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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:SPIDR-DSCAM (FusionGDB2 ID:85787)

Fusion Gene Summary for SPIDR-DSCAM

Fusion gene summary

Fusion gene information	Fusion gene name: SPIDR-DSCAM
	Fusion gene ID: 85787
		Hgene	Tgene
	Gene symbol	SPIDR	DSCAM
	Gene ID	23514	1826
	Gene name	scaffold protein involved in DNA repair	DS cell adhesion molecule
	Synonyms	KIAA0146	CHD2\|CHD2-42\|CHD2-52
	Cytomap	8q11.21	21q22.2
	Type of gene	protein-coding	protein-coding
	Description	DNA repair-scaffolding proteinscaffolding protein involved in DNA repair	Down syndrome cell adhesion molecule
	Modification date	20200320	20200313
	UniProtAcc	Q14159	Q8TD84
	Ensembl transtripts involved in fusion gene	ENST00000521214, ENST00000297423, ENST00000518074, ENST00000541342, ENST00000517693, ENST00000518060,	ENST00000400454,
Fusion gene scores	* DoF score	24 X 12 X 15=4320	13 X 11 X 6=858
	# samples	27	15
	** MAII score	log2(27/4320*10)=-4 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0	log2(15/858*10)=-2.51601514700366 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0
Context	PubMed: SPIDR [Title/Abstract] AND DSCAM [Title/Abstract] AND fusion [Title/Abstract]
Most frequent breakpoint	SPIDR(48206619)-DSCAM(41559914), # 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)

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	SPIDR	GO:0006974	cellular response to DNA damage stimulus	23509288
Hgene	SPIDR	GO:0010569	regulation of double-strand break repair via homologous recombination	23754376
Hgene	SPIDR	GO:0031334	positive regulation of protein complex assembly	23509288
Hgene	SPIDR	GO:0070202	regulation of establishment of protein localization to chromosome	23509288
Hgene	SPIDR	GO:0071479	cellular response to ionizing radiation	23509288\|23754376
Hgene	SPIDR	GO:0072711	cellular response to hydroxyurea	23509288
Hgene	SPIDR	GO:0072757	cellular response to camptothecin	23509288
Tgene	DSCAM	GO:0042327	positive regulation of phosphorylation	19196994
Tgene	DSCAM	GO:0048842	positive regulation of axon extension involved in axon guidance	18585357

Fusion gene breakpoints across SPIDR (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 DSCAM (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	OV	TCGA-36-1577-01A	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-

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Fusion Gene ORF analysis for SPIDR-DSCAM

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
3UTR-3CDS	ENST00000521214	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-
In-frame	ENST00000297423	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-
In-frame	ENST00000518074	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-
In-frame	ENST00000541342	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-
intron-3CDS	ENST00000517693	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-
intron-3CDS	ENST00000518060	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-

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)
ENST00000297423	SPIDR	chr8	48206619	+	ENST00000400454	DSCAM	chr21	41559914	-	6430	909	51	4394	1447
ENST00000518074	SPIDR	chr8	48206619	+	ENST00000400454	DSCAM	chr21	41559914	-	6037	516	171	4001	1276
ENST00000541342	SPIDR	chr8	48206619	+	ENST00000400454	DSCAM	chr21	41559914	-	5982	461	146	3946	1266

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
ENST00000297423	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-	0.001615127	0.99838483
ENST00000518074	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-	0.001118911	0.99888104
ENST00000541342	ENST00000400454	SPIDR	chr8	48206619	+	DSCAM	chr21	41559914	-	0.001038714	0.9989613

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Fusion Genomic Features for SPIDR-DSCAM

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)

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 SPIDR-DSCAM

Four levels of functional features of fusion genes
Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr8:48206619/chr21:41559914)
- 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
SPIDR Q14159	DSCAM Q8TD84
FUNCTION: Plays a role in DNA double-strand break (DBS) repair via homologous recombination (HR). Serves as a scaffolding protein that helps to promote the recruitment of DNA-processing enzymes like the helicase BLM and recombinase RAD51 to site of DNA damage, and hence contributes to maintain genomic integrity. {ECO:0000269\|PubMed:23509288, ECO:0000269\|PubMed:23754376}.	FUNCTION: Cell adhesion molecule that plays a role in neuronal self-avoidance (PubMed:11453658). Promotes repulsion between specific neuronal processes of either the same cell or the same subtype of cells. Promotes both isoneuronal self-avoidance for creating an orderly neurite arborization in retinal rod bipolar cells and heteroneuronal self-avoidance to maintain mosaic spacing between AII amacrine cells (By similarity). Adhesion molecule that promotes lamina-specific synaptic connections in the retina: expressed in specific subsets of interneurons and retinal ganglion cells (RGCs) and promotes synaptic connectivity via homophilic interactions (By similarity). {ECO:0000250\|UniProtKB:E1C8P7, ECO:0000250\|UniProtKB:Q4VA61, ECO:0000269\|PubMed:11453658}.

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
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.

Partner

Gene

Hbp

Tbp

ENST

Strand

BPexon

TotalExon

Protein feature loci

*BPloci

TotalLen

Protein feature

Protein feature note

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1091_1187

851

2013.0

Domain

Fibronectin type-III 3

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1191_1285

851

2013.0

Domain

Fibronectin type-III 4

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1285_1377

851

2013.0

Domain

Note=Ig-like C2-type 10

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1379_1473

851

2013.0

Domain

Fibronectin type-III 5

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1474_1575

851

2013.0

Domain

Fibronectin type-III 6

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

885_982

851

2013.0

Domain

Fibronectin type-III 1

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

987_1086

851

2013.0

Domain

Fibronectin type-III 2

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1617_2012

851

2013.0

Region

Required for netrin-mediated axon repulsion of neuronal growth cones

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

1596_1616

851

2013.0

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

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

125_216

851

2013.0

Domain

Note=Ig-like C2-type 2

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

225_305

851

2013.0

Domain

Note=Ig-like C2-type 3

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

313_401

851

2013.0

Domain

Note=Ig-like C2-type 4

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

39_129

851

2013.0

Domain

Note=Ig-like C2-type 1

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

407_500

851

2013.0

Domain

Note=Ig-like C2-type 5

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

504_592

851

2013.0

Domain

Note=Ig-like C2-type 6

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

596_685

851

2013.0

Domain

Note=Ig-like C2-type 7

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

690_783

851

2013.0

Domain

Note=Ig-like C2-type 8

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

787_883

851

2013.0

Domain

Note=Ig-like C2-type 9

Tgene

DSCAM

chr8:48206619

chr21:41559914

ENST00000400454

18_1595

851

2013.0

Topological domain

Extracellular

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Fusion Gene Sequence for SPIDR-DSCAM

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.

>85787_85787_1_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000297423_DSCAM_chr21_41559914_ENST00000400454_length(transcript)=6430nt_BP=909nt
AGTTGTTGCCTGACAACACAGACGACAGTAACTTAATTCGAAAGACAATACTTGGAGGCGGCCCCCGCTCCAGGCACCAGCCCAGCAGCT
CCCCCGAACTCCCCAGGAGCTCGCGGGCGAGCAACGCCACAGCCCAGAGCGAGCTCCGCGGAACCCCCAGCCCCGGGGAAGGAAGCTCGA
CTCTCCGCGGGGCACTCCTTCCGGGCTCCGGGCCCGACTAGGCCATCCGGGAGGCCCTGGAGCGCCGGGGCCGGAGAAGCCCTGCCCCCC
GCCGAAGCCCCGCCCTGCGCCCGAGCGCCCGCCAATGGCAGGGCGCGGTGCGGCGCGCCGAGGTGGGACGGCGGCGCGCTGAGGAGGCGG
TGCGCTCAGGCGGCGCTCCCGGAGATGCCCCGCGGCAGCCGCGCTCGGGGCTCTAAGAGAAAAAGGAGTTGGAATACAGAATGCCCATCC
TTTCCAGGAGAAAGACCACTGCAGGTCAGAAGAGCAGGTCTCAGGACAGCAGGGGCAGCTGCCTCTCTCTCTGAAGCATGGCTCAGGTGT
GGAGAAGGGTTTCAGAACACTTCTGGGAATCCGTCATTAACAGCTGAAGAGAAGACGATTACAGAAAAGCACCTTGAATTATGCCCTAGA
CCCAAGCAAGAAACCACCACATCTAAAAGCACCAGTGGGCTTACAGACATAACATGGAGCTCCAGTGGAAGTGATTTGTCGGATGAAGAT
AAGACACTTTCTCAGTTACAGAGAGATGAATTACAGTTTATCGACTGGGAGATTGACAGTGACAGGGCAGAGGCTAGTGACTGTGATGAA
TTTGAAGATGACGAGGGTGCTGTGGAAATCTCAGACTGTGCTTCTTGTGCAAGTAATCAGTCTTTGACAAGTGATGAGAAGCTGTCGGAG
CTTCCCAAGATTTTGCCAACTGTGAGAGAAGATTCTGGTTTCTTTTCCTGCCATGCTATTAATTCTTATGGGGAGGACCGTGGAATAATT
CAGCTCACAGTGCAAGAGCCCCCAGACCCTCCCGAAATTGAGATCAAAGATGTCAAAGCACGCACAATTACGCTCAGGTGGACCATGGGG
TTTGATGGAAACAGTCCCATCACAGGCTACGATATTGAATGCAAAAATAAATCAGACTCCTGGGATTCTGCTCAGAGAACCAAAGATGTT
TCCCCTCAGCTGAACTCGGCCACCATCATTGATATCCACCCTTCCTCCACCTACAGCATCCGCATGTACGCCAAGAACCGGATTGGCAAG
AGCGAGCCCAGCAACGAGCTCACCATCACGGCGGACGAGGCAGCTCCTGATGGTCCACCTCAGGAAGTTCACCTGGAGCCTATATCATCT
CAGAGCATCAGGGTCACATGGAAGGCTCCCAAGAAACATTTGCAAAATGGGATTATCCGTGGCTACCAAATAGGTTACCGAGAGTACAGC
ACTGGGGGTAACTTCCAATTCAACATTATCAGTGTCGACACCAGCGGGGACAGTGAGGTTTACACCCTGGACAACCTGAATAAGTTCACT
CAGTACGGCCTGGTGGTGCAGGCCTGTAACCGGGCCGGCACGGGGCCTTCTTCTCAGGAAATCATCACCACCACTCTCGAGGATGTGCCC
AGTTACCCCCCCGAAAATGTCCAAGCCATAGCAACATCACCAGAAAGCATATCAATATCCTGGTCCACACTTTCCAAGGAAGCCTTGAAT
GGAATTCTCCAGGGGTTCAGAGTCATTTACTGGGCCAACCTCATGGACGGAGAGCTGGGTGAGATTAAAAACATCACCACCACACAGCCT
TCACTGGAGCTGGACGGGCTGGAAAAGTACACCAACTACAGCATCCAGGTGCTGGCCTTCACCCGCGCAGGAGACGGGGTCAGGAGTGAG
CAGATCTTCACCCGGACCAAAGAGGATGTTCCAGGTCCTCCCGCGGGTGTGAAGGCAGCGGCGGCCTCAGCCTCCATGGTCTTTGTGTCC
TGGCTTCCCCCTCTCAAGCTGAACGGCATCATCCGAAAGTACACTGTATTCTGCTCCCACCCCTATCCCACAGTGATCAGCGAGTTTGAG
GCCTCTCCCGACTCGTTTTCCTACAGAATTCCCAACCTGAGTAGGAATCGTCAGTACAGCGTCTGGGTGGTGGCTGTTACTTCAGCCGGA
AGAGGCAACAGCAGTGAAATCATCACAGTCGAGCCACTAGCAAAAGCTCCTGCACGAATCCTGACCTTCAGTGGGACAGTGACTACTCCA
TGGATGAAAGACATTGTCTTGCCTTGTAAGGCTGTTGGGGACCCTTCTCCTGCAGTCAAATGGATGAAAGACAGTAACGGGACACCCAGT
CTAGTAACGATTGATGGGCGGAGGAGCATCTTTAGCAACGGAAGCTTCATTATTCGCACGGTGAAAGCAGAAGACTCCGGCTATTACAGC
TGCATTGCCAATAACAACTGGGGATCTGATGAAATTATTTTAAACTTACAAGTACAAGTTCCACCAGATCAGCCTCGGCTTACAGTCTCC
AAGACCACGTCTTCCTCCATCACCCTTTCTTGGCTCCCTGGAGACAACGGGGGCAGCTCTATCAGAGGATACATACTGCAGTACTCCGAG
GACAATAGTGAGCAGTGGGGGAGTTTTCCAATCAGCCCCAGCGAACGTTCCTATCGCTTGGAAAATCTCAAATGTGGGACTTGGTATAAG
TTCACACTGACAGCCCAAAATGGAGTGGGCCCAGGGCGCATAAGTGAAATCATAGAAGCAAAGACCTTAGGAAAAGAGCCCCAGTTCTCA
AAGGAGCAGGAGCTGTTTGCCAGCATCAACACCACACGCGTGAGGCTGAACCTCATTGGCTGGAATGATGGCGGCTGCCCCATCACCTCC
TTCACACTAGAGTACAGGCCCTTTGGGACCACAGTTTGGACCACAGCTCAGAGGACCTCTCTCTCCAAGTCCTACATCCTGTATGACCTG
CAGGAAGCCACCTGGTATGAGCTGCAGATGCGGGTGTGCAACAGTGCGGGCTGCGCGGAGAAGCAGGCCAACTTCGCTACGCTGAACTAC
GATGGCAGTACAATTCCTCCACTCATTAAGTCAGTTGTCCAAAACGAAGAAGGGCTGACGACCAACGAGGGGCTCAAGATGCTGGTGACC
ATCTCCTGTATCCTGGTGGGGGTCTTGCTGCTGTTTGTGCTCCTGCTGGTTGTGCGGAGGAGGCGGCGGGAGCAGAGGCTAAAGAGGCTG
CGAGATGCAAAGAGTTTAGCTGAAATGCTCATGAGTAAGAATACCCGGACTTCAGATACGTTAAGCAAGCAACAGCAGACCCTGCGAATG
CACATCGACATACCCAGGGCTCAGCTTTTGATTGAAGAGAGAGACACGATGGAGACCATTGATGATCGCTCCACGGTTCTGTTGACGGAT
GCTGACTTTGGAGAGGCAGCTAAGCAGAAGTCCCTGACGGTCACTCACACGGTCCATTACCAATCGGTGTCTCAGGCCACTGGGCCCTTA
GTGGATGTTTCAGACGCTCGGCCGGGAACGAATCCCACCACCAGGAGGAATGCCAAGGCTGGGCCCACAGCGAGAAACCGCTATGCCAGC
CAGTGGACCCTCAACCGACCCCACCCCACCATCTCAGCACACACCCTCACCACAGACTGGAGGCTGCCAACACCCAGGGCTGCAGGATCA
GTAGACAAAGAGAGCGACAGTTACAGCGTCAGCCCCTCGCAAGACACAGATCGAGCAAGAAGCAGCATGGTCTCCACAGAAAGTGCCTCC
TCCACTTACGAAGAACTGGCCAGGGCCTACGAACACGCCAAGATGGAAGAGCAACTGAGGCACGCCAAGTTCACCATCACGGAGTGCTTC
ATATCAGACACGTCATCGGAGCAGTTGACGGCAGGGACAAATGAGTACACGGACAGTCTGACCTCCAGCACCCCTTCCGAATCGGGAATC
TGCAGGTTCACTGCATCTCCCCCCAAACCTCAGGATGGAGGAAGAGTAATGAATATGGCAGTTCCAAAGGCACATCGGCCAGGTGACCTC
ATACATTTGCCTCCATACCTTAGAATGGACTTTTTGTTAAACCGAGGTGGTCCAGGCACCAGCAGGGACCTGAGCTTAGGACAAGCATGC
TTGGAACCTCAGAAAAGCCGGACCCTGAAGCGCCCCACGGTCCTGGAGCCCATCCCGATGGAAGCCGCCTCCTCCGCCTCCTCCACGAGA
GAAGGACAGTCGTGGCAGCCGGGGGCCGTGGCCACATTACCTCAGCGGGAGGGAGCAGAGCTGGGACAGGCAGCTAAAATGAGCAGCTCC
CAAGAATCACTGCTCGACTCCCGGGGCCATTTGAAAGGAAACAATCCTTACGCAAAATCTTACACCCTGGTATAACAGACAGCATGACTG
GACAGCGGTTGTAAATACAATTCAAACAATTCAATCAAAGCTACCTTTTTTTTACGGAATTCCAATATTTATAATTAAAGAAAATTGCCA
AAATATATTAAAAAAAAAAAAGAGAAAATACTGAAACCACAGACAGTGCAAAGACTCTCCTGCTTTTTTTCTGTCTGAGTGTGAGCTCCA
TCCGCCTGGGCATCTGATTTTTTGGGAAAGAAGTCCAGTTTTATGATCTTCACAGGCTATTGCATTTTTACTGATTTTCTACAAAAGTGC
ATGGGGGGGATTAATTAAACCTTCTGACTGGAAGTTCTATCACACAAGAGGCAAGAAAGAAAACAGGGTGGGTGGGAAATCAGCCTATTT
GTGAATTTAAAAGGAACACCGATTTGCGGGCAGGGGAAAACTTCAGTCACGTTTGCACACCTTTCTTTCCCATTAGAAACCGGGTTCTCA
ATTTGGTCTTCTTTTGTTGTTAATTAGGATGAGTGCCGTCAGTGAAGGGGTGGGGGGAATCAATTTGGTTTTCTCTCTTGTTTCTTTTTT
AATTTAATGAGACACTCTTTGCATTTTGTCTAAGCGAAATAAAAAAGAAAAGGTTGTCTGCCTTTATTTCCATGTCTGCTTCTCTCGTCT
TCTGCCAGTGGCCTGGTCCTCCTTCCCATTGACACTTCTGTTTGGAAACACCAGGCCTGAACCCAGAGCCCAATTCAATAAACCAGAGTC
GATACTAACACCCTGAACTCCTCAGGAATCTCCAGGAAGCACAAAGAAGGTGCAGCTCCTGCTCTCAAGCTGGAGAGGACAAAATGCAGG
CTGGTCTCCACCGCAACCAGAGGCCAGCCCAAGTATTCGAAGCCCGTCGCAAAGCTCTGCCCCTTGCCTGCCCATGGCCAGAGTTCAACT
GACTGTGGCCTATGGGCCAAATCCAGCCTCCTGCTGTTTTTTAAATAAAGTTTTATTGAAACAAGGCCACATGCACTATTTGCTATTGTC
TATGGCTGCTTTCATGGCACAATGGTAGAGCTGAATAGTTGCAGCAGAGATGGTATAGCCCATGAAGCCTAAAATATTTATTACCTGGCC
CATTACAGGAAACATTTGCCAGACCCGTGCTCTGGAGTCTGAAATGTAGCCCCAGCTTGCGTGACAAGGGGCAAGATCGTGCATCTTACC
CTCCATGACTTTTCCTATCTCCACTATGCCTGGTATGCAAATTTGTGATAGACCATCTTAATAAACATTGCCTGAATCCTCTGTAACCAG
AGGAAAGTGATGTTCCTCTAAAATCTAAGTTTTTACTTTCCTTTCCCTCACTTTATCTCCCATGTGGCTCATCCTAAGAGAGAATTTACT
CATAAATAGTCGGAACTGCATTCTTTATCCCACAACCCTCACAGGGTTTGCTTTATGAAAGAGGATGTAATCCTCCCCTGGCTGCAACAC
TCCATTCCAGGCTCACTTCCATAAAATGGAAAGATAAACAGGTCTTTGTGTCAGAGATTTGGCATTAACCAGAAAACATGATCAAATATC
CACAGCTGCTCAGTCTCCCAGGCTGAAGATTCTCTACAGGCTTCCATTAAGGCCACCAACATAGACTGGTGCCAGTTATTACCATCTTGG
GAACATATTCAGAAATGTCTTTCCTTCCCTCCCTCCCTCCTTCTTTCCCATCCTTTCTTCCTTCTATTTATTTTCCAGGCAGGCCCATTT
GTCTGCTTAGATTCAGTGACACAGAATGGGTCCAGGACCATGTCAAGACCACCTGCTGATGCTAGTGTTAGATGACTCCAGGAATGTGAG
GTGTGCATCCATGGTTTCAGAATGTAATCCGTGTTGACGTGTACTGTTTGCATACTCTCAGACTGTTTTTTTTTTATGCAAAAGAAATGT
TACTTTCTGGGGGAAAAAATTAAAAGTCTATCTTTCATCAACCTAAAACTTCTATATCCCCCAAACATAGAAGTTTACCTTTTTAACATT

>85787_85787_1_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000297423_DSCAM_chr21_41559914_ENST00000400454_length(amino acids)=1447AA_BP=280
MEAAPAPGTSPAAPPNSPGARGRATPQPRASSAEPPAPGKEARLSAGHSFRAPGPTRPSGRPWSAGAGEALPPAEAPPCARAPANGRARC
GAPRWDGGALRRRCAQAALPEMPRGSRARGSKRKRSWNTECPSFPGERPLQVRRAGLRTAGAAASLSEAWLRCGEGFQNTSGNPSLTAEE
KTITEKHLELCPRPKQETTTSKSTSGLTDITWSSSGSDLSDEDKTLSQLQRDELQFIDWEIDSDRAEASDCDEFEDDEGAVEISDCASCA
SNQSLTSDEKLSELPKILPTVREDSGFFSCHAINSYGEDRGIIQLTVQEPPDPPEIEIKDVKARTITLRWTMGFDGNSPITGYDIECKNK
SDSWDSAQRTKDVSPQLNSATIIDIHPSSTYSIRMYAKNRIGKSEPSNELTITADEAAPDGPPQEVHLEPISSQSIRVTWKAPKKHLQNG
IIRGYQIGYREYSTGGNFQFNIISVDTSGDSEVYTLDNLNKFTQYGLVVQACNRAGTGPSSQEIITTTLEDVPSYPPENVQAIATSPESI
SISWSTLSKEALNGILQGFRVIYWANLMDGELGEIKNITTTQPSLELDGLEKYTNYSIQVLAFTRAGDGVRSEQIFTRTKEDVPGPPAGV
KAAAASASMVFVSWLPPLKLNGIIRKYTVFCSHPYPTVISEFEASPDSFSYRIPNLSRNRQYSVWVVAVTSAGRGNSSEIITVEPLAKAP
ARILTFSGTVTTPWMKDIVLPCKAVGDPSPAVKWMKDSNGTPSLVTIDGRRSIFSNGSFIIRTVKAEDSGYYSCIANNNWGSDEIILNLQ
VQVPPDQPRLTVSKTTSSSITLSWLPGDNGGSSIRGYILQYSEDNSEQWGSFPISPSERSYRLENLKCGTWYKFTLTAQNGVGPGRISEI
IEAKTLGKEPQFSKEQELFASINTTRVRLNLIGWNDGGCPITSFTLEYRPFGTTVWTTAQRTSLSKSYILYDLQEATWYELQMRVCNSAG
CAEKQANFATLNYDGSTIPPLIKSVVQNEEGLTTNEGLKMLVTISCILVGVLLLFVLLLVVRRRRREQRLKRLRDAKSLAEMLMSKNTRT
SDTLSKQQQTLRMHIDIPRAQLLIEERDTMETIDDRSTVLLTDADFGEAAKQKSLTVTHTVHYQSVSQATGPLVDVSDARPGTNPTTRRN
AKAGPTARNRYASQWTLNRPHPTISAHTLTTDWRLPTPRAAGSVDKESDSYSVSPSQDTDRARSSMVSTESASSTYEELARAYEHAKMEE
QLRHAKFTITECFISDTSSEQLTAGTNEYTDSLTSSTPSESGICRFTASPPKPQDGGRVMNMAVPKAHRPGDLIHLPPYLRMDFLLNRGG
PGTSRDLSLGQACLEPQKSRTLKRPTVLEPIPMEAASSASSTREGQSWQPGAVATLPQREGAELGQAAKMSSSQESLLDSRGHLKGNNPY

--------------------------------------------------------------
>85787_85787_2_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000518074_DSCAM_chr21_41559914_ENST00000400454_length(transcript)=6037nt_BP=516nt
GCGGTGCGCTCAGGCGGCGCTCCCGGAGATGCCCCGCGGCAGCCGCGCTCGGGGCTCTAAGAGAAAAAGGAGTTGGAATACAGAATGCCC
ATCCTTTCCAGGAGAAAGACCACTGCAGGTCAGAAGAGCAGGTCTCAGGACAGCAGGGGCAGCTGCCTCTCTCTCTGAAGCATGGCTCAG
TCATTAACAGCTGAAGAGAAGACGATTACAGAAAAGCACCTTGAATTATGCCCTAGACCCAAGCAAGAAACCACCACATCTAAAAGCACC
AGTGGGCTTACAGACATAACATGGAGCTCCAGTGGAAGTGATTTGTCGGATGAAGATAAGACACTTTCTCAGTTACAGAGAGATGAATTA
CAGTTTATCGACTGGGAGATTGACAGTGACAGGGCAGAGGCTAGTGACTGTGATGAATTTGAAGATGACGAGGGTGCTGTGGAAATCTCA
GACTGTGCTTCTTGTGCAAGTAATCAGTCTTTGACAAGTGATGAGAAGCTGTCGGAGCTTCCCAAGATTTTGCCAACTGTGAGAGAAGAT
TCTGGTTTCTTTTCCTGCCATGCTATTAATTCTTATGGGGAGGACCGTGGAATAATTCAGCTCACAGTGCAAGAGCCCCCAGACCCTCCC
GAAATTGAGATCAAAGATGTCAAAGCACGCACAATTACGCTCAGGTGGACCATGGGGTTTGATGGAAACAGTCCCATCACAGGCTACGAT
ATTGAATGCAAAAATAAATCAGACTCCTGGGATTCTGCTCAGAGAACCAAAGATGTTTCCCCTCAGCTGAACTCGGCCACCATCATTGAT
ATCCACCCTTCCTCCACCTACAGCATCCGCATGTACGCCAAGAACCGGATTGGCAAGAGCGAGCCCAGCAACGAGCTCACCATCACGGCG
GACGAGGCAGCTCCTGATGGTCCACCTCAGGAAGTTCACCTGGAGCCTATATCATCTCAGAGCATCAGGGTCACATGGAAGGCTCCCAAG
AAACATTTGCAAAATGGGATTATCCGTGGCTACCAAATAGGTTACCGAGAGTACAGCACTGGGGGTAACTTCCAATTCAACATTATCAGT
GTCGACACCAGCGGGGACAGTGAGGTTTACACCCTGGACAACCTGAATAAGTTCACTCAGTACGGCCTGGTGGTGCAGGCCTGTAACCGG
GCCGGCACGGGGCCTTCTTCTCAGGAAATCATCACCACCACTCTCGAGGATGTGCCCAGTTACCCCCCCGAAAATGTCCAAGCCATAGCA
ACATCACCAGAAAGCATATCAATATCCTGGTCCACACTTTCCAAGGAAGCCTTGAATGGAATTCTCCAGGGGTTCAGAGTCATTTACTGG
GCCAACCTCATGGACGGAGAGCTGGGTGAGATTAAAAACATCACCACCACACAGCCTTCACTGGAGCTGGACGGGCTGGAAAAGTACACC
AACTACAGCATCCAGGTGCTGGCCTTCACCCGCGCAGGAGACGGGGTCAGGAGTGAGCAGATCTTCACCCGGACCAAAGAGGATGTTCCA
GGTCCTCCCGCGGGTGTGAAGGCAGCGGCGGCCTCAGCCTCCATGGTCTTTGTGTCCTGGCTTCCCCCTCTCAAGCTGAACGGCATCATC
CGAAAGTACACTGTATTCTGCTCCCACCCCTATCCCACAGTGATCAGCGAGTTTGAGGCCTCTCCCGACTCGTTTTCCTACAGAATTCCC
AACCTGAGTAGGAATCGTCAGTACAGCGTCTGGGTGGTGGCTGTTACTTCAGCCGGAAGAGGCAACAGCAGTGAAATCATCACAGTCGAG
CCACTAGCAAAAGCTCCTGCACGAATCCTGACCTTCAGTGGGACAGTGACTACTCCATGGATGAAAGACATTGTCTTGCCTTGTAAGGCT
GTTGGGGACCCTTCTCCTGCAGTCAAATGGATGAAAGACAGTAACGGGACACCCAGTCTAGTAACGATTGATGGGCGGAGGAGCATCTTT
AGCAACGGAAGCTTCATTATTCGCACGGTGAAAGCAGAAGACTCCGGCTATTACAGCTGCATTGCCAATAACAACTGGGGATCTGATGAA
ATTATTTTAAACTTACAAGTACAAGTTCCACCAGATCAGCCTCGGCTTACAGTCTCCAAGACCACGTCTTCCTCCATCACCCTTTCTTGG
CTCCCTGGAGACAACGGGGGCAGCTCTATCAGAGGATACATACTGCAGTACTCCGAGGACAATAGTGAGCAGTGGGGGAGTTTTCCAATC
AGCCCCAGCGAACGTTCCTATCGCTTGGAAAATCTCAAATGTGGGACTTGGTATAAGTTCACACTGACAGCCCAAAATGGAGTGGGCCCA
GGGCGCATAAGTGAAATCATAGAAGCAAAGACCTTAGGAAAAGAGCCCCAGTTCTCAAAGGAGCAGGAGCTGTTTGCCAGCATCAACACC
ACACGCGTGAGGCTGAACCTCATTGGCTGGAATGATGGCGGCTGCCCCATCACCTCCTTCACACTAGAGTACAGGCCCTTTGGGACCACA
GTTTGGACCACAGCTCAGAGGACCTCTCTCTCCAAGTCCTACATCCTGTATGACCTGCAGGAAGCCACCTGGTATGAGCTGCAGATGCGG
GTGTGCAACAGTGCGGGCTGCGCGGAGAAGCAGGCCAACTTCGCTACGCTGAACTACGATGGCAGTACAATTCCTCCACTCATTAAGTCA
GTTGTCCAAAACGAAGAAGGGCTGACGACCAACGAGGGGCTCAAGATGCTGGTGACCATCTCCTGTATCCTGGTGGGGGTCTTGCTGCTG
TTTGTGCTCCTGCTGGTTGTGCGGAGGAGGCGGCGGGAGCAGAGGCTAAAGAGGCTGCGAGATGCAAAGAGTTTAGCTGAAATGCTCATG
AGTAAGAATACCCGGACTTCAGATACGTTAAGCAAGCAACAGCAGACCCTGCGAATGCACATCGACATACCCAGGGCTCAGCTTTTGATT
GAAGAGAGAGACACGATGGAGACCATTGATGATCGCTCCACGGTTCTGTTGACGGATGCTGACTTTGGAGAGGCAGCTAAGCAGAAGTCC
CTGACGGTCACTCACACGGTCCATTACCAATCGGTGTCTCAGGCCACTGGGCCCTTAGTGGATGTTTCAGACGCTCGGCCGGGAACGAAT
CCCACCACCAGGAGGAATGCCAAGGCTGGGCCCACAGCGAGAAACCGCTATGCCAGCCAGTGGACCCTCAACCGACCCCACCCCACCATC
TCAGCACACACCCTCACCACAGACTGGAGGCTGCCAACACCCAGGGCTGCAGGATCAGTAGACAAAGAGAGCGACAGTTACAGCGTCAGC
CCCTCGCAAGACACAGATCGAGCAAGAAGCAGCATGGTCTCCACAGAAAGTGCCTCCTCCACTTACGAAGAACTGGCCAGGGCCTACGAA
CACGCCAAGATGGAAGAGCAACTGAGGCACGCCAAGTTCACCATCACGGAGTGCTTCATATCAGACACGTCATCGGAGCAGTTGACGGCA
GGGACAAATGAGTACACGGACAGTCTGACCTCCAGCACCCCTTCCGAATCGGGAATCTGCAGGTTCACTGCATCTCCCCCCAAACCTCAG
GATGGAGGAAGAGTAATGAATATGGCAGTTCCAAAGGCACATCGGCCAGGTGACCTCATACATTTGCCTCCATACCTTAGAATGGACTTT
TTGTTAAACCGAGGTGGTCCAGGCACCAGCAGGGACCTGAGCTTAGGACAAGCATGCTTGGAACCTCAGAAAAGCCGGACCCTGAAGCGC
CCCACGGTCCTGGAGCCCATCCCGATGGAAGCCGCCTCCTCCGCCTCCTCCACGAGAGAAGGACAGTCGTGGCAGCCGGGGGCCGTGGCC
ACATTACCTCAGCGGGAGGGAGCAGAGCTGGGACAGGCAGCTAAAATGAGCAGCTCCCAAGAATCACTGCTCGACTCCCGGGGCCATTTG
AAAGGAAACAATCCTTACGCAAAATCTTACACCCTGGTATAACAGACAGCATGACTGGACAGCGGTTGTAAATACAATTCAAACAATTCA
ATCAAAGCTACCTTTTTTTTACGGAATTCCAATATTTATAATTAAAGAAAATTGCCAAAATATATTAAAAAAAAAAAAGAGAAAATACTG
AAACCACAGACAGTGCAAAGACTCTCCTGCTTTTTTTCTGTCTGAGTGTGAGCTCCATCCGCCTGGGCATCTGATTTTTTGGGAAAGAAG
TCCAGTTTTATGATCTTCACAGGCTATTGCATTTTTACTGATTTTCTACAAAAGTGCATGGGGGGGATTAATTAAACCTTCTGACTGGAA
GTTCTATCACACAAGAGGCAAGAAAGAAAACAGGGTGGGTGGGAAATCAGCCTATTTGTGAATTTAAAAGGAACACCGATTTGCGGGCAG
GGGAAAACTTCAGTCACGTTTGCACACCTTTCTTTCCCATTAGAAACCGGGTTCTCAATTTGGTCTTCTTTTGTTGTTAATTAGGATGAG
TGCCGTCAGTGAAGGGGTGGGGGGAATCAATTTGGTTTTCTCTCTTGTTTCTTTTTTAATTTAATGAGACACTCTTTGCATTTTGTCTAA
GCGAAATAAAAAAGAAAAGGTTGTCTGCCTTTATTTCCATGTCTGCTTCTCTCGTCTTCTGCCAGTGGCCTGGTCCTCCTTCCCATTGAC
ACTTCTGTTTGGAAACACCAGGCCTGAACCCAGAGCCCAATTCAATAAACCAGAGTCGATACTAACACCCTGAACTCCTCAGGAATCTCC
AGGAAGCACAAAGAAGGTGCAGCTCCTGCTCTCAAGCTGGAGAGGACAAAATGCAGGCTGGTCTCCACCGCAACCAGAGGCCAGCCCAAG
TATTCGAAGCCCGTCGCAAAGCTCTGCCCCTTGCCTGCCCATGGCCAGAGTTCAACTGACTGTGGCCTATGGGCCAAATCCAGCCTCCTG
CTGTTTTTTAAATAAAGTTTTATTGAAACAAGGCCACATGCACTATTTGCTATTGTCTATGGCTGCTTTCATGGCACAATGGTAGAGCTG
AATAGTTGCAGCAGAGATGGTATAGCCCATGAAGCCTAAAATATTTATTACCTGGCCCATTACAGGAAACATTTGCCAGACCCGTGCTCT
GGAGTCTGAAATGTAGCCCCAGCTTGCGTGACAAGGGGCAAGATCGTGCATCTTACCCTCCATGACTTTTCCTATCTCCACTATGCCTGG
TATGCAAATTTGTGATAGACCATCTTAATAAACATTGCCTGAATCCTCTGTAACCAGAGGAAAGTGATGTTCCTCTAAAATCTAAGTTTT
TACTTTCCTTTCCCTCACTTTATCTCCCATGTGGCTCATCCTAAGAGAGAATTTACTCATAAATAGTCGGAACTGCATTCTTTATCCCAC
AACCCTCACAGGGTTTGCTTTATGAAAGAGGATGTAATCCTCCCCTGGCTGCAACACTCCATTCCAGGCTCACTTCCATAAAATGGAAAG
ATAAACAGGTCTTTGTGTCAGAGATTTGGCATTAACCAGAAAACATGATCAAATATCCACAGCTGCTCAGTCTCCCAGGCTGAAGATTCT
CTACAGGCTTCCATTAAGGCCACCAACATAGACTGGTGCCAGTTATTACCATCTTGGGAACATATTCAGAAATGTCTTTCCTTCCCTCCC
TCCCTCCTTCTTTCCCATCCTTTCTTCCTTCTATTTATTTTCCAGGCAGGCCCATTTGTCTGCTTAGATTCAGTGACACAGAATGGGTCC
AGGACCATGTCAAGACCACCTGCTGATGCTAGTGTTAGATGACTCCAGGAATGTGAGGTGTGCATCCATGGTTTCAGAATGTAATCCGTG
TTGACGTGTACTGTTTGCATACTCTCAGACTGTTTTTTTTTTATGCAAAAGAAATGTTACTTTCTGGGGGAAAAAATTAAAAGTCTATCT
TTCATCAACCTAAAACTTCTATATCCCCCAAACATAGAAGTTTACCTTTTTAACATTTTTCTCTCAACCTGTACAAAAATAAAAAAATTC

>85787_85787_2_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000518074_DSCAM_chr21_41559914_ENST00000400454_length(amino acids)=1276AA_BP=109
MAQSLTAEEKTITEKHLELCPRPKQETTTSKSTSGLTDITWSSSGSDLSDEDKTLSQLQRDELQFIDWEIDSDRAEASDCDEFEDDEGAV
EISDCASCASNQSLTSDEKLSELPKILPTVREDSGFFSCHAINSYGEDRGIIQLTVQEPPDPPEIEIKDVKARTITLRWTMGFDGNSPIT
GYDIECKNKSDSWDSAQRTKDVSPQLNSATIIDIHPSSTYSIRMYAKNRIGKSEPSNELTITADEAAPDGPPQEVHLEPISSQSIRVTWK
APKKHLQNGIIRGYQIGYREYSTGGNFQFNIISVDTSGDSEVYTLDNLNKFTQYGLVVQACNRAGTGPSSQEIITTTLEDVPSYPPENVQ
AIATSPESISISWSTLSKEALNGILQGFRVIYWANLMDGELGEIKNITTTQPSLELDGLEKYTNYSIQVLAFTRAGDGVRSEQIFTRTKE
DVPGPPAGVKAAAASASMVFVSWLPPLKLNGIIRKYTVFCSHPYPTVISEFEASPDSFSYRIPNLSRNRQYSVWVVAVTSAGRGNSSEII
TVEPLAKAPARILTFSGTVTTPWMKDIVLPCKAVGDPSPAVKWMKDSNGTPSLVTIDGRRSIFSNGSFIIRTVKAEDSGYYSCIANNNWG
SDEIILNLQVQVPPDQPRLTVSKTTSSSITLSWLPGDNGGSSIRGYILQYSEDNSEQWGSFPISPSERSYRLENLKCGTWYKFTLTAQNG
VGPGRISEIIEAKTLGKEPQFSKEQELFASINTTRVRLNLIGWNDGGCPITSFTLEYRPFGTTVWTTAQRTSLSKSYILYDLQEATWYEL
QMRVCNSAGCAEKQANFATLNYDGSTIPPLIKSVVQNEEGLTTNEGLKMLVTISCILVGVLLLFVLLLVVRRRRREQRLKRLRDAKSLAE
MLMSKNTRTSDTLSKQQQTLRMHIDIPRAQLLIEERDTMETIDDRSTVLLTDADFGEAAKQKSLTVTHTVHYQSVSQATGPLVDVSDARP
GTNPTTRRNAKAGPTARNRYASQWTLNRPHPTISAHTLTTDWRLPTPRAAGSVDKESDSYSVSPSQDTDRARSSMVSTESASSTYEELAR
AYEHAKMEEQLRHAKFTITECFISDTSSEQLTAGTNEYTDSLTSSTPSESGICRFTASPPKPQDGGRVMNMAVPKAHRPGDLIHLPPYLR
MDFLLNRGGPGTSRDLSLGQACLEPQKSRTLKRPTVLEPIPMEAASSASSTREGQSWQPGAVATLPQREGAELGQAAKMSSSQESLLDSR

--------------------------------------------------------------
>85787_85787_3_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000541342_DSCAM_chr21_41559914_ENST00000400454_length(transcript)=5982nt_BP=461nt
GAGATGCCCCGCGGCAGCCGCGCTCGGGGCTCTAAGAGAAAAAGGAGTTGGAATACAGAATGCCCATCCTTTCCAGGAGAAAGACCACTG
CAGGTCAGAAGAGCAGGTCTCAGGACAGCAGGGGCAGCTGCCTCTCTCTCTGAAGCATGGCTCAGGTGTGGAGAAGGGTTTCAGAACACT
TCTGGGAATCCGAAACCACCACATCTAAAAGCACCAGTGGGCTTACAGACATAACATGGAGCTCCAGTGGAAGTGATTTGTCGGATGAAG
ATAAGACACTTTCTCAGTTACAGAGAGATGAATTACAGTTTATCGACTGGGAGATTGACAGTGACAGGGCAGAGGCTAGTGACTGTGATG
AATTTGAAGATGACGAGGGTGCTGTGGAAATCTCAGACTGTGCTTCTTGTGCAAGTAATCAGTCTTTGACAAGTGATGAGAAGCTGTCGG
AGCTTCCCAAGATTTTGCCAACTGTGAGAGAAGATTCTGGTTTCTTTTCCTGCCATGCTATTAATTCTTATGGGGAGGACCGTGGAATAA
TTCAGCTCACAGTGCAAGAGCCCCCAGACCCTCCCGAAATTGAGATCAAAGATGTCAAAGCACGCACAATTACGCTCAGGTGGACCATGG
GGTTTGATGGAAACAGTCCCATCACAGGCTACGATATTGAATGCAAAAATAAATCAGACTCCTGGGATTCTGCTCAGAGAACCAAAGATG
TTTCCCCTCAGCTGAACTCGGCCACCATCATTGATATCCACCCTTCCTCCACCTACAGCATCCGCATGTACGCCAAGAACCGGATTGGCA
AGAGCGAGCCCAGCAACGAGCTCACCATCACGGCGGACGAGGCAGCTCCTGATGGTCCACCTCAGGAAGTTCACCTGGAGCCTATATCAT
CTCAGAGCATCAGGGTCACATGGAAGGCTCCCAAGAAACATTTGCAAAATGGGATTATCCGTGGCTACCAAATAGGTTACCGAGAGTACA
GCACTGGGGGTAACTTCCAATTCAACATTATCAGTGTCGACACCAGCGGGGACAGTGAGGTTTACACCCTGGACAACCTGAATAAGTTCA
CTCAGTACGGCCTGGTGGTGCAGGCCTGTAACCGGGCCGGCACGGGGCCTTCTTCTCAGGAAATCATCACCACCACTCTCGAGGATGTGC
CCAGTTACCCCCCCGAAAATGTCCAAGCCATAGCAACATCACCAGAAAGCATATCAATATCCTGGTCCACACTTTCCAAGGAAGCCTTGA
ATGGAATTCTCCAGGGGTTCAGAGTCATTTACTGGGCCAACCTCATGGACGGAGAGCTGGGTGAGATTAAAAACATCACCACCACACAGC
CTTCACTGGAGCTGGACGGGCTGGAAAAGTACACCAACTACAGCATCCAGGTGCTGGCCTTCACCCGCGCAGGAGACGGGGTCAGGAGTG
AGCAGATCTTCACCCGGACCAAAGAGGATGTTCCAGGTCCTCCCGCGGGTGTGAAGGCAGCGGCGGCCTCAGCCTCCATGGTCTTTGTGT
CCTGGCTTCCCCCTCTCAAGCTGAACGGCATCATCCGAAAGTACACTGTATTCTGCTCCCACCCCTATCCCACAGTGATCAGCGAGTTTG
AGGCCTCTCCCGACTCGTTTTCCTACAGAATTCCCAACCTGAGTAGGAATCGTCAGTACAGCGTCTGGGTGGTGGCTGTTACTTCAGCCG
GAAGAGGCAACAGCAGTGAAATCATCACAGTCGAGCCACTAGCAAAAGCTCCTGCACGAATCCTGACCTTCAGTGGGACAGTGACTACTC
CATGGATGAAAGACATTGTCTTGCCTTGTAAGGCTGTTGGGGACCCTTCTCCTGCAGTCAAATGGATGAAAGACAGTAACGGGACACCCA
GTCTAGTAACGATTGATGGGCGGAGGAGCATCTTTAGCAACGGAAGCTTCATTATTCGCACGGTGAAAGCAGAAGACTCCGGCTATTACA
GCTGCATTGCCAATAACAACTGGGGATCTGATGAAATTATTTTAAACTTACAAGTACAAGTTCCACCAGATCAGCCTCGGCTTACAGTCT
CCAAGACCACGTCTTCCTCCATCACCCTTTCTTGGCTCCCTGGAGACAACGGGGGCAGCTCTATCAGAGGATACATACTGCAGTACTCCG
AGGACAATAGTGAGCAGTGGGGGAGTTTTCCAATCAGCCCCAGCGAACGTTCCTATCGCTTGGAAAATCTCAAATGTGGGACTTGGTATA
AGTTCACACTGACAGCCCAAAATGGAGTGGGCCCAGGGCGCATAAGTGAAATCATAGAAGCAAAGACCTTAGGAAAAGAGCCCCAGTTCT
CAAAGGAGCAGGAGCTGTTTGCCAGCATCAACACCACACGCGTGAGGCTGAACCTCATTGGCTGGAATGATGGCGGCTGCCCCATCACCT
CCTTCACACTAGAGTACAGGCCCTTTGGGACCACAGTTTGGACCACAGCTCAGAGGACCTCTCTCTCCAAGTCCTACATCCTGTATGACC
TGCAGGAAGCCACCTGGTATGAGCTGCAGATGCGGGTGTGCAACAGTGCGGGCTGCGCGGAGAAGCAGGCCAACTTCGCTACGCTGAACT
ACGATGGCAGTACAATTCCTCCACTCATTAAGTCAGTTGTCCAAAACGAAGAAGGGCTGACGACCAACGAGGGGCTCAAGATGCTGGTGA
CCATCTCCTGTATCCTGGTGGGGGTCTTGCTGCTGTTTGTGCTCCTGCTGGTTGTGCGGAGGAGGCGGCGGGAGCAGAGGCTAAAGAGGC
TGCGAGATGCAAAGAGTTTAGCTGAAATGCTCATGAGTAAGAATACCCGGACTTCAGATACGTTAAGCAAGCAACAGCAGACCCTGCGAA
TGCACATCGACATACCCAGGGCTCAGCTTTTGATTGAAGAGAGAGACACGATGGAGACCATTGATGATCGCTCCACGGTTCTGTTGACGG
ATGCTGACTTTGGAGAGGCAGCTAAGCAGAAGTCCCTGACGGTCACTCACACGGTCCATTACCAATCGGTGTCTCAGGCCACTGGGCCCT
TAGTGGATGTTTCAGACGCTCGGCCGGGAACGAATCCCACCACCAGGAGGAATGCCAAGGCTGGGCCCACAGCGAGAAACCGCTATGCCA
GCCAGTGGACCCTCAACCGACCCCACCCCACCATCTCAGCACACACCCTCACCACAGACTGGAGGCTGCCAACACCCAGGGCTGCAGGAT
CAGTAGACAAAGAGAGCGACAGTTACAGCGTCAGCCCCTCGCAAGACACAGATCGAGCAAGAAGCAGCATGGTCTCCACAGAAAGTGCCT
CCTCCACTTACGAAGAACTGGCCAGGGCCTACGAACACGCCAAGATGGAAGAGCAACTGAGGCACGCCAAGTTCACCATCACGGAGTGCT
TCATATCAGACACGTCATCGGAGCAGTTGACGGCAGGGACAAATGAGTACACGGACAGTCTGACCTCCAGCACCCCTTCCGAATCGGGAA
TCTGCAGGTTCACTGCATCTCCCCCCAAACCTCAGGATGGAGGAAGAGTAATGAATATGGCAGTTCCAAAGGCACATCGGCCAGGTGACC
TCATACATTTGCCTCCATACCTTAGAATGGACTTTTTGTTAAACCGAGGTGGTCCAGGCACCAGCAGGGACCTGAGCTTAGGACAAGCAT
GCTTGGAACCTCAGAAAAGCCGGACCCTGAAGCGCCCCACGGTCCTGGAGCCCATCCCGATGGAAGCCGCCTCCTCCGCCTCCTCCACGA
GAGAAGGACAGTCGTGGCAGCCGGGGGCCGTGGCCACATTACCTCAGCGGGAGGGAGCAGAGCTGGGACAGGCAGCTAAAATGAGCAGCT
CCCAAGAATCACTGCTCGACTCCCGGGGCCATTTGAAAGGAAACAATCCTTACGCAAAATCTTACACCCTGGTATAACAGACAGCATGAC
TGGACAGCGGTTGTAAATACAATTCAAACAATTCAATCAAAGCTACCTTTTTTTTACGGAATTCCAATATTTATAATTAAAGAAAATTGC
CAAAATATATTAAAAAAAAAAAAGAGAAAATACTGAAACCACAGACAGTGCAAAGACTCTCCTGCTTTTTTTCTGTCTGAGTGTGAGCTC
CATCCGCCTGGGCATCTGATTTTTTGGGAAAGAAGTCCAGTTTTATGATCTTCACAGGCTATTGCATTTTTACTGATTTTCTACAAAAGT
GCATGGGGGGGATTAATTAAACCTTCTGACTGGAAGTTCTATCACACAAGAGGCAAGAAAGAAAACAGGGTGGGTGGGAAATCAGCCTAT
TTGTGAATTTAAAAGGAACACCGATTTGCGGGCAGGGGAAAACTTCAGTCACGTTTGCACACCTTTCTTTCCCATTAGAAACCGGGTTCT
CAATTTGGTCTTCTTTTGTTGTTAATTAGGATGAGTGCCGTCAGTGAAGGGGTGGGGGGAATCAATTTGGTTTTCTCTCTTGTTTCTTTT
TTAATTTAATGAGACACTCTTTGCATTTTGTCTAAGCGAAATAAAAAAGAAAAGGTTGTCTGCCTTTATTTCCATGTCTGCTTCTCTCGT
CTTCTGCCAGTGGCCTGGTCCTCCTTCCCATTGACACTTCTGTTTGGAAACACCAGGCCTGAACCCAGAGCCCAATTCAATAAACCAGAG
TCGATACTAACACCCTGAACTCCTCAGGAATCTCCAGGAAGCACAAAGAAGGTGCAGCTCCTGCTCTCAAGCTGGAGAGGACAAAATGCA
GGCTGGTCTCCACCGCAACCAGAGGCCAGCCCAAGTATTCGAAGCCCGTCGCAAAGCTCTGCCCCTTGCCTGCCCATGGCCAGAGTTCAA
CTGACTGTGGCCTATGGGCCAAATCCAGCCTCCTGCTGTTTTTTAAATAAAGTTTTATTGAAACAAGGCCACATGCACTATTTGCTATTG
TCTATGGCTGCTTTCATGGCACAATGGTAGAGCTGAATAGTTGCAGCAGAGATGGTATAGCCCATGAAGCCTAAAATATTTATTACCTGG
CCCATTACAGGAAACATTTGCCAGACCCGTGCTCTGGAGTCTGAAATGTAGCCCCAGCTTGCGTGACAAGGGGCAAGATCGTGCATCTTA
CCCTCCATGACTTTTCCTATCTCCACTATGCCTGGTATGCAAATTTGTGATAGACCATCTTAATAAACATTGCCTGAATCCTCTGTAACC
AGAGGAAAGTGATGTTCCTCTAAAATCTAAGTTTTTACTTTCCTTTCCCTCACTTTATCTCCCATGTGGCTCATCCTAAGAGAGAATTTA
CTCATAAATAGTCGGAACTGCATTCTTTATCCCACAACCCTCACAGGGTTTGCTTTATGAAAGAGGATGTAATCCTCCCCTGGCTGCAAC
ACTCCATTCCAGGCTCACTTCCATAAAATGGAAAGATAAACAGGTCTTTGTGTCAGAGATTTGGCATTAACCAGAAAACATGATCAAATA
TCCACAGCTGCTCAGTCTCCCAGGCTGAAGATTCTCTACAGGCTTCCATTAAGGCCACCAACATAGACTGGTGCCAGTTATTACCATCTT
GGGAACATATTCAGAAATGTCTTTCCTTCCCTCCCTCCCTCCTTCTTTCCCATCCTTTCTTCCTTCTATTTATTTTCCAGGCAGGCCCAT
TTGTCTGCTTAGATTCAGTGACACAGAATGGGTCCAGGACCATGTCAAGACCACCTGCTGATGCTAGTGTTAGATGACTCCAGGAATGTG
AGGTGTGCATCCATGGTTTCAGAATGTAATCCGTGTTGACGTGTACTGTTTGCATACTCTCAGACTGTTTTTTTTTTATGCAAAAGAAAT
GTTACTTTCTGGGGGAAAAAATTAAAAGTCTATCTTTCATCAACCTAAAACTTCTATATCCCCCAAACATAGAAGTTTACCTTTTTAACA

>85787_85787_3_SPIDR-DSCAM_SPIDR_chr8_48206619_ENST00000541342_DSCAM_chr21_41559914_ENST00000400454_length(amino acids)=1266AA_BP=99
MAQVWRRVSEHFWESETTTSKSTSGLTDITWSSSGSDLSDEDKTLSQLQRDELQFIDWEIDSDRAEASDCDEFEDDEGAVEISDCASCAS
NQSLTSDEKLSELPKILPTVREDSGFFSCHAINSYGEDRGIIQLTVQEPPDPPEIEIKDVKARTITLRWTMGFDGNSPITGYDIECKNKS
DSWDSAQRTKDVSPQLNSATIIDIHPSSTYSIRMYAKNRIGKSEPSNELTITADEAAPDGPPQEVHLEPISSQSIRVTWKAPKKHLQNGI
IRGYQIGYREYSTGGNFQFNIISVDTSGDSEVYTLDNLNKFTQYGLVVQACNRAGTGPSSQEIITTTLEDVPSYPPENVQAIATSPESIS
ISWSTLSKEALNGILQGFRVIYWANLMDGELGEIKNITTTQPSLELDGLEKYTNYSIQVLAFTRAGDGVRSEQIFTRTKEDVPGPPAGVK
AAAASASMVFVSWLPPLKLNGIIRKYTVFCSHPYPTVISEFEASPDSFSYRIPNLSRNRQYSVWVVAVTSAGRGNSSEIITVEPLAKAPA
RILTFSGTVTTPWMKDIVLPCKAVGDPSPAVKWMKDSNGTPSLVTIDGRRSIFSNGSFIIRTVKAEDSGYYSCIANNNWGSDEIILNLQV
QVPPDQPRLTVSKTTSSSITLSWLPGDNGGSSIRGYILQYSEDNSEQWGSFPISPSERSYRLENLKCGTWYKFTLTAQNGVGPGRISEII
EAKTLGKEPQFSKEQELFASINTTRVRLNLIGWNDGGCPITSFTLEYRPFGTTVWTTAQRTSLSKSYILYDLQEATWYELQMRVCNSAGC
AEKQANFATLNYDGSTIPPLIKSVVQNEEGLTTNEGLKMLVTISCILVGVLLLFVLLLVVRRRRREQRLKRLRDAKSLAEMLMSKNTRTS
DTLSKQQQTLRMHIDIPRAQLLIEERDTMETIDDRSTVLLTDADFGEAAKQKSLTVTHTVHYQSVSQATGPLVDVSDARPGTNPTTRRNA
KAGPTARNRYASQWTLNRPHPTISAHTLTTDWRLPTPRAAGSVDKESDSYSVSPSQDTDRARSSMVSTESASSTYEELARAYEHAKMEEQ
LRHAKFTITECFISDTSSEQLTAGTNEYTDSLTSSTPSESGICRFTASPPKPQDGGRVMNMAVPKAHRPGDLIHLPPYLRMDFLLNRGGP
GTSRDLSLGQACLEPQKSRTLKRPTVLEPIPMEAASSASSTREGQSWQPGAVATLPQREGAELGQAAKMSSSQESLLDSRGHLKGNNPYA

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

Top

Fusion Gene PPI Analysis for SPIDR-DSCAM

Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in
ChiPPI page.

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

Top

Related Drugs for SPIDR-DSCAM

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

Top

Related Diseases for SPIDR-DSCAM

Diseases associated with fusion partners.
(DisGeNet 4.0)

Partner

Gene

Disease ID

Disease name

# pubmeds

Source