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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:NUSAP1-RTF1 (FusionGDB2 ID:61174)

Fusion Gene Summary for NUSAP1-RTF1

check button Fusion gene summary
Fusion gene informationFusion gene name: NUSAP1-RTF1
Fusion gene ID: 61174
HgeneTgene
Gene symbol

NUSAP1

RTF1

Gene ID

51203

23168

Gene namenucleolar and spindle associated protein 1RTF1 homolog, Paf1/RNA polymerase II complex component
SynonymsANKT|BM037|LNP|NUSAP|PRO0310p1|Q0310|SAPLGTL7|KIAA0252
Cytomap

15q15.1

15q15.1

Type of geneprotein-codingprotein-coding
Descriptionnucleolar and spindle-associated protein 1nucleolar protein ANKTRNA polymerase-associated protein RTF1 homologRtf1, Paf1/RNA polymerase II complex component, homologortholog of mouse gene trap locus 7
Modification date2020031320200313
UniProtAcc..
Ensembl transtripts involved in fusion geneENST00000260359, ENST00000414849, 
ENST00000450318, ENST00000450592, 
ENST00000559596, ENST00000560177, 
ENST00000560747, ENST00000558123, 
ENST00000462276, ENST00000389629, 
Fusion gene scores* DoF score6 X 6 X 4=14414 X 10 X 5=700
# samples 615
** MAII scorelog2(6/144*10)=-1.26303440583379
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0		log2(15/700*10)=-2.22239242133645
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: NUSAP1 [Title/Abstract] AND RTF1 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointNUSAP1(41625248)-RTF1(41745099), # 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
HgeneNUSAP1

GO:0000070

mitotic sister chromatid segregation

12963707

HgeneNUSAP1

GO:0000281

mitotic cytokinesis

12963707

HgeneNUSAP1

GO:0007076

mitotic chromosome condensation

12963707

HgeneNUSAP1

GO:0040001

establishment of mitotic spindle localization

12963707

HgeneNUSAP1

GO:0045840

positive regulation of mitotic nuclear division

12963707

TgeneRTF1

GO:0019827

stem cell population maintenance

19345177

TgeneRTF1

GO:0032968

positive regulation of transcription elongation from RNA polymerase II promoter

20178742

TgeneRTF1

GO:0045944

positive regulation of transcription by RNA polymerase II

20178742


check buttonFusion gene breakpoints across NUSAP1 (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 RTF1 (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
ChimerDB4LUSCTCGA-85-8072NUSAP1chr15

41625248

+RTF1chr15

41745099

+


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Fusion Gene ORF analysis for NUSAP1-RTF1

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-3UTRENST00000260359ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000414849ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000450318ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000450592ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000559596ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000560177ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
5CDS-3UTRENST00000560747ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000260359ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000414849ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000450318ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000450592ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000559596ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000560177ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
In-frameENST00000560747ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
intron-3CDSENST00000558123ENST00000389629NUSAP1chr15

41625248

+RTF1chr15

41745099

+
intron-3UTRENST00000558123ENST00000462276NUSAP1chr15

41625248

+RTF1chr15

41745099

+

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)
ENST00000260359NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+50573572642180638
ENST00000450318NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+50233232302146638
ENST00000450592NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+4880180872003638
ENST00000559596NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+4880180872003638
ENST00000414849NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+4880180872003638
ENST00000560747NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+4865165721988638
ENST00000560177NUSAP1chr1541625248+ENST00000389629RTF1chr1541745099+4838138451961638

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
ENST00000260359ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0002963050.9997037
ENST00000450318ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0002976930.9997023
ENST00000450592ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0003157770.9996842
ENST00000559596ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0003157770.9996842
ENST00000414849ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0003157770.9996842
ENST00000560747ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0003207840.9996792
ENST00000560177ENST00000389629NUSAP1chr1541625248+RTF1chr1541745099+0.0003150340.99968493

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Fusion Genomic Features for NUSAP1-RTF1


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)
NUSAP1chr1541625248+RTF1chr1541745098+3.71E-121
NUSAP1chr1541625248+RTF1chr1541745098+3.71E-121

check buttonDistribution of 44 human genomic features loci across 20kb length fusion breakpoint regions. We integrated a total of 44 different types of human genomic feature loci information across five big categories including virus integration sites, repeats, structural variants, chromatin states, and gene expression regulation. More details are in help page.
genomic feature

check buttonDistribution of 44 human genomic features loci across 20kb length fusion breakpoint regions that are ovelapped with the top 1% feature importance score regions. More details are in help page.
genomic feature of top 1%

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Fusion Protein Features for NUSAP1-RTF1


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/chr15:41625248/chr15:41745099)
- FGviewer provides the online visualization of the retention search of the protein functional features across DNA, RNA, protein, and pathological levels.
- How to search
1. Put your fusion gene symbol.
2. Press the tab key until there will be shown the breakpoint information filled.
4. Go down and press 'Search' tab twice.
4. Go down to have the hyperlink of the search result.
5. Click the hyperlink.
6. See the FGviewer result for your fusion gene.
FGviewer

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

check buttonRetention analysis result of each fusion partner protein across 39 protein features of UniProt such as six molecule processing features, 13 region features, four site features, six amino acid modification features, two natural variation features, five experimental info features, and 3 secondary structure features. Here, because of limited space for viewing, we only show the protein feature retention information belong to the 13 regional features. All retention annotation result can be downloaded at

download page


* Minus value of BPloci means that the break pointn is located before the CDS.
- In-frame and retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
TgeneRTF1chr15:41625248chr15:41745099ENST00000389629118526_560103711.0Coiled coilOntology_term=ECO:0000255
TgeneRTF1chr15:41625248chr15:41745099ENST00000389629118135_173103711.0Compositional biasNote=Ser-rich
TgeneRTF1chr15:41625248chr15:41745099ENST00000389629118174_345103711.0Compositional biasNote=Glu-rich
TgeneRTF1chr15:41625248chr15:41745099ENST00000389629118214_307103711.0Compositional biasNote=Lys-rich
TgeneRTF1chr15:41625248chr15:41745099ENST00000389629118353_484103711.0DomainPlus3

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000260359+111407_43231427.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000414849+111407_43231441.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000450592+19407_43231379.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000559596+111407_43231442.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560177+111407_43231441.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560747+111407_43231440.0Coiled coilOntology_term=ECO:0000255
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000260359+111384_39031427.0MotifNote=KEN box
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000414849+111384_39031441.0MotifNote=KEN box
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000450592+19384_39031379.0MotifNote=KEN box
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000559596+111384_39031442.0MotifNote=KEN box
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560177+111384_39031441.0MotifNote=KEN box
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560747+111384_39031440.0MotifNote=KEN box
TgeneRTF1chr15:41625248chr15:41745099ENST0000038962911810_18103711.0Compositional biasNote=Poly-Ala


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Fusion Gene Sequence for NUSAP1-RTF1


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.
>61174_61174_1_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000260359_RTF1_chr15_41745099_ENST00000389629_length(transcript)=5057nt_BP=357nt
GCGTTACAGGCCCTTTGGCGCCTGCGTATTCGTGAAGTGTGAAAAAAGCGCGCCTCTGTTGGGACGGGAAATCAGCCTTTCTATTGGTCA
GGGTTAGAAACCCCGCCTTTGAGGCATTTTCAACCAATGGAAGCGCGGCATTCTTCATTTAAACTGTCTATAAATTTCTGCCTAGTCAAA
GTTAAGAGTGGCGCCAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATGATC
ATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGGTGG
ACATTTGGGAGCAATAAAAATAAGAAGAAAGGAAAAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACTGCC
TCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTGAGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCCTCT
TCCAGTTCAGATTCAGACTCTTCCTCAGAAGATGAAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGGGCC
CGTCTGGAACAGATGACAGAGAAAGAGAGAGAGCAAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAAATC
AAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAAAGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACACAG
ATTCAAGAATCTCAGGTAACATCCCACAACAAGGAACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAGGAG
CTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAACAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCTGAT
GATGAAGAGGAGGAAGAGGATGACAAATCCAGTGAAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAAGAA
GAGATCCCTCCCAAATCCCAACCAGTTTCCTTACCTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGTCAC
ATGCCCTTCTTTGCTAAAACTGTCACAGGATGTTTTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCTGAG
ATTACGGGTGTTGTGGAAACTGCCAAAGTTTACCAACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGACCAA
CGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAGAATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGCATG
CAGTTGCCCACTCTAGATGAAATCAATAAAAAGGAATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAAGAG
ATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTCCACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCTGAG
GACCTGGGGGATCAGGACAAGGCCAAACAAATCCAAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGGACC
AAGAACATATCCGCTATCAGTTACATCAACCAGCGGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGTCAC
AACATGAAAAACCAACAGATGGATCCCTTTACTCGGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAAGCT
GCCATCTTGGCCCAGCTGAATGCAAAATACGGTTCTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGATAAA
GATTTGAATTCTAAGTCAGCCAGTGACCTCTCAGAAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCCAGC
TCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGGCTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTACAAA
AAACGACGAGGGCTTATTTGAGCACACCCAGCCTGCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCCTTT
GATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAACTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTATAG
ACCTCCTTTGTCTGCACACCATCTCCCACCAGCCTCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTATCCA
TGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTTAACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTGGGA
ATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGCACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCACGT
GACCTTGTGGGGGGAGCGGGGATTGGGCACCTGCGATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGGGGT
TTCAAAACCAGTTTAGTTTCCAAAAAGTGTACATTTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTGTAA
GTGTGTGGATTTTTTTATCATTTTTTTAAAATGCAGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTCAGC
TGTACTTGAGCATCTGAAACTGCAAGAAAGAAACTCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAACTT
CCCCATTCCCACCTACTCTTCCCATCCTTTCCCAACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGGCAG
GTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGGAGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCTGAA
CGTAGAACTTCTTTTTCTCACCCAGTATACCAGCCTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTTAAG
AGAAATTTCTGAATATGAATGTGGAGAGCAAACACAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCACTT
TGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACTACA
AAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGGAGG
TTGTGGTGAGCCAAGATCGTGCCACTGCACTCCAGTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTTTCA
AGCATGTGCAGTTTTGTGTGTGTGTATACATATATATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGTATG
TCTTTATGAAATGTTTGAAAAGAGATAAACTGACTGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCATTTA
ACAAATCTTTCAGAACAAAGTACAGCTGACTATATATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAGACT
AATCTAAAAGCTCTGCTTTGTACTTCCTCACCCTGCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTATTTA
AACATAAAAATGAACTTGGTAACTTCTGGGTTTAGTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGCAGC
AATGGATGGTTTTAAAGGAGTATTATGATTGTAAAATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCACTTG
GGCAAAGGAGTGGTGATGGACTCGTTAAAATCATATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATGTGG
AATCACAGACTGTTAACATTGCCTGGACTTCAGCAGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTTTTT
TGATTTCTGGTTTTAAAAAACATAAAATTATAGAATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAGTAT
CATTTGGATTTGGAGAAGTGTTGATTACATTATGGCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCACCA
CCTCCCCACATGTAGCCGCTGAAACCCCCACGAGATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTATCTT
TCCACCCGAGTAGCCTCTGTAGTGATTGGGACCAAGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGATCTT
GGTCAGGCATTAAGACACTGGCTTTGTCCTACCAACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCATTGG
GCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTTGAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAGAAG
CAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAATGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTACTG
CCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTTTTGTGAAGTCCTGACTTGCCACTCAAACTGTACCAATATTGTAAATAAATGTTATG

>61174_61174_1_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000260359_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_2_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000414849_RTF1_chr15_41745099_ENST00000389629_length(transcript)=4880nt_BP=180nt
AAAGTTAAGAGTGGCGCCAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATG
ATCATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGG
TGGACATTTGGGAGCAATAAAAATAAGAAGAAAGGAAAAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACT
GCCTCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTGAGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCC
TCTTCCAGTTCAGATTCAGACTCTTCCTCAGAAGATGAAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGG
GCCCGTCTGGAACAGATGACAGAGAAAGAGAGAGAGCAAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAA
ATCAAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAAAGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACA
CAGATTCAAGAATCTCAGGTAACATCCCACAACAAGGAACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAG
GAGCTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAACAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCT
GATGATGAAGAGGAGGAAGAGGATGACAAATCCAGTGAAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAA
GAAGAGATCCCTCCCAAATCCCAACCAGTTTCCTTACCTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGT
CACATGCCCTTCTTTGCTAAAACTGTCACAGGATGTTTTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCT
GAGATTACGGGTGTTGTGGAAACTGCCAAAGTTTACCAACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGAC
CAACGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAGAATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGC
ATGCAGTTGCCCACTCTAGATGAAATCAATAAAAAGGAATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAA
GAGATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTCCACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCT
GAGGACCTGGGGGATCAGGACAAGGCCAAACAAATCCAAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGG
ACCAAGAACATATCCGCTATCAGTTACATCAACCAGCGGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGT
CACAACATGAAAAACCAACAGATGGATCCCTTTACTCGGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAA
GCTGCCATCTTGGCCCAGCTGAATGCAAAATACGGTTCTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGAT
AAAGATTTGAATTCTAAGTCAGCCAGTGACCTCTCAGAAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCC
AGCTCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGGCTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTAC
AAAAAACGACGAGGGCTTATTTGAGCACACCCAGCCTGCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCC
TTTGATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAACTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTA
TAGACCTCCTTTGTCTGCACACCATCTCCCACCAGCCTCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTAT
CCATGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTTAACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTG
GGAATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGCACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCA
CGTGACCTTGTGGGGGGAGCGGGGATTGGGCACCTGCGATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGG
GGTTTCAAAACCAGTTTAGTTTCCAAAAAGTGTACATTTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTG
TAAGTGTGTGGATTTTTTTATCATTTTTTTAAAATGCAGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTC
AGCTGTACTTGAGCATCTGAAACTGCAAGAAAGAAACTCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAA
CTTCCCCATTCCCACCTACTCTTCCCATCCTTTCCCAACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGG
CAGGTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGGAGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCT
GAACGTAGAACTTCTTTTTCTCACCCAGTATACCAGCCTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTT
AAGAGAAATTTCTGAATATGAATGTGGAGAGCAAACACAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACT
ACAAAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGG
AGGTTGTGGTGAGCCAAGATCGTGCCACTGCACTCCAGTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTT
TCAAGCATGTGCAGTTTTGTGTGTGTGTATACATATATATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGT
ATGTCTTTATGAAATGTTTGAAAAGAGATAAACTGACTGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCAT
TTAACAAATCTTTCAGAACAAAGTACAGCTGACTATATATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAG
ACTAATCTAAAAGCTCTGCTTTGTACTTCCTCACCCTGCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTAT
TTAAACATAAAAATGAACTTGGTAACTTCTGGGTTTAGTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGC
AGCAATGGATGGTTTTAAAGGAGTATTATGATTGTAAAATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCAC
TTGGGCAAAGGAGTGGTGATGGACTCGTTAAAATCATATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATG
TGGAATCACAGACTGTTAACATTGCCTGGACTTCAGCAGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTT
TTTTGATTTCTGGTTTTAAAAAACATAAAATTATAGAATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAG
TATCATTTGGATTTGGAGAAGTGTTGATTACATTATGGCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCA
CCACCTCCCCACATGTAGCCGCTGAAACCCCCACGAGATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTAT
CTTTCCACCCGAGTAGCCTCTGTAGTGATTGGGACCAAGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGAT
CTTGGTCAGGCATTAAGACACTGGCTTTGTCCTACCAACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCAT
TGGGCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTTGAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAG
AAGCAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAATGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTA
CTGCCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTTTTGTGAAGTCCTGACTTGCCACTCAAACTGTACCAATATTGTAAATAAATGTT

>61174_61174_2_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000414849_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_3_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000450318_RTF1_chr15_41745099_ENST00000389629_length(transcript)=5023nt_BP=323nt
AAGTGTGAAAAAAGCGCGCCTCTGTTGGGACGGGAAATCAGCCTTTCTATTGGTCAGGGTTAGAAACCCCGCCTTTGAGGCATTTTCAAC
CAATGGAAGCGCGGCATTCTTCATTTAAACTGTCTATAAATTTCTGCCTAGTCAAAGTTAAGAGTGGCGCCAGGGATTTGAACCGCGCTG
ACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATGATCATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGT
ACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGGTGGACATTTGGGAGCAATAAAAATAAGAAGAAAGGAA
AAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACTGCCTCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTG
AGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCCTCTTCCAGTTCAGATTCAGACTCTTCCTCAGAAGATG
AAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGGGCCCGTCTGGAACAGATGACAGAGAAAGAGAGAGAGC
AAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAAATCAAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAA
AGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACACAGATTCAAGAATCTCAGGTAACATCCCACAACAAGG
AACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAGGAGCTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAA
CAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCTGATGATGAAGAGGAGGAAGAGGATGACAAATCCAGTG
AAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAAGAAGAGATCCCTCCCAAATCCCAACCAGTTTCCTTAC
CTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGTCACATGCCCTTCTTTGCTAAAACTGTCACAGGATGTT
TTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCTGAGATTACGGGTGTTGTGGAAACTGCCAAAGTTTACC
AACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGACCAACGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAG
AATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGCATGCAGTTGCCCACTCTAGATGAAATCAATAAAAAGG
AATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAAGAGATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTC
CACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCTGAGGACCTGGGGGATCAGGACAAGGCCAAACAAATCC
AAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGGACCAAGAACATATCCGCTATCAGTTACATCAACCAGC
GGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGTCACAACATGAAAAACCAACAGATGGATCCCTTTACTC
GGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAAGCTGCCATCTTGGCCCAGCTGAATGCAAAATACGGTT
CTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGATAAAGATTTGAATTCTAAGTCAGCCAGTGACCTCTCAG
AAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCCAGCTCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGG
CTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTACAAAAAACGACGAGGGCTTATTTGAGCACACCCAGCCT
GCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCCTTTGATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAA
CTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTATAGACCTCCTTTGTCTGCACACCATCTCCCACCAGCC
TCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTATCCATGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTT
AACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTGGGAATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGC
ACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCACGTGACCTTGTGGGGGGAGCGGGGATTGGGCACCTGC
GATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGGGGTTTCAAAACCAGTTTAGTTTCCAAAAAGTGTACAT
TTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTGTAAGTGTGTGGATTTTTTTATCATTTTTTTAAAATGC
AGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTCAGCTGTACTTGAGCATCTGAAACTGCAAGAAAGAAAC
TCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAACTTCCCCATTCCCACCTACTCTTCCCATCCTTTCCCA
ACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGGCAGGTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGG
AGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCTGAACGTAGAACTTCTTTTTCTCACCCAGTATACCAGC
CTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTTAAGAGAAATTTCTGAATATGAATGTGGAGAGCAAACA
CAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCA
GGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACTACAAAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAA
TCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCCAAGATCGTGCCACTGCACTCCA
GTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTTTCAAGCATGTGCAGTTTTGTGTGTGTGTATACATATA
TATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGTATGTCTTTATGAAATGTTTGAAAAGAGATAAACTGAC
TGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCATTTAACAAATCTTTCAGAACAAAGTACAGCTGACTATA
TATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAGACTAATCTAAAAGCTCTGCTTTGTACTTCCTCACCCT
GCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTATTTAAACATAAAAATGAACTTGGTAACTTCTGGGTTTA
GTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGCAGCAATGGATGGTTTTAAAGGAGTATTATGATTGTAA
AATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCACTTGGGCAAAGGAGTGGTGATGGACTCGTTAAAATCAT
ATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATGTGGAATCACAGACTGTTAACATTGCCTGGACTTCAGC
AGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTTTTTTGATTTCTGGTTTTAAAAAACATAAAATTATAGA
ATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAGTATCATTTGGATTTGGAGAAGTGTTGATTACATTATG
GCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCACCACCTCCCCACATGTAGCCGCTGAAACCCCCACGAG
ATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTATCTTTCCACCCGAGTAGCCTCTGTAGTGATTGGGACCA
AGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGATCTTGGTCAGGCATTAAGACACTGGCTTTGTCCTACCA
ACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCATTGGGCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTT
GAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAGAAGCAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAA
TGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTACTGCCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTT

>61174_61174_3_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000450318_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_4_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000450592_RTF1_chr15_41745099_ENST00000389629_length(transcript)=4880nt_BP=180nt
AAAGTTAAGAGTGGCGCCAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATG
ATCATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGG
TGGACATTTGGGAGCAATAAAAATAAGAAGAAAGGAAAAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACT
GCCTCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTGAGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCC
TCTTCCAGTTCAGATTCAGACTCTTCCTCAGAAGATGAAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGG
GCCCGTCTGGAACAGATGACAGAGAAAGAGAGAGAGCAAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAA
ATCAAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAAAGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACA
CAGATTCAAGAATCTCAGGTAACATCCCACAACAAGGAACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAG
GAGCTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAACAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCT
GATGATGAAGAGGAGGAAGAGGATGACAAATCCAGTGAAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAA
GAAGAGATCCCTCCCAAATCCCAACCAGTTTCCTTACCTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGT
CACATGCCCTTCTTTGCTAAAACTGTCACAGGATGTTTTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCT
GAGATTACGGGTGTTGTGGAAACTGCCAAAGTTTACCAACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGAC
CAACGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAGAATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGC
ATGCAGTTGCCCACTCTAGATGAAATCAATAAAAAGGAATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAA
GAGATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTCCACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCT
GAGGACCTGGGGGATCAGGACAAGGCCAAACAAATCCAAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGG
ACCAAGAACATATCCGCTATCAGTTACATCAACCAGCGGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGT
CACAACATGAAAAACCAACAGATGGATCCCTTTACTCGGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAA
GCTGCCATCTTGGCCCAGCTGAATGCAAAATACGGTTCTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGAT
AAAGATTTGAATTCTAAGTCAGCCAGTGACCTCTCAGAAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCC
AGCTCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGGCTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTAC
AAAAAACGACGAGGGCTTATTTGAGCACACCCAGCCTGCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCC
TTTGATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAACTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTA
TAGACCTCCTTTGTCTGCACACCATCTCCCACCAGCCTCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTAT
CCATGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTTAACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTG
GGAATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGCACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCA
CGTGACCTTGTGGGGGGAGCGGGGATTGGGCACCTGCGATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGG
GGTTTCAAAACCAGTTTAGTTTCCAAAAAGTGTACATTTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTG
TAAGTGTGTGGATTTTTTTATCATTTTTTTAAAATGCAGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTC
AGCTGTACTTGAGCATCTGAAACTGCAAGAAAGAAACTCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAA
CTTCCCCATTCCCACCTACTCTTCCCATCCTTTCCCAACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGG
CAGGTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGGAGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCT
GAACGTAGAACTTCTTTTTCTCACCCAGTATACCAGCCTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTT
AAGAGAAATTTCTGAATATGAATGTGGAGAGCAAACACAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACT
ACAAAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGG
AGGTTGTGGTGAGCCAAGATCGTGCCACTGCACTCCAGTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTT
TCAAGCATGTGCAGTTTTGTGTGTGTGTATACATATATATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGT
ATGTCTTTATGAAATGTTTGAAAAGAGATAAACTGACTGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCAT
TTAACAAATCTTTCAGAACAAAGTACAGCTGACTATATATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAG
ACTAATCTAAAAGCTCTGCTTTGTACTTCCTCACCCTGCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTAT
TTAAACATAAAAATGAACTTGGTAACTTCTGGGTTTAGTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGC
AGCAATGGATGGTTTTAAAGGAGTATTATGATTGTAAAATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCAC
TTGGGCAAAGGAGTGGTGATGGACTCGTTAAAATCATATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATG
TGGAATCACAGACTGTTAACATTGCCTGGACTTCAGCAGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTT
TTTTGATTTCTGGTTTTAAAAAACATAAAATTATAGAATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAG
TATCATTTGGATTTGGAGAAGTGTTGATTACATTATGGCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCA
CCACCTCCCCACATGTAGCCGCTGAAACCCCCACGAGATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTAT
CTTTCCACCCGAGTAGCCTCTGTAGTGATTGGGACCAAGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGAT
CTTGGTCAGGCATTAAGACACTGGCTTTGTCCTACCAACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCAT
TGGGCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTTGAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAG
AAGCAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAATGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTA
CTGCCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTTTTGTGAAGTCCTGACTTGCCACTCAAACTGTACCAATATTGTAAATAAATGTT

>61174_61174_4_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000450592_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_5_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000559596_RTF1_chr15_41745099_ENST00000389629_length(transcript)=4880nt_BP=180nt
AAAGTTAAGAGTGGCGCCAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATG
ATCATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGG
TGGACATTTGGGAGCAATAAAAATAAGAAGAAAGGAAAAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACT
GCCTCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTGAGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCC
TCTTCCAGTTCAGATTCAGACTCTTCCTCAGAAGATGAAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGG
GCCCGTCTGGAACAGATGACAGAGAAAGAGAGAGAGCAAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAA
ATCAAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAAAGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACA
CAGATTCAAGAATCTCAGGTAACATCCCACAACAAGGAACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAG
GAGCTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAACAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCT
GATGATGAAGAGGAGGAAGAGGATGACAAATCCAGTGAAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAA
GAAGAGATCCCTCCCAAATCCCAACCAGTTTCCTTACCTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGT
CACATGCCCTTCTTTGCTAAAACTGTCACAGGATGTTTTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCT
GAGATTACGGGTGTTGTGGAAACTGCCAAAGTTTACCAACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGAC
CAACGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAGAATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGC
ATGCAGTTGCCCACTCTAGATGAAATCAATAAAAAGGAATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAA
GAGATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTCCACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCT
GAGGACCTGGGGGATCAGGACAAGGCCAAACAAATCCAAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGG
ACCAAGAACATATCCGCTATCAGTTACATCAACCAGCGGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGT
CACAACATGAAAAACCAACAGATGGATCCCTTTACTCGGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAA
GCTGCCATCTTGGCCCAGCTGAATGCAAAATACGGTTCTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGAT
AAAGATTTGAATTCTAAGTCAGCCAGTGACCTCTCAGAAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCC
AGCTCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGGCTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTAC
AAAAAACGACGAGGGCTTATTTGAGCACACCCAGCCTGCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCC
TTTGATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAACTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTA
TAGACCTCCTTTGTCTGCACACCATCTCCCACCAGCCTCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTAT
CCATGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTTAACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTG
GGAATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGCACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCA
CGTGACCTTGTGGGGGGAGCGGGGATTGGGCACCTGCGATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGG
GGTTTCAAAACCAGTTTAGTTTCCAAAAAGTGTACATTTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTG
TAAGTGTGTGGATTTTTTTATCATTTTTTTAAAATGCAGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTC
AGCTGTACTTGAGCATCTGAAACTGCAAGAAAGAAACTCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAA
CTTCCCCATTCCCACCTACTCTTCCCATCCTTTCCCAACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGG
CAGGTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGGAGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCT
GAACGTAGAACTTCTTTTTCTCACCCAGTATACCAGCCTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTT
AAGAGAAATTTCTGAATATGAATGTGGAGAGCAAACACAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCA
CTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACT
ACAAAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGG
AGGTTGTGGTGAGCCAAGATCGTGCCACTGCACTCCAGTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTT
TCAAGCATGTGCAGTTTTGTGTGTGTGTATACATATATATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGT
ATGTCTTTATGAAATGTTTGAAAAGAGATAAACTGACTGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCAT
TTAACAAATCTTTCAGAACAAAGTACAGCTGACTATATATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAG
ACTAATCTAAAAGCTCTGCTTTGTACTTCCTCACCCTGCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTAT
TTAAACATAAAAATGAACTTGGTAACTTCTGGGTTTAGTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGC
AGCAATGGATGGTTTTAAAGGAGTATTATGATTGTAAAATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCAC
TTGGGCAAAGGAGTGGTGATGGACTCGTTAAAATCATATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATG
TGGAATCACAGACTGTTAACATTGCCTGGACTTCAGCAGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTT
TTTTGATTTCTGGTTTTAAAAAACATAAAATTATAGAATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAG
TATCATTTGGATTTGGAGAAGTGTTGATTACATTATGGCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCA
CCACCTCCCCACATGTAGCCGCTGAAACCCCCACGAGATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTAT
CTTTCCACCCGAGTAGCCTCTGTAGTGATTGGGACCAAGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGAT
CTTGGTCAGGCATTAAGACACTGGCTTTGTCCTACCAACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCAT
TGGGCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTTGAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAG
AAGCAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAATGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTA
CTGCCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTTTTGTGAAGTCCTGACTTGCCACTCAAACTGTACCAATATTGTAAATAAATGTT

>61174_61174_5_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000559596_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_6_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000560177_RTF1_chr15_41745099_ENST00000389629_length(transcript)=4838nt_BP=138nt
GTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATGATCATCCCCTCTCTAGAGGAGCTGGACTCCCTCAAGTACAGT
GACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGGTGGACATTTGGGAGCAATAAAAATAAGAAGAAAGGAAAAGCC
AGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACTGCCTCCTCAGGCAGTTCAGACAAAGACAGTTCAGCTGAGAGC
TCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCCTCTTCCAGTTCAGATTCAGACTCTTCCTCAGAAGATGAAGAG
TTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGGGCCCGTCTGGAACAGATGACAGAGAAAGAGAGAGAGCAAGAA
CTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAAATCAAGAAAAAACTAAAAACAGCCAAAAAGAAAGAAAAGAAA
GAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACACAGATTCAAGAATCTCAGGTAACATCCCACAACAAGGAACGG
CGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAGGAGCTAAAAGCAGAGCGAGAAAAACGAAAGAACAGAACAGCT
GAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCTGATGATGAAGAGGAGGAAGAGGATGACAAATCCAGTGAAAAG
TCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAAGAAGAGATCCCTCCCAAATCCCAACCAGTTTCCTTACCTGAA
GAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGTCACATGCCCTTCTTTGCTAAAACTGTCACAGGATGTTTTGTG
CGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCTGAGATTACGGGTGTTGTGGAAACTGCCAAAGTTTACCAACTA
GGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGACCAACGCGTGTTCCGTTTAGAGTTTGTCTCAAACCAAGAATTC
ACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGCATGCAGTTGCCCACTCTAGATGAAATCAATAAAAAGGAATTA
TCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAAGAGATTGTAAAAGAGAAAGAAAGGTTCAGAAAAGCTCCACCC
AACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCTGAGGACCTGGGGGATCAGGACAAGGCCAAACAAATCCAAGAT
CAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGGACCAAGAACATATCCGCTATCAGTTACATCAACCAGCGGAAC
CGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGTCACAACATGAAAAACCAACAGATGGATCCCTTTACTCGGCGG
CAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAAGCTGCCATCTTGGCCCAGCTGAATGCAAAATACGGTTCTGGA
GTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGATAAAGATTTGAATTCTAAGTCAGCCAGTGACCTCTCAGAAGAT
CTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCCAGCTCAGAGTCAAAGGCTTTAGCCATCACCTCCAAGGCTCCG
CCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTACAAAAAACGACGAGGGCTTATTTGAGCACACCCAGCCTGCTGC
TTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCCTTTGATTTAGCCTCTTTGGGCTGGAGCAGCTGTTGAACTGGG
AAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTATAGACCTCCTTTGTCTGCACACCATCTCCCACCAGCCTCCCC
TCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTATCCATGTCTTTAGATTTGTGTTTGCCTTTTGTTTTTTTAACCG
CGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTGGGAATCTTGCTGGAGCCCCTGGGGCAATAGCAGCAGCACCAG
GCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCACGTGACCTTGTGGGGGGAGCGGGGATTGGGCACCTGCGATCC
TCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGGGGTTTCAAAACCAGTTTAGTTTCCAAAAAGTGTACATTTGTG
GGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTGTAAGTGTGTGGATTTTTTTATCATTTTTTTAAAATGCAGTAC
TCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTCAGCTGTACTTGAGCATCTGAAACTGCAAGAAAGAAACTCATT
AAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAACTTCCCCATTCCCACCTACTCTTCCCATCCTTTCCCAACTTT
GGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGGCAGGTGTGGGAGGGAAGCCCATGGCCAGGTACCAGGGAGGGC
AGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCTGAACGTAGAACTTCTTTTTCTCACCCAGTATACCAGCCTCTT
CCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTTAAGAGAAATTTCTGAATATGAATGTGGAGAGCAAACACAAAA
AGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAGGCGGGTGGATCACCTGAGGTCAGGAGT
TCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACTACAAAACTTAGCCGGGCATGGTGGTGCGTGCCTGTAATCCCA
GCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCCAAGATCGTGCCACTGCACTCCAGTCTG
GGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTTTCAAGCATGTGCAGTTTTGTGTGTGTGTATACATATATATGG
TCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGTATGTCTTTATGAAATGTTTGAAAAGAGATAAACTGACTGCTT
GATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCATTTAACAAATCTTTCAGAACAAAGTACAGCTGACTATATATAC
CAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAGACTAATCTAAAAGCTCTGCTTTGTACTTCCTCACCCTGCTTT
CGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTATTTAAACATAAAAATGAACTTGGTAACTTCTGGGTTTAGTAGA
GCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGCAGCAATGGATGGTTTTAAAGGAGTATTATGATTGTAAAATTG
CTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCACTTGGGCAAAGGAGTGGTGATGGACTCGTTAAAATCATATATA
CTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATGTGGAATCACAGACTGTTAACATTGCCTGGACTTCAGCAGAGT
CCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTTTTTTGATTTCTGGTTTTAAAAAACATAAAATTATAGAATCCA
GATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAGTATCATTTGGATTTGGAGAAGTGTTGATTACATTATGGCTGT
GTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCACCACCTCCCCACATGTAGCCGCTGAAACCCCCACGAGATGCC
AATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTATCTTTCCACCCGAGTAGCCTCTGTAGTGATTGGGACCAAGACT
AAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGATCTTGGTCAGGCATTAAGACACTGGCTTTGTCCTACCAACTAG
GATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCATTGGGCCCCTCCTCCCTCCACAGTGTGGTTTCAGTGTTGAAGG
GTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAGAAGCAAAAAGGCCAGTGTCCATCTGCCTAGTTCATAATGTTT
ATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTACTGCCTGCCACTCCCTTCAAAAAGAATGTTTTTGCTTTTGTG

>61174_61174_6_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000560177_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

--------------------------------------------------------------
>61174_61174_7_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000560747_RTF1_chr15_41745099_ENST00000389629_length(transcript)=4865nt_BP=165nt
GCCAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTCCGAGTATCGCCGGGATTTCGAATCGCGATGATCATCCCCTCTCTA
GAGGAGCTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAGAGTCTGGGTCTCCGGGCCAACCTGAGGTGGACATTTGGGAGC
AATAAAAATAAGAAGAAAGGAAAAGCCAGAAAAATAGAGAAGAAAGGAACCATGAAGAAACAGGCCAACAAAACTGCCTCCTCAGGCAGT
TCAGACAAAGACAGTTCAGCTGAGAGCTCAGCCCCTGAGGAAGGTGAAGTGTCAGACTCTGACAGCAACAGCTCCTCTTCCAGTTCAGAT
TCAGACTCTTCCTCAGAAGATGAAGAGTTCCATGATGGCTATGGAGAAGACCTCATGGGAGATGAGGAAGACAGGGCCCGTCTGGAACAG
ATGACAGAGAAAGAGAGAGAGCAAGAACTGTTCAATCGCATAGAGAAGAGGGAGGTGTTGAAAAGAAGATTTGAAATCAAGAAAAAACTA
AAAACAGCCAAAAAGAAAGAAAAGAAAGAAAAGAAGAAAAAGCAAGAAGAGGAGCAAGAAAAGAAAAAACTGACACAGATTCAAGAATCT
CAGGTAACATCCCACAACAAGGAACGGCGTTCCAAGCGGGATGAGAAACTAGACAAGAAATCTCAAGCCATGGAGGAGCTAAAAGCAGAG
CGAGAAAAACGAAAGAACAGAACAGCTGAGCTCCTTGCCAAAAAACAGCCATTAAAAACCAGTGAGGTCTACTCTGATGATGAAGAGGAG
GAAGAGGATGACAAATCCAGTGAAAAGTCAGACCGCTCATCACGAACATCATCGTCTGATGAAGAAGAGGAGAAAGAAGAGATCCCTCCC
AAATCCCAACCAGTTTCCTTACCTGAAGAATTGAATCGGGTTCGATTATCACGGCATAAGCTAGAACGCTGGTGTCACATGCCCTTCTTT
GCTAAAACTGTCACAGGATGTTTTGTGCGGATTGGCATCGGAAACCACAACAGCAAACCAGTTTACCGGGTCGCTGAGATTACGGGTGTT
GTGGAAACTGCCAAAGTTTACCAACTAGGTGGCACCAGAACAAACAAAGGGCTGCAACTACGGCATGGCAATGACCAACGCGTGTTCCGT
TTAGAGTTTGTCTCAAACCAAGAATTCACCGAAAGTGAGTTTATGAAGTGGAAAGAAGCGATGTTCTCTGCTGGCATGCAGTTGCCCACT
CTAGATGAAATCAATAAAAAGGAATTATCTATTAAAGAAGCTCTTAATTATAAATTCAATGATCAGGACATTGAAGAGATTGTAAAAGAG
AAAGAAAGGTTCAGAAAAGCTCCACCCAACTACGCTATGAAGAAGACTCAGCTACTGAAGGAAAAGGCCATGGCTGAGGACCTGGGGGAT
CAGGACAAGGCCAAACAAATCCAAGATCAACTGAATGAGCTGGAGGAACGGGCAGAGGCCCTGGACCGCCAGCGGACCAAGAACATATCC
GCTATCAGTTACATCAACCAGCGGAACCGGGAGTGGAACATTGTAGAGTCTGAGAAGGCCCTTGTGGCTGAAAGTCACAACATGAAAAAC
CAACAGATGGATCCCTTTACTCGGCGGCAGTGCAAGCCTACCATCGTTTCTAATTCCAGAGACCCAGCTGTTCAAGCTGCCATCTTGGCC
CAGCTGAATGCAAAATACGGTTCTGGAGTGTTACCAGATGCTCCAAAGGAAATGAGCAAGGGTCAAGGCAAAGATAAAGATTTGAATTCT
AAGTCAGCCAGTGACCTCTCAGAAGATCTGTTCAAAGTACACGATTTTGATGTGAAGATTGACTTACAAGTTCCCAGCTCAGAGTCAAAG
GCTTTAGCCATCACCTCCAAGGCTCCGCCAGCCAAGGATGGGGCTCCAAGGAGATCTCTGAACTTGGAAGACTACAAAAAACGACGAGGG
CTTATTTGAGCACACCCAGCCTGCTGCTTCTGACCCTGCATGCCCCATCGCAGCGTCCCACCTTTCCTCCTTTCCTTTGATTTAGCCTCT
TTGGGCTGGAGCAGCTGTTGAACTGGGAAGAGACTCTAAACTGCCAGTCATCTGTAATATAAACCATTTGCTGTATAGACCTCCTTTGTC
TGCACACCATCTCCCACCAGCCTCCCCTCCCCCAGGGCCCCACCCAGTGTGGGCCTGGGCTCTCTTGGGCTTTATCCATGTCTTTAGATT
TGTGTTTGCCTTTTGTTTTTTTAACCGCGCAGTTCATTGGCCACTCTGCACGCATTCAGTATTACCATGGAGCTGGGAATCTTGCTGGAG
CCCCTGGGGCAATAGCAGCAGCACCAGGCGGTCTCCTCTACAGACTGCCTTGGCCCACCCATTGAACATTCGGCACGTGACCTTGTGGGG
GGAGCGGGGATTGGGCACCTGCGATCCTCTTTCCTCTCTTCATCTTTCTCTTCTGCCCTTCTTTTTGGAAGAAGGGGTTTCAAAACCAGT
TTAGTTTCCAAAAAGTGTACATTTGTGGGGGGGGGGGGTCTAATTTGAGAGCGAGAGTGTGTATGTGTGTGTGTGTAAGTGTGTGGATTT
TTTTATCATTTTTTTAAAATGCAGTACTCTTTGTATCAGTCTGTCATGGGTCTATAGCTGTTTCAGATTTTTTTCAGCTGTACTTGAGCA
TCTGAAACTGCAAGAAAGAAACTCATTAAATGTGATTCTTCTTACTAAACAGGCCTGACTGCTGTAGCTGTGTAACTTCCCCATTCCCAC
CTACTCTTCCCATCCTTTCCCAACTTTGGAGAAAACTCCCCAGTTTAGCCCCCTGACCTGCAGGCTGTGTCCTGGCAGGTGTGGGAGGGA
AGCCCATGGCCAGGTACCAGGGAGGGCAGTGAATGTCTTGCTCTTCCCATGGGTACAGCCCACAGCTTCTTGGCTGAACGTAGAACTTCT
TTTTCTCACCCAGTATACCAGCCTCTTCCTGGTGATTCTGTTTTGCTGCTTTGGCAAGAACTACATTTTGTTTTTAAGAGAAATTTCTGA
ATATGAATGTGGAGAGCAAACACAAAAAGATTTAGGTTACGCCGGGTGCAGTAGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCTAG
GCGGGTGGATCACCTGAGGTCAGGAGTTCAAGACCAATCTGACTAACACGGTGAAACCCCATCTCTACTAAAACTACAAAACTTAGCCGG
GCATGGTGGTGCGTGCCTGTAATCCCAGCTACTCGGGGGGCTGAGACAGGAGAATCCCTTGAACCTGGGAGGCGGAGGTTGTGGTGAGCC
AAGATCGTGCCACTGCACTCCAGTCTGGGTGACAGAGTGAGACTCCGCCTCAAAAAGATTTAGGTTGCAAATGTTTCAAGCATGTGCAGT
TTTGTGTGTGTGTATACATATATATGGTCAGCATATATATTGTGCAGCTAGGGCGAAGCCAGCAGAGGTGTGTGTATGTCTTTATGAAAT
GTTTGAAAAGAGATAAACTGACTGCTTGATAATCACTCTCAGGTGTAAAGCTCCAAGTGTAAATAAAAGTGGCATTTAACAAATCTTTCA
GAACAAAGTACAGCTGACTATATATACCAAGAGCTAAGCTAAAGGAACAGCTGAGAGCTCCGATCTCCACGAGAGACTAATCTAAAAGCT
CTGCTTTGTACTTCCTCACCCTGCTTTCGTACAAGGAAGGGGGACGATGGGAAATCATGGACTTGTAAGTTGTATTTAAACATAAAAATG
AACTTGGTAACTTCTGGGTTTAGTAGAGCCTCAGTGTCGCTTTAACTTAGTTTACTTTTTTTTTATTTTTAAAGCAGCAATGGATGGTTT
TAAAGGAGTATTATGATTGTAAAATTGCTAAATATGACTGTAACACAGCTTTGTGGTAGCTGTGACACAGTTCACTTGGGCAAAGGAGTG
GTGATGGACTCGTTAAAATCATATATACTTGAATAGTCCATTGACCGAAACTCTTTATAGACTATTGTGTAAATGTGGAATCACAGACTG
TTAACATTGCCTGGACTTCAGCAGAGTCCTGGAGCTGCTGGGACCTCTCCTATCATGATGAACTTGGACTTTTTTTTTTGATTTCTGGTT
TTAAAAAACATAAAATTATAGAATCCAGATAATTCGCTGGAGTCATTCTGATCCACCATGTAGATCTGTATTTAGTATCATTTGGATTTG
GAGAAGTGTTGATTACATTATGGCTGTGTAATAAAATTTTTATTAAAACTGCATCACACTGTAGCCACTTTGCCACCACCTCCCCACATG
TAGCCGCTGAAACCCCCACGAGATGCCAATGCACACAGCAGGGAGAAAAGCCAACCAAAGAAGACCGAAGGGTATCTTTCCACCCGAGTA
GCCTCTGTAGTGATTGGGACCAAGACTAAGGACTTGTCTCCAATCTCAGCTGAGGCAGTGCCTCTGAACCAAGATCTTGGTCAGGCATTA
AGACACTGGCTTTGTCCTACCAACTAGGATTTCTTGGTGGTTCACACTATTTCTTGTGCTGGGGAATTCCCTCATTGGGCCCCTCCTCCC
TCCACAGTGTGGTTTCAGTGTTGAAGGGTGCAGCACCCAAGGTTGTTTTTATGCATTTTTTCAGTTCCTTCCAAGAAGCAAAAAGGCCAG
TGTCCATCTGCCTAGTTCATAATGTTTATAGGTCTGTTTGTCTGTCTTGCTTCTGGCAGGTGTAGGGAAAGTCTACTGCCTGCCACTCCC
TTCAAAAAGAATGTTTTTGCTTTTGTGAAGTCCTGACTTGCCACTCAAACTGTACCAATATTGTAAATAAATGTTATGCCATTTTAACAA

>61174_61174_7_NUSAP1-RTF1_NUSAP1_chr15_41625248_ENST00000560747_RTF1_chr15_41745099_ENST00000389629_length(amino acids)=638AA_BP=0
MIIPSLEELDSLKYSDLQNLAKSLGLRANLRWTFGSNKNKKKGKARKIEKKGTMKKQANKTASSGSSDKDSSAESSAPEEGEVSDSDSNS
SSSSSDSDSSSEDEEFHDGYGEDLMGDEEDRARLEQMTEKEREQELFNRIEKREVLKRRFEIKKKLKTAKKKEKKEKKKKQEEEQEKKKL
TQIQESQVTSHNKERRSKRDEKLDKKSQAMEELKAEREKRKNRTAELLAKKQPLKTSEVYSDDEEEEEDDKSSEKSDRSSRTSSSDEEEE
KEEIPPKSQPVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGN
DQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALNYKFNDQDIEEIVKEKERFRKAPPNYAMKKTQLLKEKAM
AEDLGDQDKAKQIQDQLNELEERAEALDRQRTKNISAISYINQRNREWNIVESEKALVAESHNMKNQQMDPFTRRQCKPTIVSNSRDPAV
QAAILAQLNAKYGSGVLPDAPKEMSKGQGKDKDLNSKSASDLSEDLFKVHDFDVKIDLQVPSSESKALAITSKAPPAKDGAPRRSLNLED

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Fusion Gene PPI Analysis for NUSAP1-RTF1


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
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000260359+111237_38231.0427.0microtubules
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000414849+111237_38231.0441.0microtubules
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000450592+19237_38231.0379.0microtubules
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000559596+111237_38231.0442.0microtubules
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560177+111237_38231.0441.0microtubules
HgeneNUSAP1chr15:41625248chr15:41745099ENST00000560747+111237_38231.0440.0microtubules


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 NUSAP1-RTF1


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 NUSAP1-RTF1


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