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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:CAMSAP2-ANKRD36 (FusionGDB2 ID:12738)

Fusion Gene Summary for CAMSAP2-ANKRD36

check button Fusion gene summary
Fusion gene informationFusion gene name: CAMSAP2-ANKRD36
Fusion gene ID: 12738
HgeneTgene
Gene symbol

CAMSAP2

ANKRD36

Gene ID

23271

375248

Gene namecalmodulin regulated spectrin associated protein family member 2ankyrin repeat domain 36
SynonymsCAMSAP1L1UNQ2430
Cytomap

1q32.1

2q11.2

Type of geneprotein-codingprotein-coding
Descriptioncalmodulin-regulated spectrin-associated protein 2calmodulin-regulated spectrin-associated protein 1-like protein 1ankyrin repeat domain-containing protein 36Aankyrin repeat domain-containing protein 36ankyrin-related
Modification date2020031320200313
UniProtAcc

Q08AD1

Q5JPF3

Ensembl transtripts involved in fusion geneENST00000236925, ENST00000358823, 
ENST00000413307, 		ENST00000357042, 
ENST00000420699, ENST00000461153, 
Fusion gene scores* DoF score10 X 9 X 5=4504 X 5 X 4=80
# samples 105
** MAII scorelog2(10/450*10)=-2.16992500144231
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0		log2(5/80*10)=-0.678071905112638
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: CAMSAP2 [Title/Abstract] AND ANKRD36 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointCAMSAP2(200827036)-ANKRD36(97879277), # samples:2
Anticipated loss of major functional domain due to fusion event.CAMSAP2-ANKRD36 seems lost the major protein functional domain in Hgene 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
HgeneCAMSAP2

GO:0000226

microtubule cytoskeleton organization

24486153|24706919|24908486|27666745

HgeneCAMSAP2

GO:0031113

regulation of microtubule polymerization

24486153|24706919

HgeneCAMSAP2

GO:0050773

regulation of dendrite development

24908486

HgeneCAMSAP2

GO:0061564

axon development

24908486

HgeneCAMSAP2

GO:1903358

regulation of Golgi organization

27666745


check buttonFusion gene breakpoints across CAMSAP2 (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 ANKRD36 (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
ChiTaRS5.0N/ABU567802CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
ChiTaRS5.0N/ABU567810CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+


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Fusion Gene ORF analysis for CAMSAP2-ANKRD36

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-intronENST00000236925ENST00000357042CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
5CDS-intronENST00000358823ENST00000357042CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
5CDS-intronENST00000413307ENST00000357042CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
Frame-shiftENST00000236925ENST00000420699CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
Frame-shiftENST00000236925ENST00000461153CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
Frame-shiftENST00000358823ENST00000420699CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
Frame-shiftENST00000358823ENST00000461153CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
In-frameENST00000413307ENST00000420699CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+
In-frameENST00000413307ENST00000461153CAMSAP2chr1

200827036

+ANKRD36chr2

97879277

+

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)
ENST00000413307CAMSAP2chr1200827036+ENST00000461153ANKRD36chr297879277+670343434941461365
ENST00000413307CAMSAP2chr1200827036+ENST00000420699ANKRD36chr297879277+687043434941461365

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
ENST00000413307ENST00000461153CAMSAP2chr1200827036+ANKRD36chr297879277+0.0002511640.9997489
ENST00000413307ENST00000420699CAMSAP2chr1200827036+ANKRD36chr297879277+0.0002494430.99975055

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Fusion Genomic Features for CAMSAP2-ANKRD36


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

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.

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Fusion Protein Features for CAMSAP2-ANKRD36


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/chr1:200827036/chr2:97879277)
- 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
CAMSAP2

Q08AD1

ANKRD36

Q5JPF3

FUNCTION: Key microtubule-organizing protein that specifically binds the minus-end of non-centrosomal microtubules and regulates their dynamics and organization (PubMed:23169647, PubMed:24486153, PubMed:24706919). Specifically recognizes growing microtubule minus-ends and autonomously decorates and stabilizes microtubule lattice formed by microtubule minus-end polymerization (PubMed:24486153, PubMed:24706919). Acts on free microtubule minus-ends that are not capped by microtubule-nucleating proteins or other factors and protects microtubule minus-ends from depolymerization (PubMed:24486153, PubMed:24706919). In addition, it also reduces the velocity of microtubule polymerization (PubMed:24486153, PubMed:24706919). Through the microtubule cytoskeleton, also regulates the organization of cellular organelles including the Golgi and the early endosomes (PubMed:27666745). Essential for the tethering, but not for nucleation of non-centrosomal microtubules at the Golgi: together with Golgi-associated proteins AKAP9 and PDE4DIP, required to tether non-centrosomal minus-end microtubules to the Golgi, an important step for polarized cell movement (PubMed:27666745). Also acts as a regulator of neuronal polarity and development: localizes to non-centrosomal microtubule minus-ends in neurons and stabilizes non-centrosomal microtubules, which is required for neuronal polarity, axon specification and dendritic branch formation (PubMed:24908486). Through the microtubule cytoskeleton, regulates the autophagosome transport (PubMed:28726242). {ECO:0000269|PubMed:23169647, ECO:0000269|PubMed:24486153, ECO:0000269|PubMed:24706919, ECO:0000269|PubMed:24908486, ECO:0000269|PubMed:27666745, ECO:0000269|PubMed:28726242}.

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
TgeneANKRD36chr1:200827036chr2:97879277ENST0000042069958761383_146611661859.3333333333333Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000042069958761504_153111661859.3333333333333Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000042069958761573_161411661859.3333333333333Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000042069958761727_181411661859.3333333333333Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000046115358751383_146611661942.0Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000046115358751504_153111661942.0Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000046115358751573_161411661942.0Coiled coilOntology_term=ECO:0000255
TgeneANKRD36chr1:200827036chr2:97879277ENST0000046115358751727_181411661942.0Coiled coilOntology_term=ECO:0000255

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+1181166_123801490.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+118756_79301490.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+118887_92601490.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+1171166_123801479.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+117756_79301479.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+117887_92601479.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+1171166_123801463.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+117756_79301463.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+117887_92601463.0Coiled coilOntology_term=ECO:0000255
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+1181349_148301490.0DomainCKK
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+118222_33501490.0DomainCalponin-homology (CH)
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+1171349_148301479.0DomainCKK
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+117222_33501479.0DomainCalponin-homology (CH)
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+1171349_148301463.0DomainCKK
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+117222_33501463.0DomainCalponin-homology (CH)
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000236925+118922_103401490.0RegionMBD region
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000358823+117922_103401479.0RegionMBD region
HgeneCAMSAP2chr1:200827036chr2:97879277ENST00000413307+117922_103401463.0RegionMBD region
TgeneANKRD36chr1:200827036chr2:97879277ENST000004206995876130_15911661859.3333333333333RepeatANK 4
TgeneANKRD36chr1:200827036chr2:97879277ENST000004206995876163_19211661859.3333333333333RepeatANK 5
TgeneANKRD36chr1:200827036chr2:97879277ENST000004206995876196_22511661859.3333333333333RepeatANK 6
TgeneANKRD36chr1:200827036chr2:97879277ENST00000420699587631_6011661859.3333333333333RepeatANK 1
TgeneANKRD36chr1:200827036chr2:97879277ENST00000420699587664_9311661859.3333333333333RepeatANK 2
TgeneANKRD36chr1:200827036chr2:97879277ENST00000420699587697_12611661859.3333333333333RepeatANK 3
TgeneANKRD36chr1:200827036chr2:97879277ENST000004611535875130_15911661942.0RepeatANK 4
TgeneANKRD36chr1:200827036chr2:97879277ENST000004611535875163_19211661942.0RepeatANK 5
TgeneANKRD36chr1:200827036chr2:97879277ENST000004611535875196_22511661942.0RepeatANK 6
TgeneANKRD36chr1:200827036chr2:97879277ENST00000461153587531_6011661942.0RepeatANK 1
TgeneANKRD36chr1:200827036chr2:97879277ENST00000461153587564_9311661942.0RepeatANK 2
TgeneANKRD36chr1:200827036chr2:97879277ENST00000461153587597_12611661942.0RepeatANK 3


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Fusion Gene Sequence for CAMSAP2-ANKRD36


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.
>12738_12738_1_CAMSAP2-ANKRD36_CAMSAP2_chr1_200827036_ENST00000413307_ANKRD36_chr2_97879277_ENST00000420699_length(transcript)=6870nt_BP=4343nt
CGCCATGTGAAGGTTAGGGCCGGGACATCCCGAGGAGCCGCGGTGAAAGATGGGGGATGCTGCAGACCCCAGGGAGATGAGAAAGACGTT
CATTGTTCCAGCCATCAAGCCTTTTGACCACTATGATTTCTCCAGGGCCAAAATCGCCTGCAATCTGGCCTGGCTGGTGGCCAAAGCCTT
TGGGACAGAAAATGTGCCAGAGGAACTTCAAGAACCATTTTACACAGATCAGTATGACCAGGAACACATCAAACCACCTGTTGTTAATTT
GCTTCTATCGGCTGAACTATACTGTCGTGCTGGGAGTCTCATTCTCAAGAGTGATGCTGCAAAACCCCTTTTGGGCCATGATGCTGTAAT
CCAGGCTTTAGCACAGAAAGGTCTTTATGTCACTGACCAGGAAAAATTGGTAACTGAACGAGATCTCCACAAGAAACCCATACAGATGAG
TGCACATTTGGCCATGATCGATACCCTCATGATGGCTTATACTGTAGAAATGGTCAGTATAGAAAAAGTAATTGCGTGTGCTCAGCAGTA
TTCAGCTTTTTTTCAAGCCACAGATCTGCCCTATGATATTGAGGACGCTGTCATGTACTGGATAAATAAGGTAAATGAACATTTGAAAGA
CATAATGGAACAAGAACAAAAACTGAAAGAACATCACACAGTTGAAGCTCCAGGAGGTCAAAAGGCTCGTTATCGGAAAGAGCAAACATT
GCTTAAGCAACTGCCTTGCATTCCATTGGTAGAAAATTTGTTGAAGGATGGGACAGATGGCTGTGCATTAGCTGCCCTTATTCATTTTTA
CTGTCCTGATGTTGTCAGATTAGAGGATATTTGTTTGAAAGAAACTATGTCTTTGGCTGATAGCCTGTATAATCTGCAGCTGATTCAAGA
ATTTTGCCAAGAATACTTGAACCAGTGTTGCCATTTCACTCTGGAAGATATGCTCTATGCTGCTTCATCCATAAAGAGTAATTATTTGGT
GTTCATGGCGGAACTGTTCTGGTGGTTTGAAGTGGTGAAGCCGTCTTTTGTACAGCCTCGTGTTGTTCGTCCACAAGGAGCTGAACCTGT
AAAAGATATGCCTTCAATTCCTGTCTTGAATGCTGCCAAAAGAAATGTCTTAGATAGTAGTTCTGACTTCCCTTCAAGGTATTCACGTCC
CCAGGCTCATTCTTCAGCCTCAGGAGGAATTAGAAGGTCTTCATCTATGTCTTATGTTGATGGCTTCATAGGGACATGGCCCAAAGAGAA
AAGATCATCAGTGCATGGCGTATCATTTGATATTTCTTTTGATAAAGAAGATAGTGTACAGAGATCCACTCCAAACCGAGGAATCACTCG
TTCTATTAGTAATGAAGGACTTACTCTGAACAACAGTCATGTATCTAAACACATTAGGAAAAATTTGTCCTTCAAGCCAATAAATGGAGA
AGAGGAAGCAGAGAGCATTGAAGAAGAACTTAATATAGATTCTCACAGTGACCTCAAATCTTGTGTGCCCCTTAACACAAATGAACTAAA
TTCTAATGAGAATATTCATTACAAGCTTCCAAATGGAGCTTTACAAAATAGAATACTTCTTGACGAGTTTGGCAATCAGATCGAGACACC
AAGCATTGAAGAAGCATTACAAATAATTCATGATACTGAAAAATCTCCTCATACACCTCAGCCAGACCAAATTGCTAATGGCTTCTTTCT
TCATAGTCAAGAAATGAGTATCTTAAATTCAAATATCAAGTTAAATCAATCTAGTCCTGATAATGTAACTGATACGAAAGGTGCCTTGAG
TCCCATAACTGACAATACTGAAGTAGACACTGGAATTCACGTTCCTTCAGAAGATATTCCTGAAACTATGGACGAAGATTCTTCGTTGAG
AGATTATACTGTAAGCTTGGACTCTGACATGGATGATGCATCTAAATTTCTTCAGGATTATGATATTCGAACTGGCAACACCAGGGAAGC
TTTGAGTCCTTGTCCAAGTACTGTAAGTACCAAGTCTCAGCCAGGCAGCAGTGCTTCTTCTAGTTCTGGAGTTAAAATGACCAGCTTTGC
TGAACAAAAATTCAGGAAACTGAATCATACCGATGGAAAAAGTAGTGGAAGCAGTTCTCAAAAAACTACACCAGAAGGCTCTGAACTTAA
TATTCCTCATGTGGTTGCTTGGGCACAAATTCCAGAAGAAACAGGGCTTCCACAGGGACGGGACACTACCCAGCTGTTGGCCTCTGAAAT
GGTGCATCTTAGGATGAAACTAGAAGAAAAGAGGCGTGCTATAGAAGCCCAGAAAAAGAAAATGGAAGCTGCTTTTACCAAACAGAGACA
GAAAATGGGAAGGACAGCATTCCTTACTGTAGTGAAAAAGAAAGGGGATGGGATATCTCCTCTACGAGAGGAAGCGGCGGGTGCAGAAGA
TGAGAAAGTATATACTGATCGAGCAAAAGAAAAGGAATCACAAAAAACTGATGGACAAAGGAGCAAGTCACTGGCAGATATAAAAGAGAG
CATGGAGAATCCTCAAGCCAAATGGCTAAAGTCTCCAACTACACCTATTGATCCTGAGAAGCAGTGGAACCTGGCAAGCCCCTCAGAAGA
AACTTTAAATGAAGGAGAGATTTTAGAATATACCAAATCCATTGAAAAGTTAAATTCATCCCTGCATTTTCTACAACAAGAAATGCAACG
CTTGTCACTTCAGCAGGAGATGTTAATGCAGATGAGAGAGCAACAATCTTGGGTGATTTCACCTCCACAACCCTCTCCACAGAAACAGAT
TCGAGATTTTAAGCCTTCTAAGCAGGCAGGCCTGTCATCAGCCATTGCACCATTCTCCTCAGACTCCCCTCGTCCTACTCACCCATCTCC
ACAGTCTTCTAACAGGAAAAGTGCATCTTTTTCTGTTAAAAGTCAAAGGACTCCTAGGCCAAATGAGTTAAAAATAACACCTTTGAATCG
AACCTTGACACCTCCTCGGTCTGTGGATAGCCTTCCTCGGTTAAGGAGGTTTTCACCAAGTCAAGTTCCTATTCAAACTAGGTCATTTGT
ATGTTTTGGGGATGATGGAGAACCTCAGTTAAAGGAATCCAAACCTAAAGAGGAAGTTAAAAAGGAGGAATTGGAATCCAAAGGGACTTT
GGAACAGCGTGGACATAATCCAGAAGAAAAGGAAATCAAACCTTTTGAGTCAACAGTCTCTGAAGTCCTATCACTGCCTGTCACAGAGAC
TGTATGTCTGACACCAAATGAGGACCAATTGAATCAACCCACAGAACCCCCTCCTAAACCCGTTTTCCCACCCACTGCTCCAAAAAATGT
TAATCTGATTGAAGTTTCCCTCTCAGATTTGAAACCCCCTGAAAAGGCTGATGTACCTGTTGAAAAATATGATGGAGAAAGTGATAAAGA
ACAATTTGATGATGACCAGAAAGTATGCTGTGGATTCTTTTTTAAGGATGATCAAAAAGCAGAAAATGATATGGCAATGAAACGGGCAGC
TTTGTTGGAGAAAAGATTAAGAAGGGAAAAGGAAACTCAGCTCCGGAAACAACAGTTGGAAGCAGAAATGGAGCATAAGAAGGAGGAAAC
AAGGCGTAAAACTGAGGAAGAACGTCAGAAGAAAGAAGATGAGAGAGCACGCAGAGAATTTATTAGGCAAGAATATATGAGGCGGAAACA
ACTGAAACTAATGGAAGATATGGATACAGTAATTAAACCCCGTCCTCAAGTAGTAAAACAAAAAAAACAGCGACCAAAATCTATTCACAG
AGATCATATTGAATCCCCCAAAACACCAATAAAGGGTCCTCCAGTCTCTAGCCTTTCTTTGGCATCGCTGAACACGGGTGATAACGAGAG
TGTACATTCAGGCAAGAGGACGCCAAGATCAGAGTCTGTAGAAGGCTTCTTATCTCCAAGTCGTTGTGGCAGTCGAAATGGAGAAAAAGA
CTGGGAGAATGCATCAACAACTTCTTCAGTGGCTTCTGGAACAGAATATACAGGACCAAAGCTCTACAAAGAACCCAGTGCAAAATCCAA
TAAGCACATAATACAAAATGCTTTAGCTCATTGCTGTTTGGCTGGAAAAGTAAATGAAGGTCAGAAGAAAAAAATACTGGAGACTTTACA
AATATAATTCTGACAGGAAACAGTTTAGCCACATACCCGCTAAAACTTTATCTGCCAGTGTTGATGCAATTACCATTCATAGCCATTTAT
GGCAGACCAAAAGACCAGTAACACCCAAAAAACTTTTACCCACTAAGGCATAGAAGTTGGGAAATACTTGCTTCAGAACATTCATGGTAA
ATTTGCACTTCATCTTTCCTGCCGCTACAAGTGACAAGAAAGATTCTGTTTCGAATATACCCACAGAAATAAAGGATGGACAACAATCTG
GAACAGTGTCTTCTCAGAAACAACCGGCCTGGAAGGCTACAAGTGTCAAGAAAGATTCTGTTTCGAATATAGCCACAGAAATAAAGGATG
GACAAATACGTGGGACAGGTATTTTGGAATACACCTTTAATGTAATGTTCGATCAAATAGAAGAGAAATTCACTTCCCTAAATAAATCAG
CGGGGGTGTCTCCTCAGAAACAATCGGCCCAGAAGGTTATATTTAAAAAGAAAGTTTCTCTTTTGAATATTGCCACAAGAATAACAGGCG
GTTGGAAATCTGGAACAGAGTATCCTGAGAATCTGCCCACCTTGAAGGCTACAATTGAAAATAAAAATTCTGTTCTGAATACAGCCACCA
AAATGAAGGATGTACAAACATCCACACCAGCAGAACAAGACTTAGAAATGGCATCAGAGGGAGAGCAAAAGAGGCTTGAAGAATATGAAA
ATAACCAGCCACAGGTGAAAAACCAAATACATTCTAGGGATGACCTTGATGACATAATTCAGTCATCTCAAACAGTCTCAGAGGACGGTG
ACTCGCTTTGCTGTAATTGTAAGAATGTCATATTACTCATTGATCAACATGAAATGAAGTGTAAAGATTGTGTTCACCTATTGAAAATTA
AAAATACATTTTGTTTATGGAAAAGATTAATAAAACTTAAAGATAACCACTGTGAGCAACTTAGAGTAAAAATTCGAAAACTGAAAAATA
AGGCTAGTGTACTACAAAAGAGAATATCTGAAAAAGAAGAAATAAAATCGCAGTTAAAGCATGAAATACTTGAATTGGAAAAAGAACTCT
GTAGTTTGAGATTTGCCATACAGCAAGAAAAAAAGAAAAGAAGAAATGTTGAAGAGGTGCACCAAAAAGTTAGGGAAAAGTTAAGAATAA
CAGAAGAGCAATATAGGATAGAAGCTGATGTGACAAAACCAATTAAACCGGCTCTCAAATCAGCAGAGGTGGAATTGAAGACAGGAGGAA
ATAATTCAAATCAGGTTTCTGAAACTGATGAAAAAGAAGACCTGCTGCATGAAAACCGCTTGATGCAAGATGAAATTGCCAGGCTCAGGC
TGGAAAAAGACACAATAAAAAACCAAAACCTGGAAAAGAAATACTTAAAAGACTTTGAAATTGTGAAAAGAAAGCATGAAGACCTTCAAA
AGGCTCTAAAACGGAATGGGGAAACATTAGCAAAAACGATAGCCTGTTATAGTGGACAGCTTGCTGCTCTGACAGATGAAAACACAACGC
TCCGTTCCAAACTGGAGAAGCAAAGAGAGAGCAGGCAAAGACTGGAAACAGAAATGCAATCATACCATTGTAGACTGAATGCTGCTCGAT
GTGATCATGATCAAAGTCACTCATCAAAAAGAGACCAAGAGCTTGCTTTCCAGGGCACAGTAGATAAATGTCGTCACTTACAGGAAAATT
TGAATTCTCATGTTCTGATTCTTTCTCTGCAACTTTCTAAAGCTGAGAGTAAGTCCAGAGTCCTCAAAACTGAGCTCCATTACACAGGAG
AGGCTCTGAAAGAAAAGGCTTTGGTTTTTGAACACGTGCAAAGTGAGCTAAAGCAAAAACAGAGTCAAATGAAGGACATTGAAAAAATGT
ACAAAAGTGGATACAATACAATGGAAAAATGCATAGAAAAACAGGAAAGATTTTGTCAACTAAAAAAACAAAATATGTTGCTTCAACAGC
AACTGGATGATGCTCGCAACAAAGCTGACAATCAAGAAAAAGCAATACTTAATATTCAAGCCAGATGTGATGCTAGAGTACAAAACCTTC
AAGCTGAGTGCAGAAAGCACCGTCTTTTACTAGAAGAAGACAATAAAATGTTGGTCAATGAACTGAATCATTCGAAAGAAAAAGAATGCC
AATATGAAAAAGAGAAAGCAGAAAGAGAAGTAGCTGTGAGACAGCTTCAACAAAAACGAGATGATGTCTTAAACAAAGGATCAGCAACAA
AAGCTCTGCTGGATGCTTCATCGCGTCACTGCACCTATTTAGAAAATGGGATGCAGGATTCAAGGAAGAAATTAGACCAGATGAGAAGTC
AATTTCAAGAAATACAGGATCAACTTACAGCTACTATAAGATGTACTAAGGAGATGGAAGGCGACACACAAAAGCTTGAAGTAGAACATG
TGATGATGAGAAAAATTATTAAAAAACAGGATGACCAAATTGAGCGGCTTGAGAAAATCCTGCAGCATTCAAGTTTGATGCTGCAGGTGT
TTGAGAGCTAGATGAAGATATGGACATTTCTGGAATTAAGAGCCCCCTCTACATTGAGCACAAGACAGTGACGAATCCACATTCTTCAGC
CAGAAAGTCACCTCTGAGAGCCAAATGTCTGACTATAGAAAGGAGAGTCAAAGAATGATAACGACATCTCAGGAAAATTGTGAAAATAAT

>12738_12738_1_CAMSAP2-ANKRD36_CAMSAP2_chr1_200827036_ENST00000413307_ANKRD36_chr2_97879277_ENST00000420699_length(amino acids)=1365AA_BP=
MGDAADPREMRKTFIVPAIKPFDHYDFSRAKIACNLAWLVAKAFGTENVPEELQEPFYTDQYDQEHIKPPVVNLLLSAELYCRAGSLILK
SDAAKPLLGHDAVIQALAQKGLYVTDQEKLVTERDLHKKPIQMSAHLAMIDTLMMAYTVEMVSIEKVIACAQQYSAFFQATDLPYDIEDA
VMYWINKVNEHLKDIMEQEQKLKEHHTVEAPGGQKARYRKEQTLLKQLPCIPLVENLLKDGTDGCALAALIHFYCPDVVRLEDICLKETM
SLADSLYNLQLIQEFCQEYLNQCCHFTLEDMLYAASSIKSNYLVFMAELFWWFEVVKPSFVQPRVVRPQGAEPVKDMPSIPVLNAAKRNV
LDSSSDFPSRYSRPQAHSSASGGIRRSSSMSYVDGFIGTWPKEKRSSVHGVSFDISFDKEDSVQRSTPNRGITRSISNEGLTLNNSHVSK
HIRKNLSFKPINGEEEAESIEEELNIDSHSDLKSCVPLNTNELNSNENIHYKLPNGALQNRILLDEFGNQIETPSIEEALQIIHDTEKSP
HTPQPDQIANGFFLHSQEMSILNSNIKLNQSSPDNVTDTKGALSPITDNTEVDTGIHVPSEDIPETMDEDSSLRDYTVSLDSDMDDASKF
LQDYDIRTGNTREALSPCPSTVSTKSQPGSSASSSSGVKMTSFAEQKFRKLNHTDGKSSGSSSQKTTPEGSELNIPHVVAWAQIPEETGL
PQGRDTTQLLASEMVHLRMKLEEKRRAIEAQKKKMEAAFTKQRQKMGRTAFLTVVKKKGDGISPLREEAAGAEDEKVYTDRAKEKESQKT
DGQRSKSLADIKESMENPQAKWLKSPTTPIDPEKQWNLASPSEETLNEGEILEYTKSIEKLNSSLHFLQQEMQRLSLQQEMLMQMREQQS
WVISPPQPSPQKQIRDFKPSKQAGLSSAIAPFSSDSPRPTHPSPQSSNRKSASFSVKSQRTPRPNELKITPLNRTLTPPRSVDSLPRLRR
FSPSQVPIQTRSFVCFGDDGEPQLKESKPKEEVKKEELESKGTLEQRGHNPEEKEIKPFESTVSEVLSLPVTETVCLTPNEDQLNQPTEP
PPKPVFPPTAPKNVNLIEVSLSDLKPPEKADVPVEKYDGESDKEQFDDDQKVCCGFFFKDDQKAENDMAMKRAALLEKRLRREKETQLRK
QQLEAEMEHKKEETRRKTEEERQKKEDERARREFIRQEYMRRKQLKLMEDMDTVIKPRPQVVKQKKQRPKSIHRDHIESPKTPIKGPPVS
SLSLASLNTGDNESVHSGKRTPRSESVEGFLSPSRCGSRNGEKDWENASTTSSVASGTEYTGPKLYKEPSAKSNKHIIQNALAHCCLAGK

--------------------------------------------------------------
>12738_12738_2_CAMSAP2-ANKRD36_CAMSAP2_chr1_200827036_ENST00000413307_ANKRD36_chr2_97879277_ENST00000461153_length(transcript)=6703nt_BP=4343nt
CGCCATGTGAAGGTTAGGGCCGGGACATCCCGAGGAGCCGCGGTGAAAGATGGGGGATGCTGCAGACCCCAGGGAGATGAGAAAGACGTT
CATTGTTCCAGCCATCAAGCCTTTTGACCACTATGATTTCTCCAGGGCCAAAATCGCCTGCAATCTGGCCTGGCTGGTGGCCAAAGCCTT
TGGGACAGAAAATGTGCCAGAGGAACTTCAAGAACCATTTTACACAGATCAGTATGACCAGGAACACATCAAACCACCTGTTGTTAATTT
GCTTCTATCGGCTGAACTATACTGTCGTGCTGGGAGTCTCATTCTCAAGAGTGATGCTGCAAAACCCCTTTTGGGCCATGATGCTGTAAT
CCAGGCTTTAGCACAGAAAGGTCTTTATGTCACTGACCAGGAAAAATTGGTAACTGAACGAGATCTCCACAAGAAACCCATACAGATGAG
TGCACATTTGGCCATGATCGATACCCTCATGATGGCTTATACTGTAGAAATGGTCAGTATAGAAAAAGTAATTGCGTGTGCTCAGCAGTA
TTCAGCTTTTTTTCAAGCCACAGATCTGCCCTATGATATTGAGGACGCTGTCATGTACTGGATAAATAAGGTAAATGAACATTTGAAAGA
CATAATGGAACAAGAACAAAAACTGAAAGAACATCACACAGTTGAAGCTCCAGGAGGTCAAAAGGCTCGTTATCGGAAAGAGCAAACATT
GCTTAAGCAACTGCCTTGCATTCCATTGGTAGAAAATTTGTTGAAGGATGGGACAGATGGCTGTGCATTAGCTGCCCTTATTCATTTTTA
CTGTCCTGATGTTGTCAGATTAGAGGATATTTGTTTGAAAGAAACTATGTCTTTGGCTGATAGCCTGTATAATCTGCAGCTGATTCAAGA
ATTTTGCCAAGAATACTTGAACCAGTGTTGCCATTTCACTCTGGAAGATATGCTCTATGCTGCTTCATCCATAAAGAGTAATTATTTGGT
GTTCATGGCGGAACTGTTCTGGTGGTTTGAAGTGGTGAAGCCGTCTTTTGTACAGCCTCGTGTTGTTCGTCCACAAGGAGCTGAACCTGT
AAAAGATATGCCTTCAATTCCTGTCTTGAATGCTGCCAAAAGAAATGTCTTAGATAGTAGTTCTGACTTCCCTTCAAGGTATTCACGTCC
CCAGGCTCATTCTTCAGCCTCAGGAGGAATTAGAAGGTCTTCATCTATGTCTTATGTTGATGGCTTCATAGGGACATGGCCCAAAGAGAA
AAGATCATCAGTGCATGGCGTATCATTTGATATTTCTTTTGATAAAGAAGATAGTGTACAGAGATCCACTCCAAACCGAGGAATCACTCG
TTCTATTAGTAATGAAGGACTTACTCTGAACAACAGTCATGTATCTAAACACATTAGGAAAAATTTGTCCTTCAAGCCAATAAATGGAGA
AGAGGAAGCAGAGAGCATTGAAGAAGAACTTAATATAGATTCTCACAGTGACCTCAAATCTTGTGTGCCCCTTAACACAAATGAACTAAA
TTCTAATGAGAATATTCATTACAAGCTTCCAAATGGAGCTTTACAAAATAGAATACTTCTTGACGAGTTTGGCAATCAGATCGAGACACC
AAGCATTGAAGAAGCATTACAAATAATTCATGATACTGAAAAATCTCCTCATACACCTCAGCCAGACCAAATTGCTAATGGCTTCTTTCT
TCATAGTCAAGAAATGAGTATCTTAAATTCAAATATCAAGTTAAATCAATCTAGTCCTGATAATGTAACTGATACGAAAGGTGCCTTGAG
TCCCATAACTGACAATACTGAAGTAGACACTGGAATTCACGTTCCTTCAGAAGATATTCCTGAAACTATGGACGAAGATTCTTCGTTGAG
AGATTATACTGTAAGCTTGGACTCTGACATGGATGATGCATCTAAATTTCTTCAGGATTATGATATTCGAACTGGCAACACCAGGGAAGC
TTTGAGTCCTTGTCCAAGTACTGTAAGTACCAAGTCTCAGCCAGGCAGCAGTGCTTCTTCTAGTTCTGGAGTTAAAATGACCAGCTTTGC
TGAACAAAAATTCAGGAAACTGAATCATACCGATGGAAAAAGTAGTGGAAGCAGTTCTCAAAAAACTACACCAGAAGGCTCTGAACTTAA
TATTCCTCATGTGGTTGCTTGGGCACAAATTCCAGAAGAAACAGGGCTTCCACAGGGACGGGACACTACCCAGCTGTTGGCCTCTGAAAT
GGTGCATCTTAGGATGAAACTAGAAGAAAAGAGGCGTGCTATAGAAGCCCAGAAAAAGAAAATGGAAGCTGCTTTTACCAAACAGAGACA
GAAAATGGGAAGGACAGCATTCCTTACTGTAGTGAAAAAGAAAGGGGATGGGATATCTCCTCTACGAGAGGAAGCGGCGGGTGCAGAAGA
TGAGAAAGTATATACTGATCGAGCAAAAGAAAAGGAATCACAAAAAACTGATGGACAAAGGAGCAAGTCACTGGCAGATATAAAAGAGAG
CATGGAGAATCCTCAAGCCAAATGGCTAAAGTCTCCAACTACACCTATTGATCCTGAGAAGCAGTGGAACCTGGCAAGCCCCTCAGAAGA
AACTTTAAATGAAGGAGAGATTTTAGAATATACCAAATCCATTGAAAAGTTAAATTCATCCCTGCATTTTCTACAACAAGAAATGCAACG
CTTGTCACTTCAGCAGGAGATGTTAATGCAGATGAGAGAGCAACAATCTTGGGTGATTTCACCTCCACAACCCTCTCCACAGAAACAGAT
TCGAGATTTTAAGCCTTCTAAGCAGGCAGGCCTGTCATCAGCCATTGCACCATTCTCCTCAGACTCCCCTCGTCCTACTCACCCATCTCC
ACAGTCTTCTAACAGGAAAAGTGCATCTTTTTCTGTTAAAAGTCAAAGGACTCCTAGGCCAAATGAGTTAAAAATAACACCTTTGAATCG
AACCTTGACACCTCCTCGGTCTGTGGATAGCCTTCCTCGGTTAAGGAGGTTTTCACCAAGTCAAGTTCCTATTCAAACTAGGTCATTTGT
ATGTTTTGGGGATGATGGAGAACCTCAGTTAAAGGAATCCAAACCTAAAGAGGAAGTTAAAAAGGAGGAATTGGAATCCAAAGGGACTTT
GGAACAGCGTGGACATAATCCAGAAGAAAAGGAAATCAAACCTTTTGAGTCAACAGTCTCTGAAGTCCTATCACTGCCTGTCACAGAGAC
TGTATGTCTGACACCAAATGAGGACCAATTGAATCAACCCACAGAACCCCCTCCTAAACCCGTTTTCCCACCCACTGCTCCAAAAAATGT
TAATCTGATTGAAGTTTCCCTCTCAGATTTGAAACCCCCTGAAAAGGCTGATGTACCTGTTGAAAAATATGATGGAGAAAGTGATAAAGA
ACAATTTGATGATGACCAGAAAGTATGCTGTGGATTCTTTTTTAAGGATGATCAAAAAGCAGAAAATGATATGGCAATGAAACGGGCAGC
TTTGTTGGAGAAAAGATTAAGAAGGGAAAAGGAAACTCAGCTCCGGAAACAACAGTTGGAAGCAGAAATGGAGCATAAGAAGGAGGAAAC
AAGGCGTAAAACTGAGGAAGAACGTCAGAAGAAAGAAGATGAGAGAGCACGCAGAGAATTTATTAGGCAAGAATATATGAGGCGGAAACA
ACTGAAACTAATGGAAGATATGGATACAGTAATTAAACCCCGTCCTCAAGTAGTAAAACAAAAAAAACAGCGACCAAAATCTATTCACAG
AGATCATATTGAATCCCCCAAAACACCAATAAAGGGTCCTCCAGTCTCTAGCCTTTCTTTGGCATCGCTGAACACGGGTGATAACGAGAG
TGTACATTCAGGCAAGAGGACGCCAAGATCAGAGTCTGTAGAAGGCTTCTTATCTCCAAGTCGTTGTGGCAGTCGAAATGGAGAAAAAGA
CTGGGAGAATGCATCAACAACTTCTTCAGTGGCTTCTGGAACAGAATATACAGGACCAAAGCTCTACAAAGAACCCAGTGCAAAATCCAA
TAAGCACATAATACAAAATGCTTTAGCTCATTGCTGTTTGGCTGGAAAAGTAAATGAAGGTCAGAAGAAAAAAATACTGGAGACTTTACA
AATATAATTCTGACAGGAAACAGTTTAGCCACATACCCGCTAAAACTTTATCTGCCAGTGTTGATGCAATTACCATTCATAGCCATTTAT
GGCAGACCAAAAGACCAGTAACACCCAAAAAACTTTTACCCACTAAGGCATAGAAGTTGGGAAATACTTGCTTCAGAACATTCATGGTAA
ATTTGCACTTCATCTTTCCTGCCGCTACAAGTGACAAGAAAGATTCTGTTTCGAATATACCCACAGAAATAAAGGATGGACAACAATCTG
GAACAGTGTCTTCTCAGAAACAACCGGCCTGGAAGGCTACAAGTGTCAAGAAAGATTCTGTTTCGAATATAGCCACAGAAATAAAGGATG
GACAAATACGTGGGACAGGTATTTTGGAATACACCTTTAATGTAATGTTCGATCAAATAGAAGAGAAATTCACTTCCCTAAATAAATCAG
CGGGGGTGTCTCCTCAGAAACAATCGGCCCAGAAGGTTATATTTAAAAAGAAAGTTTCTCTTTTGAATATTGCCACAAGAATAACAGGCG
GTTGGAAATCTGGAACAGAGTATCCTGAGAATCTGCCCACCTTGAAGGCTACAATTGAAAATAAAAATTCTGTTCTGAATACAGCCACCA
AAATGAAGGATGTACAAACATCCACACCAGCAGAACAAGACTTAGAAATGGCATCAGAGGGAGAGCAAAAGAGGCTTGAAGAATATGAAA
ATAACCAGCCACAGGTGAAAAACCAAATACATTCTAGGGATGACCTTGATGACATAATTCAGTCATCTCAAACAGTCTCAGAGGACGGTG
ACTCGCTTTGCTGTAATTGTAAGAATGTCATATTACTCATTGATCAACATGAAATGAAGTGTAAAGATTGTGTTCACCTATTGAAAATTA
AAAATACATTTTGTTTATGGAAAAGATTAATAAAACTTAAAGATAACCACTGTGAGCAACTTAGAGTAAAAATTCGAAAACTGAAAAATA
AGGCTAGTGTACTACAAAAGAGAATATCTGAAAAAGAAGAAATAAAATCGCAGTTAAAGCATGAAATACTTGAATTGGAAAAAGAACTCT
GTAGTTTGAGATTTGCCATACAGCAAGAAAAAAAGAAAAGAAGAAATGTTGAAGAGGTGCACCAAAAAGTTAGGGAAAAGTTAAGAATAA
CAGAAGAGCAATATAGGATAGAAGCTGATGTGACAAAACCAATTAAACCGGCTCTCAAATCAGCAGAGGTGGAATTGAAGACAGGAGGAA
ATAATTCAAATCAGGTTTCTGAAACTGATGAAAAAGAAGACCTGCTGCATGAAAACCGCTTGATGCAAGATGAAATTGCCAGGCTCAGGC
TGGAAAAAGACACAATAAAAAACCAAAACCTGGAAAAGAAATACTTAAAAGACTTTGAAATTGTGAAAAGAAAGCATGAAGACCTTCAAA
AGGCTCTAAAACGGAATGGGGAAACATTAGCAAAAACGATAGCCTGTTATAGTGGACAGCTTGCTGCTCTGACAGATGAAAACACAACGC
TCCGTTCCAAACTGGAGAAGCAAAGAGAGAGCAGGCAAAGACTGGAAACAGAAATGCAATCATACCATTGTAGACTGAATGCTGCTCGAT
GTGATCATGATCAAAGTCACTCATCAAAAAGAGACCAAGAGCTTGCTTTCCAGGGCACAGTAGATAAATGTCGTCACTTACAGGAAAATT
TGAATTCTCATGTTCTGATTCTTTCTCTGCAACTTTCTAAAGCTGAGAGTAAGTCCAGAGTCCTCAAAACTGAGCTCCATTACACAGGAG
AGGCTCTGAAAGAAAAGGCTTTGGTTTTTGAACACGTGCAAAGTGAGCTAAAGCAAAAACAGAGTCAAATGAAGGACATTGAAAAAATGT
ACAAAAGTGGATACAATACAATGGAAAAATGCATAGAAAAACAGGAAAGATTTTGTCAACTAAAAAAACAAAATATGTTGCTTCAACAGC
AACTGGATGATGCTCGCAACAAAGCTGACAATCAAGAAAAAGCAATACTTAATATTCAAGCCAGATGTGATGCTAGAGTACAAAACCTTC
AAGCTGAGTGCAGAAAGCACCGTCTTTTACTAGAAGAAGACAATAAAATGTTGGTCAATGAACTGAATCATTCGAAAGAAAAAGAATGCC
AATATGAAAAAGAGAAAGCAGAAAGAGAAGTAGCTGTGAGACAGCTTCAACAAAAACGAGATGATGTCTTAAACAAAGGATCAGCAACAA
AAGCTCTGCTGGATGCTTCATCGCGTCACTGCACCTATTTAGAAAATGGGATGCAGGATTCAAGGAAGAAATTAGACCAGATGAGAAGTC
AATTTCAAGAAATACAGGATCAACTTACAGCTACTATAAGATGTACTAAGGAGATGGAAGGCGACACACAAAAGCTTGAAGTAGAACATG
TGATGATGAGAAAAATTATTAAAAAACAGGATGACCAAATTGAGCGGCTTGAGAAAATCCTGCAGCATTCAAGTTTGATGCTGCAGGTGT

>12738_12738_2_CAMSAP2-ANKRD36_CAMSAP2_chr1_200827036_ENST00000413307_ANKRD36_chr2_97879277_ENST00000461153_length(amino acids)=1365AA_BP=
MGDAADPREMRKTFIVPAIKPFDHYDFSRAKIACNLAWLVAKAFGTENVPEELQEPFYTDQYDQEHIKPPVVNLLLSAELYCRAGSLILK
SDAAKPLLGHDAVIQALAQKGLYVTDQEKLVTERDLHKKPIQMSAHLAMIDTLMMAYTVEMVSIEKVIACAQQYSAFFQATDLPYDIEDA
VMYWINKVNEHLKDIMEQEQKLKEHHTVEAPGGQKARYRKEQTLLKQLPCIPLVENLLKDGTDGCALAALIHFYCPDVVRLEDICLKETM
SLADSLYNLQLIQEFCQEYLNQCCHFTLEDMLYAASSIKSNYLVFMAELFWWFEVVKPSFVQPRVVRPQGAEPVKDMPSIPVLNAAKRNV
LDSSSDFPSRYSRPQAHSSASGGIRRSSSMSYVDGFIGTWPKEKRSSVHGVSFDISFDKEDSVQRSTPNRGITRSISNEGLTLNNSHVSK
HIRKNLSFKPINGEEEAESIEEELNIDSHSDLKSCVPLNTNELNSNENIHYKLPNGALQNRILLDEFGNQIETPSIEEALQIIHDTEKSP
HTPQPDQIANGFFLHSQEMSILNSNIKLNQSSPDNVTDTKGALSPITDNTEVDTGIHVPSEDIPETMDEDSSLRDYTVSLDSDMDDASKF
LQDYDIRTGNTREALSPCPSTVSTKSQPGSSASSSSGVKMTSFAEQKFRKLNHTDGKSSGSSSQKTTPEGSELNIPHVVAWAQIPEETGL
PQGRDTTQLLASEMVHLRMKLEEKRRAIEAQKKKMEAAFTKQRQKMGRTAFLTVVKKKGDGISPLREEAAGAEDEKVYTDRAKEKESQKT
DGQRSKSLADIKESMENPQAKWLKSPTTPIDPEKQWNLASPSEETLNEGEILEYTKSIEKLNSSLHFLQQEMQRLSLQQEMLMQMREQQS
WVISPPQPSPQKQIRDFKPSKQAGLSSAIAPFSSDSPRPTHPSPQSSNRKSASFSVKSQRTPRPNELKITPLNRTLTPPRSVDSLPRLRR
FSPSQVPIQTRSFVCFGDDGEPQLKESKPKEEVKKEELESKGTLEQRGHNPEEKEIKPFESTVSEVLSLPVTETVCLTPNEDQLNQPTEP
PPKPVFPPTAPKNVNLIEVSLSDLKPPEKADVPVEKYDGESDKEQFDDDQKVCCGFFFKDDQKAENDMAMKRAALLEKRLRREKETQLRK
QQLEAEMEHKKEETRRKTEEERQKKEDERARREFIRQEYMRRKQLKLMEDMDTVIKPRPQVVKQKKQRPKSIHRDHIESPKTPIKGPPVS
SLSLASLNTGDNESVHSGKRTPRSESVEGFLSPSRCGSRNGEKDWENASTTSSVASGTEYTGPKLYKEPSAKSNKHIIQNALAHCCLAGK

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

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Fusion Gene PPI Analysis for CAMSAP2-ANKRD36


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 CAMSAP2-ANKRD36


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 CAMSAP2-ANKRD36


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