGCCCCACTGGGGTTGTGTGCCTGCG
TCTCTCACTTCTTTGAGGTTGGGGAAAGCCTAGTCCAGAAAATGAAAACCCATAGACCAGCCTAACTTCCTTTCAACCAAGTGACGGCCT
CCTGGTTCCTCTCAGTTCATCATCAAAATCAGTGTGTACATGTCATACAAGCCAAGAGTGTTCATGTCCTCGTTCCTTTCAAATGAAGGT
GATATATACTTTTTCACTGAGTTTTTATTCCTGAAATTCTTTCTTCTGGAGCAGGAAGCAAATGTCCTGGAATCGTAGACTTTTACAGTC
AGAAGGGTCATTCACGTTCATCTAGTGCCCCTCTCACTCTGCAGGGATCCTCCTGCCTCTCCTCTGCCCCTGTCCAGTGCCTGGTGGTCC
AGCCTGTGATGGGCAGGCCTAGGCTGCCATCCGCAGGCTCTGTAGTTCTGCTTTCTATTGAACCAAGATGTTTCTACGTTGCCTATTGGT
CGTGGTTCTGTCCAGAGCAGTTCAGGCTGGGGCTGTTCACTTGCCCCTCCTTGAGGCAGACCTTTAGATATTTTCAGTTTTCATCACATG
TCTAACACCACTTCCACCCCACCCCTCACCTCTTAGGCTAAATCCAAGCTAAATCCCCCAATGTCTTTTTTTTTTTTTTTTTTTTGAGAC
GAGTCTCATCTGTCACCCAGGCTGGAGTGCAATGGCATGGTCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCTATTCTGCCTCA
GCCTCCCAAGGAGCCAGGACTACAGGTGCATGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCCAGCCAT
TGAGACAAGCTGGTTTCAAACTCCTGACCTTGTGGTCCGCCCGCCCCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCC
CATCTCCCCTGCAATGTCTTTAGTTAGACCTTTTCCACCATCATGTCTAACTGGGCTACGGTTTGGGGAAAGTGTCCAAATTAGTCCGTG
TTATCCTAAAAGGGGTGTGCCCCGGATTAGCAGGGCCAGGGCTAGGGTGAGACAAATGAGGCACCTGGGGCATACATTTAAGTTGGTGCT
TGCTTGCAGGTGCCAAGAGAGTGCTTCCTTGGGTTTACCCCCGTGGTGCCTCCTTTACCTCATTCTGGCCCCAGCCCTGGGGTTAGAGTC
GCACCAGTGTGGTCCAAGTGGCATAATTATCTCCCTAAATGCTTGGGCAGCATCAGCTTTCAGTAGCTGTGCCCCATGGGAGGCACATTA
AGCTAGTGGCAAGTTGAGACTGCAGACCTCAGCTTAATATCAGTTGTTGCCCAAGACAGATCTCACCCCACATCTTCATGACAGGCCTAA
CAACAAGGCACTTTGCCCTTAATCCTCTACTACTGCCTGCTCTTCATTTTGGGCCAACTGTACAGCTCATTTTGAGATAGTAGCTGATCA
TTTTTCTGATCAGTTAACTTTGTCTTATTAAGCAAAATGGAGAATATAATGTTGGGAAATAAGTGTGTTGATTAAAAGAAAGTATCCCCT
TCTACCATCTTCCATTTGTGTCTGGGTTGTGCTGGGTAAAGTTCTAGACTTACTAACGCAGACTTCATTTTGGTCCGGTTTCCACAGCAT
GCCTCGGGCATCAGTGTCCAGGAGTAGCTGTATTTGAGGTTTCCTTCACTCTGGTAGGTTCCTGATTCCTGATGAAAATAACTTGAAAAA
AAAATAATTATACTACTGATCCTCTTTTGGGATAATGAAATTGCGAAGGAATGTTGTTGATTATAACTTTTATTTTTTAATGTACAGATG
TACTGTCTCTCATTGAGCACTGATAGAATTTATTTTTCTTTCAATAGTTTAAAATCACTTATGTGGAGACACATACTTAAGTGTGTTCAA
CTCGTTTTCTTCCCACATATCTAGTGTGACCTTTAAAAACCACAACTTTATTTTGGACATTAAATGTGCAATATTCACTACTTATTCATT
GTTCCACATTTTTCATACTTGTACAAAGGGTAAGTTTTTATATAATGGTGAGAAACAGGAAGAAATGACAACTGGTTAAGTAAAATTCTG

>4193_4193_2_AMD1-EPG5_AMD1_chr6_111196418_ENST00000368885_EPG5_chr18_43479531_ENST00000282041_length(amino acids)=1081AA_BP=50
MIFCGCWLFASLTVMEAAHFFEGTEKLLEVWFSRQQPDANQGSGDLRTIPRTAALRESQQVALDGELLDTMPKQYVNREEQTTLHLECRG
SSGKKCQGAAVVTVQFEGMHKNEAISQQLHVLRKEVKQLQAEAAKPPSLNIVEAAVHAENLITALVNAYKLQPTPGIQKVGISLFFTIVD
YVSDETQRHPPTRQFFTSCIEILGQVFISGIKSECRKVLETILKNSRLCSLLSPFFTPNAAPAEFIQLYEQVVKFLSEDNSDMIFMLLTK
FDLKQWLSATKPPLSDRTRLLESIHLALTAWGLEPDEDILMPFNLFCKHWTYLLLYQFPDQYSDILRLLMQSSAEQLLSPECWKATLRAL
GCCAPSCQQGAASTEGAVLPSSSDALLSDKQVMETIQWLSDFFYKLRLSKMDFKSFGLFSKWSPYMADVKTFLGYLVKRLIDLEMTCLAQ
DPTASRKTVLKSLHSVIIQLFKPWILVLEDNESSQQRHYPWLESDTVVASSIVQLFTDCIDSLHESFKDKLLPGDAGALWLHLMHYCEAC
TAPKMPEFILYAFHSTYRKLPWKDLHPDQMLMEAFFKVERGSPKSCFLFLGSVLCEVNWVSVLSDAWNSSPHPETRSMIVCLLFMMILLA
KEVQLVDQTDSPLLSLLGQTSSLSWHLVDIVSYQSVLSYFSSHYPPSIILAKESYAELIMKLLKVSAGLSIPTDSQKHLDAVPKCQAFTH
QMVQFLSTLEQNGKITLAVLEQEMSKLLDDIIVFNPPDMDSQTRHMALSSLFMEVLMMMNNATIPTAEFLRGSIRTWIGQKMHGLVVLPL
LTAACQSLASVRHMAETTEACITAYFKESPLNQNSGWGPILVSLQVPELTMEEFLQECLTLGSYLTLYVYLLQCLNSEQTLRNEMKVLLI
LSKWLEQVYPSSVEEEAKLFLWWHQVLQLSLIQTEQNDSVLTESVIRILLLVQSRQNLVAEERLSSGILGAIGFGRKSPLSNRFRVVARS
MAAFLSVQVPMEDQIRLRPGSELHLTPKAQQALNALESMASSKQYVEYQDQILQATQFIRHPGHCLQDGKSFLALLVNCLYPEVHYLDHI

--------------------------------------------------------------
>4193_4193_3_AMD1-EPG5_AMD1_chr6_111196418_ENST00000451850_EPG5_chr18_43479531_ENST00000282041_length(transcript)=8384nt_BP=432nt
CGCTTACACAGTATGGCCGGCGACATTAGCTAGCGCTCGCTCTACTCTCTCTAACGGGAAAGCAGCGGAATACAAGAGACTGAACTGTAT
CTGCCTCTATTTCCAAAAGACTCACGTTCAACTTTCGCTCACACAAAGCCGGGAAAATTTTATTAGTCCTTTTTTTAAAAAAAGTTAATA
TAAAATTATAGCAAAAAAAAAAAGGAACCTGAACTTTAGTAACACAGCTGGAACAATCCGCAGCGGCGGCGGCAGCGGCGGGAGAAGAGG
TTTAATTTAGTTGATTTTCTGTGGTTGTTGGTTGTTCGCTAGTCTCACGGTGATGGAAGCTGCACATTTTTTCGAAGGGACCGAGAAGCT
GCTGGAGGTTTGGTTCTCCCGGCAGCAGCCCGACGCAAACCAAGGATCTGGGGATCTTCGCACTATCCCAAGAACCGCAGCTCTTCGGGA
ATCTCAGCAGGTTGCTCTGGATGGTGAGCTGTTAGACACAATGCCAAAGCAGTATGTGAATCGTGAAGAACAGACCACACTACATTTGGA
GTGCAGAGGCAGCAGCGGTAAGAAATGCCAAGGAGCCGCAGTTGTCACGGTTCAGTTTGAAGGCATGCATAAGAATGAAGCCATAAGCCA
ACAGCTTCATGTTTTACGGAAGGAAGTGAAGCAGTTGCAAGCAGAAGCTGCTAAACCACCATCACTTAATATTGTGGAAGCTGCTGTACA
TGCAGAAAACTTGATCACGGCCTTAGTGAATGCCTACAAGTTGCAGCCTACACCTGGGATTCAGAAAGTTGGCATTAGCCTTTTCTTTAC
TATTGTGGATTACGTCAGCGATGAGACGCAGCGTCATCCCCCAACAAGGCAGTTCTTTACTTCATGTATTGAGATCTTGGGACAGGTATT
TATCAGTGGCATTAAATCAGAGTGCAGAAAAGTACTTGAAACCATTCTGAAGAACAGCAGGCTCTGCTCCCTGCTGTCTCCTTTCTTCAC
TCCCAATGCTGCACCTGCAGAGTTCATACAGCTGTATGAGCAAGTGGTGAAGTTTCTAAGTGAGGACAACAGTGATATGATTTTCATGCT
GCTAACCAAGTTCGATCTTAAACAATGGTTAAGCGCCACTAAACCTCCTCTGTCTGATCGTACCAGGCTTCTGGAGTCCATTCACTTGGC
ACTTACTGCCTGGGGCCTTGAACCAGATGAGGATATTTTGATGCCATTTAATCTTTTCTGTAAGCACTGGACTTATCTTCTTCTCTACCA
GTTTCCTGACCAGTACAGTGACATTCTCAGGCTGCTTATGCAAAGCTCCGCGGAGCAGCTTCTGAGCCCCGAGTGTTGGAAGGCCACTCT
GAGAGCCCTGGGCTGCTGCGCCCCCAGCTGCCAGCAGGGGGCAGCGTCCACCGAGGGCGCCGTGCTTCCCAGCTCTTCTGATGCTCTCTT
GTCAGACAAGCAGGTAATGGAGACTATACAGTGGCTTTCAGACTTTTTTTATAAGCTTCGGTTATCCAAGATGGACTTTAAAAGCTTTGG
TTTATTCTCAAAATGGAGTCCTTATATGGCTGATGTGAAGACATTCTTGGGCTACCTTGTGAAAAGGCTGATTGACTTAGAAATGACCTG
TTTGGCCCAAGACCCAACTGCCAGCAGGAAAACAGTGCTGAAATCCCTACATTCAGTAATCATTCAGCTCTTTAAGCCATGGATCCTGGT
TTTAGAGGACAACGAAAGCAGCCAACAGCGGCATTACCCCTGGCTAGAGAGTGATACTGTGGTGGCCTCAAGCATTGTGCAGCTGTTCAC
TGACTGTATTGACTCACTGCATGAGAGTTTTAAAGATAAGCTGTTGCCAGGTGATGCAGGAGCCCTTTGGTTGCACCTGATGCATTATTG
TGAAGCATGTACAGCACCCAAAATGCCAGAGTTCATTCTGTACGCTTTCCATAGCACGTACCGGAAACTGCCATGGAAGGACCTGCACCC
TGACCAGATGCTCATGGAGGCCTTCTTCAAAGTGGAACGAGGAAGCCCCAAGAGCTGTTTCTTATTTTTGGGGTCTGTACTCTGTGAAGT
CAACTGGGTTAGTGTGCTCTCTGATGCCTGGAATTCCAGTCCCCACCCAGAAACCCGCAGCATGATTGTCTGCCTCCTTTTCATGATGAT
TTTATTGGCAAAGGAAGTTCAACTGGTAGACCAAACAGATTCACCTTTACTTAGTCTCCTTGGACAGACAAGCTCACTTTCATGGCATCT
TGTGGATATTGTGTCGTACCAGAGTGTGCTAAGTTATTTCAGCAGCCATTACCCGCCGTCCATCATCCTGGCAAAAGAATCTTATGCTGA
ATTAATCATGAAGCTCCTAAAAGTGTCTGCGGGCCTTTCTATTCCTACTGACAGCCAGAAGCATCTTGATGCAGTTCCAAAATGCCAAGC
TTTTACTCATCAGATGGTTCAATTCCTCAGCACCCTGGAACAAAATGGAAAAATCACCTTAGCAGTCCTAGAACAGGAAATGTCTAAGCT
CTTAGACGATATCATTGTCTTTAACCCGCCCGACATGGACAGCCAGACCCGCCACATGGCCCTCAGCAGCCTCTTTATGGAAGTCCTGAT
GATGATGAACAACGCGACTATTCCAACAGCAGAGTTCCTTCGGGGCAGTATCCGGACCTGGATTGGCCAAAAAATGCATGGGCTGGTGGT
GCTGCCCCTTTTAACAGCAGCCTGCCAGAGCCTGGCGTCCGTCCGCCACATGGCTGAGACTACAGAAGCCTGCATCACTGCCTACTTCAA
AGAAAGCCCTCTCAATCAGAATTCAGGATGGGGACCCATTCTGGTATCCCTTCAGGTTCCCGAGCTCACCATGGAAGAGTTCCTGCAGGA
GTGCCTCACCTTGGGCAGTTACTTGACTCTTTACGTCTACTTGCTTCAGTGTTTAAACAGCGAACAGACTTTAAGGAATGAAATGAAAGT
GCTGCTCATCTTAAGCAAGTGGCTGGAACAGGTGTACCCAAGCTCCGTGGAGGAAGAGGCAAAGCTGTTTTTGTGGTGGCACCAAGTCCT
TCAGCTCTCCCTCATTCAGACAGAGCAGAATGACTCCGTCCTGACAGAATCTGTCATTCGAATTCTGCTCTTGGTTCAGAGCAGGCAGAA
CCTCGTGGCTGAGGAGAGACTCAGCTCTGGGATCCTGGGGGCAATTGGGTTTGGCCGGAAGTCGCCTTTGTCTAACAGGTTCCGAGTGGT
TGCCCGAAGCATGGCTGCCTTCCTTTCAGTTCAGGTTCCTATGGAAGATCAGATCCGTTTGAGGCCTGGCTCTGAATTACATCTGACCCC
CAAAGCTCAGCAGGCTCTGAATGCTCTTGAATCCATGGCATCAAGTAAGCAGTATGTTGAATACCAGGATCAAATATTGCAAGCCACCCA
ATTTATAAGGCATCCTGGCCATTGCCTTCAAGATGGGAAAAGCTTCTTGGCTCTTCTCGTTAACTGTCTGTATCCAGAAGTGCATTATTT
GGACCACATACGATAGTTAACACTGAGGCTCTTGAAAAACCCATTGCTGTTTATGTTTACATTTAACTTTGCTGTTGCACAAGTAACTTT
GCTCAATTGCACTGTAGAGCTCAGTTTGGCCAATGTGTAGTTGACTGAGATGCAAGTTGGGAGGCGTTAGATATTAGATAATTTTGGGGT
GTGTGTGTGTGTGTGTGTGTGTTTTCTTAGCTCTTAAGACCTTCTGGGGACTCTTTAAGTTTTTATATTTATCCACAAGAGAAACTTACT
AAGTTCCACTTGGGTGCAGAGCCACTCACAGTTGCCGAATGTCCCAGTCATCTCACAAGACCTCCAGATGGAGTTCTTTGTATGTTTCCA
CTTCTGTCTCTGTTTTATGTAAATGTTCCAGATCTGACAACCTTGGAAGTCACTCAGTACCCTTACTTTTAAACCCCATTTGTGTTCCTC
CAAAGTAAAGAAGTCAATTTTGAAAAATTTCTGCATTTCTCAAATGTGGACAAATACAATAGTTTTAAAGTATTGTTTTTCTCAGAAGGG
AGATAAAAATGCCGAGTTAGTTAAAGTGGGTCATGTGTAAAATACGACCACTTGATCGTGATTATAGTGGGCAGTAGAGATGATGACAAG
TCAATTTCCATCCAGCCGTGTATCCTCATGGAGAAGCTGCCTGTCTGAATCAGGATGGCAAGCTGGCAGTCTGGGAGGAGCATGTTTTGC
ACAGATGTTTTGTTTGGTCCACTTGGTGAGGAGTGCAGACAGGGCTGCCTCTCTCTAGTCGGGAGAGTCTGTGCATTCCCTCGGGCCCTG
ACCCTAGCCTCATTCACATCACTTGCCCCTGTCGACACCTAAGTTTGCACCCTTTGATAGACACCATGTTCGATATCTGAAAGGCTCAGT
GTCAGGAGACAGAGACTGAGGGAGACTGAAGACCTGATTCTCTGTTCCCTGCTTGTTTTTTAACTTCAAACTCAGATGAAGCCAATGGAC
CTGCTGAAACACTTGTCTGTGGAAACTGGGTCAGGTCGGGAGATCTACTGAAATTTGGCTTTTTTTCCATAGCCACGTGCCTTCTGTTGT
TGACAGTTCATTCATTACCAAAGCCTGTGTGTAACTTTGCCTTGTTCTGTGGCCATCTTCTTGCTCATGTTATTTCTCCTGGGAATGAGC
AGTTTGACTTCTGTTCCCACGTTCCTCATTCTATCAGCTCTAGATGGATTTTGCCTGCATAGCTGGCTTAATATGTCTTTGTGTATGGGT
AGTCTGTAGCCTGAGAATATTTACCTAAAAATGTCTAAACAGCCACCAAGAATGTTTATAGGGGTATAGGAATATAGTTAACAGAGTGCT
AATCTCTCCTCAAATGTCCTTTTGGAATGCTTCCCCCAAAATTGGGAAGTTGGTAGGAGCTTTTCTTTACTTTGAATTTCTTTACTTGGA
CAGAACGATTCTGCCTTAAAGACACGCTTTGCAGCTCTGATAAAGAACATCCCTGTTTAGTCTCTTGAGTTTTACAGGCCACAAAATGTC
CGTCTCAGAGGGATCTGTCTCAGCTTTTCTTATTTTTGCTTCTCTCCGTTTTCAAAATTAATCATCTTGTTCTCTGTATAAGAAAATTTG
AGAAGCTGTGGACAATTTAATAGTCTGATCTGGCAACAGCGATTTTTGTTTGGAAATATTTTGTGTTTTCTTTGAGGAGGATATAATTAC
TGATATCCTAGGATGTGAAATTTTTGAGTGACAGTATGCACATTTTAAAGAAAATTATGATTAATCTGTATAATGTTTTTTGGTCTGTAA
AAATTATAAAAAATAAAATCATTTATCTTTGGTTGTAACTGTTTAAAAACCAAATTATAGGGATATCACACTATCTTGTAAAGTGTTTCA
GCTGTTAAAGTTGCTGTAGGTTTTTATGCCTGATGTCATTTAATTTATTTGACATTGAACTTCATTAATAATCAGAGATGGTCAGTGAAA
GCGCTTCCTCTTTAACTCTTTCTTGCTTAACCTTGGAAGGTTGACTCAACTCCTAGGTGTCTATGGGAAACTCTGGGCTAGGAACGTGCT
ATAAAGACACTGAGCTAGTTCAGACATGGCCATGCTGCTGTAGCCTCCTGGGAAAGAAGGGCGGCAGAGAGACCAGCCCGCCTGTTGGCT
TGCAGGGGTAATGAGCCTTGGCTTGAAAAAATTGTTGGCCTCCAGAGAGCACGGGGCTGTGGTTTCAGAATCAGTGATGGGTGCCGCACA
TCAAGACGGGAATCAAGCAAGACCAAGGCCCTGTGGACTGAGCAGCGTGGAGGGCGAACGGCTGCAGGCTCCAGACTTCACCACAGGGTG
GCCAACAGTGGCATCGGGACCAAATAAAGATGTCTAACAGCTTCCTGGGAGCAGGAGGAGGCAGGATTCTGGTTGCCATGAAAAACATCT
CTCTCCCTCTCCATCACTCCCCATGCTGCAGTGCACAGGTGGGTTGCAGAGGCAGGCTGCATCCCGGAATCATGTTGTCCCACTGCCTAT
TAATAGAACAAGTGAAGGGCAGAATGCTGGAACACACCAGACATAGAGGGAGGGAGGTCCTGCCAGATGTGTCTACACAACTGTCTACAT
AGCATGACAGTAGCAGTGGATTCGGGACCCACCTGTACATGTTTCCAAAGCTCCTTCCTGCACACTCGGGACCTCAGCTCCAAGGCGTGA
CTCATTTCTCAGTCTCACCATCCTTTGTTGGCTCAGACATCGCATGCCTCTGCCCCACTGGGGTTGTGTGCCTGCGTCTCTCACTTCTTT
GAGGTTGGGGAAAGCCTAGTCCAGAAAATGAAAACCCATAGACCAGCCTAACTTCCTTTCAACCAAGTGACGGCCTCCTGGTTCCTCTCA
GTTCATCATCAAAATCAGTGTGTACATGTCATACAAGCCAAGAGTGTTCATGTCCTCGTTCCTTTCAAATGAAGGTGATATATACTTTTT
CACTGAGTTTTTATTCCTGAAATTCTTTCTTCTGGAGCAGGAAGCAAATGTCCTGGAATCGTAGACTTTTACAGTCAGAAGGGTCATTCA
CGTTCATCTAGTGCCCCTCTCACTCTGCAGGGATCCTCCTGCCTCTCCTCTGCCCCTGTCCAGTGCCTGGTGGTCCAGCCTGTGATGGGC
AGGCCTAGGCTGCCATCCGCAGGCTCTGTAGTTCTGCTTTCTATTGAACCAAGATGTTTCTACGTTGCCTATTGGTCGTGGTTCTGTCCA
GAGCAGTTCAGGCTGGGGCTGTTCACTTGCCCCTCCTTGAGGCAGACCTTTAGATATTTTCAGTTTTCATCACATGTCTAACACCACTTC
CACCCCACCCCTCACCTCTTAGGCTAAATCCAAGCTAAATCCCCCAATGTCTTTTTTTTTTTTTTTTTTTTGAGACGAGTCTCATCTGTC
ACCCAGGCTGGAGTGCAATGGCATGGTCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCTATTCTGCCTCAGCCTCCCAAGGAGC
CAGGACTACAGGTGCATGCCACCACGCCCGGCTAATTTTTGTATTTTTTAGTAGAGACAGGGTTTCACCCAGCCATTGAGACAAGCTGGT
TTCAAACTCCTGACCTTGTGGTCCGCCCGCCCCGGCCTCCCAGAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCATCTCCCCTGCAA
TGTCTTTAGTTAGACCTTTTCCACCATCATGTCTAACTGGGCTACGGTTTGGGGAAAGTGTCCAAATTAGTCCGTGTTATCCTAAAAGGG
GTGTGCCCCGGATTAGCAGGGCCAGGGCTAGGGTGAGACAAATGAGGCACCTGGGGCATACATTTAAGTTGGTGCTTGCTTGCAGGTGCC
AAGAGAGTGCTTCCTTGGGTTTACCCCCGTGGTGCCTCCTTTACCTCATTCTGGCCCCAGCCCTGGGGTTAGAGTCGCACCAGTGTGGTC
CAAGTGGCATAATTATCTCCCTAAATGCTTGGGCAGCATCAGCTTTCAGTAGCTGTGCCCCATGGGAGGCACATTAAGCTAGTGGCAAGT
TGAGACTGCAGACCTCAGCTTAATATCAGTTGTTGCCCAAGACAGATCTCACCCCACATCTTCATGACAGGCCTAACAACAAGGCACTTT
GCCCTTAATCCTCTACTACTGCCTGCTCTTCATTTTGGGCCAACTGTACAGCTCATTTTGAGATAGTAGCTGATCATTTTTCTGATCAGT
TAACTTTGTCTTATTAAGCAAAATGGAGAATATAATGTTGGGAAATAAGTGTGTTGATTAAAAGAAAGTATCCCCTTCTACCATCTTCCA
TTTGTGTCTGGGTTGTGCTGGGTAAAGTTCTAGACTTACTAACGCAGACTTCATTTTGGTCCGGTTTCCACAGCATGCCTCGGGCATCAG
TGTCCAGGAGTAGCTGTATTTGAGGTTTCCTTCACTCTGGTAGGTTCCTGATTCCTGATGAAAATAACTTGAAAAAAAAATAATTATACT
ACTGATCCTCTTTTGGGATAATGAAATTGCGAAGGAATGTTGTTGATTATAACTTTTATTTTTTAATGTACAGATGTACTGTCTCTCATT
GAGCACTGATAGAATTTATTTTTCTTTCAATAGTTTAAAATCACTTATGTGGAGACACATACTTAAGTGTGTTCAACTCGTTTTCTTCCC
ACATATCTAGTGTGACCTTTAAAAACCACAACTTTATTTTGGACATTAAATGTGCAATATTCACTACTTATTCATTGTTCCACATTTTTC
ATACTTGTACAAAGGGTAAGTTTTTATATAATGGTGAGAAACAGGAAGAAATGACAACTGGTTAAGTAAAATTCTGCAAATAAACTAGAT

>4193_4193_3_AMD1-EPG5_AMD1_chr6_111196418_ENST00000451850_EPG5_chr18_43479531_ENST00000282041_length(amino acids)=1081AA_BP=50
MIFCGCWLFASLTVMEAAHFFEGTEKLLEVWFSRQQPDANQGSGDLRTIPRTAALRESQQVALDGELLDTMPKQYVNREEQTTLHLECRG
SSGKKCQGAAVVTVQFEGMHKNEAISQQLHVLRKEVKQLQAEAAKPPSLNIVEAAVHAENLITALVNAYKLQPTPGIQKVGISLFFTIVD
YVSDETQRHPPTRQFFTSCIEILGQVFISGIKSECRKVLETILKNSRLCSLLSPFFTPNAAPAEFIQLYEQVVKFLSEDNSDMIFMLLTK
FDLKQWLSATKPPLSDRTRLLESIHLALTAWGLEPDEDILMPFNLFCKHWTYLLLYQFPDQYSDILRLLMQSSAEQLLSPECWKATLRAL
GCCAPSCQQGAASTEGAVLPSSSDALLSDKQVMETIQWLSDFFYKLRLSKMDFKSFGLFSKWSPYMADVKTFLGYLVKRLIDLEMTCLAQ
DPTASRKTVLKSLHSVIIQLFKPWILVLEDNESSQQRHYPWLESDTVVASSIVQLFTDCIDSLHESFKDKLLPGDAGALWLHLMHYCEAC
TAPKMPEFILYAFHSTYRKLPWKDLHPDQMLMEAFFKVERGSPKSCFLFLGSVLCEVNWVSVLSDAWNSSPHPETRSMIVCLLFMMILLA
KEVQLVDQTDSPLLSLLGQTSSLSWHLVDIVSYQSVLSYFSSHYPPSIILAKESYAELIMKLLKVSAGLSIPTDSQKHLDAVPKCQAFTH
QMVQFLSTLEQNGKITLAVLEQEMSKLLDDIIVFNPPDMDSQTRHMALSSLFMEVLMMMNNATIPTAEFLRGSIRTWIGQKMHGLVVLPL
LTAACQSLASVRHMAETTEACITAYFKESPLNQNSGWGPILVSLQVPELTMEEFLQECLTLGSYLTLYVYLLQCLNSEQTLRNEMKVLLI
LSKWLEQVYPSSVEEEAKLFLWWHQVLQLSLIQTEQNDSVLTESVIRILLLVQSRQNLVAEERLSSGILGAIGFGRKSPLSNRFRVVARS
MAAFLSVQVPMEDQIRLRPGSELHLTPKAQQALNALESMASSKQYVEYQDQILQATQFIRHPGHCLQDGKSFLALLVNCLYPEVHYLDHI

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Fusion Gene PPI Analysis for AMD1-EPG5


check button Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in

ChiPPI page.


check button Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160)
HgeneHgene's interactorsTgeneTgene's interactors


check button - Retained PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenStill interaction with


check button - Lost PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with


check button - Retained PPIs, but lost function due to frame-shift fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with


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Related Drugs for AMD1-EPG5


check button Drugs targeting genes involved in this fusion gene.
(DrugBank Version 5.1.8 2021-05-08)
PartnerGeneUniProtAccDrugBank IDDrug nameDrug activityDrug typeDrug status

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Related Diseases for AMD1-EPG5


check button Diseases associated with fusion partners.
(DisGeNet 4.0)
PartnerGeneDisease IDDisease name# pubmedsSource
TgeneC1855772Absent corpus callosum cataract immunodeficiency10CTD_human;GENOMICS_ENGLAND;ORPHANET;UNIPROT
TgeneC0003257Antibody Deficiency Syndrome1CTD_human
TgeneC0021051Immunologic Deficiency Syndromes1CTD_human
TgeneC0033141Cardiomyopathies, Primary1CTD_human
TgeneC0036529Myocardial Diseases, Secondary1CTD_human
TgeneC0162835Hypopigmentation disorder1CTD_human
TgeneC0878544Cardiomyopathies1CTD_human