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Center for Computational Systems Medicine
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Fusion Gene and Fusion Protein Summary

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Fusion Amino Acid Sequences (multiple BPs and multiple gene isoforms)

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Fusion Protein Breakpoint Sequences - (for the Screening of the FusionNeoAntigens)

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Potential FusionNeoAntigens in HLA I - (netMHCpan v4.1 + deepHLApan v1.1)

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Potential FusionNeoAntigens in HLA II - (netMHCIIpan v4.1)

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Fusion Breakpoint 14 AA Peptide Structure - (RoseTTAFold)

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Filtering FusionNeoAntigens Through Checking the Interaction with HLAs in 3D - (Glide)

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Vaccine Design for the FusionNeoAntigens (RNA/protein sequences)

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Potential target of CAR-T therapy development

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Information on the samples that have these potential fusion neoantigens

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Fusion Protein Targeting Drugs - (Manual Curation)

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Fusion Protein Related diseases - (Manual Curation)

Fusion Protein:AKAP13-SPI1

Fusion Gene and Fusion Protein Summary

check button Fusion gene summary
Fusion partner gene informationFusion gene name: AKAP13-SPI1
FusionPDB ID: 3320
FusionGDB2.0 ID: 3320
HgeneTgene
Gene symbol

AKAP13

SPI1

Gene ID

11214

6688

Gene nameA-kinase anchoring protein 13Spi-1 proto-oncogene
SynonymsAKAP-13|AKAP-Lbc|ARHGEF13|BRX|HA-3|Ht31|LBC|PRKA13|PROTO-LB|PROTO-LBC|c-lbc|p47OF|PU.1|SFPI1|SPI-1|SPI-A
Cytomap

15q25.3

11p11.2

Type of geneprotein-codingprotein-coding
DescriptionA-kinase anchor protein 13A kinase (PRKA) anchor protein 13LBC oncogenebreast cancer nuclear receptor-binding auxiliary proteinguanine nucleotide exchange factor Lbchuman thyroid-anchoring protein 31lymphoid blast crisis oncogenenon-oncogenic Rho Gtranscription factor PU.131 kDa transforming proteinhematopoietic transcription factor PU.1spleen focus forming virus (SFFV) proviral integration oncogene spi1
Modification date2020031320200313
UniProtAcc

Q12802

Main function of 5'-partner protein: FUNCTION: Scaffold protein that plays an important role in assembling signaling complexes downstream of several types of G protein-coupled receptors. Activates RHOA in response to signaling via G protein-coupled receptors via its function as Rho guanine nucleotide exchange factor (PubMed:11546812, PubMed:15229649, PubMed:23090968, PubMed:25186459, PubMed:24993829). May also activate other Rho family members (PubMed:11546812). Part of a kinase signaling complex that links ADRA1A and ADRA1B adrenergic receptor signaling to the activation of downstream p38 MAP kinases, such as MAPK11 and MAPK14 (PubMed:17537920, PubMed:23716597, PubMed:21224381). Part of a signaling complex that links ADRA1B signaling to the activation of RHOA and IKBKB/IKKB, leading to increased NF-kappa-B transcriptional activity (PubMed:23090968). Part of a RHOA-dependent signaling cascade that mediates responses to lysophosphatidic acid (LPA), a signaling molecule that activates G-protein coupled receptors and potentiates transcriptional activation of the glucocorticoid receptor NR3C1 (PubMed:16469733). Part of a signaling cascade that stimulates MEF2C-dependent gene expression in response to lysophosphatidic acid (LPA) (By similarity). Part of a signaling pathway that activates MAPK11 and/or MAPK14 and leads to increased transcription activation of the estrogen receptors ESR1 and ESR2 (PubMed:9627117, PubMed:11579095). Part of a signaling cascade that links cAMP and EGFR signaling to BRAF signaling and to PKA-mediated phosphorylation of KSR1, leading to the activation of downstream MAP kinases, such as MAPK1 or MAPK3 (PubMed:21102438). Functions as scaffold protein that anchors cAMP-dependent protein kinase (PKA) and PRKD1. This promotes activation of PRKD1, leading to increased phosphorylation of HDAC5 and ultimately cardiomyocyte hypertrophy (By similarity). Has no guanine nucleotide exchange activity on CDC42, Ras or Rac (PubMed:11546812). Required for normal embryonic heart development, and in particular for normal sarcomere formation in the developing cardiomyocytes (By similarity). Plays a role in cardiomyocyte growth and cardiac hypertrophy in response to activation of the beta-adrenergic receptor by phenylephrine or isoproterenol (PubMed:17537920, PubMed:23090968). Required for normal adaptive cardiac hypertrophy in response to pressure overload (PubMed:23716597). Plays a role in osteogenesis (By similarity). {ECO:0000250|UniProtKB:E9Q394, ECO:0000269|PubMed:11546812, ECO:0000269|PubMed:11579095, ECO:0000269|PubMed:17537920, ECO:0000269|PubMed:21224381, ECO:0000269|PubMed:23716597, ECO:0000269|PubMed:24993829, ECO:0000269|PubMed:25186459, ECO:0000269|PubMed:9627117, ECO:0000269|PubMed:9891067}.
.
Ensembl transtripts involved in fusion geneENST idsENST00000361243, ENST00000394518, 
ENST00000394510, ENST00000560302, 
ENST00000560579, 
ENST00000533030, 
ENST00000533968, ENST00000227163, 
ENST00000378538, 
Fusion gene scores for assessment (based on all fusion genes of FusionGDB 2.0)* DoF score37 X 24 X 13=115445 X 5 X 3=75
# samples 416
** MAII scorelog2(41/11544*10)=-4.81537548498575
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
log2(6/75*10)=-0.321928094887362
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Fusion gene context

PubMed: AKAP13 [Title/Abstract] AND SPI1 [Title/Abstract] AND fusion [Title/Abstract]

Fusion neoantigen context

PubMed: AKAP13 [Title/Abstract] AND SPI1 [Title/Abstract] AND neoantigen [Title/Abstract]

Most frequent breakpoint (based on all fusion genes of FusionGDB 2.0)AKAP13(86129054)-SPI1(47380557), # samples:1
Anticipated loss of major functional domain due to fusion event.AKAP13-SPI1 seems lost the major protein functional domain in Hgene partner, which is a CGC by not retaining the major functional domain in the partially deleted in-frame ORF.
AKAP13-SPI1 seems lost the major protein functional domain in Hgene partner, which is a CGC by not retaining the major functional domain in the partially deleted in-frame ORF.
AKAP13-SPI1 seems lost the major protein functional domain in Hgene partner, which is a essential gene by not retaining the major functional domain in the partially deleted in-frame ORF.
AKAP13-SPI1 seems lost the major protein functional domain in Hgene partner, which is a essential gene by not retaining the major functional domain in the partially deleted in-frame ORF.
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

check button Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez
PartnerGeneGO IDGO termPubMed ID
HgeneAKAP13

GO:0007186

G protein-coupled receptor signaling pathway

11546812

HgeneAKAP13

GO:0035025

positive regulation of Rho protein signal transduction

11546812

TgeneSPI1

GO:0044027

hypermethylation of CpG island

20139074

TgeneSPI1

GO:0045814

negative regulation of gene expression, epigenetic

20139074

TgeneSPI1

GO:0045892

negative regulation of transcription, DNA-templated

20139074

TgeneSPI1

GO:0045893

positive regulation of transcription, DNA-templated

12833137

TgeneSPI1

GO:0061614

pri-miRNA transcription by RNA polymerase II

20972335

TgeneSPI1

GO:0070102

interleukin-6-mediated signaling pathway

24429361



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/chr15:86129054/chr11:47380557)
- 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 buttonRetention analysis results 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, are available here.

check buttonFusion gene breakpoints across AKAP13 (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 SPI1 (3'-gene)
* Click on the image to open the UCSC genome browser with custom track showing this image in a new window.
all structure


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Fusion Amino Acid Sequences


check buttonFusion information from ORFfinder translation from full-length transcript sequence from FusionPDB.
HenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrandSeq length
(transcript)
BP loci
(transcript)
Predicted start
(transcript)
Predicted stop
(transcript)
Seq length
(amino acids)
ENST00000394518AKAP13chr1586129054+ENST00000378538SPI1chr1147380557-510642569547381547
ENST00000394518AKAP13chr1586129054+ENST00000227163SPI1chr1147380557-505342569547381547
ENST00000361243AKAP13chr1586129054+ENST00000378538SPI1chr1147380557-509242428147241547
ENST00000361243AKAP13chr1586129054+ENST00000227163SPI1chr1147380557-503942428147241547

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
ENST00000394518ENST00000378538AKAP13chr1586129054+SPI1chr1147380557-0.0017511670.9982488
ENST00000394518ENST00000227163AKAP13chr1586129054+SPI1chr1147380557-0.0018997210.99810034
ENST00000361243ENST00000378538AKAP13chr1586129054+SPI1chr1147380557-0.0017166150.9982834
ENST00000361243ENST00000227163AKAP13chr1586129054+SPI1chr1147380557-0.0018677070.9981323

check button Predicted full-length fusion amino acid sequences. For individual full-length fusion transcript sequence from FusionPDB, we ran ORFfinder and chose the longest ORF among all the predicted ones.

Get the fusion protein sequences from here.

Fusion protein sequence information is available in the fasta format.
>FusionGDB ID_FusionGDB isoform ID_FGname_Hgene_Hchr_Hbp_Henst_Tgene_Tchr_Tbp_Tenst_length(fusion AA) seq_BP

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Fusion Protein Breakpoint Sequences for AKAP13-SPI1

check button +/-13 AA sequence from the breakpoints of the fusion protein sequences.
HgeneHchrHbpTgeneTchrTbpLength(fusion protein)BP in fusion proteinPeptide
AKAP13chr1586129054SPI1chr114738055742421387ATLKMKQGPMTQAVSYLPRMCLQYPS
AKAP13chr1586129054SPI1chr114738055742561387ATLKMKQGPMTQAVSYLPRMCLQYPS

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Potential FusionNeoAntigen Information of AKAP13-SPI1 in HLA I

check button Multiple sequence alignments of the potential FusionNeoAntigens per fusion breakpoints. If the MSA is empty, then it means that there were predicted fusion neoantigens in this fusion breakpoint, but those predicted fusion neoantigens were not across the breakpoint, which is not fusion-specific.
AKAP13-SPI1_86129054_47380557.msa

check button Potential FusionNeoAntigen Information
* We used NetMHCpan v4.1 (%rank<0.5) and deepHLApan v1.1 (immunogenic score>0.5)
Fusion geneHchrHbpTgeneTchrTbpHLA IFusionNeoAntigen peptideBinding scoreImmunogenic scoreNeoantigen start (at BP 13)Neoantigen end (at BP 13)
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:01GPMTQAVSY0.99610.58716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:08GPMTQAVSY0.98960.5945716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B48:01KQGPMTQAV0.98880.8509514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:02GPMTQAVSY0.97860.7272716
AKAP13-SPI1chr1586129054chr11473805574242HLA-A02:21KQGPMTQAV0.93720.7246514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B13:02KQGPMTQAV0.88610.9677514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B13:01KQGPMTQAV0.77070.9857514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B39:13KQGPMTQAV0.61960.9623514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B52:01KQGPMTQAV0.04190.9816514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:08QGPMTQAVSY0.88050.6843616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:01QGPMTQAVSY0.81780.6797616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:01KQGPMTQAVSY10.5997516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:25KQGPMTQAVSY0.99050.6841516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:08KQGPMTQAVSY0.87680.5393516
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:08QAVSYLPRM0.99870.78991120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:07QAVSYLPRM0.99860.93341120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:19QAVSYLPRM0.99850.97151120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C15:04QAVSYLPRM0.99840.84491120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:31GPMTQAVSY0.99570.542716
AKAP13-SPI1chr1586129054chr11473805574242HLA-A02:05KQGPMTQAV0.98180.6053514
AKAP13-SPI1chr1586129054chr11473805574242HLA-C12:12QAVSYLPRM0.98070.9131120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:21GPMTQAVSY0.97850.6421716
AKAP13-SPI1chr1586129054chr11473805574242HLA-C06:03QAVSYLPRM0.9640.98581120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C12:04QAVSYLPRM0.96380.98571120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:14QAVSYLPRM0.88220.96621120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B48:03KQGPMTQAV0.86730.7915514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:04KQGPMTQAV0.81420.9493514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B39:08KQGPMTQAV0.64040.9359514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:31QGPMTQAVSY0.8260.6616616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B42:01GPMTQAVSYL0.60740.5703717
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:04KQGPMTQAVSY0.99480.6758516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:05KQGPMTQAVSY0.95410.5475516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:11PMTQAVSY0.91060.8006816
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:24PMTQAVSY0.84660.6455816
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:04QAVSYLPRM0.99850.9711120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:02QAVSYLPRM0.99850.95251120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:03QAVSYLPRM0.99850.9711120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C15:09QAVSYLPRM0.99840.84491120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:77GPMTQAVSY0.99610.58716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:20GPMTQAVSY0.99540.67716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:23GPMTQAVSY0.99540.6056716
AKAP13-SPI1chr1586129054chr11473805574242HLA-C03:05QAVSYLPRM0.99340.83731120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C12:02QAVSYLPRM0.99160.94541120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C16:04QAVSYLPRM0.99110.96581120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C12:03QAVSYLPRM0.98560.96921120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B40:40KQGPMTQAV0.98550.5432514
AKAP13-SPI1chr1586129054chr11473805574242HLA-C16:01QAVSYLPRM0.97720.9591120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:11GPMTQAVSY0.9770.6384716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:24GPMTQAVSY0.97280.6054716
AKAP13-SPI1chr1586129054chr11473805574242HLA-C16:02QAVSYLPRM0.94810.98131120
AKAP13-SPI1chr1586129054chr11473805574242HLA-A02:06KQGPMTQAV0.93720.7246514
AKAP13-SPI1chr1586129054chr11473805574242HLA-A02:14KQGPMTQAV0.93720.6896514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:73KQGPMTQAV0.9250.9813514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B40:12KQGPMTQAV0.86730.7915514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:30KQGPMTQAV0.79320.9744514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:13GPMTQAVSY0.74890.5127716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B39:02KQGPMTQAV0.67430.9582514
AKAP13-SPI1chr1586129054chr11473805574242HLA-B40:21KQGPMTQAV0.65540.8039514
AKAP13-SPI1chr1586129054chr11473805574242HLA-C02:10QAVSYLPRM0.59850.92231120
AKAP13-SPI1chr1586129054chr11473805574242HLA-C02:02QAVSYLPRM0.59850.92231120
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:04GPMTQAVSY0.49380.6336716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:08GPMTQAVSY0.40340.5616716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:11GPMTQAVSY0.38550.5597716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:43GPMTQAVSY0.3420.5702716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:03GPMTQAVSY0.16060.6027716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:07GPMTQAVSY0.14080.537716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:06GPMTQAVSY0.14020.5905716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:08GPMTQAVSY0.10380.5817716
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:11QGPMTQAVSY0.98650.6197616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:08QGPMTQAVSY0.9850.609616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:43QGPMTQAVSY0.98380.6155616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:11QGPMTQAVSY0.90090.7121616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:77QGPMTQAVSY0.81780.6797616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:23QGPMTQAVSY0.81380.7077616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:20QGPMTQAVSY0.80490.7316616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:24QGPMTQAVSY0.77130.6814616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B67:01GPMTQAVSYL0.71390.6176717
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:17QGPMTQAVSY0.69340.5543616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:30QGPMTQAVSY0.69340.5543616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B18:07QGPMTQAVSY0.23970.6549616
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:33KQGPMTQAVSY10.5997516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:135KQGPMTQAVSY10.6459516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:125KQGPMTQAVSY10.5997516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:34KQGPMTQAVSY10.5997516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:27KQGPMTQAVSY10.6405516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:50KQGPMTQAVSY0.99990.609516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:24KQGPMTQAVSY0.99980.7673516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:53KQGPMTQAVSY0.99980.5782516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:12KQGPMTQAVSY0.99930.5908516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:54KQGPMTQAVSY0.99860.5453516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:35KQGPMTQAVSY0.99760.6224516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:39KQGPMTQAVSY0.99130.5602516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:11KQGPMTQAVSY0.97010.6266516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B15:20KQGPMTQAVSY0.95710.6141516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B35:28KQGPMTQAVSY0.94170.6202516
AKAP13-SPI1chr1586129054chr11473805574242HLA-B48:02KQGPMTQAVSY0.71610.5996516

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Potential FusionNeoAntigen Information of AKAP13-SPI1 in HLA II

check button Multiple sequence alignments of the potential FusionNeoAntigens per fusion breakpoints. If the MSA is empty, then it means that there were predicted fusion neoantigens in this fusion breakpoint, but those predicted fusion neoantigens were not across the breakpoint, which is not fusion-specific.

check button Potential FusionNeoAntigen Information
* We used NetMHCIIpan v4.1 (%rank<0.5).
Fusion geneHchrHbpTgeneTchrTbpHLA IIFusionNeoAntigen peptideNeoantigen start (at BP 13)Neoantigen end (at BP 13)

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Fusion breakpoint peptide structures of AKAP13-SPI1

check button3D structures of the fusion breakpoint peptide of 14AA sequence that have potential fusion neoantigens
* The minimum length of the amino acid sequence in RoseTTAFold is 14AA. Here, we predicted the 14AA fusion protein breakpoint sequence not the fusion neoantigen peptide, which is shorter than 14 AA.
File nameBPseqHgeneTgeneHchrHbpTchrTbpAAlen
7284QGPMTQAVSYLPRMAKAP13SPI1chr1586129054chr11473805574242

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Filtering FusionNeoAntigens Through Checking the Interaction with HLAs in 3D of AKAP13-SPI1

check buttonVirtual screening between 25 HLAs (from PDB) and FusionNeoAntigens
* We used Glide to predict the interaction between HLAs and neoantigens.
HLA allelePDB IDFile nameBPseqDocking scoreGlide score
HLA-B14:023BVN7284QGPMTQAVSYLPRM-5.42908-5.54248
HLA-B14:023BVN7284QGPMTQAVSYLPRM-5.06008-6.09538
HLA-B52:013W397284QGPMTQAVSYLPRM-9.1987-9.3121
HLA-B52:013W397284QGPMTQAVSYLPRM-7.53083-8.56613
HLA-A11:014UQ27284QGPMTQAVSYLPRM-8.87547-8.98887
HLA-A24:025HGA7284QGPMTQAVSYLPRM-7.78065-7.89405
HLA-A24:025HGA7284QGPMTQAVSYLPRM-7.11918-8.15448
HLA-B27:056PYJ7284QGPMTQAVSYLPRM-7.64943-7.76283
HLA-B27:056PYJ7284QGPMTQAVSYLPRM-6.50173-7.53703
HLA-B44:053DX87284QGPMTQAVSYLPRM-7.26947-7.38287
HLA-B44:053DX87284QGPMTQAVSYLPRM-6.09544-7.13074

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Vaccine Design for the FusionNeoAntigens of AKAP13-SPI1

check button mRNA and peptide sequences of FusionNeoAntigens that have potential interaction with HLA-Is.
Fusion geneHchrHbpTchrTbpStart in +/-13AAEnd in +/-13AAFusionNeoAntigen peptide sequenceFusionNeoAntigen RNA sequence
AKAP13-SPI1chr1586129054chr11473805571120QAVSYLPRMCAGGCGGTCTCCTACCTGCCCCGGATG
AKAP13-SPI1chr1586129054chr1147380557514KQGPMTQAVAAGCAAGGCCCAATGACCCAGGCGGTC
AKAP13-SPI1chr1586129054chr1147380557516KQGPMTQAVSYAAGCAAGGCCCAATGACCCAGGCGGTCTCCTAC
AKAP13-SPI1chr1586129054chr1147380557616QGPMTQAVSYCAAGGCCCAATGACCCAGGCGGTCTCCTAC
AKAP13-SPI1chr1586129054chr1147380557716GPMTQAVSYGGCCCAATGACCCAGGCGGTCTCCTAC
AKAP13-SPI1chr1586129054chr1147380557717GPMTQAVSYLGGCCCAATGACCCAGGCGGTCTCCTACCTG
AKAP13-SPI1chr1586129054chr1147380557816PMTQAVSYCCAATGACCCAGGCGGTCTCCTAC

check button mRNA and peptide sequences of FusionNeoAntigens that have potential interaction with HLA-IIs.
Fusion geneHchrHbpTchrTbpStart in +/-13AAEnd in +/-13AAFusionNeoAntigen peptideFusionNEoAntigen RNA sequence

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Information of the samples that have these potential fusion neoantigens of AKAP13-SPI1

check button These samples were reported as having these fusion breakpoints. For individual breakpoints, we checked the open reading frames considering multiple gene isoforms and chose the in-frame fusion genes only. Then, we made fusion protein sequences and predicted the fusion neoantigens. These fusion-positive samples may have these potential fusion neoantigens.
Cancer typeFusion geneHchrHbpHenstTchrTbpTenstSample
OVAKAP13-SPI1chr1586129054ENST00000361243chr1147380557ENST00000227163TCGA-30-1866

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Potential target of CAR-T therapy development for AKAP13-SPI1

check button Predicted 3D structure. We used RoseTTAFold.

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, to provide the retention of the transmembrane domain, we only show the protein feature retention information of those transmembrane features


* Minus value of BPloci means that the break point is located before the CDS.
- In-frame and retained 'Transmembrane'.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note

check button Subcellular localization prediction of the transmembrane domain retained fusion proteins
* We used DeepLoc 1.0. The order of the X-axis of the barplot is as follows: Entry_ID, Localization, Type, Nucleus, Cytoplasm, Extracellular, Mitochondrion, Cell_membrane, Endoplasmic_reticulum, Plastid, Golgi.apparatus, Lysosome.Vacuole, Peroxisome. Y-axis is the output score of DeepLoc. Clicking the image will open a new tab with a large image.
HgeneHchrHbpHenstTgeneTchrTbpTenstDeepLoc result

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Related Drugs to AKAP13-SPI1

check button Drugs used for this fusion-positive patient.
(Manual curation of PubMed, 04-30-2022 + MyCancerGenome)
HgeneTgeneDrugSourcePMID

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Related Diseases to AKAP13-SPI1

check button Diseases that have this fusion gene.
(Manual curation of PubMed, 04-30-2022 + MyCancerGenome)
HgeneTgeneDiseaseSourcePMID

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