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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 Diseases

Fusion gene:ALDH1A2-ADAM10 (FusionGDB2 ID:HG8854TG102)

Fusion Gene Summary for ALDH1A2-ADAM10

check button Fusion gene summary
Fusion gene informationFusion gene name: ALDH1A2-ADAM10
Fusion gene ID: hg8854tg102
HgeneTgene
Gene symbol

ALDH1A2

ADAM10

Gene ID

8854

102

Gene namealdehyde dehydrogenase 1 family member A2ADAM metallopeptidase domain 10
SynonymsRALDH(II)|RALDH2|RALDH2-TAD10|AD18|CD156c|CDw156|HsT18717|MADM|RAK|kuz
Cytomap('ALDH1A2')('ADAM10')

15q21.3

15q21.3

Type of geneprotein-codingprotein-coding
Descriptionretinal dehydrogenase 2RALDH 2retinaldehyde-specific dehydrogenase type 2disintegrin and metalloproteinase domain-containing protein 10a disintegrin and metalloprotease domain 10kuzbanian protein homologmammalian disintegrin-metalloprotease
Modification date2020031320200329
UniProtAcc..
Ensembl transtripts involved in fusion geneENST00000249750, ENST00000347587, 
ENST00000537372, ENST00000558231, 
ENST00000559517, ENST00000559579, 
ENST00000249750, ENST00000347587, 
ENST00000537372, ENST00000558231, 
ENST00000559517, ENST00000559579, 
Fusion gene scores* DoF score2 X 3 X 3=1812 X 10 X 8=960
# samples 313
** MAII scorelog2(3/18*10)=0.736965594166206
effective Gene in Pan-Cancer Fusion Genes (eGinPCFGs).
DoF>8 and MAII>0
log2(13/960*10)=-2.88452278258006
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: ALDH1A2 [Title/Abstract] AND ADAM10 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointALDH1A2(58302847)-ADAM10(59009926), # samples:1
ALDH1A2(58623378)-ADAM10(58891923), # samples:1
Anticipated loss of major functional domain due to fusion event.ALDH1A2-ADAM10 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.
ALDH1A2-ADAM10 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
HgeneALDH1A2

GO:0002138

retinoic acid biosynthetic process

29240402

HgeneALDH1A2

GO:0008285

negative regulation of cell proliferation

16166285

HgeneALDH1A2

GO:0034097

response to cytokine

18495959

HgeneALDH1A2

GO:0051289

protein homotetramerization

29240402

TgeneADAM10

GO:0006509

membrane protein ectodomain proteolysis

12714508|17557115|18355449|18419754|18676862|19114711

TgeneADAM10

GO:0007162

negative regulation of cell adhesion

12714508

TgeneADAM10

GO:0034612

response to tumor necrosis factor

11831872

TgeneADAM10

GO:0051089

constitutive protein ectodomain proteolysis

12714508


check buttonFusion gene breakpoints across ALDH1A2 (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 ADAM10 (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
* 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
ChimerDB4OVTCGA-61-1736-01BALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
ChimerDB4SKCMTCGA-ER-A19C-06AALDH1A2chr15

58623378

-ADAM10chr15

58891923

-


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Fusion Gene ORF analysis for ALDH1A2-ADAM10

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-5UTRENST00000249750ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-5UTRENST00000347587ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-5UTRENST00000537372ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-5UTRENST00000558231ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-5UTRENST00000559517ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000249750ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000249750ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000249750ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000347587ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000347587ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000347587ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000537372ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000537372ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000537372ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000558231ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000558231ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000558231ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000559517ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000559517ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
5CDS-intronENST00000559517ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
In-frameENST00000249750ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
In-frameENST00000347587ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
In-frameENST00000537372ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
In-frameENST00000558231ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
In-frameENST00000559517ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-3CDSENST00000249750ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-3CDSENST00000347587ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-3CDSENST00000537372ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-3CDSENST00000558231ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-3CDSENST00000559517ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-3CDSENST00000559579ENST00000260408ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-3CDSENST00000559579ENST00000260408ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-5UTRENST00000559579ENST00000558733ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-intronENST00000249750ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000249750ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000249750ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000249750ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000347587ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000347587ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000347587ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000347587ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000537372ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000537372ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000537372ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000537372ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000558231ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000558231ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000558231ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000558231ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559517ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559517ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559517ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559517ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559579ENST00000396140ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-intronENST00000559579ENST00000396140ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559579ENST00000402627ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-intronENST00000559579ENST00000402627ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559579ENST00000558733ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-
intron-intronENST00000559579ENST00000561288ALDH1A2chr15

58302847

-ADAM10chr15

59009926

-
intron-intronENST00000559579ENST00000561288ALDH1A2chr15

58623378

-ADAM10chr15

58891923

-

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)
ENST00000249750ALDH1A2chr1558302847-ENST00000260408ADAM10chr1559009926-579612616723452926
ENST00000347587ALDH1A2chr1558302847-ENST00000260408ADAM10chr1559009926-5116581882772894
ENST00000537372ALDH1A2chr1558302847-ENST00000260408ADAM10chr1559009926-51436081782799873
ENST00000558231ALDH1A2chr1558302847-ENST00000260408ADAM10chr1559009926-5001466182657879
ENST00000559517ALDH1A2chr1558302847-ENST00000260408ADAM10chr1559009926-49093741362565809

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
ENST00000249750ENST00000260408ALDH1A2chr1558302847-ADAM10chr1559009926-0.0002098730.99979013
ENST00000347587ENST00000260408ALDH1A2chr1558302847-ADAM10chr1559009926-0.0001910410.99980897
ENST00000537372ENST00000260408ALDH1A2chr1558302847-ADAM10chr1559009926-7.32E-050.9999268
ENST00000558231ENST00000260408ALDH1A2chr1558302847-ADAM10chr1559009926-0.0001146430.9998853
ENST00000559517ENST00000260408ALDH1A2chr1558302847-ADAM10chr1559009926-0.00019330.9998067

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Fusion Genomic Features for ALDH1A2-ADAM10


check buttonFusionAI prediction of the potential fusion gene breakpoint based on the pre-mature RNA sequence context (+/- 5kb of individual partner genes, total 20kb length sequence). FusionAI is a fusion gene breakpoint classifier based on convolutional neural network by comparing the fusion positive and negative sequence context of ~ 20K fusion gene data. From here, we can have the relative potentency of the 20K genomic sequence how individual sequnce will be likely used as the gene fusion breakpoints.
HgeneHchrHbpHstrandTgeneTchrTbpTstrand1-pp (fusion gene breakpoint)

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

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Fusion Protein Features for ALDH1A2-ADAM10


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/chr15:58302847/chr15:59009926)
- 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
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016555_67318749.0Compositional biasCys-rich
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016220_45618749.0DomainPeptidase M12B
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016457_55118749.0DomainDisintegrin
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016171_17818749.0MotifCysteine switch
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016708_71518749.0MotifSH3-binding
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016722_72818749.0MotifSH3-binding
TgeneADAM10chr15:58302847chr15:59009926ENST0000026040801620_67218749.0Topological domainExtracellular
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016694_74818749.0Topological domainCytoplasmic
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016673_69318749.0TransmembraneHelical

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000249750-413184_186164519.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000249750-413210_213164519.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000249750-413264_266164519.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000249750-413366_370164519.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000347587-412184_186164481.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000347587-412210_213164481.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000347587-412264_266164481.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000347587-412366_370164481.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000537372-514184_186143498.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000537372-514210_213143498.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000537372-514264_266143498.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000537372-514366_370143498.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000559517-211184_18668423.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000559517-211210_21368423.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000559517-211264_26668423.0Nucleotide bindingNAD
HgeneALDH1A2chr15:58302847chr15:59009926ENST00000559517-211366_37068423.0Nucleotide bindingNAD


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Fusion Gene Sequence for ALDH1A2-ADAM10


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.
>3847_3847_1_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000249750_ADAM10_chr15_59009926_ENST00000260408_length(transcript)=5796nt_BP=1261nt
ATTCTGAGCCCGAGGCGAGGGGGACTCGCACCCACTGCCACCTCTCCCTGACCCTCTGGCCACCATGCACCTCGGCCCGGCTGAGGGGAG
TCGGGGGGTCGGGGGAGAGGGCGTAGCTGCCGAGAGCCTGGCGCCCCTGCCCGGAGGAGGAGAACGGAGGACGCCCTCCCGGGTCTCCGG
AAAGGAAGGGGGACGGGGTTCGGTGGGTCCTGGGACGGGGATGGGAGGGAACGTGGGCGAGCTGGGAGCCGCCCTCCGCAGCCTGGACTT
TCCTGGCCTTTCTCTACTCCGAAGCAGCACCGGGCCGCTCCGGTCCCCGCCAGCCCCTGCCAGCTCCGCTTCCGGGGGCCACGACCCTCG
CTCGACTTCGGCCGCTGTGCGCCTCCCGCCGACTCTGACCCAGGGACCCGGAGACCAAGTCCGGCTGGCCGAGGCCCGCGGGCCGCGGCG
CAAGTTCCGCTCCCACCGTCGAGGACTGTGGAGGCGGCGTGGGCTGGTCTCCGCGGCCGGGGGGCGGGAGCGCCGGGCGGACTTGACCGT
GGGCGCCAAGCGTCCCGGCCGCGCGGCGCGGGCTTTATGTAAATGGAGGCTGCGCCGGGCGTCCTAGGTAGGATGGACCAGCCCCCCGCG
CCTCGGCCCTCACGTCCAATAAGAAGAGCCCCAGCTTGACACCTGCCTATATACAGGCGAGCGCGCCCCCGGGCCGCGGACCGCGCGCAC
AGCCCGCACTGCCCCACGCCGCGGGCTAGGGACACCCGGCCCGCCACCATGACTTCCAGCAAGATAGAGATGCCCGGCGAGGTGAAGGCC
GACCCCGCCGCCCTCATGGCGTCGCTGCACCTCCTGCCGTCGCCCACGCCCAATCTCGAAATTAAGTACACCAAGATCTTTATAAACAAC
GAGTGGCAGAACTCAGAGAGTGGGAGAGTGTTCCCTGTCTATAATCCAGCCACAGGAGAACAGGTGTGTGAAGTTCAAGAAGCAGACAAG
GCAGATATAGACAAAGCAGTGCAGGCAGCCCGCCTGGCTTTCTCTCTTGGTTCAGTGTGGAGAAGGATGGATGCTTCAGAAAGGGGACGT
CTGTTGGATAAGCTTGCAGACTTGGTGGAACGGGACAGGGCAGTTCTTGCAACCATGGAATCCCTAAATGGTGGCAAACCATTCCTGCAA
GCTTTTTATGTGGATTTGCAGGGCGTCATCAAAACCTTTCGATATTACGCAGGCTGGGCTGATAAAATTCATGGGATGACCATTCCTGTA
GGTCAGTATGGGAATCCTTTAAATAAATATATCAGACATTATGAAGGATTATCTTACAATGTGGATTCATTACACCAAAAACACCAGCGT
GCCAAAAGAGCAGTCTCACATGAAGACCAATTTTTACGTCTAGATTTCCATGCCCATGGAAGACATTTCAACCTACGAATGAAGAGGGAC
ACTTCCCTTTTCAGTGATGAATTTAAAGTAGAAACATCAAATAAAGTACTTGATTATGATACCTCTCATATTTACACTGGACATATTTAT
GGTGAAGAAGGAAGTTTTAGCCATGGGTCTGTTATTGATGGAAGATTTGAAGGATTCATCCAGACTCGTGGTGGCACATTTTATGTTGAG
CCAGCAGAGAGATATATTAAAGACCGAACTCTGCCATTTCACTCTGTCATTTATCATGAAGATGATATTAACTATCCCCATAAATACGGT
CCTCAGGGGGGCTGTGCAGATCATTCAGTATTTGAAAGAATGAGGAAATACCAGATGACTGGTGTAGAGGAAGTAACACAGATACCTCAA
GAAGAACATGCTGCTAATGGTCCAGAACTTCTGAGGAAAAAACGTACAACTTCAGCTGAAAAAAATACTTGTCAGCTTTATATTCAGACT
GATCATTTGTTCTTTAAATATTACGGAACACGAGAAGCTGTGATTGCCCAGATATCCAGTCATGTTAAAGCGATTGATACAATTTACCAG
ACCACAGACTTCTCCGGAATCCGTAACATCAGTTTCATGGTGAAACGCATAAGAATCAATACAACTGCTGATGAGAAGGACCCTACAAAT
CCTTTCCGTTTCCCAAATATTGGTGTGGAGAAGTTTCTGGAATTGAATTCTGAGCAGAATCATGATGACTACTGTTTGGCCTATGTCTTC
ACAGACCGAGATTTTGATGATGGCGTACTTGGTCTGGCTTGGGTTGGAGCACCTTCAGGAAGCTCTGGAGGAATATGTGAAAAAAGTAAA
CTCTATTCAGATGGTAAGAAGAAGTCCTTAAACACTGGAATTATTACTGTTCAGAACTATGGGTCTCATGTACCTCCCAAAGTCTCTCAC
ATTACTTTTGCTCACGAAGTTGGACATAACTTTGGATCCCCACATGATTCTGGAACAGAGTGCACACCAGGAGAATCTAAGAATTTGGGT
CAAAAAGAAAATGGCAATTACATCATGTATGCAAGAGCAACATCTGGGGACAAACTTAACAACAATAAATTCTCACTCTGTAGTATTAGA
AATATAAGCCAAGTTCTTGAGAAGAAGAGAAACAACTGTTTTGTTGAATCTGGCCAACCTATTTGTGGAAATGGAATGGTAGAACAAGGT
GAAGAATGTGATTGTGGCTATAGTGACCAGTGTAAAGATGAATGCTGCTTCGATGCAAATCAACCAGAGGGAAGAAAATGCAAACTGAAA
CCTGGGAAACAGTGCAGTCCAAGTCAAGGTCCTTGTTGTACAGCACAGTGTGCATTCAAGTCAAAGTCTGAGAAGTGTCGGGATGATTCA
GACTGTGCAAGGGAAGGAATATGTAATGGCTTCACAGCTCTCTGCCCAGCATCTGACCCTAAACCAAACTTCACAGACTGTAATAGGCAT
ACACAAGTGTGCATTAATGGGCAATGTGCAGGTTCTATCTGTGAGAAATATGGCTTAGAGGAGTGTACGTGTGCCAGTTCTGATGGCAAA
GATGATAAAGAATTATGCCATGTATGCTGTATGAAGAAAATGGACCCATCAACTTGTGCCAGTACAGGGTCTGTGCAGTGGAGTAGGCAC
TTCAGTGGTCGAACCATCACCCTGCAACCTGGATCCCCTTGCAACGATTTTAGAGGTTACTGTGATGTTTTCATGCGGTGCAGATTAGTA
GATGCTGATGGTCCTCTAGCTAGGCTTAAAAAAGCAATTTTTAGTCCAGAGCTCTATGAAAACATTGCTGAATGGATTGTGGCTCATTGG
TGGGCAGTATTACTTATGGGAATTGCTCTGATCATGCTAATGGCTGGATTTATTAAGATATGCAGTGTTCATACTCCAAGTAGTAATCCA
AAGTTGCCTCCTCCTAAACCACTTCCAGGCACTTTAAAGAGGAGGAGACCTCCACAGCCCATTCAGCAACCCCAGCGTCAGCGGCCCCGA
GAGAGTTATCAAATGGGACACATGAGACGCTAACTGCAGCTTTTGCCTTGGTTCTTCCTAGTGCCTACAATGGGAAAACTTCACTCCAAA
GAGAAACCTATTAAGTCATCATCTCCAAACTAAACCCTCACAAGTAACAGTTGAAGAAAAAATGGCAAGAGATCATATCCTCAGACCAGG
TGGAATTACTTAAATTTTAAAGCCTGAAAATTCCAATTTGGGGGTGGGAGGTGGAAAAGGAACCCAATTTTCTTATGAACAGATATTTTT
AACTTAATGGCACAAAGTCTTAGAATATTATTATGTGCCCCGTGTTCCCTGTTCTTCGTTGCTGCATTTTCTTCACTTGCAGGCAAACTT
GGCTCTCAATAAACTTTTACCACAAATTGAAATAAATATATTTTTTTCAACTGCCAATCAAGGCTAGGAGGCTCGACCACCTCAACATTG
GAGACATCACTTGCCAATGTACATACCTTGTTATATGCAGACATGTATTTCTTACGTACACTGTACTTCTGTGTGCAATTGTAAACAGAA
ATTGCAATATGGATGTTTCTTTGTATTATAAAATTTTTCCGCTCTTAATTAAAAATTACTGTTTAATTGACATACTCAGGATAACAGAGA
ATGGTGGTATTCAGTGGTCCAGGATTCTGTAATGCTTTACACAGGCAGTTTTGAAATGAAAATCAATTTACCTTTCTGTTACGATGGAGT
TGGTTTTGATACTCATTTTTTCTTTATCACATGGCTGCTACGGGCACAAGTGACTATACTGAAGAACACAGTTAAGTGTTGTGCAAACTG
GACATAGCAGCACATACTACTTCAGAGTTCATGATGTAGATGTCTGGTTTCTGCTTACGTCTTTTAAACTTTCTAATTCAATTCCATTTT
TCAATTAATAGGTGAAATTTTATTCATGCTTTGATAGAAATTATGTCAATGAAATGATTCTTTTTATTTGTAGCCTACTTATTTGTGTTT
TTCATATATCTGAAATATGCTAATTATGTTTTCTGTCTGATATGGAAAAGAAAAGCTGTGTCTTTATCAAAATATTTAAACGGTTTTTTC
AGCATATCATCACTGATCATTGGTAACCACTAAAGATGAGTAATTTGCTTAAGTAGTAGTTAAAATTGTAGATAGGCCTTCTGACATTTT
TTTTCCTAAAATTTTTAACAGCATTGAAGGTGAAACAGCACAATGTCCCATTCCAAATTTATTTTTGAAACAGATGTAAATAATTGGCAT
TTTAAAGAGAAAGCAAAAACATTTAATGTATTAACAGGCTTATTGCTATGCAGGAAATAGAAGGGGCATTACAAAAATTGAAGCTTGTGA
CATATTTATTGCTTCTGTTTTCCAACTACATCACTTCAACTAGAAGTAAAGCTATGATTTTCCTGACTTCACATAGGAGGCAAATTTAGA
GAAAGTTGTAAAGATTTCTATGTTTTGGGTTTTTTTTTTTCCTTTTTTTTTTTAAGAGTATAAGGTTTACACAATCATTCTCATAATGTG
ACGCAAGCCAGCAAGGCCAAAAATGCTAGAGAAAATAACGGGATCTCTTCCTTGTAAACTTGTACAGTATGTGGTGACTTTTTCAAAATA
CAGCTTTTTGTACATGATTTAGAGACAAATTTTGTACATGAAACCCCAGATAGACTATAAATAATTCTAAACAAACAAGTAGGTAGATAT
GTATGTAATTGCTTTTAAATCATTTAAATGCCTTTGTTTTTGGACTGTGCAAAGGTTGGAAGTGGGTTTGCATTTCTAAAATGGTGACTT
TTATTCTGCAAGAGTTCTTAGTAACTTCTTGAGTGTGGTAGACTTTGGAACATGTAAATTTTTTGCTTGTAATGTTATCCTGTGGTAGGA
TTTTGGCAGGTACACACACTGCCCTATTTTATTTTGAGTCTAAGTTAAATGTTTTCTGAAAAGAGATACATGCACTGAACTCTTTCCACT
GCGAATCAAGATGTGGTAATATAAAAGGATCAAGACAAATGAGATCTAATACTACTGTCAGTTTTAATGTCCACTGTGTTTTATACAGTA
TCTTTTTTTGTTCACTTTGGAAATTTTTACTAAAAATTGCAAAAAATAAAGTATTGTGCAAAGATGTAAGGTTTTTTGAAACTTGAAATG
CATTAATAAATAGACGATTAAATCAACTTGAAGGTTCTATACTCTTTGAACTCTGAGAACTATCACAAGAAGCTTCCCACAAGGCAGTGT
TTTCTTACAGTTGTCTCTTCCTACAAAAGTATAGATTATCTTTATTCTTAATACTTTGGAATCCATGTAGAAAATTTCCAGTTAGATACT

>3847_3847_1_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000249750_ADAM10_chr15_59009926_ENST00000260408_length(amino acids)=926AA_BP=196
MPIYRRARPRAADRAHSPHCPTPRARDTRPATMTSSKIEMPGEVKADPAALMASLHLLPSPTPNLEIKYTKIFINNEWQNSESGRVFPVY
NPATGEQVCEVQEADKADIDKAVQAARLAFSLGSVWRRMDASERGRLLDKLADLVERDRAVLATMESLNGGKPFLQAFYVDLQGVIKTFR
YYAGWADKIHGMTIPVGQYGNPLNKYIRHYEGLSYNVDSLHQKHQRAKRAVSHEDQFLRLDFHAHGRHFNLRMKRDTSLFSDEFKVETSN
KVLDYDTSHIYTGHIYGEEGSFSHGSVIDGRFEGFIQTRGGTFYVEPAERYIKDRTLPFHSVIYHEDDINYPHKYGPQGGCADHSVFERM
RKYQMTGVEEVTQIPQEEHAANGPELLRKKRTTSAEKNTCQLYIQTDHLFFKYYGTREAVIAQISSHVKAIDTIYQTTDFSGIRNISFMV
KRIRINTTADEKDPTNPFRFPNIGVEKFLELNSEQNHDDYCLAYVFTDRDFDDGVLGLAWVGAPSGSSGGICEKSKLYSDGKKKSLNTGI
ITVQNYGSHVPPKVSHITFAHEVGHNFGSPHDSGTECTPGESKNLGQKENGNYIMYARATSGDKLNNNKFSLCSIRNISQVLEKKRNNCF
VESGQPICGNGMVEQGEECDCGYSDQCKDECCFDANQPEGRKCKLKPGKQCSPSQGPCCTAQCAFKSKSEKCRDDSDCAREGICNGFTAL
CPASDPKPNFTDCNRHTQVCINGQCAGSICEKYGLEECTCASSDGKDDKELCHVCCMKKMDPSTCASTGSVQWSRHFSGRTITLQPGSPC
NDFRGYCDVFMRCRLVDADGPLARLKKAIFSPELYENIAEWIVAHWWAVLLMGIALIMLMAGFIKICSVHTPSSNPKLPPPKPLPGTLKR

--------------------------------------------------------------
>3847_3847_2_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000347587_ADAM10_chr15_59009926_ENST00000260408_length(transcript)=5116nt_BP=581nt
ATACAGGCGAGCGCGCCCCCGGGCCGCGGACCGCGCGCACAGCCCGCACTGCCCCACGCCGCGGGCTAGGGACACCCGGCCCGCCACCAT
GACTTCCAGCAAGATAGAGATGCCCGGCGAGGTGAAGGCCGACCCCGCCGCCCTCATGGCGTCGCTGCACCTCCTGCCGTCGCCCACGCC
CAATCTCGAAATTAAGTACACCAAGATCTTTATAAACAACGAGTGGCAGAACTCAGAGAGTGGGAGAGTGTTCCCTGTCTATAATCCAGC
CACAGGAGAACAGGTGTGTGAAGTTCAAGAAGCAGACAAGGCAGATATAGACAAAGCAGTGCAGGCAGCCCGCCTGGCTTTCTCTCTTGG
TTCAGTGTGGAGAAGGATGGATGCTTCAGAAAGGGGACGTCTGTTGGATAAGCTTGCAGACTTGGTGGAACGGGACAGGGCAGTTCTTGC
AACCATGGAATCCCTAAATGGTGGCAAACCATTCCTGCAAGCTTTTTATGTGGATTTGCAGGGCGTCATCAAAACCTTTCGATATTACGC
AGGCTGGGCTGATAAAATTCATGGGATGACCATTCCTGTAGGTCAGTATGGGAATCCTTTAAATAAATATATCAGACATTATGAAGGATT
ATCTTACAATGTGGATTCATTACACCAAAAACACCAGCGTGCCAAAAGAGCAGTCTCACATGAAGACCAATTTTTACGTCTAGATTTCCA
TGCCCATGGAAGACATTTCAACCTACGAATGAAGAGGGACACTTCCCTTTTCAGTGATGAATTTAAAGTAGAAACATCAAATAAAGTACT
TGATTATGATACCTCTCATATTTACACTGGACATATTTATGGTGAAGAAGGAAGTTTTAGCCATGGGTCTGTTATTGATGGAAGATTTGA
AGGATTCATCCAGACTCGTGGTGGCACATTTTATGTTGAGCCAGCAGAGAGATATATTAAAGACCGAACTCTGCCATTTCACTCTGTCAT
TTATCATGAAGATGATATTAACTATCCCCATAAATACGGTCCTCAGGGGGGCTGTGCAGATCATTCAGTATTTGAAAGAATGAGGAAATA
CCAGATGACTGGTGTAGAGGAAGTAACACAGATACCTCAAGAAGAACATGCTGCTAATGGTCCAGAACTTCTGAGGAAAAAACGTACAAC
TTCAGCTGAAAAAAATACTTGTCAGCTTTATATTCAGACTGATCATTTGTTCTTTAAATATTACGGAACACGAGAAGCTGTGATTGCCCA
GATATCCAGTCATGTTAAAGCGATTGATACAATTTACCAGACCACAGACTTCTCCGGAATCCGTAACATCAGTTTCATGGTGAAACGCAT
AAGAATCAATACAACTGCTGATGAGAAGGACCCTACAAATCCTTTCCGTTTCCCAAATATTGGTGTGGAGAAGTTTCTGGAATTGAATTC
TGAGCAGAATCATGATGACTACTGTTTGGCCTATGTCTTCACAGACCGAGATTTTGATGATGGCGTACTTGGTCTGGCTTGGGTTGGAGC
ACCTTCAGGAAGCTCTGGAGGAATATGTGAAAAAAGTAAACTCTATTCAGATGGTAAGAAGAAGTCCTTAAACACTGGAATTATTACTGT
TCAGAACTATGGGTCTCATGTACCTCCCAAAGTCTCTCACATTACTTTTGCTCACGAAGTTGGACATAACTTTGGATCCCCACATGATTC
TGGAACAGAGTGCACACCAGGAGAATCTAAGAATTTGGGTCAAAAAGAAAATGGCAATTACATCATGTATGCAAGAGCAACATCTGGGGA
CAAACTTAACAACAATAAATTCTCACTCTGTAGTATTAGAAATATAAGCCAAGTTCTTGAGAAGAAGAGAAACAACTGTTTTGTTGAATC
TGGCCAACCTATTTGTGGAAATGGAATGGTAGAACAAGGTGAAGAATGTGATTGTGGCTATAGTGACCAGTGTAAAGATGAATGCTGCTT
CGATGCAAATCAACCAGAGGGAAGAAAATGCAAACTGAAACCTGGGAAACAGTGCAGTCCAAGTCAAGGTCCTTGTTGTACAGCACAGTG
TGCATTCAAGTCAAAGTCTGAGAAGTGTCGGGATGATTCAGACTGTGCAAGGGAAGGAATATGTAATGGCTTCACAGCTCTCTGCCCAGC
ATCTGACCCTAAACCAAACTTCACAGACTGTAATAGGCATACACAAGTGTGCATTAATGGGCAATGTGCAGGTTCTATCTGTGAGAAATA
TGGCTTAGAGGAGTGTACGTGTGCCAGTTCTGATGGCAAAGATGATAAAGAATTATGCCATGTATGCTGTATGAAGAAAATGGACCCATC
AACTTGTGCCAGTACAGGGTCTGTGCAGTGGAGTAGGCACTTCAGTGGTCGAACCATCACCCTGCAACCTGGATCCCCTTGCAACGATTT
TAGAGGTTACTGTGATGTTTTCATGCGGTGCAGATTAGTAGATGCTGATGGTCCTCTAGCTAGGCTTAAAAAAGCAATTTTTAGTCCAGA
GCTCTATGAAAACATTGCTGAATGGATTGTGGCTCATTGGTGGGCAGTATTACTTATGGGAATTGCTCTGATCATGCTAATGGCTGGATT
TATTAAGATATGCAGTGTTCATACTCCAAGTAGTAATCCAAAGTTGCCTCCTCCTAAACCACTTCCAGGCACTTTAAAGAGGAGGAGACC
TCCACAGCCCATTCAGCAACCCCAGCGTCAGCGGCCCCGAGAGAGTTATCAAATGGGACACATGAGACGCTAACTGCAGCTTTTGCCTTG
GTTCTTCCTAGTGCCTACAATGGGAAAACTTCACTCCAAAGAGAAACCTATTAAGTCATCATCTCCAAACTAAACCCTCACAAGTAACAG
TTGAAGAAAAAATGGCAAGAGATCATATCCTCAGACCAGGTGGAATTACTTAAATTTTAAAGCCTGAAAATTCCAATTTGGGGGTGGGAG
GTGGAAAAGGAACCCAATTTTCTTATGAACAGATATTTTTAACTTAATGGCACAAAGTCTTAGAATATTATTATGTGCCCCGTGTTCCCT
GTTCTTCGTTGCTGCATTTTCTTCACTTGCAGGCAAACTTGGCTCTCAATAAACTTTTACCACAAATTGAAATAAATATATTTTTTTCAA
CTGCCAATCAAGGCTAGGAGGCTCGACCACCTCAACATTGGAGACATCACTTGCCAATGTACATACCTTGTTATATGCAGACATGTATTT
CTTACGTACACTGTACTTCTGTGTGCAATTGTAAACAGAAATTGCAATATGGATGTTTCTTTGTATTATAAAATTTTTCCGCTCTTAATT
AAAAATTACTGTTTAATTGACATACTCAGGATAACAGAGAATGGTGGTATTCAGTGGTCCAGGATTCTGTAATGCTTTACACAGGCAGTT
TTGAAATGAAAATCAATTTACCTTTCTGTTACGATGGAGTTGGTTTTGATACTCATTTTTTCTTTATCACATGGCTGCTACGGGCACAAG
TGACTATACTGAAGAACACAGTTAAGTGTTGTGCAAACTGGACATAGCAGCACATACTACTTCAGAGTTCATGATGTAGATGTCTGGTTT
CTGCTTACGTCTTTTAAACTTTCTAATTCAATTCCATTTTTCAATTAATAGGTGAAATTTTATTCATGCTTTGATAGAAATTATGTCAAT
GAAATGATTCTTTTTATTTGTAGCCTACTTATTTGTGTTTTTCATATATCTGAAATATGCTAATTATGTTTTCTGTCTGATATGGAAAAG
AAAAGCTGTGTCTTTATCAAAATATTTAAACGGTTTTTTCAGCATATCATCACTGATCATTGGTAACCACTAAAGATGAGTAATTTGCTT
AAGTAGTAGTTAAAATTGTAGATAGGCCTTCTGACATTTTTTTTCCTAAAATTTTTAACAGCATTGAAGGTGAAACAGCACAATGTCCCA
TTCCAAATTTATTTTTGAAACAGATGTAAATAATTGGCATTTTAAAGAGAAAGCAAAAACATTTAATGTATTAACAGGCTTATTGCTATG
CAGGAAATAGAAGGGGCATTACAAAAATTGAAGCTTGTGACATATTTATTGCTTCTGTTTTCCAACTACATCACTTCAACTAGAAGTAAA
GCTATGATTTTCCTGACTTCACATAGGAGGCAAATTTAGAGAAAGTTGTAAAGATTTCTATGTTTTGGGTTTTTTTTTTTCCTTTTTTTT
TTTAAGAGTATAAGGTTTACACAATCATTCTCATAATGTGACGCAAGCCAGCAAGGCCAAAAATGCTAGAGAAAATAACGGGATCTCTTC
CTTGTAAACTTGTACAGTATGTGGTGACTTTTTCAAAATACAGCTTTTTGTACATGATTTAGAGACAAATTTTGTACATGAAACCCCAGA
TAGACTATAAATAATTCTAAACAAACAAGTAGGTAGATATGTATGTAATTGCTTTTAAATCATTTAAATGCCTTTGTTTTTGGACTGTGC
AAAGGTTGGAAGTGGGTTTGCATTTCTAAAATGGTGACTTTTATTCTGCAAGAGTTCTTAGTAACTTCTTGAGTGTGGTAGACTTTGGAA
CATGTAAATTTTTTGCTTGTAATGTTATCCTGTGGTAGGATTTTGGCAGGTACACACACTGCCCTATTTTATTTTGAGTCTAAGTTAAAT
GTTTTCTGAAAAGAGATACATGCACTGAACTCTTTCCACTGCGAATCAAGATGTGGTAATATAAAAGGATCAAGACAAATGAGATCTAAT
ACTACTGTCAGTTTTAATGTCCACTGTGTTTTATACAGTATCTTTTTTTGTTCACTTTGGAAATTTTTACTAAAAATTGCAAAAAATAAA
GTATTGTGCAAAGATGTAAGGTTTTTTGAAACTTGAAATGCATTAATAAATAGACGATTAAATCAACTTGAAGGTTCTATACTCTTTGAA
CTCTGAGAACTATCACAAGAAGCTTCCCACAAGGCAGTGTTTTCTTACAGTTGTCTCTTCCTACAAAAGTATAGATTATCTTTATTCTTA

>3847_3847_2_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000347587_ADAM10_chr15_59009926_ENST00000260408_length(amino acids)=894AA_BP=164
MTSSKIEMPGEVKADPAALMASLHLLPSPTPNLEIKYTKIFINNEWQNSESGRVFPVYNPATGEQVCEVQEADKADIDKAVQAARLAFSL
GSVWRRMDASERGRLLDKLADLVERDRAVLATMESLNGGKPFLQAFYVDLQGVIKTFRYYAGWADKIHGMTIPVGQYGNPLNKYIRHYEG
LSYNVDSLHQKHQRAKRAVSHEDQFLRLDFHAHGRHFNLRMKRDTSLFSDEFKVETSNKVLDYDTSHIYTGHIYGEEGSFSHGSVIDGRF
EGFIQTRGGTFYVEPAERYIKDRTLPFHSVIYHEDDINYPHKYGPQGGCADHSVFERMRKYQMTGVEEVTQIPQEEHAANGPELLRKKRT
TSAEKNTCQLYIQTDHLFFKYYGTREAVIAQISSHVKAIDTIYQTTDFSGIRNISFMVKRIRINTTADEKDPTNPFRFPNIGVEKFLELN
SEQNHDDYCLAYVFTDRDFDDGVLGLAWVGAPSGSSGGICEKSKLYSDGKKKSLNTGIITVQNYGSHVPPKVSHITFAHEVGHNFGSPHD
SGTECTPGESKNLGQKENGNYIMYARATSGDKLNNNKFSLCSIRNISQVLEKKRNNCFVESGQPICGNGMVEQGEECDCGYSDQCKDECC
FDANQPEGRKCKLKPGKQCSPSQGPCCTAQCAFKSKSEKCRDDSDCAREGICNGFTALCPASDPKPNFTDCNRHTQVCINGQCAGSICEK
YGLEECTCASSDGKDDKELCHVCCMKKMDPSTCASTGSVQWSRHFSGRTITLQPGSPCNDFRGYCDVFMRCRLVDADGPLARLKKAIFSP

--------------------------------------------------------------
>3847_3847_3_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000537372_ADAM10_chr15_59009926_ENST00000260408_length(transcript)=5143nt_BP=608nt
GACACCCGGCCCGCCACCATGACTTCCAGCAAGATAGAGATGCCCGGCGAGGTGAAGGCCGACCCCGCCGCCCTCATGGCGTCGCTGCAC
CTCCTGCCGTCGCCCACGCCCAATCTCGAAATTAAGTACACCAAGGTGTGAAAATTGGACTTGCTGGCAGAATCCTTTTTGGGAGAAGAT
GAAGAATCAGTGTGAGACTGTTTGGTTAAAATCCCCAATAAAACTGAAACTGATCTTTATAAACAACGAGTGGCAGAACTCAGAGAGTGG
GAGAGTGTTCCCTGTCTATAATCCAGCCACAGGAGAACAGGTGTGTGAAGTTCAAGAAGCAGACAAGGCAGATATAGACAAAGCAGTGCA
GGCAGCCCGCCTGGCTTTCTCTCTTGGTTCAGTGTGGAGAAGGATGGATGCTTCAGAAAGGGGACGTCTGTTGGATAAGCTTGCAGACTT
GGTGGAACGGGACAGGGCAGTTCTTGCAACCATGGAATCCCTAAATGGTGGCAAACCATTCCTGCAAGCTTTTTATGTGGATTTGCAGGG
CGTCATCAAAACCTTTCGATATTACGCAGGCTGGGCTGATAAAATTCATGGGATGACCATTCCTGTAGGTCAGTATGGGAATCCTTTAAA
TAAATATATCAGACATTATGAAGGATTATCTTACAATGTGGATTCATTACACCAAAAACACCAGCGTGCCAAAAGAGCAGTCTCACATGA
AGACCAATTTTTACGTCTAGATTTCCATGCCCATGGAAGACATTTCAACCTACGAATGAAGAGGGACACTTCCCTTTTCAGTGATGAATT
TAAAGTAGAAACATCAAATAAAGTACTTGATTATGATACCTCTCATATTTACACTGGACATATTTATGGTGAAGAAGGAAGTTTTAGCCA
TGGGTCTGTTATTGATGGAAGATTTGAAGGATTCATCCAGACTCGTGGTGGCACATTTTATGTTGAGCCAGCAGAGAGATATATTAAAGA
CCGAACTCTGCCATTTCACTCTGTCATTTATCATGAAGATGATATTAACTATCCCCATAAATACGGTCCTCAGGGGGGCTGTGCAGATCA
TTCAGTATTTGAAAGAATGAGGAAATACCAGATGACTGGTGTAGAGGAAGTAACACAGATACCTCAAGAAGAACATGCTGCTAATGGTCC
AGAACTTCTGAGGAAAAAACGTACAACTTCAGCTGAAAAAAATACTTGTCAGCTTTATATTCAGACTGATCATTTGTTCTTTAAATATTA
CGGAACACGAGAAGCTGTGATTGCCCAGATATCCAGTCATGTTAAAGCGATTGATACAATTTACCAGACCACAGACTTCTCCGGAATCCG
TAACATCAGTTTCATGGTGAAACGCATAAGAATCAATACAACTGCTGATGAGAAGGACCCTACAAATCCTTTCCGTTTCCCAAATATTGG
TGTGGAGAAGTTTCTGGAATTGAATTCTGAGCAGAATCATGATGACTACTGTTTGGCCTATGTCTTCACAGACCGAGATTTTGATGATGG
CGTACTTGGTCTGGCTTGGGTTGGAGCACCTTCAGGAAGCTCTGGAGGAATATGTGAAAAAAGTAAACTCTATTCAGATGGTAAGAAGAA
GTCCTTAAACACTGGAATTATTACTGTTCAGAACTATGGGTCTCATGTACCTCCCAAAGTCTCTCACATTACTTTTGCTCACGAAGTTGG
ACATAACTTTGGATCCCCACATGATTCTGGAACAGAGTGCACACCAGGAGAATCTAAGAATTTGGGTCAAAAAGAAAATGGCAATTACAT
CATGTATGCAAGAGCAACATCTGGGGACAAACTTAACAACAATAAATTCTCACTCTGTAGTATTAGAAATATAAGCCAAGTTCTTGAGAA
GAAGAGAAACAACTGTTTTGTTGAATCTGGCCAACCTATTTGTGGAAATGGAATGGTAGAACAAGGTGAAGAATGTGATTGTGGCTATAG
TGACCAGTGTAAAGATGAATGCTGCTTCGATGCAAATCAACCAGAGGGAAGAAAATGCAAACTGAAACCTGGGAAACAGTGCAGTCCAAG
TCAAGGTCCTTGTTGTACAGCACAGTGTGCATTCAAGTCAAAGTCTGAGAAGTGTCGGGATGATTCAGACTGTGCAAGGGAAGGAATATG
TAATGGCTTCACAGCTCTCTGCCCAGCATCTGACCCTAAACCAAACTTCACAGACTGTAATAGGCATACACAAGTGTGCATTAATGGGCA
ATGTGCAGGTTCTATCTGTGAGAAATATGGCTTAGAGGAGTGTACGTGTGCCAGTTCTGATGGCAAAGATGATAAAGAATTATGCCATGT
ATGCTGTATGAAGAAAATGGACCCATCAACTTGTGCCAGTACAGGGTCTGTGCAGTGGAGTAGGCACTTCAGTGGTCGAACCATCACCCT
GCAACCTGGATCCCCTTGCAACGATTTTAGAGGTTACTGTGATGTTTTCATGCGGTGCAGATTAGTAGATGCTGATGGTCCTCTAGCTAG
GCTTAAAAAAGCAATTTTTAGTCCAGAGCTCTATGAAAACATTGCTGAATGGATTGTGGCTCATTGGTGGGCAGTATTACTTATGGGAAT
TGCTCTGATCATGCTAATGGCTGGATTTATTAAGATATGCAGTGTTCATACTCCAAGTAGTAATCCAAAGTTGCCTCCTCCTAAACCACT
TCCAGGCACTTTAAAGAGGAGGAGACCTCCACAGCCCATTCAGCAACCCCAGCGTCAGCGGCCCCGAGAGAGTTATCAAATGGGACACAT
GAGACGCTAACTGCAGCTTTTGCCTTGGTTCTTCCTAGTGCCTACAATGGGAAAACTTCACTCCAAAGAGAAACCTATTAAGTCATCATC
TCCAAACTAAACCCTCACAAGTAACAGTTGAAGAAAAAATGGCAAGAGATCATATCCTCAGACCAGGTGGAATTACTTAAATTTTAAAGC
CTGAAAATTCCAATTTGGGGGTGGGAGGTGGAAAAGGAACCCAATTTTCTTATGAACAGATATTTTTAACTTAATGGCACAAAGTCTTAG
AATATTATTATGTGCCCCGTGTTCCCTGTTCTTCGTTGCTGCATTTTCTTCACTTGCAGGCAAACTTGGCTCTCAATAAACTTTTACCAC
AAATTGAAATAAATATATTTTTTTCAACTGCCAATCAAGGCTAGGAGGCTCGACCACCTCAACATTGGAGACATCACTTGCCAATGTACA
TACCTTGTTATATGCAGACATGTATTTCTTACGTACACTGTACTTCTGTGTGCAATTGTAAACAGAAATTGCAATATGGATGTTTCTTTG
TATTATAAAATTTTTCCGCTCTTAATTAAAAATTACTGTTTAATTGACATACTCAGGATAACAGAGAATGGTGGTATTCAGTGGTCCAGG
ATTCTGTAATGCTTTACACAGGCAGTTTTGAAATGAAAATCAATTTACCTTTCTGTTACGATGGAGTTGGTTTTGATACTCATTTTTTCT
TTATCACATGGCTGCTACGGGCACAAGTGACTATACTGAAGAACACAGTTAAGTGTTGTGCAAACTGGACATAGCAGCACATACTACTTC
AGAGTTCATGATGTAGATGTCTGGTTTCTGCTTACGTCTTTTAAACTTTCTAATTCAATTCCATTTTTCAATTAATAGGTGAAATTTTAT
TCATGCTTTGATAGAAATTATGTCAATGAAATGATTCTTTTTATTTGTAGCCTACTTATTTGTGTTTTTCATATATCTGAAATATGCTAA
TTATGTTTTCTGTCTGATATGGAAAAGAAAAGCTGTGTCTTTATCAAAATATTTAAACGGTTTTTTCAGCATATCATCACTGATCATTGG
TAACCACTAAAGATGAGTAATTTGCTTAAGTAGTAGTTAAAATTGTAGATAGGCCTTCTGACATTTTTTTTCCTAAAATTTTTAACAGCA
TTGAAGGTGAAACAGCACAATGTCCCATTCCAAATTTATTTTTGAAACAGATGTAAATAATTGGCATTTTAAAGAGAAAGCAAAAACATT
TAATGTATTAACAGGCTTATTGCTATGCAGGAAATAGAAGGGGCATTACAAAAATTGAAGCTTGTGACATATTTATTGCTTCTGTTTTCC
AACTACATCACTTCAACTAGAAGTAAAGCTATGATTTTCCTGACTTCACATAGGAGGCAAATTTAGAGAAAGTTGTAAAGATTTCTATGT
TTTGGGTTTTTTTTTTTCCTTTTTTTTTTTAAGAGTATAAGGTTTACACAATCATTCTCATAATGTGACGCAAGCCAGCAAGGCCAAAAA
TGCTAGAGAAAATAACGGGATCTCTTCCTTGTAAACTTGTACAGTATGTGGTGACTTTTTCAAAATACAGCTTTTTGTACATGATTTAGA
GACAAATTTTGTACATGAAACCCCAGATAGACTATAAATAATTCTAAACAAACAAGTAGGTAGATATGTATGTAATTGCTTTTAAATCAT
TTAAATGCCTTTGTTTTTGGACTGTGCAAAGGTTGGAAGTGGGTTTGCATTTCTAAAATGGTGACTTTTATTCTGCAAGAGTTCTTAGTA
ACTTCTTGAGTGTGGTAGACTTTGGAACATGTAAATTTTTTGCTTGTAATGTTATCCTGTGGTAGGATTTTGGCAGGTACACACACTGCC
CTATTTTATTTTGAGTCTAAGTTAAATGTTTTCTGAAAAGAGATACATGCACTGAACTCTTTCCACTGCGAATCAAGATGTGGTAATATA
AAAGGATCAAGACAAATGAGATCTAATACTACTGTCAGTTTTAATGTCCACTGTGTTTTATACAGTATCTTTTTTTGTTCACTTTGGAAA
TTTTTACTAAAAATTGCAAAAAATAAAGTATTGTGCAAAGATGTAAGGTTTTTTGAAACTTGAAATGCATTAATAAATAGACGATTAAAT
CAACTTGAAGGTTCTATACTCTTTGAACTCTGAGAACTATCACAAGAAGCTTCCCACAAGGCAGTGTTTTCTTACAGTTGTCTCTTCCTA
CAAAAGTATAGATTATCTTTATTCTTAATACTTTGGAATCCATGTAGAAAATTTCCAGTTAGATACTCTGCGTACACACAATAAACCTTT

>3847_3847_3_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000537372_ADAM10_chr15_59009926_ENST00000260408_length(amino acids)=873AA_BP=143
MKNQCETVWLKSPIKLKLIFINNEWQNSESGRVFPVYNPATGEQVCEVQEADKADIDKAVQAARLAFSLGSVWRRMDASERGRLLDKLAD
LVERDRAVLATMESLNGGKPFLQAFYVDLQGVIKTFRYYAGWADKIHGMTIPVGQYGNPLNKYIRHYEGLSYNVDSLHQKHQRAKRAVSH
EDQFLRLDFHAHGRHFNLRMKRDTSLFSDEFKVETSNKVLDYDTSHIYTGHIYGEEGSFSHGSVIDGRFEGFIQTRGGTFYVEPAERYIK
DRTLPFHSVIYHEDDINYPHKYGPQGGCADHSVFERMRKYQMTGVEEVTQIPQEEHAANGPELLRKKRTTSAEKNTCQLYIQTDHLFFKY
YGTREAVIAQISSHVKAIDTIYQTTDFSGIRNISFMVKRIRINTTADEKDPTNPFRFPNIGVEKFLELNSEQNHDDYCLAYVFTDRDFDD
GVLGLAWVGAPSGSSGGICEKSKLYSDGKKKSLNTGIITVQNYGSHVPPKVSHITFAHEVGHNFGSPHDSGTECTPGESKNLGQKENGNY
IMYARATSGDKLNNNKFSLCSIRNISQVLEKKRNNCFVESGQPICGNGMVEQGEECDCGYSDQCKDECCFDANQPEGRKCKLKPGKQCSP
SQGPCCTAQCAFKSKSEKCRDDSDCAREGICNGFTALCPASDPKPNFTDCNRHTQVCINGQCAGSICEKYGLEECTCASSDGKDDKELCH
VCCMKKMDPSTCASTGSVQWSRHFSGRTITLQPGSPCNDFRGYCDVFMRCRLVDADGPLARLKKAIFSPELYENIAEWIVAHWWAVLLMG

--------------------------------------------------------------
>3847_3847_4_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000558231_ADAM10_chr15_59009926_ENST00000260408_length(transcript)=5001nt_BP=466nt
AGAGCAGCAGGATGGCACTTGGTGTCTGGATGCCTTTGGAGTTGCACATACAGCTTCTTTATGAAAGGAAGAAACTGGAAGACAACAAAG
ATCTTTATAAACAACGAGTGGCAGAACTCAGAGAGTGGGAGAGTGTTCCCTGTCTATAATCCAGCCACAGGAGAACAGGTGTGTGAAGTT
CAAGAAGCAGACAAGGCAGATATAGACAAAGCAGTGCAGGCAGCCCGCCTGGCTTTCTCTCTTGGTTCAGTGTGGAGAAGGATGGATGCT
TCAGAAAGGGGACGTCTGTTGGATAAGCTTGCAGACTTGGTGGAACGGGACAGGGCAGTTCTTGCAACCATGGAATCCCTAAATGGTGGC
AAACCATTCCTGCAAGCTTTTTATGTGGATTTGCAGGGCGTCATCAAAACCTTTCGATATTACGCAGGCTGGGCTGATAAAATTCATGGG
ATGACCATTCCTGTAGGTCAGTATGGGAATCCTTTAAATAAATATATCAGACATTATGAAGGATTATCTTACAATGTGGATTCATTACAC
CAAAAACACCAGCGTGCCAAAAGAGCAGTCTCACATGAAGACCAATTTTTACGTCTAGATTTCCATGCCCATGGAAGACATTTCAACCTA
CGAATGAAGAGGGACACTTCCCTTTTCAGTGATGAATTTAAAGTAGAAACATCAAATAAAGTACTTGATTATGATACCTCTCATATTTAC
ACTGGACATATTTATGGTGAAGAAGGAAGTTTTAGCCATGGGTCTGTTATTGATGGAAGATTTGAAGGATTCATCCAGACTCGTGGTGGC
ACATTTTATGTTGAGCCAGCAGAGAGATATATTAAAGACCGAACTCTGCCATTTCACTCTGTCATTTATCATGAAGATGATATTAACTAT
CCCCATAAATACGGTCCTCAGGGGGGCTGTGCAGATCATTCAGTATTTGAAAGAATGAGGAAATACCAGATGACTGGTGTAGAGGAAGTA
ACACAGATACCTCAAGAAGAACATGCTGCTAATGGTCCAGAACTTCTGAGGAAAAAACGTACAACTTCAGCTGAAAAAAATACTTGTCAG
CTTTATATTCAGACTGATCATTTGTTCTTTAAATATTACGGAACACGAGAAGCTGTGATTGCCCAGATATCCAGTCATGTTAAAGCGATT
GATACAATTTACCAGACCACAGACTTCTCCGGAATCCGTAACATCAGTTTCATGGTGAAACGCATAAGAATCAATACAACTGCTGATGAG
AAGGACCCTACAAATCCTTTCCGTTTCCCAAATATTGGTGTGGAGAAGTTTCTGGAATTGAATTCTGAGCAGAATCATGATGACTACTGT
TTGGCCTATGTCTTCACAGACCGAGATTTTGATGATGGCGTACTTGGTCTGGCTTGGGTTGGAGCACCTTCAGGAAGCTCTGGAGGAATA
TGTGAAAAAAGTAAACTCTATTCAGATGGTAAGAAGAAGTCCTTAAACACTGGAATTATTACTGTTCAGAACTATGGGTCTCATGTACCT
CCCAAAGTCTCTCACATTACTTTTGCTCACGAAGTTGGACATAACTTTGGATCCCCACATGATTCTGGAACAGAGTGCACACCAGGAGAA
TCTAAGAATTTGGGTCAAAAAGAAAATGGCAATTACATCATGTATGCAAGAGCAACATCTGGGGACAAACTTAACAACAATAAATTCTCA
CTCTGTAGTATTAGAAATATAAGCCAAGTTCTTGAGAAGAAGAGAAACAACTGTTTTGTTGAATCTGGCCAACCTATTTGTGGAAATGGA
ATGGTAGAACAAGGTGAAGAATGTGATTGTGGCTATAGTGACCAGTGTAAAGATGAATGCTGCTTCGATGCAAATCAACCAGAGGGAAGA
AAATGCAAACTGAAACCTGGGAAACAGTGCAGTCCAAGTCAAGGTCCTTGTTGTACAGCACAGTGTGCATTCAAGTCAAAGTCTGAGAAG
TGTCGGGATGATTCAGACTGTGCAAGGGAAGGAATATGTAATGGCTTCACAGCTCTCTGCCCAGCATCTGACCCTAAACCAAACTTCACA
GACTGTAATAGGCATACACAAGTGTGCATTAATGGGCAATGTGCAGGTTCTATCTGTGAGAAATATGGCTTAGAGGAGTGTACGTGTGCC
AGTTCTGATGGCAAAGATGATAAAGAATTATGCCATGTATGCTGTATGAAGAAAATGGACCCATCAACTTGTGCCAGTACAGGGTCTGTG
CAGTGGAGTAGGCACTTCAGTGGTCGAACCATCACCCTGCAACCTGGATCCCCTTGCAACGATTTTAGAGGTTACTGTGATGTTTTCATG
CGGTGCAGATTAGTAGATGCTGATGGTCCTCTAGCTAGGCTTAAAAAAGCAATTTTTAGTCCAGAGCTCTATGAAAACATTGCTGAATGG
ATTGTGGCTCATTGGTGGGCAGTATTACTTATGGGAATTGCTCTGATCATGCTAATGGCTGGATTTATTAAGATATGCAGTGTTCATACT
CCAAGTAGTAATCCAAAGTTGCCTCCTCCTAAACCACTTCCAGGCACTTTAAAGAGGAGGAGACCTCCACAGCCCATTCAGCAACCCCAG
CGTCAGCGGCCCCGAGAGAGTTATCAAATGGGACACATGAGACGCTAACTGCAGCTTTTGCCTTGGTTCTTCCTAGTGCCTACAATGGGA
AAACTTCACTCCAAAGAGAAACCTATTAAGTCATCATCTCCAAACTAAACCCTCACAAGTAACAGTTGAAGAAAAAATGGCAAGAGATCA
TATCCTCAGACCAGGTGGAATTACTTAAATTTTAAAGCCTGAAAATTCCAATTTGGGGGTGGGAGGTGGAAAAGGAACCCAATTTTCTTA
TGAACAGATATTTTTAACTTAATGGCACAAAGTCTTAGAATATTATTATGTGCCCCGTGTTCCCTGTTCTTCGTTGCTGCATTTTCTTCA
CTTGCAGGCAAACTTGGCTCTCAATAAACTTTTACCACAAATTGAAATAAATATATTTTTTTCAACTGCCAATCAAGGCTAGGAGGCTCG
ACCACCTCAACATTGGAGACATCACTTGCCAATGTACATACCTTGTTATATGCAGACATGTATTTCTTACGTACACTGTACTTCTGTGTG
CAATTGTAAACAGAAATTGCAATATGGATGTTTCTTTGTATTATAAAATTTTTCCGCTCTTAATTAAAAATTACTGTTTAATTGACATAC
TCAGGATAACAGAGAATGGTGGTATTCAGTGGTCCAGGATTCTGTAATGCTTTACACAGGCAGTTTTGAAATGAAAATCAATTTACCTTT
CTGTTACGATGGAGTTGGTTTTGATACTCATTTTTTCTTTATCACATGGCTGCTACGGGCACAAGTGACTATACTGAAGAACACAGTTAA
GTGTTGTGCAAACTGGACATAGCAGCACATACTACTTCAGAGTTCATGATGTAGATGTCTGGTTTCTGCTTACGTCTTTTAAACTTTCTA
ATTCAATTCCATTTTTCAATTAATAGGTGAAATTTTATTCATGCTTTGATAGAAATTATGTCAATGAAATGATTCTTTTTATTTGTAGCC
TACTTATTTGTGTTTTTCATATATCTGAAATATGCTAATTATGTTTTCTGTCTGATATGGAAAAGAAAAGCTGTGTCTTTATCAAAATAT
TTAAACGGTTTTTTCAGCATATCATCACTGATCATTGGTAACCACTAAAGATGAGTAATTTGCTTAAGTAGTAGTTAAAATTGTAGATAG
GCCTTCTGACATTTTTTTTCCTAAAATTTTTAACAGCATTGAAGGTGAAACAGCACAATGTCCCATTCCAAATTTATTTTTGAAACAGAT
GTAAATAATTGGCATTTTAAAGAGAAAGCAAAAACATTTAATGTATTAACAGGCTTATTGCTATGCAGGAAATAGAAGGGGCATTACAAA
AATTGAAGCTTGTGACATATTTATTGCTTCTGTTTTCCAACTACATCACTTCAACTAGAAGTAAAGCTATGATTTTCCTGACTTCACATA
GGAGGCAAATTTAGAGAAAGTTGTAAAGATTTCTATGTTTTGGGTTTTTTTTTTTCCTTTTTTTTTTTAAGAGTATAAGGTTTACACAAT
CATTCTCATAATGTGACGCAAGCCAGCAAGGCCAAAAATGCTAGAGAAAATAACGGGATCTCTTCCTTGTAAACTTGTACAGTATGTGGT
GACTTTTTCAAAATACAGCTTTTTGTACATGATTTAGAGACAAATTTTGTACATGAAACCCCAGATAGACTATAAATAATTCTAAACAAA
CAAGTAGGTAGATATGTATGTAATTGCTTTTAAATCATTTAAATGCCTTTGTTTTTGGACTGTGCAAAGGTTGGAAGTGGGTTTGCATTT
CTAAAATGGTGACTTTTATTCTGCAAGAGTTCTTAGTAACTTCTTGAGTGTGGTAGACTTTGGAACATGTAAATTTTTTGCTTGTAATGT
TATCCTGTGGTAGGATTTTGGCAGGTACACACACTGCCCTATTTTATTTTGAGTCTAAGTTAAATGTTTTCTGAAAAGAGATACATGCAC
TGAACTCTTTCCACTGCGAATCAAGATGTGGTAATATAAAAGGATCAAGACAAATGAGATCTAATACTACTGTCAGTTTTAATGTCCACT
GTGTTTTATACAGTATCTTTTTTTGTTCACTTTGGAAATTTTTACTAAAAATTGCAAAAAATAAAGTATTGTGCAAAGATGTAAGGTTTT
TTGAAACTTGAAATGCATTAATAAATAGACGATTAAATCAACTTGAAGGTTCTATACTCTTTGAACTCTGAGAACTATCACAAGAAGCTT
CCCACAAGGCAGTGTTTTCTTACAGTTGTCTCTTCCTACAAAAGTATAGATTATCTTTATTCTTAATACTTTGGAATCCATGTAGAAAAT

>3847_3847_4_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000558231_ADAM10_chr15_59009926_ENST00000260408_length(amino acids)=879AA_BP=149
MVSGCLWSCTYSFFMKGRNWKTTKIFINNEWQNSESGRVFPVYNPATGEQVCEVQEADKADIDKAVQAARLAFSLGSVWRRMDASERGRL
LDKLADLVERDRAVLATMESLNGGKPFLQAFYVDLQGVIKTFRYYAGWADKIHGMTIPVGQYGNPLNKYIRHYEGLSYNVDSLHQKHQRA
KRAVSHEDQFLRLDFHAHGRHFNLRMKRDTSLFSDEFKVETSNKVLDYDTSHIYTGHIYGEEGSFSHGSVIDGRFEGFIQTRGGTFYVEP
AERYIKDRTLPFHSVIYHEDDINYPHKYGPQGGCADHSVFERMRKYQMTGVEEVTQIPQEEHAANGPELLRKKRTTSAEKNTCQLYIQTD
HLFFKYYGTREAVIAQISSHVKAIDTIYQTTDFSGIRNISFMVKRIRINTTADEKDPTNPFRFPNIGVEKFLELNSEQNHDDYCLAYVFT
DRDFDDGVLGLAWVGAPSGSSGGICEKSKLYSDGKKKSLNTGIITVQNYGSHVPPKVSHITFAHEVGHNFGSPHDSGTECTPGESKNLGQ
KENGNYIMYARATSGDKLNNNKFSLCSIRNISQVLEKKRNNCFVESGQPICGNGMVEQGEECDCGYSDQCKDECCFDANQPEGRKCKLKP
GKQCSPSQGPCCTAQCAFKSKSEKCRDDSDCAREGICNGFTALCPASDPKPNFTDCNRHTQVCINGQCAGSICEKYGLEECTCASSDGKD
DKELCHVCCMKKMDPSTCASTGSVQWSRHFSGRTITLQPGSPCNDFRGYCDVFMRCRLVDADGPLARLKKAIFSPELYENIAEWIVAHWW

--------------------------------------------------------------
>3847_3847_5_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000559517_ADAM10_chr15_59009926_ENST00000260408_length(transcript)=4909nt_BP=374nt
AGTACACCACTACATGCTCATGCTTCACTTTTTTCATGACAGTGGATGGTTCTTCCTTTATTTGGAGTGTTTTTCTTCAGTTGTGCCTCT
TCCTCTCTAACAGGCAGATATAGACAAAGCAGTGCAGGCAGCCCGCCTGGCTTTCTCTCTTGGTTCAGTGTGGAGAAGGATGGATGCTTC
AGAAAGGGGACGTCTGTTGGATAAGCTTGCAGACTTGGTGGAACGGGACAGGGCAGTTCTTGCAACCATGGAATCCCTAAATGGTGGCAA
ACCATTCCTGCAAGCTTTTTATGTGGATTTGCAGGGCGTCATCAAAACCTTTCGATATTACGCAGGCTGGGCTGATAAAATTCATGGGAT
GACCATTCCTGTAGGTCAGTATGGGAATCCTTTAAATAAATATATCAGACATTATGAAGGATTATCTTACAATGTGGATTCATTACACCA
AAAACACCAGCGTGCCAAAAGAGCAGTCTCACATGAAGACCAATTTTTACGTCTAGATTTCCATGCCCATGGAAGACATTTCAACCTACG
AATGAAGAGGGACACTTCCCTTTTCAGTGATGAATTTAAAGTAGAAACATCAAATAAAGTACTTGATTATGATACCTCTCATATTTACAC
TGGACATATTTATGGTGAAGAAGGAAGTTTTAGCCATGGGTCTGTTATTGATGGAAGATTTGAAGGATTCATCCAGACTCGTGGTGGCAC
ATTTTATGTTGAGCCAGCAGAGAGATATATTAAAGACCGAACTCTGCCATTTCACTCTGTCATTTATCATGAAGATGATATTAACTATCC
CCATAAATACGGTCCTCAGGGGGGCTGTGCAGATCATTCAGTATTTGAAAGAATGAGGAAATACCAGATGACTGGTGTAGAGGAAGTAAC
ACAGATACCTCAAGAAGAACATGCTGCTAATGGTCCAGAACTTCTGAGGAAAAAACGTACAACTTCAGCTGAAAAAAATACTTGTCAGCT
TTATATTCAGACTGATCATTTGTTCTTTAAATATTACGGAACACGAGAAGCTGTGATTGCCCAGATATCCAGTCATGTTAAAGCGATTGA
TACAATTTACCAGACCACAGACTTCTCCGGAATCCGTAACATCAGTTTCATGGTGAAACGCATAAGAATCAATACAACTGCTGATGAGAA
GGACCCTACAAATCCTTTCCGTTTCCCAAATATTGGTGTGGAGAAGTTTCTGGAATTGAATTCTGAGCAGAATCATGATGACTACTGTTT
GGCCTATGTCTTCACAGACCGAGATTTTGATGATGGCGTACTTGGTCTGGCTTGGGTTGGAGCACCTTCAGGAAGCTCTGGAGGAATATG
TGAAAAAAGTAAACTCTATTCAGATGGTAAGAAGAAGTCCTTAAACACTGGAATTATTACTGTTCAGAACTATGGGTCTCATGTACCTCC
CAAAGTCTCTCACATTACTTTTGCTCACGAAGTTGGACATAACTTTGGATCCCCACATGATTCTGGAACAGAGTGCACACCAGGAGAATC
TAAGAATTTGGGTCAAAAAGAAAATGGCAATTACATCATGTATGCAAGAGCAACATCTGGGGACAAACTTAACAACAATAAATTCTCACT
CTGTAGTATTAGAAATATAAGCCAAGTTCTTGAGAAGAAGAGAAACAACTGTTTTGTTGAATCTGGCCAACCTATTTGTGGAAATGGAAT
GGTAGAACAAGGTGAAGAATGTGATTGTGGCTATAGTGACCAGTGTAAAGATGAATGCTGCTTCGATGCAAATCAACCAGAGGGAAGAAA
ATGCAAACTGAAACCTGGGAAACAGTGCAGTCCAAGTCAAGGTCCTTGTTGTACAGCACAGTGTGCATTCAAGTCAAAGTCTGAGAAGTG
TCGGGATGATTCAGACTGTGCAAGGGAAGGAATATGTAATGGCTTCACAGCTCTCTGCCCAGCATCTGACCCTAAACCAAACTTCACAGA
CTGTAATAGGCATACACAAGTGTGCATTAATGGGCAATGTGCAGGTTCTATCTGTGAGAAATATGGCTTAGAGGAGTGTACGTGTGCCAG
TTCTGATGGCAAAGATGATAAAGAATTATGCCATGTATGCTGTATGAAGAAAATGGACCCATCAACTTGTGCCAGTACAGGGTCTGTGCA
GTGGAGTAGGCACTTCAGTGGTCGAACCATCACCCTGCAACCTGGATCCCCTTGCAACGATTTTAGAGGTTACTGTGATGTTTTCATGCG
GTGCAGATTAGTAGATGCTGATGGTCCTCTAGCTAGGCTTAAAAAAGCAATTTTTAGTCCAGAGCTCTATGAAAACATTGCTGAATGGAT
TGTGGCTCATTGGTGGGCAGTATTACTTATGGGAATTGCTCTGATCATGCTAATGGCTGGATTTATTAAGATATGCAGTGTTCATACTCC
AAGTAGTAATCCAAAGTTGCCTCCTCCTAAACCACTTCCAGGCACTTTAAAGAGGAGGAGACCTCCACAGCCCATTCAGCAACCCCAGCG
TCAGCGGCCCCGAGAGAGTTATCAAATGGGACACATGAGACGCTAACTGCAGCTTTTGCCTTGGTTCTTCCTAGTGCCTACAATGGGAAA
ACTTCACTCCAAAGAGAAACCTATTAAGTCATCATCTCCAAACTAAACCCTCACAAGTAACAGTTGAAGAAAAAATGGCAAGAGATCATA
TCCTCAGACCAGGTGGAATTACTTAAATTTTAAAGCCTGAAAATTCCAATTTGGGGGTGGGAGGTGGAAAAGGAACCCAATTTTCTTATG
AACAGATATTTTTAACTTAATGGCACAAAGTCTTAGAATATTATTATGTGCCCCGTGTTCCCTGTTCTTCGTTGCTGCATTTTCTTCACT
TGCAGGCAAACTTGGCTCTCAATAAACTTTTACCACAAATTGAAATAAATATATTTTTTTCAACTGCCAATCAAGGCTAGGAGGCTCGAC
CACCTCAACATTGGAGACATCACTTGCCAATGTACATACCTTGTTATATGCAGACATGTATTTCTTACGTACACTGTACTTCTGTGTGCA
ATTGTAAACAGAAATTGCAATATGGATGTTTCTTTGTATTATAAAATTTTTCCGCTCTTAATTAAAAATTACTGTTTAATTGACATACTC
AGGATAACAGAGAATGGTGGTATTCAGTGGTCCAGGATTCTGTAATGCTTTACACAGGCAGTTTTGAAATGAAAATCAATTTACCTTTCT
GTTACGATGGAGTTGGTTTTGATACTCATTTTTTCTTTATCACATGGCTGCTACGGGCACAAGTGACTATACTGAAGAACACAGTTAAGT
GTTGTGCAAACTGGACATAGCAGCACATACTACTTCAGAGTTCATGATGTAGATGTCTGGTTTCTGCTTACGTCTTTTAAACTTTCTAAT
TCAATTCCATTTTTCAATTAATAGGTGAAATTTTATTCATGCTTTGATAGAAATTATGTCAATGAAATGATTCTTTTTATTTGTAGCCTA
CTTATTTGTGTTTTTCATATATCTGAAATATGCTAATTATGTTTTCTGTCTGATATGGAAAAGAAAAGCTGTGTCTTTATCAAAATATTT
AAACGGTTTTTTCAGCATATCATCACTGATCATTGGTAACCACTAAAGATGAGTAATTTGCTTAAGTAGTAGTTAAAATTGTAGATAGGC
CTTCTGACATTTTTTTTCCTAAAATTTTTAACAGCATTGAAGGTGAAACAGCACAATGTCCCATTCCAAATTTATTTTTGAAACAGATGT
AAATAATTGGCATTTTAAAGAGAAAGCAAAAACATTTAATGTATTAACAGGCTTATTGCTATGCAGGAAATAGAAGGGGCATTACAAAAA
TTGAAGCTTGTGACATATTTATTGCTTCTGTTTTCCAACTACATCACTTCAACTAGAAGTAAAGCTATGATTTTCCTGACTTCACATAGG
AGGCAAATTTAGAGAAAGTTGTAAAGATTTCTATGTTTTGGGTTTTTTTTTTTCCTTTTTTTTTTTAAGAGTATAAGGTTTACACAATCA
TTCTCATAATGTGACGCAAGCCAGCAAGGCCAAAAATGCTAGAGAAAATAACGGGATCTCTTCCTTGTAAACTTGTACAGTATGTGGTGA
CTTTTTCAAAATACAGCTTTTTGTACATGATTTAGAGACAAATTTTGTACATGAAACCCCAGATAGACTATAAATAATTCTAAACAAACA
AGTAGGTAGATATGTATGTAATTGCTTTTAAATCATTTAAATGCCTTTGTTTTTGGACTGTGCAAAGGTTGGAAGTGGGTTTGCATTTCT
AAAATGGTGACTTTTATTCTGCAAGAGTTCTTAGTAACTTCTTGAGTGTGGTAGACTTTGGAACATGTAAATTTTTTGCTTGTAATGTTA
TCCTGTGGTAGGATTTTGGCAGGTACACACACTGCCCTATTTTATTTTGAGTCTAAGTTAAATGTTTTCTGAAAAGAGATACATGCACTG
AACTCTTTCCACTGCGAATCAAGATGTGGTAATATAAAAGGATCAAGACAAATGAGATCTAATACTACTGTCAGTTTTAATGTCCACTGT
GTTTTATACAGTATCTTTTTTTGTTCACTTTGGAAATTTTTACTAAAAATTGCAAAAAATAAAGTATTGTGCAAAGATGTAAGGTTTTTT
GAAACTTGAAATGCATTAATAAATAGACGATTAAATCAACTTGAAGGTTCTATACTCTTTGAACTCTGAGAACTATCACAAGAAGCTTCC
CACAAGGCAGTGTTTTCTTACAGTTGTCTCTTCCTACAAAAGTATAGATTATCTTTATTCTTAATACTTTGGAATCCATGTAGAAAATTT

>3847_3847_5_ALDH1A2-ADAM10_ALDH1A2_chr15_58302847_ENST00000559517_ADAM10_chr15_59009926_ENST00000260408_length(amino acids)=809AA_BP=79
MAFSLGSVWRRMDASERGRLLDKLADLVERDRAVLATMESLNGGKPFLQAFYVDLQGVIKTFRYYAGWADKIHGMTIPVGQYGNPLNKYI
RHYEGLSYNVDSLHQKHQRAKRAVSHEDQFLRLDFHAHGRHFNLRMKRDTSLFSDEFKVETSNKVLDYDTSHIYTGHIYGEEGSFSHGSV
IDGRFEGFIQTRGGTFYVEPAERYIKDRTLPFHSVIYHEDDINYPHKYGPQGGCADHSVFERMRKYQMTGVEEVTQIPQEEHAANGPELL
RKKRTTSAEKNTCQLYIQTDHLFFKYYGTREAVIAQISSHVKAIDTIYQTTDFSGIRNISFMVKRIRINTTADEKDPTNPFRFPNIGVEK
FLELNSEQNHDDYCLAYVFTDRDFDDGVLGLAWVGAPSGSSGGICEKSKLYSDGKKKSLNTGIITVQNYGSHVPPKVSHITFAHEVGHNF
GSPHDSGTECTPGESKNLGQKENGNYIMYARATSGDKLNNNKFSLCSIRNISQVLEKKRNNCFVESGQPICGNGMVEQGEECDCGYSDQC
KDECCFDANQPEGRKCKLKPGKQCSPSQGPCCTAQCAFKSKSEKCRDDSDCAREGICNGFTALCPASDPKPNFTDCNRHTQVCINGQCAG
SICEKYGLEECTCASSDGKDDKELCHVCCMKKMDPSTCASTGSVQWSRHFSGRTITLQPGSPCNDFRGYCDVFMRCRLVDADGPLARLKK

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

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Fusion Gene PPI Analysis for ALDH1A2-ADAM10


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
TgeneADAM10chr15:58302847chr15:59009926ENST00000260408016734_74818.333333333333332749.0AP2A1%2C AP2A2 and AP2M1


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 ALDH1A2-ADAM10


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 ALDH1A2-ADAM10


check button Diseases associated with fusion partners.
(DisGeNet 4.0)
PartnerGeneDisease IDDisease name# pubmedsSource
HgeneALDH1A2C0025312Meningomyelocele1CTD_human
HgeneALDH1A2C0029408Degenerative polyarthritis1CTD_human
HgeneALDH1A2C0033578Prostatic Neoplasms1CTD_human
HgeneALDH1A2C0036341Schizophrenia1PSYGENET
HgeneALDH1A2C0086664Myelocele1CTD_human
HgeneALDH1A2C0086743Osteoarthrosis Deformans1CTD_human
HgeneALDH1A2C0242422Parkinsonian Disorders1CTD_human
HgeneALDH1A2C0242423Ramsay Hunt Paralysis Syndrome1CTD_human
HgeneALDH1A2C0376358Malignant neoplasm of prostate1CTD_human
HgeneALDH1A2C0751316Acquired Meningomyelocele1CTD_human
HgeneALDH1A2C0752097Autosomal Dominant Juvenile Parkinson Disease1CTD_human
HgeneALDH1A2C0752098Autosomal Dominant Parkinsonism1CTD_human
HgeneALDH1A2C0752100Autosomal Recessive Parkinsonism1CTD_human
HgeneALDH1A2C0752101Parkinsonism, Experimental1CTD_human
HgeneALDH1A2C0752104Familial Juvenile Parkinsonism1CTD_human
HgeneALDH1A2C0752105Parkinsonism, Juvenile1CTD_human
HgeneALDH1A2C1868675PARKINSON DISEASE 2, AUTOSOMAL RECESSIVE JUVENILE1CTD_human
TgeneC3810041ALZHEIMER DISEASE 182CTD_human;UNIPROT
TgeneC0002395Alzheimer's Disease1CTD_human
TgeneC0006142Malignant neoplasm of breast1CTD_human
TgeneC0011265Presenile dementia1CTD_human
TgeneC0276496Familial Alzheimer Disease (FAD)1CTD_human
TgeneC0406811Reticulate acropigmentation of Kitamura1CTD_human;GENOMICS_ENGLAND;ORPHANET;UNIPROT
TgeneC0494463Alzheimer Disease, Late Onset1CTD_human
TgeneC0546126Acute Confusional Senile Dementia1CTD_human
TgeneC0678222Breast Carcinoma1CTD_human
TgeneC0750900Alzheimer's Disease, Focal Onset1CTD_human
TgeneC0750901Alzheimer Disease, Early Onset1CTD_human
TgeneC1257931Mammary Neoplasms, Human1CTD_human
TgeneC1458155Mammary Neoplasms1CTD_human
TgeneC4704874Mammary Carcinoma, Human1CTD_human