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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:SEPT9-DNAH17 (FusionGDB2 ID:88)

Fusion Gene Summary for SEPT9-DNAH17

check button Fusion gene summary
Fusion gene informationFusion gene name: SEPT9-DNAH17
Fusion gene ID: 88
HgeneTgene
Gene symbol

SEPT9

DNAH17

Gene ID

10801

8632

Gene nameseptin 9dynein axonemal heavy chain 17
SynonymsAF17q25|MSF|MSF1|NAPB|PNUTL4|SEPT9|SINT1|SeptD1DNAHL1|DNEL2|SPGF39
Cytomap

17q25.3

17q25.3

Type of geneprotein-codingprotein-coding
Descriptionseptin-9MLL septin-like fusion protein MSF-AOv/Br septinovarian/breast septinseptin D1dynein heavy chain 17, axonemalaxonemal beta dynein heavy chain 17axonemal dynein heavy chain-like protein 1ciliary dynein heavy chain 17ciliary dynein heavy chain-like protein 1dynein light chain 2, axonemaldynein, axonemal, heavy polypeptide 17
Modification date2020032820200320
UniProtAcc.

Q9UFH2

Ensembl transtripts involved in fusion geneENST00000427177, ENST00000591198, 
ENST00000449803, ENST00000431235, 
ENST00000329047, ENST00000590294, 
ENST00000588690, ENST00000423034, 
ENST00000427674, ENST00000592420, 
ENST00000585930, ENST00000541152, 
ENST00000592481, ENST00000591088, 
ENST00000592951, ENST00000590917, 
ENST00000427180, 		ENST00000389840, 
ENST00000585328, ENST00000586052, 
Fusion gene scores* DoF score31 X 14 X 18=781215 X 16 X 11=2640
# samples 4119
** MAII scorelog2(41/7812*10)=-4.25199613438135
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0		log2(19/2640*10)=-3.79646660591487
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: SEPT9 [Title/Abstract] AND DNAH17 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointSEPT9(75496674)-DNAH17(76435299), # samples:1
Anticipated loss of major functional domain due to fusion event.
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

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

check buttonFusion gene breakpoints across SEPT9 (5'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.

check buttonFusion gene breakpoints across DNAH17 (3'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.

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
ChimerDB4LUADTCGA-50-5946-01ASEPT9chr17

75496674

-DNAH17chr17

76435299

-


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Fusion Gene ORF analysis for SEPT9-DNAH17

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
Frame-shiftENST00000427177ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000427177ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000427177ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000591198ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000591198ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000591198ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000449803ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000449803ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000449803ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000431235ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000431235ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000431235ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000329047ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000329047ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000329047ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000590294ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000590294ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000590294ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000588690ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000588690ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000588690ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000423034ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000423034ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000423034ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000427674ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000427674ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000427674ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592420ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592420ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000592420ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000585930ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000585930ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000585930ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000541152ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
In-frameENST00000541152ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000541152ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592481ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592481ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000592481ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000591088ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000591088ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000591088ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592951ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000592951ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000592951ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000590917ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-3CDSENST00000590917ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
intron-5UTRENST00000590917ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000427180ENST00000389840SEPT9chr17

75496674

-DNAH17chr17

76435299

-
Frame-shiftENST00000427180ENST00000585328SEPT9chr17

75496674

-DNAH17chr17

76435299

-
5CDS-5UTRENST00000427180ENST00000586052SEPT9chr17

75496674

-DNAH17chr17

76435299

-

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)
ENST00000423034SEPT9chr1775496674-ENST00000389840DNAH17chr1776435299-6016398440345806590
ENST00000423034SEPT9chr1775496674-ENST00000585328DNAH17chr1776435299-590539843082047579
ENST00000427674SEPT9chr1775496674-ENST00000389840DNAH17chr1776435299-596939371442000618
ENST00000427674SEPT9chr1775496674-ENST00000585328DNAH17chr1776435299-585839371442000618
ENST00000541152SEPT9chr1775496674-ENST00000389840DNAH17chr1776435299-5058302630764848590
ENST00000541152SEPT9chr1775496674-ENST00000585328DNAH17chr1776435299-4947302630764737553

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
ENST00000423034ENST00000389840SEPT9chr1775496674-DNAH17chr1776435299-0.0081281790.99187183
ENST00000423034ENST00000585328SEPT9chr1775496674-DNAH17chr1776435299-0.0081273720.9918726
ENST00000427674ENST00000389840SEPT9chr1775496674-DNAH17chr1776435299-0.0058871270.9941129
ENST00000427674ENST00000585328SEPT9chr1775496674-DNAH17chr1776435299-0.0063864260.99361354
ENST00000541152ENST00000389840SEPT9chr1775496674-DNAH17chr1776435299-0.0052886810.9947113
ENST00000541152ENST00000585328SEPT9chr1775496674-DNAH17chr1776435299-0.0058346980.99416536

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Fusion Genomic Features for SEPT9-DNAH17


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.

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 SEPT9-DNAH17


check button Go to

FGviewer for the breakpoints of chr17:75496674-chr17:76435299

.
- FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels.
FGviewer

check buttonMain function of each fusion partner protein. (from UniProt)
HgeneTgene
.DNAH17

Q9UFH2

FUNCTION: Might normally function as a transcriptional repressor. EWS-fusion-proteins (EFPS) may play a role in the tumorigenic process. They may disturb gene expression by mimicking, or interfering with the normal function of CTD-POLII within the transcription initiation complex. They may also contribute to an aberrant activation of the fusion protein target genes.FUNCTION: Force generating protein component of the outer dynein arms (ODAs) in the sperm flagellum. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP (Probable). Plays a major role in sperm motility, implicated in sperm flagellar assembly and beating (PubMed:31178125). {ECO:0000269|PubMed:31178125, ECO:0000305|PubMed:31178125}.

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
HgeneSEPT9chr17:75496674chr17:76435299ENST00000329047-1111295_5671213.6666666666667569.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000423034-1111295_5671225.3333333333333580.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427177-1212295_5671231.6666666666667587.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427180-1010295_5671119.6666666666667475.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427674-1111295_5671068.3333333333333423.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000431235-1212295_5671069.0423.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000449803-1212295_5671067.6666666666667423.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000541152-1010295_567981.3333333333334336.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000588690-1212295_567814.0512.6666666666666DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000590294-1212295_567668.0354.3333333333333DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000329047-1111445_4531213.6666666666667569.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000423034-1111445_4531225.3333333333333580.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427177-1212445_4531231.6666666666667587.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427180-1010445_4531119.6666666666667475.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427674-1111445_4531068.3333333333333423.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000431235-1212445_4531069.0423.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000449803-1212445_4531067.6666666666667423.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000541152-1010445_453981.3333333333334336.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000588690-1212445_453814.0512.6666666666666Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000590294-1212445_453668.0354.3333333333333Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000329047-1111305_3121213.6666666666667569.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000329047-1111362_3651213.6666666666667569.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000329047-1111444_4471213.6666666666667569.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000423034-1111305_3121225.3333333333333580.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000423034-1111362_3651225.3333333333333580.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000423034-1111444_4471225.3333333333333580.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427177-1212305_3121231.6666666666667587.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427177-1212362_3651231.6666666666667587.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427177-1212444_4471231.6666666666667587.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427180-1010305_3121119.6666666666667475.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427180-1010362_3651119.6666666666667475.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427180-1010444_4471119.6666666666667475.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427674-1111305_3121068.3333333333333423.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427674-1111362_3651068.3333333333333423.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000427674-1111444_4471068.3333333333333423.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000431235-1212305_3121069.0423.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000431235-1212362_3651069.0423.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000431235-1212444_4471069.0423.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000449803-1212305_3121067.6666666666667423.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000449803-1212362_3651067.6666666666667423.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000449803-1212444_4471067.6666666666667423.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000541152-1010305_312981.3333333333334336.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000541152-1010362_365981.3333333333334336.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000541152-1010444_447981.3333333333334336.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000588690-1212305_312814.0512.6666666666666RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000588690-1212362_365814.0512.6666666666666RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000588690-1212444_447814.0512.6666666666666RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000590294-1212305_312668.0354.3333333333333RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000590294-1212362_365668.0354.3333333333333RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000590294-1212444_447668.0354.3333333333333RegionG4 motif
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071814147_41823878.33333333333354486.0RepeatNote=TPR 3

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneSEPT9chr17:75496674chr17:76435299ENST00000585930-110295_5670363.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591088-110295_5670336.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591198-111295_5670568.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000592951-110295_5670336.0DomainSeptin-type G
HgeneSEPT9chr17:75496674chr17:76435299ENST00000585930-110445_4530363.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591088-110445_4530336.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591198-111445_4530568.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000592951-110445_4530336.0Nucleotide bindingGTP
HgeneSEPT9chr17:75496674chr17:76435299ENST00000585930-110305_3120363.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000585930-110362_3650363.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000585930-110444_4470363.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591088-110305_3120336.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591088-110362_3650336.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591088-110444_4470336.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591198-111305_3120568.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591198-111362_3650568.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000591198-111444_4470568.0RegionG4 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000592951-110305_3120336.0RegionG1 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000592951-110362_3650336.0RegionG3 motif
HgeneSEPT9chr17:75496674chr17:76435299ENST00000592951-110444_4470336.0RegionG4 motif
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071813027_30863878.33333333333354486.0Coiled coilOntology_term=ECO:0000255
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071813257_33093878.33333333333354486.0Coiled coilOntology_term=ECO:0000255
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071811847_18543878.33333333333354486.0Nucleotide bindingATP
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812128_21353878.33333333333354486.0Nucleotide bindingATP
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812455_24623878.33333333333354486.0Nucleotide bindingATP
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812801_28083878.33333333333354486.0Nucleotide bindingATP
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071811809_20303878.33333333333354486.0RegionAAA 1
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071811_18083878.33333333333354486.0RegionStem
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812090_23113878.33333333333354486.0RegionAAA 2
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812417_26653878.33333333333354486.0RegionAAA 3
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071812763_30123878.33333333333354486.0RegionAAA 4
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071813027_33133878.33333333333354486.0RegionStalk
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071813405_36323878.33333333333354486.0RegionAAA 5
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071813842_40683878.33333333333354486.0RegionAAA 6
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071811019_10523878.33333333333354486.0RepeatNote=TPR 1
TgeneDNAH17chr17:75496674chr17:76435299ENST0000038984071811702_17363878.33333333333354486.0RepeatNote=TPR 2


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Fusion Gene Sequence for SEPT9-DNAH17


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.
>In-frame_ENST00000423034_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=6016nt_BP=3984nt
CCCCAGGCCTGGCCTTGACAGGCGGGCGGAGCAGCCAGTGCGAGACAGGGAGGCCGGTGCGGGTGCGGGAACCTGATCCGCCCGGGAGGC
GGGGGCGGGGCGGGGGCGCAGCGCGCGGGGAGGGGCCGGCGCCCGCCTTCCTCCCCCATTCATTCAGCTGAGCCAGGGGGCCTAGGGGCT
CCTCCGGCGGCTAGCTCTGCACTGCAGGAGCGCGGGCGCGGCGCCCCAGCCAGCGCGCAGGGCCCGGGCCCCGCCGGGGGCGCTTCCTCG
CCGCTGCCCTCCGCGCGACCCGCTGCCCACCAGCCATCATGTCGGACCCCGCGGTCAACGCGCAGCTGGATGGGATCATTTCGGACTTCG
AAGCCTTGAAAAGATCTTTTGAGGTCGAGGAGGTCGAGACACCCAACTCCACCCCACCCCGGAGGGTCCAGACTCCCCTACTCCGAGCCA
CTGTGGCCAGCTCCACCCAGAAATTCCAGGACCTGGGCGTGAAGAACTCAGAACCCTCGGCCCGCCATGTGGACTCCCTAAGCCAACGCT
CCCCCAAGGCGTCCCTGCGGAGGGTGGAGCTCTCGGGCCCCAAGGCGGCCGAGCCGGTGTCCCGGCGCACTGAGCTGTCCATTGACATCT
CGTCCAAGCAGGTGGAGAACGCCGGGGCCATCGGCCCGTCCCGGTTCGGGCTCAAGAGGGCCGAGGTGTTGGGCCACAAGACGCCAGAAC
CGGCCCCTCGGAGGACGGAGATCACCATCGTCAAACCCCAGGAGTCAGCCCACCGGAGGATGGAGCCCCCTGCCTCCAAGGTCCCCGAGG
TGCCCACTGCCCCTGCCACCGACGCAGCCCCCAAGAGGGTGGAGATCCAGATGCCCAAGCCTGCTGAGGCGCCCACCGCCCCCAGCCCAG
CCCAGACCTTGGAGAATTCAGAGCCTGCCCCTGTGTCTCAGCTGCAGAGCAGGCTGGAGCCCAAGCCCCAGCCCCCTGTGGCTGAGGCTA
CACCCCGGAGCCAGGAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGCGACATGGCCGACACCCCCAGAGATGCCGGGCTCAAGCAGGCGC
CTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGGATTGACTCCATCCTGGAGCAGATGCGCCGGAAGGCCATGAAGC
AGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGTAAATCCACCTTAATCAACACCCTCTTCAAATCCAAAATCAGCC
GGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATCGAGATCAAGTCCATCACGCACGATATTGAGGAGAAAGGCGTCC
GGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATCAACAACGAGAACTGCTGGCAGCCCATCATGAAGTTCATCAATG
ACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAGAAGCGCATCCCGGACACCCGCGTCCACTGCTGCCTCTACTTCA
TCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATGAAACGCCTGAGCAAGGTGGTCAACATCGTCCCTGTCATCGCCA
AGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGGATCACCGCAGACCTGCTGTCCAACGGCATCGACGTGTACCCCC
AGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAGTTCCGGGAGATGATCCCATTTGCTGTGGTGGGCAGTGACCACG
AGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGGGGTACCATCGAAGTTGAAAACACCACACACTGTGAGTTTGCCT
ACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGACATCACCAGCAGCATCCACTTCGAGGCGTACCGTGTGAAGCGCC
TCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAGCCAGAAGCCCCGGAGATGTAGACGCCACCCTGCCCACCCCCGG
GATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCACCCCATTTTATTTTATATGATTTTCTCCATTTGTCATCGTTCC
CCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTCCGAGTGAGTCAGTGATGAGGCCGCGGCCTCCCCGAGGTTGTGG
GGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAATTGACATGACCCTCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCA
GAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCAGTGCCGGAGGCCTTGGGGTGGGGGCCAGGCCTCGCACTTGCAG
AGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGTCCCCTGGAGTGTGTCAGAGCCCAGGGGAGAATGCAGCCCACCA
GGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAGCCCCTACCCCTGCCCTGCTCCTAAGGGTAGAAAACTCCAGGGT
CCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCCCCTCCTGGAGCAGAAAGTGCCTTTATCTCAGCCATCCGCAGAC
TGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCATCTCCCTGCCATCCCCCTCTCACGCCACCCCCGCCCCCACCGG
GCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGGAAGGAGAGATGACCCCTACCCCCTCATCCCCCAGTTTTGAAAA
GGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATGGAAGGTGCCAGAAGGAAGGTTGGCGGGGGCACGTGTGGGCCGT
GGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGCCCAAGTGACCAGGGAAGTGTGTGTGTGTCCATGTGTATGCGTG
TCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTAGTTACATTAATGCCCAGCCAGCCACCCCTGCCACTCACCCTTC
CTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCAGGCGAGCCTGACTCTGTTGATCTACCCGTGCCTGGGCCCCTCC
CCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGTCAGGGGTGCACAGTCCACAGCTGAAGAGCAAGGTTTCGTGGCA
GCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGGGGCTGTCTTTGCAGGGCACAGATGACCAAAGTCCCTTCCTGCT
TCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGACTCCACTCAGGTGCACACATCACCAGGTGCATCTGCAGGCACC
GGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTATGAGTGTGAGTGTGTGTGCATGGAAGTTGGGGCACTGGGCGTCT
GACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACTGGTGAGACAGTTTACTTTGCCAACTTGCCATGTTTTTGCCAAA
ACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCATGTGGCCTGCCCAGCCTCAATGTCACTTGGTGGCGGGGTGGGG
TGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTTCTCTGTAACCAGACTTTGAAAAATTGTTCGTTTCATCAGGCTC
TGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTTTTTGTATAAATGACAAAGTGTTGAAAATGTATTTCCTGAAATA
AATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATAGACAATGGAAAACTCCATAATGTGTCCCTGGGGCAGGGACAAG
AGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACACTGGGTCATTCTGCAGGTACGAGGGGGCCAGCACTGCAGGAATA
TCCACCTGGTGGCCCGGTGGCTGGGAACACTGGACAAGAAGCTGGAGCACTACAGCACGGGCAGCCATGAGGACTACCGGGTGTTCATCA
GCGCGGAGCCTGCCCCCAGCCCCGAGACCCACATCATCCCCCAGGGCATTCTGGAGAACGCCATCAAGATCACCAACGAGCCCCCCACGG
GCATGCACGCCAACTTGCACAAGGCCCTGGACCTGTTCACCCAGGACACCCTGGAGATGTGCACCAAGGAGATGGAGTTCAAGTGCATGC
TCTTCGCCCTGTGCTACTTCCACGCTGTGGTGGCAGAGAGGCGCAAGTTCGGCGCCCAGGGCTGGAACCGGTCGTACCCCTTCAACAACG
GGGACCTCACCATCTCCATCAACGTGCTCTACAACTACCTGGAGGCCAACCCCAAGGTGCCCTGGGACGATCTCCGCTACCTTTTTGGTG
AAATCATGTATGGCGGCCACATCACAGATGACTGGGACCGTCGGCTGTGCAGGACCTACCTGGCTGAATACATCCGGACGGAGATGCTGG
AGGGAGACGTCCTGCTGGCCCCCGGCTTTCAGATCCCCCCCAACCTGGACTACAAGGGTTACCACGAATACATCGATGAGAACCTGCCCC
CTGAGAGTCCCTATCTGTATGGCCTGCACCCCAACGCAGAGATTGGCTTTCTGACGGTCACCTCAGAGAAGCTGTTCCGCACTGTCCTGG
AAATGCAGCCAAAAGAGACGGACTCGGGGGCAGGCACGGGAGTGTCCCGCGAGGAGAAGGCAGGATCTTTGAAACTGCTCCCAAGCGAGA
GGAAGGGGGAGGATCTAGAACTGAGGAGGGGGGGCTGTCCGGGGACTGGCTTCCAGGTGAAGGCCGTGCTGGACGACATCCTGGAGAAGA
TTCCGGAGACTTTCAACATGGCTGAGATCATGGCAAAGGCAGCGGAAAAGACCCCCTACGTGGTAGTCGCCTTTCAAGAATGTGAAAGAA
TGAACATCCTGACCAACGAAATGCGCCGTTCGCTCAAGGAGCTGAACCTGGGGCTGAAGGGAGAACTGACCATCACGACCGACGTGGAAG
ATCTGTCCACGGCTCTCTTCTATGACACCGTGCCTGATACGTGGGTGGCCCGGGCCTACCCCTCCATGATGGGCCTGGCGGCCTGGTACG
CAGACCTGCTGCTCCGCATCAGGGAACTCGAGGCCTGGACGACAGACTTTGCCCTGCCCACCACCGTGTGGCTGGCCGGCTTCTTCAACC
CCCAGTCGTTCCTCACGGCCATCATGCAGTCCATGGCCAGGAAGAACGAGTGGCCCCTGGACAAGATGTGTCTGTCTGTCGAGGTGACCA
AGAAAAACCGAGAGGACATGACCGCTCCTCCGCGAGAGGGCTCCTACGTGTACGGACTCTTCATGGAAGGGGCTCGCTGGGACACCCAGA
CTGGAGTCATCGCTGAAGCGCGGCTGAAAGAGCTGACCCCGGCCATGCCTGTCATCTTCATCAAGGCCATTCCTGTGGACCGCATGGAGA
CCAAGAACATCTATGAGTGTCCCGTGTACAAAACACGCATCCGCGGCCCCACCTATGTCTGGACCTTTAACTTGAAGACCAAAGAGAAGG
CAGCGAAGTGGATCCTGGCAGCCGTGGCGCTGCTCCTACAGGTTTAGCTCGCTCCTGCCTCACAGCCCACACTCCCTGGGGCTGGACCAC
AACTCAGCCCTTCACCTGTGCACCTGTGACTTATTCTTTACAGGAACTGGTGGTGGTTTTTCGTTCTCTTAAATAATCAGGTGCTTTGTA

>In-frame_ENST00000423034_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=590AA_start in transcript=4034_stop in transcript=5806
MGQGQEVVAENALDVAAEKGHWVILQVRGGQHCRNIHLVARWLGTLDKKLEHYSTGSHEDYRVFISAEPAPSPETHIIPQGILENAIKIT
NEPPTGMHANLHKALDLFTQDTLEMCTKEMEFKCMLFALCYFHAVVAERRKFGAQGWNRSYPFNNGDLTISINVLYNYLEANPKVPWDDL
RYLFGEIMYGGHITDDWDRRLCRTYLAEYIRTEMLEGDVLLAPGFQIPPNLDYKGYHEYIDENLPPESPYLYGLHPNAEIGFLTVTSEKL
FRTVLEMQPKETDSGAGTGVSREEKAGSLKLLPSERKGEDLELRRGGCPGTGFQVKAVLDDILEKIPETFNMAEIMAKAAEKTPYVVVAF
QECERMNILTNEMRRSLKELNLGLKGELTITTDVEDLSTALFYDTVPDTWVARAYPSMMGLAAWYADLLLRIRELEAWTTDFALPTTVWL
AGFFNPQSFLTAIMQSMARKNEWPLDKMCLSVEVTKKNREDMTAPPREGSYVYGLFMEGARWDTQTGVIAEARLKELTPAMPVIFIKAIP

--------------------------------------------------------------
>In-frame_ENST00000423034_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=5905nt_BP=3984nt
CCCCAGGCCTGGCCTTGACAGGCGGGCGGAGCAGCCAGTGCGAGACAGGGAGGCCGGTGCGGGTGCGGGAACCTGATCCGCCCGGGAGGC
GGGGGCGGGGCGGGGGCGCAGCGCGCGGGGAGGGGCCGGCGCCCGCCTTCCTCCCCCATTCATTCAGCTGAGCCAGGGGGCCTAGGGGCT
CCTCCGGCGGCTAGCTCTGCACTGCAGGAGCGCGGGCGCGGCGCCCCAGCCAGCGCGCAGGGCCCGGGCCCCGCCGGGGGCGCTTCCTCG
CCGCTGCCCTCCGCGCGACCCGCTGCCCACCAGCCATCATGTCGGACCCCGCGGTCAACGCGCAGCTGGATGGGATCATTTCGGACTTCG
AAGCCTTGAAAAGATCTTTTGAGGTCGAGGAGGTCGAGACACCCAACTCCACCCCACCCCGGAGGGTCCAGACTCCCCTACTCCGAGCCA
CTGTGGCCAGCTCCACCCAGAAATTCCAGGACCTGGGCGTGAAGAACTCAGAACCCTCGGCCCGCCATGTGGACTCCCTAAGCCAACGCT
CCCCCAAGGCGTCCCTGCGGAGGGTGGAGCTCTCGGGCCCCAAGGCGGCCGAGCCGGTGTCCCGGCGCACTGAGCTGTCCATTGACATCT
CGTCCAAGCAGGTGGAGAACGCCGGGGCCATCGGCCCGTCCCGGTTCGGGCTCAAGAGGGCCGAGGTGTTGGGCCACAAGACGCCAGAAC
CGGCCCCTCGGAGGACGGAGATCACCATCGTCAAACCCCAGGAGTCAGCCCACCGGAGGATGGAGCCCCCTGCCTCCAAGGTCCCCGAGG
TGCCCACTGCCCCTGCCACCGACGCAGCCCCCAAGAGGGTGGAGATCCAGATGCCCAAGCCTGCTGAGGCGCCCACCGCCCCCAGCCCAG
CCCAGACCTTGGAGAATTCAGAGCCTGCCCCTGTGTCTCAGCTGCAGAGCAGGCTGGAGCCCAAGCCCCAGCCCCCTGTGGCTGAGGCTA
CACCCCGGAGCCAGGAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGCGACATGGCCGACACCCCCAGAGATGCCGGGCTCAAGCAGGCGC
CTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGGATTGACTCCATCCTGGAGCAGATGCGCCGGAAGGCCATGAAGC
AGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGTAAATCCACCTTAATCAACACCCTCTTCAAATCCAAAATCAGCC
GGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATCGAGATCAAGTCCATCACGCACGATATTGAGGAGAAAGGCGTCC
GGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATCAACAACGAGAACTGCTGGCAGCCCATCATGAAGTTCATCAATG
ACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAGAAGCGCATCCCGGACACCCGCGTCCACTGCTGCCTCTACTTCA
TCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATGAAACGCCTGAGCAAGGTGGTCAACATCGTCCCTGTCATCGCCA
AGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGGATCACCGCAGACCTGCTGTCCAACGGCATCGACGTGTACCCCC
AGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAGTTCCGGGAGATGATCCCATTTGCTGTGGTGGGCAGTGACCACG
AGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGGGGTACCATCGAAGTTGAAAACACCACACACTGTGAGTTTGCCT
ACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGACATCACCAGCAGCATCCACTTCGAGGCGTACCGTGTGAAGCGCC
TCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAGCCAGAAGCCCCGGAGATGTAGACGCCACCCTGCCCACCCCCGG
GATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCACCCCATTTTATTTTATATGATTTTCTCCATTTGTCATCGTTCC
CCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTCCGAGTGAGTCAGTGATGAGGCCGCGGCCTCCCCGAGGTTGTGG
GGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAATTGACATGACCCTCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCA
GAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCAGTGCCGGAGGCCTTGGGGTGGGGGCCAGGCCTCGCACTTGCAG
AGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGTCCCCTGGAGTGTGTCAGAGCCCAGGGGAGAATGCAGCCCACCA
GGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAGCCCCTACCCCTGCCCTGCTCCTAAGGGTAGAAAACTCCAGGGT
CCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCCCCTCCTGGAGCAGAAAGTGCCTTTATCTCAGCCATCCGCAGAC
TGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCATCTCCCTGCCATCCCCCTCTCACGCCACCCCCGCCCCCACCGG
GCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGGAAGGAGAGATGACCCCTACCCCCTCATCCCCCAGTTTTGAAAA
GGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATGGAAGGTGCCAGAAGGAAGGTTGGCGGGGGCACGTGTGGGCCGT
GGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGCCCAAGTGACCAGGGAAGTGTGTGTGTGTCCATGTGTATGCGTG
TCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTAGTTACATTAATGCCCAGCCAGCCACCCCTGCCACTCACCCTTC
CTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCAGGCGAGCCTGACTCTGTTGATCTACCCGTGCCTGGGCCCCTCC
CCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGTCAGGGGTGCACAGTCCACAGCTGAAGAGCAAGGTTTCGTGGCA
GCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGGGGCTGTCTTTGCAGGGCACAGATGACCAAAGTCCCTTCCTGCT
TCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGACTCCACTCAGGTGCACACATCACCAGGTGCATCTGCAGGCACC
GGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTATGAGTGTGAGTGTGTGTGCATGGAAGTTGGGGCACTGGGCGTCT
GACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACTGGTGAGACAGTTTACTTTGCCAACTTGCCATGTTTTTGCCAAA
ACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCATGTGGCCTGCCCAGCCTCAATGTCACTTGGTGGCGGGGTGGGG
TGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTTCTCTGTAACCAGACTTTGAAAAATTGTTCGTTTCATCAGGCTC
TGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTTTTTGTATAAATGACAAAGTGTTGAAAATGTATTTCCTGAAATA
AATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATAGACAATGGAAAACTCCATAATGTGTCCCTGGGGCAGGGACAAG
AGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACACTGGGTCATTCTGCAGAATATCCACCTGGTGGCCCGGTGGCTGG
GAACACTGGACAAGAAGCTGGAGCACTACAGCACGGGCAGCCATGAGGACTACCGGGTGTTCATCAGCGCGGAGCCTGCCCCCAGCCCCG
AGACCCACATCATCCCCCAGGGCATTCTGGAGAACGCCATCAAGATCACCAACGAGCCCCCCACGGGCATGCACGCCAACTTGCACAAGG
CCCTGGACCTGTTCACCCAGGACACCCTGGAGATGTGCACCAAGGAGATGGAGTTCAAGTGCATGCTCTTCGCCCTGTGCTACTTCCACG
CTGTGGTGGCAGAGAGGCGCAAGTTCGGCGCCCAGGGCTGGAACCGGTCGTACCCCTTCAACAACGGGGACCTCACCATCTCCATCAACG
TGCTCTACAACTACCTGGAGGCCAACCCCAAGGTGCCCTGGGACGATCTCCGCTACCTTTTTGGTGAAATCATGTATGGCGGCCACATCA
CAGATGACTGGGACCGTCGGCTGTGCAGGACCTACCTGGCTGAATACATCCGGACGGAGATGCTGGAGGGAGACGTCCTGCTGGCCCCCG
GCTTTCAGATCCCCCCCAACCTGGACTACAAGGGTTACCACGAATACATCGATGAGAACCTGCCCCCTGAGAGTCCCTATCTGTATGGCC
TGCACCCCAACGCAGAGATTGGCTTTCTGACGGTCACCTCAGAGAAGCTGTTCCGCACTGTCCTGGAAATGCAGCCAAAAGAGACGGACT
CGGGGGCAGGCACGGGAGTGTCCCGCGAGGAGAAGGTGAAGGCCGTGCTGGACGACATCCTGGAGAAGATTCCGGAGACTTTCAACATGG
CTGAGATCATGGCAAAGGCAGCGGAAAAGACCCCCTACGTGGTAGTCGCCTTTCAAGAATGTGAAAGAATGAACATCCTGACCAACGAAA
TGCGCCGTTCGCTCAAGGAGCTGAACCTGGGGCTGAAGGGAGAACTGACCATCACGACCGACGTGGAAGATCTGTCCACGGCTCTCTTCT
ATGACACCGTGCCTGATACGTGGGTGGCCCGGGCCTACCCCTCCATGATGGGCCTGGCGGCCTGGTACGCAGACCTGCTGCTCCGCATCA
GGGAACTCGAGGCCTGGACGACAGACTTTGCCCTGCCCACCACCGTGTGGCTGGCCGGCTTCTTCAACCCCCAGTCGTTCCTCACGGCCA
TCATGCAGTCCATGGCCAGGAAGAACGAGTGGCCCCTGGACAAGATGTGTCTGTCTGTCGAGGTGACCAAGAAAAACCGAGAGGACATGA
CCGCTCCTCCGCGAGAGGGCTCCTACGTGTACGGACTCTTCATGGAAGGGGCTCGCTGGGACACCCAGACTGGAGTCATCGCTGAAGCGC
GGCTGAAAGAGCTGACCCCGGCCATGCCTGTCATCTTCATCAAGGCCATTCCTGTGGACCGCATGGAGACCAAGAACATCTATGAGTGTC
CCGTGTACAAAACACGCATCCGCGGCCCCACCTATGTCTGGACCTTTAACTTGAAGACCAAAGAGAAGGCAGCGAAGTGGATCCTGGCAG
CCGTGGCGCTGCTCCTACAGGTTTAGCTCGCTCCTGCCTCACAGCCCACACTCCCTGGGGCTGGACCACAACTCAGCCCTTCACCTGTGC
ACCTGTGACTTATTCTTTACAGGAACTGGTGGTGGTTTTTCGTTCTCTTAAATAATCAGGTGCTTTGTAACCAAGCACATCGGAACCAGA

>In-frame_ENST00000423034_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=579AA_start in transcript=308_stop in transcript=2047
MSDPAVNAQLDGIISDFEALKRSFEVEEVETPNSTPPRRVQTPLLRATVASSTQKFQDLGVKNSEPSARHVDSLSQRSPKASLRRVELSG
PKAAEPVSRRTELSIDISSKQVENAGAIGPSRFGLKRAEVLGHKTPEPAPRRTEITIVKPQESAHRRMEPPASKVPEVPTAPATDAAPKR
VEIQMPKPAEAPTAPSPAQTLENSEPAPVSQLQSRLEPKPQPPVAEATPRSQEATEAAPSCVGDMADTPRDAGLKQAPASRNEKAPVDFG
YVGIDSILEQMRRKAMKQGFEFNIMVVGQSGLGKSTLINTLFKSKISRKSVQPTSEERIPKTIEIKSITHDIEEKGVRMKLTVIDTPGFG
DHINNENCWQPIMKFINDQYEKYLQEEVNINRKKRIPDTRVHCCLYFIPATGHSLRPLDIEFMKRLSKVVNIVPVIAKADTLTLEERVHF
KQRITADLLSNGIDVYPQKEFDEDSEDRLVNEKFREMIPFAVVGSDHEYQVNGKRILGRKTKWGTIEVENTTHCEFAYLRDLLIRTHMQN

--------------------------------------------------------------
>In-frame_ENST00000427674_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=5969nt_BP=3937nt
GTCAGTATGGAGGAGGCGGACCTTGAGGGAGAGTAGGAATTGGATTGCAAGAGGAAGGAGAGCCTTCTGGCCAGCAGCAGCCAGCAGCAG
TGGGGGAGGCTGGAATGAGCTGGCTGGAGAGGGGGCTGGGGCATAAGGAGGGGCCTGCCTGTGAAGATCATATGGGCCAGGCTGCGGAGG
GCCAGGCATGCCCGCCGGGAGTGCAGCTGGTCCACGGGAAGCATCTGGAGTGGCTGGGAATGGGCGCAGGAGCAGCGCCGTGGGAGCACA
GGTCTCTTTCCCGGGGCGGCTCACCTGGTGTCTTGGTTCCTGCAAGCCTTGAAAAGATCTTTTGAGGTCGAGGAGGTCGAGACACCCAAC
TCCACCCCACCCCGGAGGGTCCAGACTCCCCTACTCCGAGCCACTGTGGCCAGCTCCACCCAGAAATTCCAGGACCTGGGCGTGAAGAAC
TCAGAACCCTCGGCCCGCCATGTGGACTCCCTAAGCCAACGCTCCCCCAAGGCGTCCCTGCGGAGGGTGGAGCTCTCGGGCCCCAAGGCG
GCCGAGCCGGTGTCCCGGCGCACTGAGCTGTCCATTGACATCTCGTCCAAGCAGGTGGAGAACGCCGGGGCCATCGGCCCGTCCCGGTTC
GGGCTCAAGAGGGCCGAGGTGTTGGGCCACAAGACGCCAGAACCGGCCCCTCGGAGGACGGAGATCACCATCGTCAAACCCCAGGAGTCA
GCCCACCGGAGGATGGAGCCCCCTGCCTCCAAGGTCCCCGAGGTGCCCACTGCCCCTGCCACCGACGCAGCCCCCAAGAGGGTGGAGATC
CAGATGCCCAAGCCTGCTGAGGCGCCCACCGCCCCCAGCCCAGCCCAGACCTTGGAGAATTCAGAGCCTGCCCCTGTGTCTCAGCTGCAG
AGCAGGCTGGAGCCCAAGCCCCAGCCCCCTGTGGCTGAGGCTACACCCCGGAGCCAGGAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGC
GACATGGCCGACACCCCCAGAGATGCCGGGCTCAAGCAGGCGCCTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGG
ATTGACTCCATCCTGGAGCAGATGCGCCGGAAGGCCATGAAGCAGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGT
AAATCCACCTTAATCAACACCCTCTTCAAATCCAAAATCAGCCGGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATC
GAGATCAAGTCCATCACGCACGATATTGAGGAGAAAGGCGTCCGGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATC
AACAACGAGAACTGCTGGCAGCCCATCATGAAGTTCATCAATGACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAG
AAGCGCATCCCGGACACCCGCGTCCACTGCTGCCTCTACTTCATCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATG
AAACGCCTGAGCAAGGTGGTCAACATCGTCCCTGTCATCGCCAAGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGG
ATCACCGCAGACCTGCTGTCCAACGGCATCGACGTGTACCCCCAGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAG
TTCCGGGAGATGATCCCATTTGCTGTGGTGGGCAGTGACCACGAGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGG
GGTACCATCGAAGTTGAAAACACCACACACTGTGAGTTTGCCTACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGAC
ATCACCAGCAGCATCCACTTCGAGGCGTACCGTGTGAAGCGCCTCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAG
CCAGAAGCCCCGGAGATGTAGACGCCACCCTGCCCACCCCCGGGATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCA
CCCCATTTTATTTTATATGATTTTCTCCATTTGTCATCGTTCCCCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTC
CGAGTGAGTCAGTGATGAGGCCGCGGCCTCCCCGAGGTTGTGGGGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAAT
TGACATGACCCTCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCAGAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCA
GTGCCGGAGGCCTTGGGGTGGGGGCCAGGCCTCGCACTTGCAGAGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGT
CCCCTGGAGTGTGTCAGAGCCCAGGGGAGAATGCAGCCCACCAGGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAG
CCCCTACCCCTGCCCTGCTCCTAAGGGTAGAAAACTCCAGGGTCCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCC
CCTCCTGGAGCAGAAAGTGCCTTTATCTCAGCCATCCGCAGACTGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCA
TCTCCCTGCCATCCCCCTCTCACGCCACCCCCGCCCCCACCGGGCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGG
AAGGAGAGATGACCCCTACCCCCTCATCCCCCAGTTTTGAAAAGGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATG
GAAGGTGCCAGAAGGAAGGTTGGCGGGGGCACGTGTGGGCCGTGGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGC
CCAAGTGACCAGGGAAGTGTGTGTGTGTCCATGTGTATGCGTGTCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTA
GTTACATTAATGCCCAGCCAGCCACCCCTGCCACTCACCCTTCCTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCA
GGCGAGCCTGACTCTGTTGATCTACCCGTGCCTGGGCCCCTCCCCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGT
CAGGGGTGCACAGTCCACAGCTGAAGAGCAAGGTTTCGTGGCAGCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGG
GGCTGTCTTTGCAGGGCACAGATGACCAAAGTCCCTTCCTGCTTCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGA
CTCCACTCAGGTGCACACATCACCAGGTGCATCTGCAGGCACCGGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTAT
GAGTGTGAGTGTGTGTGCATGGAAGTTGGGGCACTGGGCGTCTGACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACT
GGTGAGACAGTTTACTTTGCCAACTTGCCATGTTTTTGCCAAAACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCA
TGTGGCCTGCCCAGCCTCAATGTCACTTGGTGGCGGGGTGGGGTGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTT
CTCTGTAACCAGACTTTGAAAAATTGTTCGTTTCATCAGGCTCTGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTT
TTTGTATAAATGACAAAGTGTTGAAAATGTATTTCCTGAAATAAATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATA
GACAATGGAAAACTCCATAATGTGTCCCTGGGGCAGGGACAAGAGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACAC
TGGGTCATTCTGCAGGTACGAGGGGGCCAGCACTGCAGGAATATCCACCTGGTGGCCCGGTGGCTGGGAACACTGGACAAGAAGCTGGAG
CACTACAGCACGGGCAGCCATGAGGACTACCGGGTGTTCATCAGCGCGGAGCCTGCCCCCAGCCCCGAGACCCACATCATCCCCCAGGGC
ATTCTGGAGAACGCCATCAAGATCACCAACGAGCCCCCCACGGGCATGCACGCCAACTTGCACAAGGCCCTGGACCTGTTCACCCAGGAC
ACCCTGGAGATGTGCACCAAGGAGATGGAGTTCAAGTGCATGCTCTTCGCCCTGTGCTACTTCCACGCTGTGGTGGCAGAGAGGCGCAAG
TTCGGCGCCCAGGGCTGGAACCGGTCGTACCCCTTCAACAACGGGGACCTCACCATCTCCATCAACGTGCTCTACAACTACCTGGAGGCC
AACCCCAAGGTGCCCTGGGACGATCTCCGCTACCTTTTTGGTGAAATCATGTATGGCGGCCACATCACAGATGACTGGGACCGTCGGCTG
TGCAGGACCTACCTGGCTGAATACATCCGGACGGAGATGCTGGAGGGAGACGTCCTGCTGGCCCCCGGCTTTCAGATCCCCCCCAACCTG
GACTACAAGGGTTACCACGAATACATCGATGAGAACCTGCCCCCTGAGAGTCCCTATCTGTATGGCCTGCACCCCAACGCAGAGATTGGC
TTTCTGACGGTCACCTCAGAGAAGCTGTTCCGCACTGTCCTGGAAATGCAGCCAAAAGAGACGGACTCGGGGGCAGGCACGGGAGTGTCC
CGCGAGGAGAAGGCAGGATCTTTGAAACTGCTCCCAAGCGAGAGGAAGGGGGAGGATCTAGAACTGAGGAGGGGGGGCTGTCCGGGGACT
GGCTTCCAGGTGAAGGCCGTGCTGGACGACATCCTGGAGAAGATTCCGGAGACTTTCAACATGGCTGAGATCATGGCAAAGGCAGCGGAA
AAGACCCCCTACGTGGTAGTCGCCTTTCAAGAATGTGAAAGAATGAACATCCTGACCAACGAAATGCGCCGTTCGCTCAAGGAGCTGAAC
CTGGGGCTGAAGGGAGAACTGACCATCACGACCGACGTGGAAGATCTGTCCACGGCTCTCTTCTATGACACCGTGCCTGATACGTGGGTG
GCCCGGGCCTACCCCTCCATGATGGGCCTGGCGGCCTGGTACGCAGACCTGCTGCTCCGCATCAGGGAACTCGAGGCCTGGACGACAGAC
TTTGCCCTGCCCACCACCGTGTGGCTGGCCGGCTTCTTCAACCCCCAGTCGTTCCTCACGGCCATCATGCAGTCCATGGCCAGGAAGAAC
GAGTGGCCCCTGGACAAGATGTGTCTGTCTGTCGAGGTGACCAAGAAAAACCGAGAGGACATGACCGCTCCTCCGCGAGAGGGCTCCTAC
GTGTACGGACTCTTCATGGAAGGGGCTCGCTGGGACACCCAGACTGGAGTCATCGCTGAAGCGCGGCTGAAAGAGCTGACCCCGGCCATG
CCTGTCATCTTCATCAAGGCCATTCCTGTGGACCGCATGGAGACCAAGAACATCTATGAGTGTCCCGTGTACAAAACACGCATCCGCGGC
CCCACCTATGTCTGGACCTTTAACTTGAAGACCAAAGAGAAGGCAGCGAAGTGGATCCTGGCAGCCGTGGCGCTGCTCCTACAGGTTTAG
CTCGCTCCTGCCTCACAGCCCACACTCCCTGGGGCTGGACCACAACTCAGCCCTTCACCTGTGCACCTGTGACTTATTCTTTACAGGAAC
TGGTGGTGGTTTTTCGTTCTCTTAAATAATCAGGTGCTTTGTAACCAAGCACATCGGAACCAGAGGGTGGAGGTTGGTGTGGAAGAGGTG

>In-frame_ENST00000427674_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=618AA_start in transcript=144_stop in transcript=2000
MPVKIIWARLRRARHARRECSWSTGSIWSGWEWAQEQRRGSTGLFPGAAHLVSWFLQALKRSFEVEEVETPNSTPPRRVQTPLLRATVAS
STQKFQDLGVKNSEPSARHVDSLSQRSPKASLRRVELSGPKAAEPVSRRTELSIDISSKQVENAGAIGPSRFGLKRAEVLGHKTPEPAPR
RTEITIVKPQESAHRRMEPPASKVPEVPTAPATDAAPKRVEIQMPKPAEAPTAPSPAQTLENSEPAPVSQLQSRLEPKPQPPVAEATPRS
QEATEAAPSCVGDMADTPRDAGLKQAPASRNEKAPVDFGYVGIDSILEQMRRKAMKQGFEFNIMVVGQSGLGKSTLINTLFKSKISRKSV
QPTSEERIPKTIEIKSITHDIEEKGVRMKLTVIDTPGFGDHINNENCWQPIMKFINDQYEKYLQEEVNINRKKRIPDTRVHCCLYFIPAT
GHSLRPLDIEFMKRLSKVVNIVPVIAKADTLTLEERVHFKQRITADLLSNGIDVYPQKEFDEDSEDRLVNEKFREMIPFAVVGSDHEYQV

--------------------------------------------------------------
>In-frame_ENST00000427674_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=5858nt_BP=3937nt
GTCAGTATGGAGGAGGCGGACCTTGAGGGAGAGTAGGAATTGGATTGCAAGAGGAAGGAGAGCCTTCTGGCCAGCAGCAGCCAGCAGCAG
TGGGGGAGGCTGGAATGAGCTGGCTGGAGAGGGGGCTGGGGCATAAGGAGGGGCCTGCCTGTGAAGATCATATGGGCCAGGCTGCGGAGG
GCCAGGCATGCCCGCCGGGAGTGCAGCTGGTCCACGGGAAGCATCTGGAGTGGCTGGGAATGGGCGCAGGAGCAGCGCCGTGGGAGCACA
GGTCTCTTTCCCGGGGCGGCTCACCTGGTGTCTTGGTTCCTGCAAGCCTTGAAAAGATCTTTTGAGGTCGAGGAGGTCGAGACACCCAAC
TCCACCCCACCCCGGAGGGTCCAGACTCCCCTACTCCGAGCCACTGTGGCCAGCTCCACCCAGAAATTCCAGGACCTGGGCGTGAAGAAC
TCAGAACCCTCGGCCCGCCATGTGGACTCCCTAAGCCAACGCTCCCCCAAGGCGTCCCTGCGGAGGGTGGAGCTCTCGGGCCCCAAGGCG
GCCGAGCCGGTGTCCCGGCGCACTGAGCTGTCCATTGACATCTCGTCCAAGCAGGTGGAGAACGCCGGGGCCATCGGCCCGTCCCGGTTC
GGGCTCAAGAGGGCCGAGGTGTTGGGCCACAAGACGCCAGAACCGGCCCCTCGGAGGACGGAGATCACCATCGTCAAACCCCAGGAGTCA
GCCCACCGGAGGATGGAGCCCCCTGCCTCCAAGGTCCCCGAGGTGCCCACTGCCCCTGCCACCGACGCAGCCCCCAAGAGGGTGGAGATC
CAGATGCCCAAGCCTGCTGAGGCGCCCACCGCCCCCAGCCCAGCCCAGACCTTGGAGAATTCAGAGCCTGCCCCTGTGTCTCAGCTGCAG
AGCAGGCTGGAGCCCAAGCCCCAGCCCCCTGTGGCTGAGGCTACACCCCGGAGCCAGGAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGC
GACATGGCCGACACCCCCAGAGATGCCGGGCTCAAGCAGGCGCCTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGG
ATTGACTCCATCCTGGAGCAGATGCGCCGGAAGGCCATGAAGCAGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGT
AAATCCACCTTAATCAACACCCTCTTCAAATCCAAAATCAGCCGGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATC
GAGATCAAGTCCATCACGCACGATATTGAGGAGAAAGGCGTCCGGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATC
AACAACGAGAACTGCTGGCAGCCCATCATGAAGTTCATCAATGACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAG
AAGCGCATCCCGGACACCCGCGTCCACTGCTGCCTCTACTTCATCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATG
AAACGCCTGAGCAAGGTGGTCAACATCGTCCCTGTCATCGCCAAGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGG
ATCACCGCAGACCTGCTGTCCAACGGCATCGACGTGTACCCCCAGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAG
TTCCGGGAGATGATCCCATTTGCTGTGGTGGGCAGTGACCACGAGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGG
GGTACCATCGAAGTTGAAAACACCACACACTGTGAGTTTGCCTACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGAC
ATCACCAGCAGCATCCACTTCGAGGCGTACCGTGTGAAGCGCCTCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAG
CCAGAAGCCCCGGAGATGTAGACGCCACCCTGCCCACCCCCGGGATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCA
CCCCATTTTATTTTATATGATTTTCTCCATTTGTCATCGTTCCCCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTC
CGAGTGAGTCAGTGATGAGGCCGCGGCCTCCCCGAGGTTGTGGGGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAAT
TGACATGACCCTCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCAGAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCA
GTGCCGGAGGCCTTGGGGTGGGGGCCAGGCCTCGCACTTGCAGAGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGT
CCCCTGGAGTGTGTCAGAGCCCAGGGGAGAATGCAGCCCACCAGGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAG
CCCCTACCCCTGCCCTGCTCCTAAGGGTAGAAAACTCCAGGGTCCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCC
CCTCCTGGAGCAGAAAGTGCCTTTATCTCAGCCATCCGCAGACTGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCA
TCTCCCTGCCATCCCCCTCTCACGCCACCCCCGCCCCCACCGGGCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGG
AAGGAGAGATGACCCCTACCCCCTCATCCCCCAGTTTTGAAAAGGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATG
GAAGGTGCCAGAAGGAAGGTTGGCGGGGGCACGTGTGGGCCGTGGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGC
CCAAGTGACCAGGGAAGTGTGTGTGTGTCCATGTGTATGCGTGTCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTA
GTTACATTAATGCCCAGCCAGCCACCCCTGCCACTCACCCTTCCTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCA
GGCGAGCCTGACTCTGTTGATCTACCCGTGCCTGGGCCCCTCCCCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGT
CAGGGGTGCACAGTCCACAGCTGAAGAGCAAGGTTTCGTGGCAGCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGG
GGCTGTCTTTGCAGGGCACAGATGACCAAAGTCCCTTCCTGCTTCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGA
CTCCACTCAGGTGCACACATCACCAGGTGCATCTGCAGGCACCGGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTAT
GAGTGTGAGTGTGTGTGCATGGAAGTTGGGGCACTGGGCGTCTGACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACT
GGTGAGACAGTTTACTTTGCCAACTTGCCATGTTTTTGCCAAAACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCA
TGTGGCCTGCCCAGCCTCAATGTCACTTGGTGGCGGGGTGGGGTGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTT
CTCTGTAACCAGACTTTGAAAAATTGTTCGTTTCATCAGGCTCTGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTT
TTTGTATAAATGACAAAGTGTTGAAAATGTATTTCCTGAAATAAATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATA
GACAATGGAAAACTCCATAATGTGTCCCTGGGGCAGGGACAAGAGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACAC
TGGGTCATTCTGCAGAATATCCACCTGGTGGCCCGGTGGCTGGGAACACTGGACAAGAAGCTGGAGCACTACAGCACGGGCAGCCATGAG
GACTACCGGGTGTTCATCAGCGCGGAGCCTGCCCCCAGCCCCGAGACCCACATCATCCCCCAGGGCATTCTGGAGAACGCCATCAAGATC
ACCAACGAGCCCCCCACGGGCATGCACGCCAACTTGCACAAGGCCCTGGACCTGTTCACCCAGGACACCCTGGAGATGTGCACCAAGGAG
ATGGAGTTCAAGTGCATGCTCTTCGCCCTGTGCTACTTCCACGCTGTGGTGGCAGAGAGGCGCAAGTTCGGCGCCCAGGGCTGGAACCGG
TCGTACCCCTTCAACAACGGGGACCTCACCATCTCCATCAACGTGCTCTACAACTACCTGGAGGCCAACCCCAAGGTGCCCTGGGACGAT
CTCCGCTACCTTTTTGGTGAAATCATGTATGGCGGCCACATCACAGATGACTGGGACCGTCGGCTGTGCAGGACCTACCTGGCTGAATAC
ATCCGGACGGAGATGCTGGAGGGAGACGTCCTGCTGGCCCCCGGCTTTCAGATCCCCCCCAACCTGGACTACAAGGGTTACCACGAATAC
ATCGATGAGAACCTGCCCCCTGAGAGTCCCTATCTGTATGGCCTGCACCCCAACGCAGAGATTGGCTTTCTGACGGTCACCTCAGAGAAG
CTGTTCCGCACTGTCCTGGAAATGCAGCCAAAAGAGACGGACTCGGGGGCAGGCACGGGAGTGTCCCGCGAGGAGAAGGTGAAGGCCGTG
CTGGACGACATCCTGGAGAAGATTCCGGAGACTTTCAACATGGCTGAGATCATGGCAAAGGCAGCGGAAAAGACCCCCTACGTGGTAGTC
GCCTTTCAAGAATGTGAAAGAATGAACATCCTGACCAACGAAATGCGCCGTTCGCTCAAGGAGCTGAACCTGGGGCTGAAGGGAGAACTG
ACCATCACGACCGACGTGGAAGATCTGTCCACGGCTCTCTTCTATGACACCGTGCCTGATACGTGGGTGGCCCGGGCCTACCCCTCCATG
ATGGGCCTGGCGGCCTGGTACGCAGACCTGCTGCTCCGCATCAGGGAACTCGAGGCCTGGACGACAGACTTTGCCCTGCCCACCACCGTG
TGGCTGGCCGGCTTCTTCAACCCCCAGTCGTTCCTCACGGCCATCATGCAGTCCATGGCCAGGAAGAACGAGTGGCCCCTGGACAAGATG
TGTCTGTCTGTCGAGGTGACCAAGAAAAACCGAGAGGACATGACCGCTCCTCCGCGAGAGGGCTCCTACGTGTACGGACTCTTCATGGAA
GGGGCTCGCTGGGACACCCAGACTGGAGTCATCGCTGAAGCGCGGCTGAAAGAGCTGACCCCGGCCATGCCTGTCATCTTCATCAAGGCC
ATTCCTGTGGACCGCATGGAGACCAAGAACATCTATGAGTGTCCCGTGTACAAAACACGCATCCGCGGCCCCACCTATGTCTGGACCTTT
AACTTGAAGACCAAAGAGAAGGCAGCGAAGTGGATCCTGGCAGCCGTGGCGCTGCTCCTACAGGTTTAGCTCGCTCCTGCCTCACAGCCC
ACACTCCCTGGGGCTGGACCACAACTCAGCCCTTCACCTGTGCACCTGTGACTTATTCTTTACAGGAACTGGTGGTGGTTTTTCGTTCTC
TTAAATAATCAGGTGCTTTGTAACCAAGCACATCGGAACCAGAGGGTGGAGGTTGGTGTGGAAGAGGTGGGGCAGATTAAAGCCAGTGGA

>In-frame_ENST00000427674_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=618AA_start in transcript=144_stop in transcript=2000
MPVKIIWARLRRARHARRECSWSTGSIWSGWEWAQEQRRGSTGLFPGAAHLVSWFLQALKRSFEVEEVETPNSTPPRRVQTPLLRATVAS
STQKFQDLGVKNSEPSARHVDSLSQRSPKASLRRVELSGPKAAEPVSRRTELSIDISSKQVENAGAIGPSRFGLKRAEVLGHKTPEPAPR
RTEITIVKPQESAHRRMEPPASKVPEVPTAPATDAAPKRVEIQMPKPAEAPTAPSPAQTLENSEPAPVSQLQSRLEPKPQPPVAEATPRS
QEATEAAPSCVGDMADTPRDAGLKQAPASRNEKAPVDFGYVGIDSILEQMRRKAMKQGFEFNIMVVGQSGLGKSTLINTLFKSKISRKSV
QPTSEERIPKTIEIKSITHDIEEKGVRMKLTVIDTPGFGDHINNENCWQPIMKFINDQYEKYLQEEVNINRKKRIPDTRVHCCLYFIPAT
GHSLRPLDIEFMKRLSKVVNIVPVIAKADTLTLEERVHFKQRITADLLSNGIDVYPQKEFDEDSEDRLVNEKFREMIPFAVVGSDHEYQV

--------------------------------------------------------------
>In-frame_ENST00000541152_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=5058nt_BP=3026nt
AGGAGCTGGATCAGATCTGAATCCAGAGGCTCTCGGAGGAAGAGCTCAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGCGACATGGCCGA
CACCCCCAGAGATGCCGGGCTCAAGCAGGCGCCTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGGATTGACTCCAT
CCTGGAGCAGATGCGCCGGAAGGCCATGAAGCAGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGTAAATCCACCTT
AATCAACACCCTCTTCAAATCCAAAATCAGCCGGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATCGAGATCAAGTC
CATCACGCACGATATTGAGGAGAAAGGCGTCCGGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATCAACAACGAGAA
CTGCTGGCAGCCCATCATGAAGTTCATCAATGACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAGAAGCGCATCCC
GGACACCCGCGTCCACTGCTGCCTCTACTTCATCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATGAAACGCCTGAG
CAAGGTGGTCAACATCGTCCCTGTCATCGCCAAGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGGATCACCGCAGA
CCTGCTGTCCAACGGCATCGACGTGTACCCCCAGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAGTTCCGGGAGAT
GATCCCATTTGCTGTGGTGGGCAGTGACCACGAGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGGGGTACCATCGA
AGTTGAAAACACCACACACTGTGAGTTTGCCTACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGACATCACCAGCAG
CATCCACTTCGAGGCGTACCGTGTGAAGCGCCTCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAGCCAGAAGCCCC
GGAGATGTAGACGCCACCCTGCCCACCCCCGGGATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCACCCCATTTTAT
TTTATATGATTTTCTCCATTTGTCATCGTTCCCCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTCCGAGTGAGTCA
GTGATGAGGCCGCGGCCTCCCCGAGGTTGTGGGGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAATTGACATGACCC
TCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCAGAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCAGTGCCGGAGGC
CTTGGGGTGGGGGCCAGGCCTCGCACTTGCAGAGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGTCCCCTGGAGTG
TGTCAGAGCCCAGGGGAGAATGCAGCCCACCAGGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAGCCCCTACCCCT
GCCCTGCTCCTAAGGGTAGAAAACTCCAGGGTCCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCCCCTCCTGGAGC
AGAAAGTGCCTTTATCTCAGCCATCCGCAGACTGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCATCTCCCTGCCA
TCCCCCTCTCACGCCACCCCCGCCCCCACCGGGCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGGAAGGAGAGATG
ACCCCTACCCCCTCATCCCCCAGTTTTGAAAAGGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATGGAAGGTGCCAG
AAGGAAGGTTGGCGGGGGCACGTGTGGGCCGTGGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGCCCAAGTGACCA
GGGAAGTGTGTGTGTGTCCATGTGTATGCGTGTCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTAGTTACATTAAT
GCCCAGCCAGCCACCCCTGCCACTCACCCTTCCTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCAGGCGAGCCTGA
CTCTGTTGATCTACCCGTGCCTGGGCCCCTCCCCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGTCAGGGGTGCAC
AGTCCACAGCTGAAGAGCAAGGTTTCGTGGCAGCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGGGGCTGTCTTTG
CAGGGCACAGATGACCAAAGTCCCTTCCTGCTTCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGACTCCACTCAGG
TGCACACATCACCAGGTGCATCTGCAGGCACCGGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTATGAGTGTGAGTG
TGTGTGCATGGAAGTTGGGGCACTGGGCGTCTGACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACTGGTGAGACAGT
TTACTTTGCCAACTTGCCATGTTTTTGCCAAAACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCATGTGGCCTGCC
CAGCCTCAATGTCACTTGGTGGCGGGGTGGGGTGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTTCTCTGTAACCA
GACTTTGAAAAATTGTTCGTTTCATCAGGCTCTGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTTTTTGTATAAAT
GACAAAGTGTTGAAAATGTATTTCCTGAAATAAATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATAGACAATGGAAA
ACTCCATAATGTGTCCCTGGGGCAGGGACAAGAGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACACTGGGTCATTCT
GCAGGTACGAGGGGGCCAGCACTGCAGGAATATCCACCTGGTGGCCCGGTGGCTGGGAACACTGGACAAGAAGCTGGAGCACTACAGCAC
GGGCAGCCATGAGGACTACCGGGTGTTCATCAGCGCGGAGCCTGCCCCCAGCCCCGAGACCCACATCATCCCCCAGGGCATTCTGGAGAA
CGCCATCAAGATCACCAACGAGCCCCCCACGGGCATGCACGCCAACTTGCACAAGGCCCTGGACCTGTTCACCCAGGACACCCTGGAGAT
GTGCACCAAGGAGATGGAGTTCAAGTGCATGCTCTTCGCCCTGTGCTACTTCCACGCTGTGGTGGCAGAGAGGCGCAAGTTCGGCGCCCA
GGGCTGGAACCGGTCGTACCCCTTCAACAACGGGGACCTCACCATCTCCATCAACGTGCTCTACAACTACCTGGAGGCCAACCCCAAGGT
GCCCTGGGACGATCTCCGCTACCTTTTTGGTGAAATCATGTATGGCGGCCACATCACAGATGACTGGGACCGTCGGCTGTGCAGGACCTA
CCTGGCTGAATACATCCGGACGGAGATGCTGGAGGGAGACGTCCTGCTGGCCCCCGGCTTTCAGATCCCCCCCAACCTGGACTACAAGGG
TTACCACGAATACATCGATGAGAACCTGCCCCCTGAGAGTCCCTATCTGTATGGCCTGCACCCCAACGCAGAGATTGGCTTTCTGACGGT
CACCTCAGAGAAGCTGTTCCGCACTGTCCTGGAAATGCAGCCAAAAGAGACGGACTCGGGGGCAGGCACGGGAGTGTCCCGCGAGGAGAA
GGCAGGATCTTTGAAACTGCTCCCAAGCGAGAGGAAGGGGGAGGATCTAGAACTGAGGAGGGGGGGCTGTCCGGGGACTGGCTTCCAGGT
GAAGGCCGTGCTGGACGACATCCTGGAGAAGATTCCGGAGACTTTCAACATGGCTGAGATCATGGCAAAGGCAGCGGAAAAGACCCCCTA
CGTGGTAGTCGCCTTTCAAGAATGTGAAAGAATGAACATCCTGACCAACGAAATGCGCCGTTCGCTCAAGGAGCTGAACCTGGGGCTGAA
GGGAGAACTGACCATCACGACCGACGTGGAAGATCTGTCCACGGCTCTCTTCTATGACACCGTGCCTGATACGTGGGTGGCCCGGGCCTA
CCCCTCCATGATGGGCCTGGCGGCCTGGTACGCAGACCTGCTGCTCCGCATCAGGGAACTCGAGGCCTGGACGACAGACTTTGCCCTGCC
CACCACCGTGTGGCTGGCCGGCTTCTTCAACCCCCAGTCGTTCCTCACGGCCATCATGCAGTCCATGGCCAGGAAGAACGAGTGGCCCCT
GGACAAGATGTGTCTGTCTGTCGAGGTGACCAAGAAAAACCGAGAGGACATGACCGCTCCTCCGCGAGAGGGCTCCTACGTGTACGGACT
CTTCATGGAAGGGGCTCGCTGGGACACCCAGACTGGAGTCATCGCTGAAGCGCGGCTGAAAGAGCTGACCCCGGCCATGCCTGTCATCTT
CATCAAGGCCATTCCTGTGGACCGCATGGAGACCAAGAACATCTATGAGTGTCCCGTGTACAAAACACGCATCCGCGGCCCCACCTATGT
CTGGACCTTTAACTTGAAGACCAAAGAGAAGGCAGCGAAGTGGATCCTGGCAGCCGTGGCGCTGCTCCTACAGGTTTAGCTCGCTCCTGC
CTCACAGCCCACACTCCCTGGGGCTGGACCACAACTCAGCCCTTCACCTGTGCACCTGTGACTTATTCTTTACAGGAACTGGTGGTGGTT
TTTCGTTCTCTTAAATAATCAGGTGCTTTGTAACCAAGCACATCGGAACCAGAGGGTGGAGGTTGGTGTGGAAGAGGTGGGGCAGATTAA

>In-frame_ENST00000541152_ENST00000389840_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=590AA_start in transcript=3076_stop in transcript=4848
MGQGQEVVAENALDVAAEKGHWVILQVRGGQHCRNIHLVARWLGTLDKKLEHYSTGSHEDYRVFISAEPAPSPETHIIPQGILENAIKIT
NEPPTGMHANLHKALDLFTQDTLEMCTKEMEFKCMLFALCYFHAVVAERRKFGAQGWNRSYPFNNGDLTISINVLYNYLEANPKVPWDDL
RYLFGEIMYGGHITDDWDRRLCRTYLAEYIRTEMLEGDVLLAPGFQIPPNLDYKGYHEYIDENLPPESPYLYGLHPNAEIGFLTVTSEKL
FRTVLEMQPKETDSGAGTGVSREEKAGSLKLLPSERKGEDLELRRGGCPGTGFQVKAVLDDILEKIPETFNMAEIMAKAAEKTPYVVVAF
QECERMNILTNEMRRSLKELNLGLKGELTITTDVEDLSTALFYDTVPDTWVARAYPSMMGLAAWYADLLLRIRELEAWTTDFALPTTVWL
AGFFNPQSFLTAIMQSMARKNEWPLDKMCLSVEVTKKNREDMTAPPREGSYVYGLFMEGARWDTQTGVIAEARLKELTPAMPVIFIKAIP

--------------------------------------------------------------
>In-frame_ENST00000541152_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(transcript)=4947nt_BP=3026nt
AGGAGCTGGATCAGATCTGAATCCAGAGGCTCTCGGAGGAAGAGCTCAGGCCACTGAGGCGGCTCCCAGCTGCGTTGGCGACATGGCCGA
CACCCCCAGAGATGCCGGGCTCAAGCAGGCGCCTGCATCACGGAACGAGAAGGCCCCGGTGGACTTCGGCTACGTGGGGATTGACTCCAT
CCTGGAGCAGATGCGCCGGAAGGCCATGAAGCAGGGCTTCGAGTTCAACATCATGGTGGTCGGGCAGAGCGGCTTGGGTAAATCCACCTT
AATCAACACCCTCTTCAAATCCAAAATCAGCCGGAAGTCGGTGCAGCCCACCTCAGAGGAGCGCATCCCCAAGACCATCGAGATCAAGTC
CATCACGCACGATATTGAGGAGAAAGGCGTCCGGATGAAGCTGACAGTGATTGACACACCAGGGTTCGGGGACCACATCAACAACGAGAA
CTGCTGGCAGCCCATCATGAAGTTCATCAATGACCAGTACGAGAAATACCTGCAGGAGGAGGTCAACATCAACCGCAAGAAGCGCATCCC
GGACACCCGCGTCCACTGCTGCCTCTACTTCATCCCCGCCACCGGCCACTCCCTCAGGCCCCTGGACATCGAGTTTATGAAACGCCTGAG
CAAGGTGGTCAACATCGTCCCTGTCATCGCCAAGGCGGACACACTCACCCTGGAGGAGAGGGTCCACTTCAAACAGCGGATCACCGCAGA
CCTGCTGTCCAACGGCATCGACGTGTACCCCCAGAAGGAATTTGATGAGGACTCGGAGGACCGGCTGGTGAACGAGAAGTTCCGGGAGAT
GATCCCATTTGCTGTGGTGGGCAGTGACCACGAGTACCAGGTCAACGGCAAGAGGATCCTTGGGAGGAAGACCAAGTGGGGTACCATCGA
AGTTGAAAACACCACACACTGTGAGTTTGCCTACCTGCGGGACCTTCTCATCAGGACGCACATGCAGAACATCAAGGACATCACCAGCAG
CATCCACTTCGAGGCGTACCGTGTGAAGCGCCTCAACGAGGGCAGCAGCGCCATGGCCAACGGCATGGAGGAGAAGGAGCCAGAAGCCCC
GGAGATGTAGACGCCACCCTGCCCACCCCCGGGATCCTGCCCCCAAGTCATTTCCGTCCCCCCCCAGGCCCTCCCACCACCCCATTTTAT
TTTATATGATTTTCTCCATTTGTCATCGTTCCCCACCCCTTCGACATGCTGCCAGGAAACAAGGGAAGGGGCCTCCCTCCGAGTGAGTCA
GTGATGAGGCCGCGGCCTCCCCGAGGTTGTGGGGAGGCTGCACTGGAGCCACAGGCAGGGGTGAGAGCACCCACTGAATTGACATGACCC
TCTGTCCCCAGGCCTGGCTCCCCGAGGGCTCAGAAGAGCAGCTTCGGTGTGCAGATCATCCGTCTGTGTGGGGTTCTCAGTGCCGGAGGC
CTTGGGGTGGGGGCCAGGCCTCGCACTTGCAGAGGAGCCCAGTGGGCTGCACGCTCCCCTCCATCCCCATCGGCCCTGTCCCCTGGAGTG
TGTCAGAGCCCAGGGGAGAATGCAGCCCACCAGGAGCACCTGGACCCCCTGCCCGCCACATGGTGTGGCCATCACTCAGCCCCTACCCCT
GCCCTGCTCCTAAGGGTAGAAAACTCCAGGGTCCCCTGCCACCGACTGCCCAGCCACTCCAAGCCCCCTGGCAGCTGCCCCTCCTGGAGC
AGAAAGTGCCTTTATCTCAGCCATCCGCAGACTGCTTGGCCAGATGCGGGGACAGGCTGGAATGAGGGAGGCGTCTTCATCTCCCTGCCA
TCCCCCTCTCACGCCACCCCCGCCCCCACCGGGCTGCAGGTGCTGCTGATGCGCTGGGATCTGATTGAGGATAAAAAGGAAGGAGAGATG
ACCCCTACCCCCTCATCCCCCAGTTTTGAAAAGGTCTAAGCAAGTGAGTCTGGTGGAGGAGCTGAGGGAGGGAGCCATGGAAGGTGCCAG
AAGGAAGGTTGGCGGGGGCACGTGTGGGCCGTGGCTTGGGCTGGTCAGAGTGGCGTGAGCTGCCCGGCGCCTGCCCTGCCCAAGTGACCA
GGGAAGTGTGTGTGTGTCCATGTGTATGCGTGTCCGTCTGTCTGTCTAGTGTCTGGGTTTGGCCCAAGACTGGGCTGTAGTTACATTAAT
GCCCAGCCAGCCACCCCTGCCACTCACCCTTCCTGGCCCAGGCCTTGCTGACTCTCTGAGCTGGGGAGGTGGGAGGCCAGGCGAGCCTGA
CTCTGTTGATCTACCCGTGCCTGGGCCCCTCCCCTCAGAGCCCATGGTAACGAACCCCTAGAAAGGAGAGAACGGGCGTCAGGGGTGCAC
AGTCCACAGCTGAAGAGCAAGGTTTCGTGGCAGCACGGCCCGGCCCCTCACCCTCTGTCCCCACGAGGGGACCCATGGGGGCTGTCTTTG
CAGGGCACAGATGACCAAAGTCCCTTCCTGCTTCCTGTTACCTGTCTTGCTCCTGGGGAGAAAGAGGGGCCTGATGAGACTCCACTCAGG
TGCACACATCACCAGGTGCATCTGCAGGCACCGGGCTGGCTGCTTGCAGCCAGGAGAAGGTCAGCGAGAAGGAGTGTATGAGTGTGAGTG
TGTGTGCATGGAAGTTGGGGCACTGGGCGTCTGACTCCCTCCCCACCCAAGAGAGGAAGGACCCCTCACCACCCCCACTGGTGAGACAGT
TTACTTTGCCAACTTGCCATGTTTTTGCCAAAACCAAGATTTTGAAGGAAATGAGTGGCCAGCGCCAGGGCCCAGGCCATGTGGCCTGCC
CAGCCTCAATGTCACTTGGTGGCGGGGTGGGGTGGGGGTGGGCAGCAGCATCCCAGCCTTGAGATGCTTCACTTTCCTTCTCTGTAACCA
GACTTTGAAAAATTGTTCGTTTCATCAGGCTCTGTTCCTCAATGGCCTTTTGCTACGTGCCTCCCGAGAAATTTGTCTTTTTGTATAAAT
GACAAAGTGTTGAAAATGTATTTCCTGAAATAAATGTTTCAAATGCAGAAACCCAGGAAAAAAACTAGGGTTTACCATAGACAATGGAAA
ACTCCATAATGTGTCCCTGGGGCAGGGACAAGAGGTGGTGGCTGAGAACGCCCTGGACGTGGCTGCAGAGAAAGGACACTGGGTCATTCT
GCAGAATATCCACCTGGTGGCCCGGTGGCTGGGAACACTGGACAAGAAGCTGGAGCACTACAGCACGGGCAGCCATGAGGACTACCGGGT
GTTCATCAGCGCGGAGCCTGCCCCCAGCCCCGAGACCCACATCATCCCCCAGGGCATTCTGGAGAACGCCATCAAGATCACCAACGAGCC
CCCCACGGGCATGCACGCCAACTTGCACAAGGCCCTGGACCTGTTCACCCAGGACACCCTGGAGATGTGCACCAAGGAGATGGAGTTCAA
GTGCATGCTCTTCGCCCTGTGCTACTTCCACGCTGTGGTGGCAGAGAGGCGCAAGTTCGGCGCCCAGGGCTGGAACCGGTCGTACCCCTT
CAACAACGGGGACCTCACCATCTCCATCAACGTGCTCTACAACTACCTGGAGGCCAACCCCAAGGTGCCCTGGGACGATCTCCGCTACCT
TTTTGGTGAAATCATGTATGGCGGCCACATCACAGATGACTGGGACCGTCGGCTGTGCAGGACCTACCTGGCTGAATACATCCGGACGGA
GATGCTGGAGGGAGACGTCCTGCTGGCCCCCGGCTTTCAGATCCCCCCCAACCTGGACTACAAGGGTTACCACGAATACATCGATGAGAA
CCTGCCCCCTGAGAGTCCCTATCTGTATGGCCTGCACCCCAACGCAGAGATTGGCTTTCTGACGGTCACCTCAGAGAAGCTGTTCCGCAC
TGTCCTGGAAATGCAGCCAAAAGAGACGGACTCGGGGGCAGGCACGGGAGTGTCCCGCGAGGAGAAGGTGAAGGCCGTGCTGGACGACAT
CCTGGAGAAGATTCCGGAGACTTTCAACATGGCTGAGATCATGGCAAAGGCAGCGGAAAAGACCCCCTACGTGGTAGTCGCCTTTCAAGA
ATGTGAAAGAATGAACATCCTGACCAACGAAATGCGCCGTTCGCTCAAGGAGCTGAACCTGGGGCTGAAGGGAGAACTGACCATCACGAC
CGACGTGGAAGATCTGTCCACGGCTCTCTTCTATGACACCGTGCCTGATACGTGGGTGGCCCGGGCCTACCCCTCCATGATGGGCCTGGC
GGCCTGGTACGCAGACCTGCTGCTCCGCATCAGGGAACTCGAGGCCTGGACGACAGACTTTGCCCTGCCCACCACCGTGTGGCTGGCCGG
CTTCTTCAACCCCCAGTCGTTCCTCACGGCCATCATGCAGTCCATGGCCAGGAAGAACGAGTGGCCCCTGGACAAGATGTGTCTGTCTGT
CGAGGTGACCAAGAAAAACCGAGAGGACATGACCGCTCCTCCGCGAGAGGGCTCCTACGTGTACGGACTCTTCATGGAAGGGGCTCGCTG
GGACACCCAGACTGGAGTCATCGCTGAAGCGCGGCTGAAAGAGCTGACCCCGGCCATGCCTGTCATCTTCATCAAGGCCATTCCTGTGGA
CCGCATGGAGACCAAGAACATCTATGAGTGTCCCGTGTACAAAACACGCATCCGCGGCCCCACCTATGTCTGGACCTTTAACTTGAAGAC
CAAAGAGAAGGCAGCGAAGTGGATCCTGGCAGCCGTGGCGCTGCTCCTACAGGTTTAGCTCGCTCCTGCCTCACAGCCCACACTCCCTGG
GGCTGGACCACAACTCAGCCCTTCACCTGTGCACCTGTGACTTATTCTTTACAGGAACTGGTGGTGGTTTTTCGTTCTCTTAAATAATCA

>In-frame_ENST00000541152_ENST00000585328_TCGA-50-5946-01A_SEPT9_chr17_75496674_-_DNAH17_chr17_76435299_length(amino acids)=553AA_start in transcript=3076_stop in transcript=4737
MGQGQEVVAENALDVAAEKGHWVILQNIHLVARWLGTLDKKLEHYSTGSHEDYRVFISAEPAPSPETHIIPQGILENAIKITNEPPTGMH
ANLHKALDLFTQDTLEMCTKEMEFKCMLFALCYFHAVVAERRKFGAQGWNRSYPFNNGDLTISINVLYNYLEANPKVPWDDLRYLFGEIM
YGGHITDDWDRRLCRTYLAEYIRTEMLEGDVLLAPGFQIPPNLDYKGYHEYIDENLPPESPYLYGLHPNAEIGFLTVTSEKLFRTVLEMQ
PKETDSGAGTGVSREEKVKAVLDDILEKIPETFNMAEIMAKAAEKTPYVVVAFQECERMNILTNEMRRSLKELNLGLKGELTITTDVEDL
STALFYDTVPDTWVARAYPSMMGLAAWYADLLLRIRELEAWTTDFALPTTVWLAGFFNPQSFLTAIMQSMARKNEWPLDKMCLSVEVTKK
NREDMTAPPREGSYVYGLFMEGARWDTQTGVIAEARLKELTPAMPVIFIKAIPVDRMETKNIYECPVYKTRIRGPTYVWTFNLKTKEKAA

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

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Fusion Gene PPI Analysis for SEPT9-DNAH17


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 SEPT9-DNAH17


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 SEPT9-DNAH17


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