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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:DSN1-DIP2B (FusionGDB2 ID:24257)

Fusion Gene Summary for DSN1-DIP2B

check button Fusion gene summary
Fusion gene informationFusion gene name: DSN1-DIP2B
Fusion gene ID: 24257
HgeneTgene
Gene symbol

DSN1

DIP2B

Gene ID

79980

57609

Gene nameDSN1 component of MIS12 kinetochore complexdisco interacting protein 2 homolog B
SynonymsC20orf172|KNL3|MIS13|dJ469A13.2|hKNL-3-
Cytomap

20q11.23

12q13.12

Type of geneprotein-codingprotein-coding
Descriptionkinetochore-associated protein DSN1 homologDSN1 homolog, MIS12 kinetochore complex componentDSN1, MIND kinetochore complex component, homologDSN1, MIS12 kinetochore complex componentkinetochore null 3 homologdisco-interacting protein 2 homolog BDIP2 disco-interacting protein 2 homolog B
Modification date2020032020200313
UniProtAcc

Q9H410

Q9P265

Ensembl transtripts involved in fusion geneENST00000473615, ENST00000373745, 
ENST00000426836, ENST00000373734, 
ENST00000373740, ENST00000373750, 
ENST00000448110, 		ENST00000301180, 
Fusion gene scores* DoF score5 X 5 X 4=10014 X 14 X 6=1176
# samples 615
** MAII scorelog2(6/100*10)=-0.736965594166206
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0		log2(15/1176*10)=-2.97085365434048
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: DSN1 [Title/Abstract] AND DIP2B [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointDSN1(35399828)-DIP2B(51089050), # samples:1
Anticipated loss of major functional domain due to fusion event.DSN1-DIP2B seems lost the major protein functional domain in Hgene partner, which is a essential gene due to the frame-shifted ORF.
DSN1-DIP2B seems lost the major protein functional domain in Tgene partner, which is a essential 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)

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 DSN1 (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 DIP2B (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 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.
SourceDiseaseSampleHgeneHchrHbpHstrandTgeneTchrTbpTstrand
ChimerDB4STADTCGA-BR-A4PD-01ADSN1chr20

35399828

-DIP2Bchr12

51089050

+


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Fusion Gene ORF analysis for DSN1-DIP2B

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
5UTR-3CDSENST00000473615ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
Frame-shiftENST00000373745ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
Frame-shiftENST00000426836ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
In-frameENST00000373734ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
In-frameENST00000373740ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
In-frameENST00000373750ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+
intron-3CDSENST00000448110ENST00000301180DSN1chr20

35399828

-DIP2Bchr12

51089050

+

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)
ENST00000373740DSN1chr2035399828-ENST00000301180DIP2Bchr1251089050+694810810531191004
ENST00000373750DSN1chr2035399828-ENST00000301180DIP2Bchr1251089050+704320320032141004
ENST00000373734DSN1chr2035399828-ENST00000301180DIP2Bchr1251089050+704620620332171004

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
ENST00000373740ENST00000301180DSN1chr2035399828-DIP2Bchr1251089050+0.0001328240.9998672
ENST00000373750ENST00000301180DSN1chr2035399828-DIP2Bchr1251089050+0.0001474660.99985254
ENST00000373734ENST00000301180DSN1chr2035399828-DIP2Bchr1251089050+0.0001493820.99985063

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Fusion Genomic Features for DSN1-DIP2B


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)
DSN1chr2035399827-DIP2Bchr1251089049+6.65E-070.9999993
DSN1chr2035399827-DIP2Bchr1251089049+6.65E-070.9999993

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

check buttonDistribution 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.
genomic feature of top 1%

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Fusion Protein Features for DSN1-DIP2B


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/chr20:35399828/chr12:51089050)
- 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
DSN1

Q9H410

DIP2B

Q9P265

FUNCTION: Part of the MIS12 complex which is required for normal chromosome alignment and segregation and kinetochore formation during mitosis. {ECO:0000269|PubMed:15502821, ECO:0000269|PubMed:16585270}.FUNCTION: Negatively regulates axonal outgrowth and is essential for normal synaptic transmission. Not required for regulation of axon polarity. Promotes acetylation of alpha-tubulin. {ECO:0000250|UniProtKB:Q3UH60}.

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
TgeneDIP2Bchr20:35399828chr12:51089050ENST0000030118013381118_11215731577.0Compositional biasNote=Poly-Ala
TgeneDIP2Bchr20:35399828chr12:51089050ENST0000030118013381503_15065731577.0Compositional biasNote=Poly-Val
TgeneDIP2Bchr20:35399828chr12:51089050ENST0000030118013381534_15405731577.0Compositional biasNote=Poly-Val

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
TgeneDIP2Bchr20:35399828chr12:51089050ENST000003011801338145_2345731577.0Compositional biasNote=Ser-rich
TgeneDIP2Bchr20:35399828chr12:51089050ENST00000301180133812_1315731577.0DomainDMAP1-binding


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Fusion Gene Sequence for DSN1-DIP2B


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.
>24257_24257_1_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373734_DIP2B_chr12_51089050_ENST00000301180_length(transcript)=7046nt_BP=206nt
GCATGCGCCCTTGGTTGGCGGGAGTTTCGGAGGCGGTGACCGTGACGTAGAAGGTGGAGACCGCTTCACCCTGATCAGGGAGTATCGGCT
GCGGGTGCGCAAGGCGTCCAGGAGTGACCTGGGGCTGTGGAGAGCGACCCGTGGCCTTGTGTTTCAGAGTTTACCACCTAGGATGACTTC
AGTGACTAGATCAGAGATCATAGATGAATGTAATGAATAAGATGCACACAATCAGCGTACCCTACTCTGTTATGAAAACCTGTCCTCTCT
CTTGGGTCCAAAGAGTACATGCTCACAAAGCCAAGGTAGCTTTAGTAAAATGTCGGGACTTGCACTGGGCTATGATGGCACATCGGGACC
AAAGAGACGTGAGCTTGAGTTCCCTCCGAATGTTAATTGTGACTGATGGAGCTAACCCCTGGTCCGTGTCATCCTGTGATGCCTTCCTGA
GTCTGTTCCAAAGTCATGGACTGAAGCCTGAGGCCATCTGTCCGTGCGCCACGTCTGCTGAAGCCATGACTGTAGCAATCCGCAGGCCTG
GAGTTCCAGGAGCCCCTTTGCCAGGAAGAGCCATTCTCTCAATGAATGGATTGAGCTATGGGGTAATACGGGTCAATACTGAAGATAAAA
ATTCAGCACTGACGGTCCAGGATGTAGGGCATGTAATGCCTGGTGGGATGATGTGCATTGTGAAACCAGATGGACCTCCCCAGCTCTGCA
AAACAGATGAAATTGGAGAAATCTGTGTTAGCTCCAGAACTGGAGGCATGATGTACTTTGGGCTTGCTGGTGTGACAAAAAATACATTTG
AGGTAATTCCAGTGAATTCTGCAGGCTCTCCTGTTGGGGATGTGCCATTCATCCGATCAGGATTGCTGGGGTTTGTAGGGCCGGGTAGTT
TGGTGTTCGTGGTTGGGAAAATGGATGGCTTACTGATGGTTAGTGGTCGAAGACATAATGCTGATGACATTGTTGCTACTGGATTGGCTG
TAGAATCAATAAAGACTGTTTATAGAGGAAGAATTGCTGTGTTTTCTGTGTCTGTATTTTATGATGAGCGCATTGTGGTGGTTGCGGAAC
AAAGACCTGATGCTTCTGAGGAAGATAGTTTCCAGTGGATGAGCCGCGTGCTGCAGGCGATCGATAGCATTCATCAAGTGGGGGTTTATT
GTCTTGCTCTGGTGCCAGCCAATACATTGCCAAAAACTCCACTAGGAGGAATCCATATATCTCAGACGAAACAACTCTTTCTGGAGGGAT
CACTGCATCCTTGCAACATCCTCATGTGCCCCCATACATGTGTGACAAACTTGCCAAAGCCCCGGCAAAAACAACCAGGTGTAGGCCCTG
CTTCCGTGATGGTTGGGAATCTGGTTGCTGGAAAACGTATAGCACAAGCTGCTGGAAGGGATCTGGGACAAATAGAAGAGAATGATTTGG
TGAGGAAGCACCAGTTTCTGGCAGAGATCCTACAGTGGCGAGCCCAGGCGACTCCTGACCATGTACTCTTCATGCTGTTAAATGCCAAGG
GAACCACTGTATGCACAGCCAGCTGCCTTCAGCTTCATAAGCGAGCAGAGAGGATTGCATCTGTTCTTGGTGATAAGGGACATCTAAATG
CAGGAGATAATGTGGTGTTGCTCTATCCACCTGGCATTGAGTTAATCGCCGCCTTCTATGGCTGCCTGTATGCGGGCTGTATACCTGTGA
CCGTCAGACCTCCACATGCTCAGAACCTCACGGCCACGCTGCCCACTGTCCGAATGATTGTTGATGTCAGCAAAGCAGCCTGTATTCTCA
CCAGTCAGACCCTAATGAGGCTACTGAGGTCCCGAGAGGCAGCAGCAGCTGTGGATGTGAAAACCTGGCCAACCATCATTGACACAGATG
ATTTACCCAGGAAAAGGTTACCTCAGCTGTATAAACCGCCCACTCCTGAGATGTTGGCATATCTTGATTTTAGTGTCTCCACAACTGGCA
TGCTTACAGGAGTGAAGATGTCCCACTCTGCAGTGAACGCTCTGTGTCGAGCCATCAAGCTCCAGTGTGAGTTGTACTCTTCTCGGCAGA
TCGCCATCTGCCTTGACCCTTACTGTGGACTTGGCTTCGCGCTCTGGTGTCTCTGCAGTGTCTATTCAGGCCACCAGTCTGTCTTAATTC
CTCCTATGGAGTTAGAGAACAACCTTTTCCTCTGGCTCTCCACAGTCAACCAGTACAAAATAAGGGACACTTTCTGCTCCTATTCAGTGA
TGGAGCTCTGCACCAAAGGTCTTGGGAACCAAGTGGAAGTGCTAAAGACCAGAGGGATCAACCTCTCCTGCGTCCGGACCTGTGTGGTGG
TGGCGGAGGAGAGGCCCCGCGTTGCACTCCAGCAGTCCTTCTCTAAGCTCTTCAAAGACATCGGGCTGTCCCCGCGGGCTGTCAGCACCA
CTTTTGGATCAAGAGTCAATGTAGCAATATGTTTACAGGGAACCTCAGGGCCTGATCCGACTACTGTGTATGTGGATCTGAAATCACTAA
GACATGACAGGGTTCGTCTCGTGGAACGTGGCGCCCCTCAGAGTTTGCTTCTCTCAGAGTCTGGAAAGATTTTACCTGGAGTGAAAGTGG
TTATTGTTAATCCTGAGACCAAAGGGCCGGTTGGAGACTCTCACCTTGGAGAGATTTGGGTGAACAGTCCCCATACAGCCAGCGGCTACT
ACACCATCTATGATAGCGAGACTCTTCAAGCTGATCATTTCAACACTCGCCTCAGCTTTGGAGATGCAGCTCAGACACTCTGGGCTCGGA
CAGGATACCTTGGTTTTGTCCGCCGGACCGAGCTCACAGCGGCCACTGGAGAGCGTCATGATGCATTGTATGTGGTGGGAGCGCTGGATG
AAACACTGGAGCTGAGAGGATTACGATACCACCCAATTGATATTGAGACCTCGGTGTCCCGGATCCACAGAAGCATTGCTGAATGTGCCG
TGTTCACATGGACCAACTTGCTTGTGGTGGTTGTGGAACTGTGCGGCTCTGAACAGGAAGCCCTAGATCTGGTCCCATTAGTGACCAACG
TGGTCCTGGAAGAGCATTACCTCATCGTTGGCGTCGTGGTTGTGGTGGACCCAGGTGTCATCCCGATCAACTCCAGAGGAGAGAAGCAGA
GGATGCACCTCCGTGATAGCTTCCTAGCTGACCAGTTAGACCCCATCTACGTGGCTTATAACATGTAACCAGCCTTGTGGGGACTGCAGT
GGGCCATTCTGAAGAATCACAAAGACAGAAGACCTCTGGCTAAGAGCAGGCTTCAAACGATGTGAAATAAGCTGAGATGGCTACATGATA
TTCTTCATCTCATCCTGTGGGATTCTGCAATCATAAAACACAGGAAAGGGGAATTCTGTGATGGCAAATGAAAAAAATGTTAACATTTGG
TAGACATGTGCTTTGACATAGCGTGAGCAGCACATTACTAAAGCAATTACATGCATGTTGCATTTTTTTCATCTGTTGTACATAGTTGTA
TTTTTATCTAATGCCATTTTAGAATTTTCTAAGGGAATTTAATGAATTCACATGAAAGGGGTAGTCTGAGTGACACAGTTCCCCACTCCG
TACTGTATTTTGCCATTCTGCCGTAGCTAGATGTTCTGTGGGGTTTGTTAACATGGAACTACTCAGCTTTCTTTCAGTCAACCCATAAGC
AAATCAGATAACCCACTGACTATGAGAATTACTTTATATAGATAATTCTTGACTGTAAAACATTTTGACCAGTGTTTTACAACATGTACA
TAAGAATACACATAATTCAACTAGAGATTTGAAGAATTGGCTTGTATAGTTATAACAACCACAGTAGAAACATTTCTACTTTGAGAGAAT
TTCAATATTCTCTTAATGTTGTGTAATTGATTAGGTAACTAAAAAGCGCAAATTGTTGGCAGGTTTTGCTGCACATTGTTCTATGTCTTT
GTTGGCTGGTGTATTTTATAAACTAAAGCTGCCTATGTTTCTTTTTAAAGCTCGCATTCCCAGAATCAGCTTAGGCTTCTATGAATTCAG
CCTGTTTCTAAAAGCTGAAAATCTCAGTTTAAAAATCAAAATGTTAACACAAAGCTAAGATTCATCAGAGCCCACCCTATTCTAAGGAAC
CACAATAACTTACTCTGGCCCCAGTGTTAAAACGATCTTTCAGATTTAGAGTGACTATGTAAGAATTTAGGATTTCCTCTTTTCCAGGCA
CATTGTAAACTGTGTCTACAGTTTATCCATATAACTTCTCTTCTGAAAACTGAGGAGTGTCCTCTGTTCTTCCAGTTCACGAGGGCAGGG
GGTTTAAAACAAGAATGATAGGCCAGGAAGGCAGTGGGGATCCACCATCACATGGAACTGTAAGGCCATATAACTACACAAAACTGACCA
ATCTGGGTTGCCAAAGCAGCCAGGCTTATGCTGAAACCGGGGAAGTCTGACATATGCAGGAAACTCTTTTGAAATAACTTTGGTGCCCAG
GCCAAGTAGAATGAGATGAGACTGAGTTTGGCCTCTGGCTCGGTTTCCTTTCTTTGGTCTGATACTTCATGTATTTGAATATAGTTAAAT
CGTATTATTTTTTTCTTAACAGAAATATTTTTAAAAATGAAAAAGTACTCAAAAGTGAGAAGAGTTAACTTGTCAAAGCAGAATGGTTCT
CTTTGACCCACTCTGGTCTATTGTGTAAATATTTATTTAGACTATTTTAATAATACATATTATTTACCCCACTGTAACATCATGTAAACT
AAGTATGTTTTTAAACAATTTTTAAGACTTGTAATTACCCTGAAAATAAGGTTTATAATGCAAAGACCAGCTCCTTTGCGGTGGCAGTGC
TCTAGGGCTGCCATTACACGGTCTTGTGATGTGACTAAAAGCCACTTTGTGACTCCCTTCATGTAATCCTCTTTTCCTCCCCACTCCTCC
ACAGAGGGCAGAGCTCAGGACATTTGCCAGTTCCAGATCTCTTTTTCAGCATTTTCATGGAATTAATTTACACGTAATGAGGGAAGTCCT
AGGATGGATAGAAAAAAAGCACTTACATTGGGGCACACAGGAAATCCCAGTGTCTAGCAATGGTTTGGTTTGCAGAGAACACAGCCTGAT
ACTTAATTTTCTTAAAACTATTTTTAATGATCCACTAAACAAAGCAGGGGATCCTGAAGCTGATATAAATAAGTCTAGCTCTATAATCCC
CAAGTTCTAAAAGTTATGGTTAGATGCTATTCTGTGGGTTGCTTTGATAATTCTTACTAACACAGATTAGGGTATAGGCATCTAGAGATG
CACTGTCCACTGTAAATACTATAATGAGAGCCACATCTGTAATTTAAATGTTTCTAGTAACCACATTTTTTTAAAAGTAAAAAGAAACCC
ATGGTATTGATTTAAATATATTTTATTTAACCCAATAGCTCAAAAACACTATCATTTCAACATAGGATCAATATAAAAATTATTAATGAG
TTATTTTACTTTTTTTCATATTAGGCCTTTGAAATTCAGTGTGTATTAAACACATCTCAATTCAAACCATCACCATATTTCAAGTCTTTG
TAGCCAAATGTGACTAGTGGCTACCATATTAGACAGTGCAGATCTATACTCATTCCTTCAAATACATTACTCTGTTAATCTCAAAGTGTG
GCCAACTCCCATTTACTTAGAGGCTGATTATCTAGTTTTGTAGTTCCTCAGGCCTCTAATTTATTTTTTGCTTTCTGCTTTATTGATCTT
TTGCATGTCCCCCAAAGCCAGAATCTGCTCATGGAGGAAGGAAGGCTAAGAACTGTCCTTGAGGAACTTCATCAGTAACTCTGGTAAAGC
ATCCTGTGGAGGGAGAGGAGAGCCCAGTCATTTGCTTAGATGGTGTTTGTGGGATCACCTGCAGATTTAAAGCCTACTCTGCCACAGACT
CGAGTAAGAAAATGTTCTCTTGATGACACAGTGCTCCTACTCTATCCACATTAAGTAGCACTTTTGTGGTAGAACTGATTCTTAAGGCAG
GCCTGAAAGGCCATTACTAATAGAAACACAGCCTTTCCAATCCTCTGGAACATATTCTGTCTGGGTTTTTAATGTCTGTGGAAAAAAACT
AAACAAGTCTCTGTCTCAGTTAAGAGAAATCTATTGGTCTGAAGGTTTCTGAACCTCTTTCTGGTTCTCAGCAGAAGTAACTGAAGTAGA
TCAGGAAGGGGCTGCCTCAGGAAAATTCCTAGATCCTAGGAATTCAGTGAGACCCTGGGAAGGACCAGCATGCTAATCAGTGTCAGTGAA
TCCACAGTCTTTACTTCCTGCCTCATAAAGGGCCAGGTCTCCCCAGTACCAAGTCCTTTCCTCATGAAGTTGTGTTGCCTCAGGCTGTTT
AGGGACCATTGCCTGTCTTGGTCACATGAGTCTGTCTCCTTACTTTAGTCCCTGGGCAATCCTTGCTTAATGCTTTTGTTGACTCAACAA
GGGCCCGAGGCCTTAGGTTTTCTATTAAGGTCTCTGCCCCAGGCATGGTGCTCTATATCTTGGCCAAATAAATTACTTTCCTTGAATATC
CAGGAATCTTTTAGTCTAAAGCAATGAGGAGTTATCACCTCATCCTCAAACTCCAACAAGATCTATGCCTTAGTGTTGTTTTTGTTGTCT
GCTTTGATGTAAAAGCAAGAGTATTTGGAGCAAGAAGCTGCAATGCGCCAAATACACAATAGGCCTTTTCTTTATCATTCATACGACATT
TCTGGTTTAGGTGTATGTAGTTGGGCCATGTTACTTGTCCAGAGGAAGAGACTAAAGATATAAGAATAATTTTTTAGTCCTAAATGCTGT
TTTGTTTACTTTCTGTCAAGATATTTACCCGTGTCAAATTCAAACTACAGTACTGTGTAATTATGTATAAAGTTTTTTTATTTATTTGAA
GTTAGACTAGATATACGTTTTTAAATTTAACATCTGGCTGGACAGTGTTCTATTAACTCATTGAATGTGTTTCCTTTGTCTTGTGTTAAT

>24257_24257_1_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373734_DIP2B_chr12_51089050_ENST00000301180_length(amino acids)=1004AA_BP=1
MNVMNKMHTISVPYSVMKTCPLSWVQRVHAHKAKVALVKCRDLHWAMMAHRDQRDVSLSSLRMLIVTDGANPWSVSSCDAFLSLFQSHGL
KPEAICPCATSAEAMTVAIRRPGVPGAPLPGRAILSMNGLSYGVIRVNTEDKNSALTVQDVGHVMPGGMMCIVKPDGPPQLCKTDEIGEI
CVSSRTGGMMYFGLAGVTKNTFEVIPVNSAGSPVGDVPFIRSGLLGFVGPGSLVFVVGKMDGLLMVSGRRHNADDIVATGLAVESIKTVY
RGRIAVFSVSVFYDERIVVVAEQRPDASEEDSFQWMSRVLQAIDSIHQVGVYCLALVPANTLPKTPLGGIHISQTKQLFLEGSLHPCNIL
MCPHTCVTNLPKPRQKQPGVGPASVMVGNLVAGKRIAQAAGRDLGQIEENDLVRKHQFLAEILQWRAQATPDHVLFMLLNAKGTTVCTAS
CLQLHKRAERIASVLGDKGHLNAGDNVVLLYPPGIELIAAFYGCLYAGCIPVTVRPPHAQNLTATLPTVRMIVDVSKAACILTSQTLMRL
LRSREAAAAVDVKTWPTIIDTDDLPRKRLPQLYKPPTPEMLAYLDFSVSTTGMLTGVKMSHSAVNALCRAIKLQCELYSSRQIAICLDPY
CGLGFALWCLCSVYSGHQSVLIPPMELENNLFLWLSTVNQYKIRDTFCSYSVMELCTKGLGNQVEVLKTRGINLSCVRTCVVVAEERPRV
ALQQSFSKLFKDIGLSPRAVSTTFGSRVNVAICLQGTSGPDPTTVYVDLKSLRHDRVRLVERGAPQSLLLSESGKILPGVKVVIVNPETK
GPVGDSHLGEIWVNSPHTASGYYTIYDSETLQADHFNTRLSFGDAAQTLWARTGYLGFVRRTELTAATGERHDALYVVGALDETLELRGL
RYHPIDIETSVSRIHRSIAECAVFTWTNLLVVVVELCGSEQEALDLVPLVTNVVLEEHYLIVGVVVVVDPGVIPINSRGEKQRMHLRDSF

--------------------------------------------------------------
>24257_24257_2_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373740_DIP2B_chr12_51089050_ENST00000301180_length(transcript)=6948nt_BP=108nt
GCAAGGCGTCCAGGAGTGACCTGGGGCTGTGGAGAGCGACCCGTGGCCTTGTGTTTCAGAGTTTACCACCTAGGATGACTTCAGTGACTA
GATCAGAGATCATAGATGAATGTAATGAATAAGATGCACACAATCAGCGTACCCTACTCTGTTATGAAAACCTGTCCTCTCTCTTGGGTC
CAAAGAGTACATGCTCACAAAGCCAAGGTAGCTTTAGTAAAATGTCGGGACTTGCACTGGGCTATGATGGCACATCGGGACCAAAGAGAC
GTGAGCTTGAGTTCCCTCCGAATGTTAATTGTGACTGATGGAGCTAACCCCTGGTCCGTGTCATCCTGTGATGCCTTCCTGAGTCTGTTC
CAAAGTCATGGACTGAAGCCTGAGGCCATCTGTCCGTGCGCCACGTCTGCTGAAGCCATGACTGTAGCAATCCGCAGGCCTGGAGTTCCA
GGAGCCCCTTTGCCAGGAAGAGCCATTCTCTCAATGAATGGATTGAGCTATGGGGTAATACGGGTCAATACTGAAGATAAAAATTCAGCA
CTGACGGTCCAGGATGTAGGGCATGTAATGCCTGGTGGGATGATGTGCATTGTGAAACCAGATGGACCTCCCCAGCTCTGCAAAACAGAT
GAAATTGGAGAAATCTGTGTTAGCTCCAGAACTGGAGGCATGATGTACTTTGGGCTTGCTGGTGTGACAAAAAATACATTTGAGGTAATT
CCAGTGAATTCTGCAGGCTCTCCTGTTGGGGATGTGCCATTCATCCGATCAGGATTGCTGGGGTTTGTAGGGCCGGGTAGTTTGGTGTTC
GTGGTTGGGAAAATGGATGGCTTACTGATGGTTAGTGGTCGAAGACATAATGCTGATGACATTGTTGCTACTGGATTGGCTGTAGAATCA
ATAAAGACTGTTTATAGAGGAAGAATTGCTGTGTTTTCTGTGTCTGTATTTTATGATGAGCGCATTGTGGTGGTTGCGGAACAAAGACCT
GATGCTTCTGAGGAAGATAGTTTCCAGTGGATGAGCCGCGTGCTGCAGGCGATCGATAGCATTCATCAAGTGGGGGTTTATTGTCTTGCT
CTGGTGCCAGCCAATACATTGCCAAAAACTCCACTAGGAGGAATCCATATATCTCAGACGAAACAACTCTTTCTGGAGGGATCACTGCAT
CCTTGCAACATCCTCATGTGCCCCCATACATGTGTGACAAACTTGCCAAAGCCCCGGCAAAAACAACCAGGTGTAGGCCCTGCTTCCGTG
ATGGTTGGGAATCTGGTTGCTGGAAAACGTATAGCACAAGCTGCTGGAAGGGATCTGGGACAAATAGAAGAGAATGATTTGGTGAGGAAG
CACCAGTTTCTGGCAGAGATCCTACAGTGGCGAGCCCAGGCGACTCCTGACCATGTACTCTTCATGCTGTTAAATGCCAAGGGAACCACT
GTATGCACAGCCAGCTGCCTTCAGCTTCATAAGCGAGCAGAGAGGATTGCATCTGTTCTTGGTGATAAGGGACATCTAAATGCAGGAGAT
AATGTGGTGTTGCTCTATCCACCTGGCATTGAGTTAATCGCCGCCTTCTATGGCTGCCTGTATGCGGGCTGTATACCTGTGACCGTCAGA
CCTCCACATGCTCAGAACCTCACGGCCACGCTGCCCACTGTCCGAATGATTGTTGATGTCAGCAAAGCAGCCTGTATTCTCACCAGTCAG
ACCCTAATGAGGCTACTGAGGTCCCGAGAGGCAGCAGCAGCTGTGGATGTGAAAACCTGGCCAACCATCATTGACACAGATGATTTACCC
AGGAAAAGGTTACCTCAGCTGTATAAACCGCCCACTCCTGAGATGTTGGCATATCTTGATTTTAGTGTCTCCACAACTGGCATGCTTACA
GGAGTGAAGATGTCCCACTCTGCAGTGAACGCTCTGTGTCGAGCCATCAAGCTCCAGTGTGAGTTGTACTCTTCTCGGCAGATCGCCATC
TGCCTTGACCCTTACTGTGGACTTGGCTTCGCGCTCTGGTGTCTCTGCAGTGTCTATTCAGGCCACCAGTCTGTCTTAATTCCTCCTATG
GAGTTAGAGAACAACCTTTTCCTCTGGCTCTCCACAGTCAACCAGTACAAAATAAGGGACACTTTCTGCTCCTATTCAGTGATGGAGCTC
TGCACCAAAGGTCTTGGGAACCAAGTGGAAGTGCTAAAGACCAGAGGGATCAACCTCTCCTGCGTCCGGACCTGTGTGGTGGTGGCGGAG
GAGAGGCCCCGCGTTGCACTCCAGCAGTCCTTCTCTAAGCTCTTCAAAGACATCGGGCTGTCCCCGCGGGCTGTCAGCACCACTTTTGGA
TCAAGAGTCAATGTAGCAATATGTTTACAGGGAACCTCAGGGCCTGATCCGACTACTGTGTATGTGGATCTGAAATCACTAAGACATGAC
AGGGTTCGTCTCGTGGAACGTGGCGCCCCTCAGAGTTTGCTTCTCTCAGAGTCTGGAAAGATTTTACCTGGAGTGAAAGTGGTTATTGTT
AATCCTGAGACCAAAGGGCCGGTTGGAGACTCTCACCTTGGAGAGATTTGGGTGAACAGTCCCCATACAGCCAGCGGCTACTACACCATC
TATGATAGCGAGACTCTTCAAGCTGATCATTTCAACACTCGCCTCAGCTTTGGAGATGCAGCTCAGACACTCTGGGCTCGGACAGGATAC
CTTGGTTTTGTCCGCCGGACCGAGCTCACAGCGGCCACTGGAGAGCGTCATGATGCATTGTATGTGGTGGGAGCGCTGGATGAAACACTG
GAGCTGAGAGGATTACGATACCACCCAATTGATATTGAGACCTCGGTGTCCCGGATCCACAGAAGCATTGCTGAATGTGCCGTGTTCACA
TGGACCAACTTGCTTGTGGTGGTTGTGGAACTGTGCGGCTCTGAACAGGAAGCCCTAGATCTGGTCCCATTAGTGACCAACGTGGTCCTG
GAAGAGCATTACCTCATCGTTGGCGTCGTGGTTGTGGTGGACCCAGGTGTCATCCCGATCAACTCCAGAGGAGAGAAGCAGAGGATGCAC
CTCCGTGATAGCTTCCTAGCTGACCAGTTAGACCCCATCTACGTGGCTTATAACATGTAACCAGCCTTGTGGGGACTGCAGTGGGCCATT
CTGAAGAATCACAAAGACAGAAGACCTCTGGCTAAGAGCAGGCTTCAAACGATGTGAAATAAGCTGAGATGGCTACATGATATTCTTCAT
CTCATCCTGTGGGATTCTGCAATCATAAAACACAGGAAAGGGGAATTCTGTGATGGCAAATGAAAAAAATGTTAACATTTGGTAGACATG
TGCTTTGACATAGCGTGAGCAGCACATTACTAAAGCAATTACATGCATGTTGCATTTTTTTCATCTGTTGTACATAGTTGTATTTTTATC
TAATGCCATTTTAGAATTTTCTAAGGGAATTTAATGAATTCACATGAAAGGGGTAGTCTGAGTGACACAGTTCCCCACTCCGTACTGTAT
TTTGCCATTCTGCCGTAGCTAGATGTTCTGTGGGGTTTGTTAACATGGAACTACTCAGCTTTCTTTCAGTCAACCCATAAGCAAATCAGA
TAACCCACTGACTATGAGAATTACTTTATATAGATAATTCTTGACTGTAAAACATTTTGACCAGTGTTTTACAACATGTACATAAGAATA
CACATAATTCAACTAGAGATTTGAAGAATTGGCTTGTATAGTTATAACAACCACAGTAGAAACATTTCTACTTTGAGAGAATTTCAATAT
TCTCTTAATGTTGTGTAATTGATTAGGTAACTAAAAAGCGCAAATTGTTGGCAGGTTTTGCTGCACATTGTTCTATGTCTTTGTTGGCTG
GTGTATTTTATAAACTAAAGCTGCCTATGTTTCTTTTTAAAGCTCGCATTCCCAGAATCAGCTTAGGCTTCTATGAATTCAGCCTGTTTC
TAAAAGCTGAAAATCTCAGTTTAAAAATCAAAATGTTAACACAAAGCTAAGATTCATCAGAGCCCACCCTATTCTAAGGAACCACAATAA
CTTACTCTGGCCCCAGTGTTAAAACGATCTTTCAGATTTAGAGTGACTATGTAAGAATTTAGGATTTCCTCTTTTCCAGGCACATTGTAA
ACTGTGTCTACAGTTTATCCATATAACTTCTCTTCTGAAAACTGAGGAGTGTCCTCTGTTCTTCCAGTTCACGAGGGCAGGGGGTTTAAA
ACAAGAATGATAGGCCAGGAAGGCAGTGGGGATCCACCATCACATGGAACTGTAAGGCCATATAACTACACAAAACTGACCAATCTGGGT
TGCCAAAGCAGCCAGGCTTATGCTGAAACCGGGGAAGTCTGACATATGCAGGAAACTCTTTTGAAATAACTTTGGTGCCCAGGCCAAGTA
GAATGAGATGAGACTGAGTTTGGCCTCTGGCTCGGTTTCCTTTCTTTGGTCTGATACTTCATGTATTTGAATATAGTTAAATCGTATTAT
TTTTTTCTTAACAGAAATATTTTTAAAAATGAAAAAGTACTCAAAAGTGAGAAGAGTTAACTTGTCAAAGCAGAATGGTTCTCTTTGACC
CACTCTGGTCTATTGTGTAAATATTTATTTAGACTATTTTAATAATACATATTATTTACCCCACTGTAACATCATGTAAACTAAGTATGT
TTTTAAACAATTTTTAAGACTTGTAATTACCCTGAAAATAAGGTTTATAATGCAAAGACCAGCTCCTTTGCGGTGGCAGTGCTCTAGGGC
TGCCATTACACGGTCTTGTGATGTGACTAAAAGCCACTTTGTGACTCCCTTCATGTAATCCTCTTTTCCTCCCCACTCCTCCACAGAGGG
CAGAGCTCAGGACATTTGCCAGTTCCAGATCTCTTTTTCAGCATTTTCATGGAATTAATTTACACGTAATGAGGGAAGTCCTAGGATGGA
TAGAAAAAAAGCACTTACATTGGGGCACACAGGAAATCCCAGTGTCTAGCAATGGTTTGGTTTGCAGAGAACACAGCCTGATACTTAATT
TTCTTAAAACTATTTTTAATGATCCACTAAACAAAGCAGGGGATCCTGAAGCTGATATAAATAAGTCTAGCTCTATAATCCCCAAGTTCT
AAAAGTTATGGTTAGATGCTATTCTGTGGGTTGCTTTGATAATTCTTACTAACACAGATTAGGGTATAGGCATCTAGAGATGCACTGTCC
ACTGTAAATACTATAATGAGAGCCACATCTGTAATTTAAATGTTTCTAGTAACCACATTTTTTTAAAAGTAAAAAGAAACCCATGGTATT
GATTTAAATATATTTTATTTAACCCAATAGCTCAAAAACACTATCATTTCAACATAGGATCAATATAAAAATTATTAATGAGTTATTTTA
CTTTTTTTCATATTAGGCCTTTGAAATTCAGTGTGTATTAAACACATCTCAATTCAAACCATCACCATATTTCAAGTCTTTGTAGCCAAA
TGTGACTAGTGGCTACCATATTAGACAGTGCAGATCTATACTCATTCCTTCAAATACATTACTCTGTTAATCTCAAAGTGTGGCCAACTC
CCATTTACTTAGAGGCTGATTATCTAGTTTTGTAGTTCCTCAGGCCTCTAATTTATTTTTTGCTTTCTGCTTTATTGATCTTTTGCATGT
CCCCCAAAGCCAGAATCTGCTCATGGAGGAAGGAAGGCTAAGAACTGTCCTTGAGGAACTTCATCAGTAACTCTGGTAAAGCATCCTGTG
GAGGGAGAGGAGAGCCCAGTCATTTGCTTAGATGGTGTTTGTGGGATCACCTGCAGATTTAAAGCCTACTCTGCCACAGACTCGAGTAAG
AAAATGTTCTCTTGATGACACAGTGCTCCTACTCTATCCACATTAAGTAGCACTTTTGTGGTAGAACTGATTCTTAAGGCAGGCCTGAAA
GGCCATTACTAATAGAAACACAGCCTTTCCAATCCTCTGGAACATATTCTGTCTGGGTTTTTAATGTCTGTGGAAAAAAACTAAACAAGT
CTCTGTCTCAGTTAAGAGAAATCTATTGGTCTGAAGGTTTCTGAACCTCTTTCTGGTTCTCAGCAGAAGTAACTGAAGTAGATCAGGAAG
GGGCTGCCTCAGGAAAATTCCTAGATCCTAGGAATTCAGTGAGACCCTGGGAAGGACCAGCATGCTAATCAGTGTCAGTGAATCCACAGT
CTTTACTTCCTGCCTCATAAAGGGCCAGGTCTCCCCAGTACCAAGTCCTTTCCTCATGAAGTTGTGTTGCCTCAGGCTGTTTAGGGACCA
TTGCCTGTCTTGGTCACATGAGTCTGTCTCCTTACTTTAGTCCCTGGGCAATCCTTGCTTAATGCTTTTGTTGACTCAACAAGGGCCCGA
GGCCTTAGGTTTTCTATTAAGGTCTCTGCCCCAGGCATGGTGCTCTATATCTTGGCCAAATAAATTACTTTCCTTGAATATCCAGGAATC
TTTTAGTCTAAAGCAATGAGGAGTTATCACCTCATCCTCAAACTCCAACAAGATCTATGCCTTAGTGTTGTTTTTGTTGTCTGCTTTGAT
GTAAAAGCAAGAGTATTTGGAGCAAGAAGCTGCAATGCGCCAAATACACAATAGGCCTTTTCTTTATCATTCATACGACATTTCTGGTTT
AGGTGTATGTAGTTGGGCCATGTTACTTGTCCAGAGGAAGAGACTAAAGATATAAGAATAATTTTTTAGTCCTAAATGCTGTTTTGTTTA
CTTTCTGTCAAGATATTTACCCGTGTCAAATTCAAACTACAGTACTGTGTAATTATGTATAAAGTTTTTTTATTTATTTGAAGTTAGACT
AGATATACGTTTTTAAATTTAACATCTGGCTGGACAGTGTTCTATTAACTCATTGAATGTGTTTCCTTTGTCTTGTGTTAATAAATATTG

>24257_24257_2_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373740_DIP2B_chr12_51089050_ENST00000301180_length(amino acids)=1004AA_BP=1
MNVMNKMHTISVPYSVMKTCPLSWVQRVHAHKAKVALVKCRDLHWAMMAHRDQRDVSLSSLRMLIVTDGANPWSVSSCDAFLSLFQSHGL
KPEAICPCATSAEAMTVAIRRPGVPGAPLPGRAILSMNGLSYGVIRVNTEDKNSALTVQDVGHVMPGGMMCIVKPDGPPQLCKTDEIGEI
CVSSRTGGMMYFGLAGVTKNTFEVIPVNSAGSPVGDVPFIRSGLLGFVGPGSLVFVVGKMDGLLMVSGRRHNADDIVATGLAVESIKTVY
RGRIAVFSVSVFYDERIVVVAEQRPDASEEDSFQWMSRVLQAIDSIHQVGVYCLALVPANTLPKTPLGGIHISQTKQLFLEGSLHPCNIL
MCPHTCVTNLPKPRQKQPGVGPASVMVGNLVAGKRIAQAAGRDLGQIEENDLVRKHQFLAEILQWRAQATPDHVLFMLLNAKGTTVCTAS
CLQLHKRAERIASVLGDKGHLNAGDNVVLLYPPGIELIAAFYGCLYAGCIPVTVRPPHAQNLTATLPTVRMIVDVSKAACILTSQTLMRL
LRSREAAAAVDVKTWPTIIDTDDLPRKRLPQLYKPPTPEMLAYLDFSVSTTGMLTGVKMSHSAVNALCRAIKLQCELYSSRQIAICLDPY
CGLGFALWCLCSVYSGHQSVLIPPMELENNLFLWLSTVNQYKIRDTFCSYSVMELCTKGLGNQVEVLKTRGINLSCVRTCVVVAEERPRV
ALQQSFSKLFKDIGLSPRAVSTTFGSRVNVAICLQGTSGPDPTTVYVDLKSLRHDRVRLVERGAPQSLLLSESGKILPGVKVVIVNPETK
GPVGDSHLGEIWVNSPHTASGYYTIYDSETLQADHFNTRLSFGDAAQTLWARTGYLGFVRRTELTAATGERHDALYVVGALDETLELRGL
RYHPIDIETSVSRIHRSIAECAVFTWTNLLVVVVELCGSEQEALDLVPLVTNVVLEEHYLIVGVVVVVDPGVIPINSRGEKQRMHLRDSF

--------------------------------------------------------------
>24257_24257_3_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373750_DIP2B_chr12_51089050_ENST00000301180_length(transcript)=7043nt_BP=203nt
TGCGCCCTTGGTTGGCGGGAGTTTCGGAGGCGGTGACCGTGACGTAGAAGGTGGAGACCGCTTCACCCTGATCAGGGAGTATCGGCTGCG
GGTGCGCAAGGCGTCCAGGAGTGACCTGGGGCTGTGGAGAGCGACCCGTGGCCTTGTGTTTCAGAGTTTACCACCTAGGATGACTTCAGT
GACTAGATCAGAGATCATAGATGAATGTAATGAATAAGATGCACACAATCAGCGTACCCTACTCTGTTATGAAAACCTGTCCTCTCTCTT
GGGTCCAAAGAGTACATGCTCACAAAGCCAAGGTAGCTTTAGTAAAATGTCGGGACTTGCACTGGGCTATGATGGCACATCGGGACCAAA
GAGACGTGAGCTTGAGTTCCCTCCGAATGTTAATTGTGACTGATGGAGCTAACCCCTGGTCCGTGTCATCCTGTGATGCCTTCCTGAGTC
TGTTCCAAAGTCATGGACTGAAGCCTGAGGCCATCTGTCCGTGCGCCACGTCTGCTGAAGCCATGACTGTAGCAATCCGCAGGCCTGGAG
TTCCAGGAGCCCCTTTGCCAGGAAGAGCCATTCTCTCAATGAATGGATTGAGCTATGGGGTAATACGGGTCAATACTGAAGATAAAAATT
CAGCACTGACGGTCCAGGATGTAGGGCATGTAATGCCTGGTGGGATGATGTGCATTGTGAAACCAGATGGACCTCCCCAGCTCTGCAAAA
CAGATGAAATTGGAGAAATCTGTGTTAGCTCCAGAACTGGAGGCATGATGTACTTTGGGCTTGCTGGTGTGACAAAAAATACATTTGAGG
TAATTCCAGTGAATTCTGCAGGCTCTCCTGTTGGGGATGTGCCATTCATCCGATCAGGATTGCTGGGGTTTGTAGGGCCGGGTAGTTTGG
TGTTCGTGGTTGGGAAAATGGATGGCTTACTGATGGTTAGTGGTCGAAGACATAATGCTGATGACATTGTTGCTACTGGATTGGCTGTAG
AATCAATAAAGACTGTTTATAGAGGAAGAATTGCTGTGTTTTCTGTGTCTGTATTTTATGATGAGCGCATTGTGGTGGTTGCGGAACAAA
GACCTGATGCTTCTGAGGAAGATAGTTTCCAGTGGATGAGCCGCGTGCTGCAGGCGATCGATAGCATTCATCAAGTGGGGGTTTATTGTC
TTGCTCTGGTGCCAGCCAATACATTGCCAAAAACTCCACTAGGAGGAATCCATATATCTCAGACGAAACAACTCTTTCTGGAGGGATCAC
TGCATCCTTGCAACATCCTCATGTGCCCCCATACATGTGTGACAAACTTGCCAAAGCCCCGGCAAAAACAACCAGGTGTAGGCCCTGCTT
CCGTGATGGTTGGGAATCTGGTTGCTGGAAAACGTATAGCACAAGCTGCTGGAAGGGATCTGGGACAAATAGAAGAGAATGATTTGGTGA
GGAAGCACCAGTTTCTGGCAGAGATCCTACAGTGGCGAGCCCAGGCGACTCCTGACCATGTACTCTTCATGCTGTTAAATGCCAAGGGAA
CCACTGTATGCACAGCCAGCTGCCTTCAGCTTCATAAGCGAGCAGAGAGGATTGCATCTGTTCTTGGTGATAAGGGACATCTAAATGCAG
GAGATAATGTGGTGTTGCTCTATCCACCTGGCATTGAGTTAATCGCCGCCTTCTATGGCTGCCTGTATGCGGGCTGTATACCTGTGACCG
TCAGACCTCCACATGCTCAGAACCTCACGGCCACGCTGCCCACTGTCCGAATGATTGTTGATGTCAGCAAAGCAGCCTGTATTCTCACCA
GTCAGACCCTAATGAGGCTACTGAGGTCCCGAGAGGCAGCAGCAGCTGTGGATGTGAAAACCTGGCCAACCATCATTGACACAGATGATT
TACCCAGGAAAAGGTTACCTCAGCTGTATAAACCGCCCACTCCTGAGATGTTGGCATATCTTGATTTTAGTGTCTCCACAACTGGCATGC
TTACAGGAGTGAAGATGTCCCACTCTGCAGTGAACGCTCTGTGTCGAGCCATCAAGCTCCAGTGTGAGTTGTACTCTTCTCGGCAGATCG
CCATCTGCCTTGACCCTTACTGTGGACTTGGCTTCGCGCTCTGGTGTCTCTGCAGTGTCTATTCAGGCCACCAGTCTGTCTTAATTCCTC
CTATGGAGTTAGAGAACAACCTTTTCCTCTGGCTCTCCACAGTCAACCAGTACAAAATAAGGGACACTTTCTGCTCCTATTCAGTGATGG
AGCTCTGCACCAAAGGTCTTGGGAACCAAGTGGAAGTGCTAAAGACCAGAGGGATCAACCTCTCCTGCGTCCGGACCTGTGTGGTGGTGG
CGGAGGAGAGGCCCCGCGTTGCACTCCAGCAGTCCTTCTCTAAGCTCTTCAAAGACATCGGGCTGTCCCCGCGGGCTGTCAGCACCACTT
TTGGATCAAGAGTCAATGTAGCAATATGTTTACAGGGAACCTCAGGGCCTGATCCGACTACTGTGTATGTGGATCTGAAATCACTAAGAC
ATGACAGGGTTCGTCTCGTGGAACGTGGCGCCCCTCAGAGTTTGCTTCTCTCAGAGTCTGGAAAGATTTTACCTGGAGTGAAAGTGGTTA
TTGTTAATCCTGAGACCAAAGGGCCGGTTGGAGACTCTCACCTTGGAGAGATTTGGGTGAACAGTCCCCATACAGCCAGCGGCTACTACA
CCATCTATGATAGCGAGACTCTTCAAGCTGATCATTTCAACACTCGCCTCAGCTTTGGAGATGCAGCTCAGACACTCTGGGCTCGGACAG
GATACCTTGGTTTTGTCCGCCGGACCGAGCTCACAGCGGCCACTGGAGAGCGTCATGATGCATTGTATGTGGTGGGAGCGCTGGATGAAA
CACTGGAGCTGAGAGGATTACGATACCACCCAATTGATATTGAGACCTCGGTGTCCCGGATCCACAGAAGCATTGCTGAATGTGCCGTGT
TCACATGGACCAACTTGCTTGTGGTGGTTGTGGAACTGTGCGGCTCTGAACAGGAAGCCCTAGATCTGGTCCCATTAGTGACCAACGTGG
TCCTGGAAGAGCATTACCTCATCGTTGGCGTCGTGGTTGTGGTGGACCCAGGTGTCATCCCGATCAACTCCAGAGGAGAGAAGCAGAGGA
TGCACCTCCGTGATAGCTTCCTAGCTGACCAGTTAGACCCCATCTACGTGGCTTATAACATGTAACCAGCCTTGTGGGGACTGCAGTGGG
CCATTCTGAAGAATCACAAAGACAGAAGACCTCTGGCTAAGAGCAGGCTTCAAACGATGTGAAATAAGCTGAGATGGCTACATGATATTC
TTCATCTCATCCTGTGGGATTCTGCAATCATAAAACACAGGAAAGGGGAATTCTGTGATGGCAAATGAAAAAAATGTTAACATTTGGTAG
ACATGTGCTTTGACATAGCGTGAGCAGCACATTACTAAAGCAATTACATGCATGTTGCATTTTTTTCATCTGTTGTACATAGTTGTATTT
TTATCTAATGCCATTTTAGAATTTTCTAAGGGAATTTAATGAATTCACATGAAAGGGGTAGTCTGAGTGACACAGTTCCCCACTCCGTAC
TGTATTTTGCCATTCTGCCGTAGCTAGATGTTCTGTGGGGTTTGTTAACATGGAACTACTCAGCTTTCTTTCAGTCAACCCATAAGCAAA
TCAGATAACCCACTGACTATGAGAATTACTTTATATAGATAATTCTTGACTGTAAAACATTTTGACCAGTGTTTTACAACATGTACATAA
GAATACACATAATTCAACTAGAGATTTGAAGAATTGGCTTGTATAGTTATAACAACCACAGTAGAAACATTTCTACTTTGAGAGAATTTC
AATATTCTCTTAATGTTGTGTAATTGATTAGGTAACTAAAAAGCGCAAATTGTTGGCAGGTTTTGCTGCACATTGTTCTATGTCTTTGTT
GGCTGGTGTATTTTATAAACTAAAGCTGCCTATGTTTCTTTTTAAAGCTCGCATTCCCAGAATCAGCTTAGGCTTCTATGAATTCAGCCT
GTTTCTAAAAGCTGAAAATCTCAGTTTAAAAATCAAAATGTTAACACAAAGCTAAGATTCATCAGAGCCCACCCTATTCTAAGGAACCAC
AATAACTTACTCTGGCCCCAGTGTTAAAACGATCTTTCAGATTTAGAGTGACTATGTAAGAATTTAGGATTTCCTCTTTTCCAGGCACAT
TGTAAACTGTGTCTACAGTTTATCCATATAACTTCTCTTCTGAAAACTGAGGAGTGTCCTCTGTTCTTCCAGTTCACGAGGGCAGGGGGT
TTAAAACAAGAATGATAGGCCAGGAAGGCAGTGGGGATCCACCATCACATGGAACTGTAAGGCCATATAACTACACAAAACTGACCAATC
TGGGTTGCCAAAGCAGCCAGGCTTATGCTGAAACCGGGGAAGTCTGACATATGCAGGAAACTCTTTTGAAATAACTTTGGTGCCCAGGCC
AAGTAGAATGAGATGAGACTGAGTTTGGCCTCTGGCTCGGTTTCCTTTCTTTGGTCTGATACTTCATGTATTTGAATATAGTTAAATCGT
ATTATTTTTTTCTTAACAGAAATATTTTTAAAAATGAAAAAGTACTCAAAAGTGAGAAGAGTTAACTTGTCAAAGCAGAATGGTTCTCTT
TGACCCACTCTGGTCTATTGTGTAAATATTTATTTAGACTATTTTAATAATACATATTATTTACCCCACTGTAACATCATGTAAACTAAG
TATGTTTTTAAACAATTTTTAAGACTTGTAATTACCCTGAAAATAAGGTTTATAATGCAAAGACCAGCTCCTTTGCGGTGGCAGTGCTCT
AGGGCTGCCATTACACGGTCTTGTGATGTGACTAAAAGCCACTTTGTGACTCCCTTCATGTAATCCTCTTTTCCTCCCCACTCCTCCACA
GAGGGCAGAGCTCAGGACATTTGCCAGTTCCAGATCTCTTTTTCAGCATTTTCATGGAATTAATTTACACGTAATGAGGGAAGTCCTAGG
ATGGATAGAAAAAAAGCACTTACATTGGGGCACACAGGAAATCCCAGTGTCTAGCAATGGTTTGGTTTGCAGAGAACACAGCCTGATACT
TAATTTTCTTAAAACTATTTTTAATGATCCACTAAACAAAGCAGGGGATCCTGAAGCTGATATAAATAAGTCTAGCTCTATAATCCCCAA
GTTCTAAAAGTTATGGTTAGATGCTATTCTGTGGGTTGCTTTGATAATTCTTACTAACACAGATTAGGGTATAGGCATCTAGAGATGCAC
TGTCCACTGTAAATACTATAATGAGAGCCACATCTGTAATTTAAATGTTTCTAGTAACCACATTTTTTTAAAAGTAAAAAGAAACCCATG
GTATTGATTTAAATATATTTTATTTAACCCAATAGCTCAAAAACACTATCATTTCAACATAGGATCAATATAAAAATTATTAATGAGTTA
TTTTACTTTTTTTCATATTAGGCCTTTGAAATTCAGTGTGTATTAAACACATCTCAATTCAAACCATCACCATATTTCAAGTCTTTGTAG
CCAAATGTGACTAGTGGCTACCATATTAGACAGTGCAGATCTATACTCATTCCTTCAAATACATTACTCTGTTAATCTCAAAGTGTGGCC
AACTCCCATTTACTTAGAGGCTGATTATCTAGTTTTGTAGTTCCTCAGGCCTCTAATTTATTTTTTGCTTTCTGCTTTATTGATCTTTTG
CATGTCCCCCAAAGCCAGAATCTGCTCATGGAGGAAGGAAGGCTAAGAACTGTCCTTGAGGAACTTCATCAGTAACTCTGGTAAAGCATC
CTGTGGAGGGAGAGGAGAGCCCAGTCATTTGCTTAGATGGTGTTTGTGGGATCACCTGCAGATTTAAAGCCTACTCTGCCACAGACTCGA
GTAAGAAAATGTTCTCTTGATGACACAGTGCTCCTACTCTATCCACATTAAGTAGCACTTTTGTGGTAGAACTGATTCTTAAGGCAGGCC
TGAAAGGCCATTACTAATAGAAACACAGCCTTTCCAATCCTCTGGAACATATTCTGTCTGGGTTTTTAATGTCTGTGGAAAAAAACTAAA
CAAGTCTCTGTCTCAGTTAAGAGAAATCTATTGGTCTGAAGGTTTCTGAACCTCTTTCTGGTTCTCAGCAGAAGTAACTGAAGTAGATCA
GGAAGGGGCTGCCTCAGGAAAATTCCTAGATCCTAGGAATTCAGTGAGACCCTGGGAAGGACCAGCATGCTAATCAGTGTCAGTGAATCC
ACAGTCTTTACTTCCTGCCTCATAAAGGGCCAGGTCTCCCCAGTACCAAGTCCTTTCCTCATGAAGTTGTGTTGCCTCAGGCTGTTTAGG
GACCATTGCCTGTCTTGGTCACATGAGTCTGTCTCCTTACTTTAGTCCCTGGGCAATCCTTGCTTAATGCTTTTGTTGACTCAACAAGGG
CCCGAGGCCTTAGGTTTTCTATTAAGGTCTCTGCCCCAGGCATGGTGCTCTATATCTTGGCCAAATAAATTACTTTCCTTGAATATCCAG
GAATCTTTTAGTCTAAAGCAATGAGGAGTTATCACCTCATCCTCAAACTCCAACAAGATCTATGCCTTAGTGTTGTTTTTGTTGTCTGCT
TTGATGTAAAAGCAAGAGTATTTGGAGCAAGAAGCTGCAATGCGCCAAATACACAATAGGCCTTTTCTTTATCATTCATACGACATTTCT
GGTTTAGGTGTATGTAGTTGGGCCATGTTACTTGTCCAGAGGAAGAGACTAAAGATATAAGAATAATTTTTTAGTCCTAAATGCTGTTTT
GTTTACTTTCTGTCAAGATATTTACCCGTGTCAAATTCAAACTACAGTACTGTGTAATTATGTATAAAGTTTTTTTATTTATTTGAAGTT
AGACTAGATATACGTTTTTAAATTTAACATCTGGCTGGACAGTGTTCTATTAACTCATTGAATGTGTTTCCTTTGTCTTGTGTTAATAAA

>24257_24257_3_DSN1-DIP2B_DSN1_chr20_35399828_ENST00000373750_DIP2B_chr12_51089050_ENST00000301180_length(amino acids)=1004AA_BP=1
MNVMNKMHTISVPYSVMKTCPLSWVQRVHAHKAKVALVKCRDLHWAMMAHRDQRDVSLSSLRMLIVTDGANPWSVSSCDAFLSLFQSHGL
KPEAICPCATSAEAMTVAIRRPGVPGAPLPGRAILSMNGLSYGVIRVNTEDKNSALTVQDVGHVMPGGMMCIVKPDGPPQLCKTDEIGEI
CVSSRTGGMMYFGLAGVTKNTFEVIPVNSAGSPVGDVPFIRSGLLGFVGPGSLVFVVGKMDGLLMVSGRRHNADDIVATGLAVESIKTVY
RGRIAVFSVSVFYDERIVVVAEQRPDASEEDSFQWMSRVLQAIDSIHQVGVYCLALVPANTLPKTPLGGIHISQTKQLFLEGSLHPCNIL
MCPHTCVTNLPKPRQKQPGVGPASVMVGNLVAGKRIAQAAGRDLGQIEENDLVRKHQFLAEILQWRAQATPDHVLFMLLNAKGTTVCTAS
CLQLHKRAERIASVLGDKGHLNAGDNVVLLYPPGIELIAAFYGCLYAGCIPVTVRPPHAQNLTATLPTVRMIVDVSKAACILTSQTLMRL
LRSREAAAAVDVKTWPTIIDTDDLPRKRLPQLYKPPTPEMLAYLDFSVSTTGMLTGVKMSHSAVNALCRAIKLQCELYSSRQIAICLDPY
CGLGFALWCLCSVYSGHQSVLIPPMELENNLFLWLSTVNQYKIRDTFCSYSVMELCTKGLGNQVEVLKTRGINLSCVRTCVVVAEERPRV
ALQQSFSKLFKDIGLSPRAVSTTFGSRVNVAICLQGTSGPDPTTVYVDLKSLRHDRVRLVERGAPQSLLLSESGKILPGVKVVIVNPETK
GPVGDSHLGEIWVNSPHTASGYYTIYDSETLQADHFNTRLSFGDAAQTLWARTGYLGFVRRTELTAATGERHDALYVVGALDETLELRGL
RYHPIDIETSVSRIHRSIAECAVFTWTNLLVVVVELCGSEQEALDLVPLVTNVVLEEHYLIVGVVVVVDPGVIPINSRGEKQRMHLRDSF

--------------------------------------------------------------

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Fusion Gene PPI Analysis for DSN1-DIP2B


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 DSN1-DIP2B


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 DSN1-DIP2B


check button Diseases associated with fusion partners.
(DisGeNet 4.0)
PartnerGeneDisease IDDisease name# pubmedsSource