Fusion Gene Studies
in Kim Lab

FusionBase FusionGDB FusionGDB2 FusionPDB FusionNeoAntigen FusionAI FusionNW FGviewer Publication Contact
FusionGDB Logo

Home

Download

Statistics

Examples

Help

Contact

Center for Computational Systems Medicine
leaf

Fusion Gene Summary

leaf

Fusion Gene ORF analysis

leaf

Fusion Genomic Features

leaf

Fusion Protein Features

leaf

Fusion Gene Sequence

leaf

Fusion Gene PPI analysis

leaf

Related Drugs

leaf

Related Diseases

Fusion gene:ACACA-MMP28 (FusionGDB2 ID:HG31TG79148)

Fusion Gene Summary for ACACA-MMP28

check button Fusion gene summary
Fusion gene informationFusion gene name: ACACA-MMP28
Fusion gene ID: hg31tg79148
HgeneTgene
Gene symbol

ACACA

MMP28

Gene ID

31

79148

Gene nameacetyl-CoA carboxylase alphamatrix metallopeptidase 28
SynonymsACAC|ACACAD|ACC|ACC1|ACCAEPILYSIN|MM28|MMP-25|MMP-28|MMP25
Cytomap('ACACA')('MMP28')

17q12

17q12

Type of geneprotein-codingprotein-coding
Descriptionacetyl-CoA carboxylase 1ACC-alphaacetyl-Coenzyme A carboxylase alphamatrix metalloproteinase-28matrix metalloprotease MMP25
Modification date2020031320200313
UniProtAcc..
Ensembl transtripts involved in fusion geneENST00000335166, ENST00000394406, 
ENST00000353139, ENST00000360679, 
ENST00000361253, ENST00000416895, 
ENST00000588142, ENST00000589665, 
Fusion gene scores* DoF score44 X 35 X 17=261803 X 4 X 3=36
# samples 513
** MAII scorelog2(51/26180*10)=-5.68182403997375
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
log2(3/36*10)=-0.263034405833794
possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs).
DoF>8 and MAII<0
Context

PubMed: ACACA [Title/Abstract] AND MMP28 [Title/Abstract] AND fusion [Title/Abstract]

Most frequent breakpointACACA(35454765)-MMP28(34106327), # samples:3
Anticipated loss of major functional domain due to fusion event.ACACA-MMP28 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.
ACACA-MMP28 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.
ACACA-MMP28 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.
ACACA-MMP28 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.
ACACA-MMP28 seems lost the major protein functional domain in Hgene partner, which is a cell metabolism gene due to the frame-shifted ORF.
ACACA-MMP28 seems lost the major protein functional domain in Hgene partner, which is a IUPHAR drug target due to the frame-shifted ORF.
ACACA-MMP28 seems lost the major protein functional domain in Tgene partner, which is a IUPHAR drug target due to the frame-shifted ORF.
* DoF score (Degree of Frequency) = # partners X # break points X # cancer types
** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10)

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

check buttonFusion gene breakpoints across ACACA (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 MMP28 (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
ChimerDB4PRADTCGA-V1-A8ML-01AACACAchr17

35454765

-MMP28chr17

34106327

-
ChimerDB4PRADTCGA-V1-A8MLACACAchr17

35454765

-MMP28chr17

34106327

-


Top

Fusion Gene ORF analysis for ACACA-MMP28

check button Open reading frame (ORF) analsis of fusion genes based on Ensembl gene isoform structure.
* Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser.
ORFHenstTenstHgeneHchrHbpHstrandTgeneTchrTbpTstrand
Frame-shiftENST00000335166ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
Frame-shiftENST00000394406ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
In-frameENST00000353139ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
In-frameENST00000360679ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
In-frameENST00000361253ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
intron-3CDSENST00000416895ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
intron-3CDSENST00000588142ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-
intron-3CDSENST00000589665ENST00000250144ACACAchr17

35454765

-MMP28chr17

34106327

-

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)
ENST00000353139ACACAchr1735454765-ENST00000250144MMP28chr1734106327-7853720246174832340
ENST00000360679ACACAchr1735454765-ENST00000250144MMP28chr1734106327-7521687029771512284
ENST00000361253ACACAchr1735454765-ENST00000250144MMP28chr1734106327-195613051951586463

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
ENST00000353139ENST00000250144ACACAchr1735454765-MMP28chr1734106327-0.0010387940.9989612
ENST00000360679ENST00000250144ACACAchr1735454765-MMP28chr1734106327-0.0010476090.9989524
ENST00000361253ENST00000250144ACACAchr1735454765-MMP28chr1734106327-0.0017877380.99821234

Top

Fusion Genomic Features for ACACA-MMP28


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

Top

Fusion Protein Features for ACACA-MMP28


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/chr17:35454765/chr17:34106327)
- 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
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-5255117_61821252269.0DomainBiotin carboxylation
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-52551576_191421252269.0DomainCoA carboxyltransferase N-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-5255275_46621252269.0DomainATP-grasp
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-5255745_81921252269.0DomainBiotinyl-binding
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-5356117_61822402384.0DomainBiotin carboxylation
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-53561576_191422402384.0DomainCoA carboxyltransferase N-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-53561918_223422402384.0DomainCoA carboxyltransferase C-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-5356275_46622402384.0DomainATP-grasp
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-5356745_81922402384.0DomainBiotinyl-binding
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-5154117_61821452289.0DomainBiotin carboxylation
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-51541576_191421452289.0DomainCoA carboxyltransferase N-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-5154275_46621452289.0DomainATP-grasp
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-5154745_81921452289.0DomainBiotinyl-binding
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-5356117_61822032347.0DomainBiotin carboxylation
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-53561576_191422032347.0DomainCoA carboxyltransferase N-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-5356275_46622032347.0DomainATP-grasp
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-5356745_81922032347.0DomainBiotinyl-binding
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-5255315_32021252269.0Nucleotide bindingATP
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-5356315_32022402384.0Nucleotide bindingATP
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-5154315_32021452289.0Nucleotide bindingATP
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-5356315_32022032347.0Nucleotide bindingATP
HgeneACACAchr17:35454765chr17:34106327ENST00000353139-53561576_223422402384.0RegionCarboxyltransferase
TgeneMMP28chr17:35454765chr17:34106327ENST000002501440389_9637131.0MotifCysteine switch
TgeneMMP28chr17:35454765chr17:34106327ENST0000025014403325_36937131.0RepeatNote=Hemopexin 1
TgeneMMP28chr17:35454765chr17:34106327ENST0000025014403370_40937131.0RepeatNote=Hemopexin 2
TgeneMMP28chr17:35454765chr17:34106327ENST0000025014403415_46337131.0RepeatNote=Hemopexin 3
TgeneMMP28chr17:35454765chr17:34106327ENST0000025014403464_51037131.0RepeatNote=Hemopexin 4

- In-frame and not-retained protein feature among the 13 regional features.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenProtein featureProtein feature note
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-52551918_223421252269.0DomainCoA carboxyltransferase C-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-51541918_223421452289.0DomainCoA carboxyltransferase C-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-53561918_223422032347.0DomainCoA carboxyltransferase C-terminal
HgeneACACAchr17:35454765chr17:34106327ENST00000335166-52551576_223421252269.0RegionCarboxyltransferase
HgeneACACAchr17:35454765chr17:34106327ENST00000360679-51541576_223421452289.0RegionCarboxyltransferase
HgeneACACAchr17:35454765chr17:34106327ENST00000394406-53561576_223422032347.0RegionCarboxyltransferase


Top

Fusion Gene Sequence for ACACA-MMP28


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.
>1165_1165_1_ACACA-MMP28_ACACA_chr17_35454765_ENST00000353139_MMP28_chr17_34106327_ENST00000250144_length(transcript)=7853nt_BP=7202nt
GCCCTCTTGGCCTTTTCCCGGTCCCCGCCGCGCGCCTGCTGCTGTCCCCGTGCCCGAGGACTGGGAGGATGGGGCTGAGCCGCTTGCCTG
ACTTTTGATCCGACCAGTAATCACTTTGCCCGTGTGGCGCGTGGCCCGTTGCCTGAGGCTTCCTGGCGCGTGGGGCTGTTTGGTCCCCTC
CGGAGTGCGGTGAGGCGGGCCGAGCCGGGACTGCCTGGGTTTGGGGATAACGTTCCCATCTCCACCCCTGTTGCAGCAAGGGAAATTGAG
GCTGAGGGAACTGGGCCCAGGGACGGCGAGCCGTGGCTGCCTCTCCAGTCCGGGCCCCGAAGGGCTGCTCGTGGATGAACCAGACTGATT
TTAAGGGGTGAAGAGGGTGCGTTTCAATCAGATGCTTCTGGAACGTCGAAATTGTCTTCTTTGGAAAGAACCATCCCCTCTTTGGGCTTC
AGAGGCCCAAATTGAGGCGCAATGATGAGAGGATGTGGTGGTCTACTCTGATGTCAATCTTGAGGGCTAGGTCTTTCTGGAAGTGGATAT
CTACTCAGACAGTAAGAATTATAAGAGCTGTAAGAGCTCATTTTGGAGGAATAATGGATGAACCATCTCCCTTGGCCCAACCTCTGGAGC
TGAACCAGCACTCTCGATTCATAATAGGTTCTGTGTCTGAAGATAACTCAGAGGATGAGATCAGCAACCTGGTGAAGTTGGACCTACTGG
AGGAGAAGGAGGGCTCCTTGTCACCTGCTTCTGTTGGCTCAGATACACTCTCTGATTTGGGGATCTCTAGCCTACAGGATGGCTTGGCCT
TGCACATAAGGTCCAGCATGTCTGGCTTGCACCTAGTAAAGCAGGGCCGAGACAGAAAGAAAATAGATTCTCAACGAGATTTCACTGTGG
CTTCTCCAGCAGAATTTGTTACTCGCTTTGGGGGAAATAAAGTGATTGAGAAGGTTCTTATTGCTAACAATGGCATTGCAGCAGTGAAAT
GCATGCGGTCTATCCGTAGGTGGTCTTATGAAATGTTTCGAAATGAACGTGCAATTAGATTCGTTGTCATGGTCACACCTGAAGACCTTA
AAGCCAATGCAGAATACATTAAGATGGCAGATCACTATGTGCCAGTGCCTGGAGGACCAAACAACAACAACTATGCAAATGTGGAATTAA
TTCTTGATATTGCTAAAAGGATCCCAGTACAAGCAGTGTGGGCTGGCTGGGGTCATGCTTCTGAGAATCCCAAACTACCGGAACTTCTCT
TGAAAAATGGCATTGCCTTCATGGGTCCTCCAAGCCAGGCCATGTGGGCTTTAGGGGATAAGATTGCATCTTCCATAGTGGCTCAAACTG
CAGGTATCCCAACTCTTCCCTGGAGCGGCAGTGGTCTTCGTGTGGACTGGCAGGAAAATGATTTTTCAAAACGTATCTTAAATGTTCCCC
AGGAGCTATATGAAAAAGGTTATGTGAAAGATGTGGATGATGGGCTACAGGCAGCTGAGGAAGTTGGATATCCAGTAATGATCAAGGCCT
CAGAGGGAGGAGGAGGGAAGGGAATTAGAAAAGTCAACAATGCAGATGACTTCCCTAATCTCTTCAGACAGGTTCAAGCTGAAGTTCCTG
GATCTCCCATATTTGTGATGAGACTAGCCAAACAATCTCGTCATCTGGAGGTGCAGATCTTAGCGGACCAATATGGCAATGCTATCTCTT
TGTTTGGTCGTGATTGCTCTGTACAACGCAGGCATCAGAAGATTATTGAAGAAGCACCTGCTACTATTGCTACTCCAGCAGTATTTGAAC
ACATGGAACAGTGTGCGGTGAAACTTGCCAAAATGGTGGGTTATGTGAGTGCTGGGACTGTGGAATACCTGTACAGCCAGGATGGCAGCT
TCTACTTTCTGGAATTGAATCCTCGGCTGCAGGTAGAGCACCCTTGTACAGAGATGGTGGCTGATGTCAATCTCCCTGCAGCACAGCTCC
AGATTGCCATGGGGATTCCTCTATATAGAATCAAGGATATCCGTATGATGTATGGGGTATCTCCCTGGGGTGATTCTCCCATTGATTTTG
AAGATTCTGCACACGTTCCTTGTCCAAGGGGCCATGTTATTGCTGCTCGGATCACTAGTGAAAATCCAGATGAGGGTTTTAAGCCCAGCT
CAGGAACAGTTCAGGAGCTAAATTTCCGCAGCAATAAGAATGTTTGGGGATATTTCAGTGTTGCTGCTGCAGGGGGACTTCATGAATTTG
CTGATTCTCAGTTTGGTCACTGCTTTTCTTGGGGAGAAAACAGAGAAGAGGCAATTTCAAACATGGTGGTGGCTTTGAAGGAGCTGTCTA
TTCGGGGTGACTTTCGAACTACAGTTGAATACCTGATCAAATTGTTAGAGACTGAAAGCTTTCAGATGAACAGAATTGATACTGGCTGGC
TGGACAGACTGATAGCAGAAAAAGTACAGGCTGAGCGACCTGACACCATGTTGGGGGTTGTGTGTGGTGCCCTCCACGTGGCAGATGTGA
GCCTGCGGAATAGCGTCTCTAACTTCCTTCACTCCTTAGAAAGGGGTCAAGTCCTTCCTGCTCATACACTTCTGAATACAGTAGATGTTG
AACTTATCTATGAGGGAGTCAAGTATGTACTTAAGGTGACTCGACAGTCCCCCAACTCCTATGTGGTGATCATGAATGGCTCATGTGTAG
AAGTAGATGTACATCGGCTGAGTGACGGTGGACTGCTCTTGTCCTATGATGGCAGCAGTTATACTACGTATATGAAAGAGGAAGTGGATA
GATATCGCATCACAATTGGCAATAAAACCTGTGTGTTTGAGAAGGAAAATGACCCATCGGTGATGCGCTCACCTTCTGCTGGGAAGTTAA
TCCAGTACATTGTAGAAGATGGAGGTCATGTGTTTGCCGGCCAGTGCTATGCTGAGATTGAGGTAATGAAGATGGTAATGACCTTAACAG
CTGTGGAGTCTGGCTGTATCCATTACGTCAAGCGACCTGGAGCAGCTCTTGACCCTGGCTGTGTACTAGCCAAAATGCAACTGGACAACC
CCAGCAAGGTTCAGCAGGCTGAACTTCACACAGGTAGTCTGCCACGGATCCAGAGCACGGCACTCAGAGGCGAGAAACTCCATCGAGTGT
TCCATTATGTCCTGGATAATCTGGTCAATGTAATGAATGGATACTGCCTTCCAGATCCTTTCTTTAGCAGCAAGGTAAAAGACTGGGTAG
AGCGATTGATGAAAACCCTCAGAGATCCCTCCCTGCCTCTCCTAGAATTGCAAGATATTATGACCAGTGTGTCTGGCCGCATTCCCCCCA
ATGTGGAGAAGTCTATCAAGAAGGAAATGGCTCAGTATGCTAGCAACATCACATCAGTCCTCTGTCAGTTTCCCAGCCAGCAGATTGCAA
ACATCCTAGATAGCCATGCAGCTACATTGAACCGGAAATCTGAACGGGAAGTCTTCTTTATGAATACTCAGAGCATTGTTCAGCTGGTAC
AGAGGTACCGAAGTGGCATCCGAGGCCACATGAAGGCTGTGGTGATGGATCTGCTCCGGCAGTACCTGCGAGTAGAGACACAATTCCAGA
ATGGTCACTATGACAAATGTGTATTCGCCCTCCGAGAAGAGAATAAAAGTGACATGAACACTGTACTGAACTACATCTTCTCTCACGCTC
AAGTCACCAAGAAGAATCTTCTGGTCACAATGCTTATTGATCAGTTGTGTGGCCGGGACCCTACTCTCACTGATGAGCTGCTGAATATTC
TCACAGAGCTAACTCAACTCAGTAAGACCACCAATGCCAAAGTAGCACTTCGAGCACGCCAGGTTCTTATTGCCTCCCATTTGCCATCAT
ATGAGCTTCGCCATAACCAAGTAGAGTCTATCTTCCTATCAGCTATTGACATGTATGGACATCAATTTTGCATTGAGAACCTGCAGAAAC
TCATCCTATCAGAAACATCTATTTTTGATGTCCTACCAAACTTCTTCTATCACAGCAACCAAGTAGTGAGGATGGCAGCTCTGGAGGTGT
ATGTTCGAAGGGCTTATATTGCCTATGAACTTAACAGCGTACAACACCGCCAGCTTAAGGACAACACCTGTGTGGTGGAATTCCAGTTCA
TGCTGCCCACATCTCATCCAAACAGAGGGAACATCCCTACGCTAAACAGAATGTCCTTCTCCTCCAACCTCAACCACTATGGCATGACCC
ATGTAGCTAGTGTCAGCGATGTACTGTTGGACAACTCATTCACTCCACCTTGTCAGCGGATGGGCGGAATGGTCTCTTTTCGGACTTTTG
AAGATTTTGTCAGGATCTTTGATGAAGTGATGGGCTGCTTCTCTGACTCCCCACCCCAGAGTCCCACATTCCCTGAGGCAGGTCACACGT
CTCTTTATGATGAGGATAAGGTTCCCAGGGATGAACCAATTCACATTCTCAATGTGGCTATCAAGACTGACTGTGATATTGAGGATGACA
GGCTGGCAGCTATGTTCAGAGAATTTACCCAGCAAAATAAAGCTACCCTGGTTGACCATGGGATCCGGCGCCTTACTTTCCTGGTTGCAC
AAAAGGATTTCAGAAAGCAGGTCAACTATGAGGTGGATCGGAGATTTCATAGAGAATTCCCTAAATTTTTTACATTCCGAGCAAGGGATA
AGTTTGAGGAGGATCGTATCTATCGTCATCTGGAGCCTGCTCTGGCTTTCCAGTTAGAGCTGAACCGGATGAGAAATTTTGACCTCACTG
CCATTCCATGTGCTAATCACAAGATGCACCTGTATCTCGGGGCAGCCAAGGTGGAAGTGGGCACAGAAGTGACAGACTACAGGTTCTTTG
TTCGTGCAATCATCAGGCATTCTGATCTGGTCACCAAGGAAGCTTCTTTTGAATATCTGCAAAATGAAGGGGAGCGGCTACTCCTGGAAG
CCATGGATGAGTTGGAAGTTGCTTTTAACAATACAAATGTCCGCACTGACTGTAACCACATCTTCCTCAACTTTGTGCCCACGGTTATCA
TGGACCCATCAAAGATTGAGGAATCCGTGCGGAGCATGGTAATGCGGTATGGAAGTCGCCTGTGGAAATTGCGCGTCCTCCAGGCAGAAC
TGAAAATCAACATTCGCCTGACGCCAACTGGAAAAGCAATTCCCATCCGCCTCTTCCTGACAAACGAGTCTGGCTATTACTTGGATATCA
GCCTATACAAGGAAGTGACTGACTCCAGGACAGCACAGATCATGTTTCAGGCATATGGAGACAAACAGGGACCACTGCATGGAATGTTAA
TCAATACTCCATATGTGACCAAAGACCTGCTGCAATCAAAGAGGTTCCAGGCACAATCCTTAGGGACAACATACATATATGATATCCCAG
AGATGTTTCGGCAGTCCCTGATCAAACTCTGGGAGTCTATGTCCACTCAAGCATTTCTTCCATCTCCCCCTCTGCCTTCTGACATGCTGA
CTTACACTGAACTGGTACTGGATGATCAAGGTCAGCTGGTCCACATGAACAGGCTTCCAGGAGGAAATGAGATTGGCATGGTAGCTTGGA
AAATGACCTTTAAAAGTCCTGAATATCCAGAAGGCCGAGATATCATTGTTATTGGCAATGACATCACATACCGAATTGGGTCCTTTGGGC
CTCAAGAGGATTTGTTATTTCTCAGAGCTTCCGAACTTGCTAGGGCAGAAGGTATTCCACGCATCTATGTATCAGCCAACAGTGGAGCAA
GAATCGGACTGGCAGAAGAAATTCGCCATATGTTTCATGTGGCCTGGGTAGATCCTGAGGATCCTTACAAGGGATACAGGTATTTATATC
TGACTCCTCAAGATTATAAGAGAGTCAGTGCTCTCAACTCTGTCCATTGTGAACACGTGGAAGATGAAGGAGAATCCAGGTACAAGATAA
CAGATATTATTGGGAAAGAAGAGGGAATTGGACCCGAGAACCTTCGAGGTTCTGGAATGATTGCTGGAGAATCCTCATTGGCCTATAATG
AGATCATTACCATCAGCCTGGTGACGTGCCGGGCCATTGGGATTGGGGCTTACCTTGTCCGGCTGGGACAGAGAACCATCCAGGTTGAGA
ATTCTCACTTAATTCTAACAGGAGCTGGAGCCCTCAACAAAGTCCTCGGGCGGGAAGTGTACACCTCCAATAACCAGCTGGGGGGCATCC
AGATTATGCACAACAATGGGGTGACCCACTGCACTGTGTGTGATGACTTTGAAGGGGTTTTCACTGTCCTGCACTGGCTGTCTTACATGC
CCAAGAGCGTGCACAGTTCAGTTCCTCTTCTGAACTCAAAGGATCCTATAGACAGAATCATCGAGTTTGTTCCCACAAAGACCCCATACG
ATCCTCGATGGATGCTAGCAGGCCGTCCTCACCCAACCCAAAAAGGTCAGTGGTTGAGTGGCTTTTTTGACTATGGATCTTTCTCAGAGA
TTATGCAGCCCTGGGCACAGACTGTGGTGGTTGGTAGAGCCAGGCTAGGAGGAATACCTGTGGGAGTTGTTGCTGTAGAAACCCGAACAG
TAGAACTAAGTATCCCAGCTGATCCAGCAAACCTGGATTCTGAAGCCAAGATAATCCAGCAGGCTGGCCAGGTTTGGTTCCCAGATTCTG
CGTTTAAGACATATCAGGCCATCAAGGACTTCAACCGGGAAGGGCTGCCTCTGATGGTCTTTGCCAACTGGAGAGGCTTCTCTGGTGGAA
TGAAAGATATGTACGACCAAGTGCTGAAGTTTGGTGCTTACATTGTGGATGGCTTGAGGGAGTGCTGCCAGCCTGTGCTGGTTTACATTC
CTCCCCAGGCTGAGCTGCGGGGTGGCTCCTGGGTGGTGATTGACTCCTCCATCAACCCCCGGCACATGGAGATGTATGCTGACCGAGAAA
GCAGGGGATCTGTTCTGGAGCCAGAAGGGACAGTAGAAATCAAATTCCGCAGAAAGGATCTGGTGAAAACCATGCGTCGGGTGGACCCAG
TCTACATCCACTTGGCTGAGCGATTGGGGACCCCAGAGCTAAGCACAGCTGAGCGGAAGGAGTTGGAGAACAAGTTGAAGGAGCGGGAGG
AATTCCTAATTCCCATTTACCATCAGGTAGCCGTGCAGTTTGCTGACTTGCACGACACACCAGGCCGGATGCAGGAGAAGGGTGTTATTA
GCGCATTCCTAGAGAAGTACGGATACCTCAATGAACAGGTCCCCAAAGCTCCCACCTCCACTCGATTCAGCGATGCCATCAGAGCGTTTC
AGTGGGTGTCCCAGCTACCTGTCAGCGGCGTGTTGGACCGCGCCACCCTGCGCCAGATGACTCGTCCCCGCTGCGGGGTTACAGATACCA
ACAGTTATGCGGCCTGGGCTGAGAGGATCAGTGACTTGTTTGCTAGACACCGGACCAAAATGAGGCGTAAGAAACGCTTTGCAAAGCAAG
GTGAGCACTGTTAAAATCCGGCTAGGCCAAGATTTCCCAATGTCTTGAAGCCAATGGCTAGGAAAACAGCTGAGCCTGGGACTGGACTTT
GTCAGTAACCTCTCTTCCCTAGGGCACGGGAGGAGTGGGTGAATAGGACCTCTTGGCTTGAGGACCATGATTGTGAATACAGACATTTAA
TTCAGAATGACACCTACATTGATGAATTTTCATTGTACAAGTGTTTTTCCAGATCAAACACAAAACCCATGTAATTCCTTGATAAATTTT
CAATGCAGGGCAGATAAACTGTTGCTAACATTTTTCATTTATATTTACTGAAGTTATTTTCATCAGAATTCATTCTTTTTCATAAGTTAT

>1165_1165_1_ACACA-MMP28_ACACA_chr17_35454765_ENST00000353139_MMP28_chr17_34106327_ENST00000250144_length(amino acids)=2340AA_BP=2247
MRRNDERMWWSTLMSILRARSFWKWISTQTVRIIRAVRAHFGGIMDEPSPLAQPLELNQHSRFIIGSVSEDNSEDEISNLVKLDLLEEKE
GSLSPASVGSDTLSDLGISSLQDGLALHIRSSMSGLHLVKQGRDRKKIDSQRDFTVASPAEFVTRFGGNKVIEKVLIANNGIAAVKCMRS
IRRWSYEMFRNERAIRFVVMVTPEDLKANAEYIKMADHYVPVPGGPNNNNYANVELILDIAKRIPVQAVWAGWGHASENPKLPELLLKNG
IAFMGPPSQAMWALGDKIASSIVAQTAGIPTLPWSGSGLRVDWQENDFSKRILNVPQELYEKGYVKDVDDGLQAAEEVGYPVMIKASEGG
GGKGIRKVNNADDFPNLFRQVQAEVPGSPIFVMRLAKQSRHLEVQILADQYGNAISLFGRDCSVQRRHQKIIEEAPATIATPAVFEHMEQ
CAVKLAKMVGYVSAGTVEYLYSQDGSFYFLELNPRLQVEHPCTEMVADVNLPAAQLQIAMGIPLYRIKDIRMMYGVSPWGDSPIDFEDSA
HVPCPRGHVIAARITSENPDEGFKPSSGTVQELNFRSNKNVWGYFSVAAAGGLHEFADSQFGHCFSWGENREEAISNMVVALKELSIRGD
FRTTVEYLIKLLETESFQMNRIDTGWLDRLIAEKVQAERPDTMLGVVCGALHVADVSLRNSVSNFLHSLERGQVLPAHTLLNTVDVELIY
EGVKYVLKVTRQSPNSYVVIMNGSCVEVDVHRLSDGGLLLSYDGSSYTTYMKEEVDRYRITIGNKTCVFEKENDPSVMRSPSAGKLIQYI
VEDGGHVFAGQCYAEIEVMKMVMTLTAVESGCIHYVKRPGAALDPGCVLAKMQLDNPSKVQQAELHTGSLPRIQSTALRGEKLHRVFHYV
LDNLVNVMNGYCLPDPFFSSKVKDWVERLMKTLRDPSLPLLELQDIMTSVSGRIPPNVEKSIKKEMAQYASNITSVLCQFPSQQIANILD
SHAATLNRKSEREVFFMNTQSIVQLVQRYRSGIRGHMKAVVMDLLRQYLRVETQFQNGHYDKCVFALREENKSDMNTVLNYIFSHAQVTK
KNLLVTMLIDQLCGRDPTLTDELLNILTELTQLSKTTNAKVALRARQVLIASHLPSYELRHNQVESIFLSAIDMYGHQFCIENLQKLILS
ETSIFDVLPNFFYHSNQVVRMAALEVYVRRAYIAYELNSVQHRQLKDNTCVVEFQFMLPTSHPNRGNIPTLNRMSFSSNLNHYGMTHVAS
VSDVLLDNSFTPPCQRMGGMVSFRTFEDFVRIFDEVMGCFSDSPPQSPTFPEAGHTSLYDEDKVPRDEPIHILNVAIKTDCDIEDDRLAA
MFREFTQQNKATLVDHGIRRLTFLVAQKDFRKQVNYEVDRRFHREFPKFFTFRARDKFEEDRIYRHLEPALAFQLELNRMRNFDLTAIPC
ANHKMHLYLGAAKVEVGTEVTDYRFFVRAIIRHSDLVTKEASFEYLQNEGERLLLEAMDELEVAFNNTNVRTDCNHIFLNFVPTVIMDPS
KIEESVRSMVMRYGSRLWKLRVLQAELKINIRLTPTGKAIPIRLFLTNESGYYLDISLYKEVTDSRTAQIMFQAYGDKQGPLHGMLINTP
YVTKDLLQSKRFQAQSLGTTYIYDIPEMFRQSLIKLWESMSTQAFLPSPPLPSDMLTYTELVLDDQGQLVHMNRLPGGNEIGMVAWKMTF
KSPEYPEGRDIIVIGNDITYRIGSFGPQEDLLFLRASELARAEGIPRIYVSANSGARIGLAEEIRHMFHVAWVDPEDPYKGYRYLYLTPQ
DYKRVSALNSVHCEHVEDEGESRYKITDIIGKEEGIGPENLRGSGMIAGESSLAYNEIITISLVTCRAIGIGAYLVRLGQRTIQVENSHL
ILTGAGALNKVLGREVYTSNNQLGGIQIMHNNGVTHCTVCDDFEGVFTVLHWLSYMPKSVHSSVPLLNSKDPIDRIIEFVPTKTPYDPRW
MLAGRPHPTQKGQWLSGFFDYGSFSEIMQPWAQTVVVGRARLGGIPVGVVAVETRTVELSIPADPANLDSEAKIIQQAGQVWFPDSAFKT
YQAIKDFNREGLPLMVFANWRGFSGGMKDMYDQVLKFGAYIVDGLRECCQPVLVYIPPQAELRGGSWVVIDSSINPRHMEMYADRESRGS
VLEPEGTVEIKFRRKDLVKTMRRVDPVYIHLAERLGTPELSTAERKELENKLKEREEFLIPIYHQVAVQFADLHDTPGRMQEKGVISAFL
EKYGYLNEQVPKAPTSTRFSDAIRAFQWVSQLPVSGVLDRATLRQMTRPRCGVTDTNSYAAWAERISDLFARHRTKMRRKKRFAKQGEHC

--------------------------------------------------------------
>1165_1165_2_ACACA-MMP28_ACACA_chr17_35454765_ENST00000360679_MMP28_chr17_34106327_ENST00000250144_length(transcript)=7521nt_BP=6870nt
GGCAGCCAGGAGAGGCAGTGGAGCTTTTCTCCGTTGACTGTCAGAAGAAAGTGACTGTTGTTGAAAATGTTTGCTGCAACTAAAGGAGAG
CTGCTAAGATCTACTTTCTAGTTAAACAAGCTTTTATATTTCTCCCCGGCTCCTCTCAGTTCCCTTGGGAAATCAACTAATTGTGTGTGT
AAGCTAAGTGTGTGGAGGAGAGAAGATGCAAAAAGGAAGAGAAAGGTGGGGAAAGAAGGAAATTGGGAACAATTAGACAAAAAGACTATA
GTTTGAGGCCATCAGGAGTATTCTAGTCTGACTGAAGCCAGGCAGAAGGCACAGTATCTCTTGTCCTCCTGGGTTTTAAGCAGCTGCAAC
AGGAGGAGGAACTGCGGCTTGTGTTTACAAGGCCGAAATCTGAAGAAAAAGCTTCCATTCTTTTCCCATCTTGATATGGAGGGTTCTCCA
GAGGAAAATAAGGAAATGAGATATTACATGCTTCAAAGGTCCAGCATGTCTGGCTTGCACCTAGTAAAGCAGGGCCGAGACAGAAAGAAA
ATAGATTCTCAACGAGATTTCACTGTGGCTTCTCCAGCAGAATTTGTTACTCGCTTTGGGGGAAATAAAGTGATTGAGAAGGTTCTTATT
GCTAACAATGGCATTGCAGCAGTGAAATGCATGCGGTCTATCCGTAGGTGGTCTTATGAAATGTTTCGAAATGAACGTGCAATTAGATTC
GTTGTCATGGTCACACCTGAAGACCTTAAAGCCAATGCAGAATACATTAAGATGGCAGATCACTATGTGCCAGTGCCTGGAGGACCAAAC
AACAACAACTATGCAAATGTGGAATTAATTCTTGATATTGCTAAAAGGATCCCAGTACAAGCAGTGTGGGCTGGCTGGGGTCATGCTTCT
GAGAATCCCAAACTACCGGAACTTCTCTTGAAAAATGGCATTGCCTTCATGGGTCCTCCAAGCCAGGCCATGTGGGCTTTAGGGGATAAG
ATTGCATCTTCCATAGTGGCTCAAACTGCAGGTATCCCAACTCTTCCCTGGAGCGGCAGTGGTCTTCGTGTGGACTGGCAGGAAAATGAT
TTTTCAAAACGTATCTTAAATGTTCCCCAGGAGCTATATGAAAAAGGTTATGTGAAAGATGTGGATGATGGGCTACAGGCAGCTGAGGAA
GTTGGATATCCAGTAATGATCAAGGCCTCAGAGGGAGGAGGAGGGAAGGGAATTAGAAAAGTCAACAATGCAGATGACTTCCCTAATCTC
TTCAGACAGGTTCAAGCTGAAGTTCCTGGATCTCCCATATTTGTGATGAGACTAGCCAAACAATCTCGTCATCTGGAGGTGCAGATCTTA
GCGGACCAATATGGCAATGCTATCTCTTTGTTTGGTCGTGATTGCTCTGTACAACGCAGGCATCAGAAGATTATTGAAGAAGCACCTGCT
ACTATTGCTACTCCAGCAGTATTTGAACACATGGAACAGTGTGCGGTGAAACTTGCCAAAATGGTGGGTTATGTGAGTGCTGGGACTGTG
GAATACCTGTACAGCCAGGATGGCAGCTTCTACTTTCTGGAATTGAATCCTCGGCTGCAGGTAGAGCACCCTTGTACAGAGATGGTGGCT
GATGTCAATCTCCCTGCAGCACAGCTCCAGATTGCCATGGGGATTCCTCTATATAGAATCAAGGATATCCGTATGATGTATGGGGTATCT
CCCTGGGGTGATTCTCCCATTGATTTTGAAGATTCTGCACACGTTCCTTGTCCAAGGGGCCATGTTATTGCTGCTCGGATCACTAGTGAA
AATCCAGATGAGGGTTTTAAGCCCAGCTCAGGAACAGTTCAGGAGCTAAATTTCCGCAGCAATAAGAATGTTTGGGGATATTTCAGTGTT
GCTGCTGCAGGGGGACTTCATGAATTTGCTGATTCTCAGTTTGGTCACTGCTTTTCTTGGGGAGAAAACAGAGAAGAGGCAATTTCAAAC
ATGGTGGTGGCTTTGAAGGAGCTGTCTATTCGGGGTGACTTTCGAACTACAGTTGAATACCTGATCAAATTGTTAGAGACTGAAAGCTTT
CAGATGAACAGAATTGATACTGGCTGGCTGGACAGACTGATAGCAGAAAAAGTACAGGCTGAGCGACCTGACACCATGTTGGGGGTTGTG
TGTGGTGCCCTCCACGTGGCAGATGTGAGCCTGCGGAATAGCGTCTCTAACTTCCTTCACTCCTTAGAAAGGGGTCAAGTCCTTCCTGCT
CATACACTTCTGAATACAGTAGATGTTGAACTTATCTATGAGGGAGTCAAGTATGTACTTAAGGTGACTCGACAGTCCCCCAACTCCTAT
GTGGTGATCATGAATGGCTCATGTGTAGAAGTAGATGTACATCGGCTGAGTGACGGTGGACTGCTCTTGTCCTATGATGGCAGCAGTTAT
ACTACGTATATGAAAGAGGAAGTGGATAGATATCGCATCACAATTGGCAATAAAACCTGTGTGTTTGAGAAGGAAAATGACCCATCGGTG
ATGCGCTCACCTTCTGCTGGGAAGTTAATCCAGTACATTGTAGAAGATGGAGGTCATGTGTTTGCCGGCCAGTGCTATGCTGAGATTGAG
GTAATGAAGATGGTAATGACCTTAACAGCTGTGGAGTCTGGCTGTATCCATTACGTCAAGCGACCTGGAGCAGCTCTTGACCCTGGCTGT
GTACTAGCCAAAATGCAACTGGACAACCCCAGCAAGGTTCAGCAGGCTGAACTTCACACAGGTAGTCTGCCACGGATCCAGAGCACGGCA
CTCAGAGGCGAGAAACTCCATCGAGTGTTCCATTATGTCCTGGATAATCTGGTCAATGTAATGAATGGATACTGCCTTCCAGATCCTTTC
TTTAGCAGCAAGGTAAAAGACTGGGTAGAGCGATTGATGAAAACCCTCAGAGATCCCTCCCTGCCTCTCCTAGAATTGCAAGATATTATG
ACCAGTGTGTCTGGCCGCATTCCCCCCAATGTGGAGAAGTCTATCAAGAAGGAAATGGCTCAGTATGCTAGCAACATCACATCAGTCCTC
TGTCAGTTTCCCAGCCAGCAGATTGCAAACATCCTAGATAGCCATGCAGCTACATTGAACCGGAAATCTGAACGGGAAGTCTTCTTTATG
AATACTCAGAGCATTGTTCAGCTGGTACAGAGGTACCGAAGTGGCATCCGAGGCCACATGAAGGCTGTGGTGATGGATCTGCTCCGGCAG
TACCTGCGAGTAGAGACACAATTCCAGAATGGTCACTATGACAAATGTGTATTCGCCCTCCGAGAAGAGAATAAAAGTGACATGAACACT
GTACTGAACTACATCTTCTCTCACGCTCAAGTCACCAAGAAGAATCTTCTGGTCACAATGCTTATTGATCAGTTGTGTGGCCGGGACCCT
ACTCTCACTGATGAGCTGCTGAATATTCTCACAGAGCTAACTCAACTCAGTAAGACCACCAATGCCAAAGTAGCACTTCGAGCACGCCAG
GTTCTTATTGCCTCCCATTTGCCATCATATGAGCTTCGCCATAACCAAGTAGAGTCTATCTTCCTATCAGCTATTGACATGTATGGACAT
CAATTTTGCATTGAGAACCTGCAGAAACTCATCCTATCAGAAACATCTATTTTTGATGTCCTACCAAACTTCTTCTATCACAGCAACCAA
GTAGTGAGGATGGCAGCTCTGGAGGTGTATGTTCGAAGGGCTTATATTGCCTATGAACTTAACAGCGTACAACACCGCCAGCTTAAGGAC
AACACCTGTGTGGTGGAATTCCAGTTCATGCTGCCCACATCTCATCCAAACAGAGGGAACATCCCTACGCTAAACAGAATGTCCTTCTCC
TCCAACCTCAACCACTATGGCATGACCCATGTAGCTAGTGTCAGCGATGTACTGTTGGACAACTCATTCACTCCACCTTGTCAGCGGATG
GGCGGAATGGTCTCTTTTCGGACTTTTGAAGATTTTGTCAGGATCTTTGATGAAGTGATGGGCTGCTTCTCTGACTCCCCACCCCAGAGT
CCCACATTCCCTGAGGCAGGTCACACGTCTCTTTATGATGAGGATAAGGTTCCCAGGGATGAACCAATTCACATTCTCAATGTGGCTATC
AAGACTGACTGTGATATTGAGGATGACAGGCTGGCAGCTATGTTCAGAGAATTTACCCAGCAAAATAAAGCTACCCTGGTTGACCATGGG
ATCCGGCGCCTTACTTTCCTGGTTGCACAAAAGGATTTCAGAAAGCAGGTCAACTATGAGGTGGATCGGAGATTTCATAGAGAATTCCCT
AAATTTTTTACATTCCGAGCAAGGGATAAGTTTGAGGAGGATCGTATCTATCGTCATCTGGAGCCTGCTCTGGCTTTCCAGTTAGAGCTG
AACCGGATGAGAAATTTTGACCTCACTGCCATTCCATGTGCTAATCACAAGATGCACCTGTATCTCGGGGCAGCCAAGGTGGAAGTGGGC
ACAGAAGTGACAGACTACAGGTTCTTTGTTCGTGCAATCATCAGGCATTCTGATCTGGTCACCAAGGAAGCTTCTTTTGAATATCTGCAA
AATGAAGGGGAGCGGCTACTCCTGGAAGCCATGGATGAGTTGGAAGTTGCTTTTAACAATACAAATGTCCGCACTGACTGTAACCACATC
TTCCTCAACTTTGTGCCCACGGTTATCATGGACCCATCAAAGATTGAGGAATCCGTGCGGAGCATGGTAATGCGGTATGGAAGTCGCCTG
TGGAAATTGCGCGTCCTCCAGGCAGAACTGAAAATCAACATTCGCCTGACGCCAACTGGAAAAGCAATTCCCATCCGCCTCTTCCTGACA
AACGAGTCTGGCTATTACTTGGATATCAGCCTATACAAGGAAGTGACTGACTCCAGGACAGCACAGATCATGTTTCAGGCATATGGAGAC
AAACAGGGACCACTGCATGGAATGTTAATCAATACTCCATATGTGACCAAAGACCTGCTGCAATCAAAGAGGTTCCAGGCACAATCCTTA
GGGACAACATACATATATGATATCCCAGAGATGTTTCGGCAGTCCCTGATCAAACTCTGGGAGTCTATGTCCACTCAAGCATTTCTTCCA
TCTCCCCCTCTGCCTTCTGACATGCTGACTTACACTGAACTGGTACTGGATGATCAAGGTCAGCTGGTCCACATGAACAGGCTTCCAGGA
GGAAATGAGATTGGCATGGTAGCTTGGAAAATGACCTTTAAAAGTCCTGAATATCCAGAAGGCCGAGATATCATTGTTATTGGCAATGAC
ATCACATACCGAATTGGGTCCTTTGGGCCTCAAGAGGATTTGTTATTTCTCAGAGCTTCCGAACTTGCTAGGGCAGAAGGTATTCCACGC
ATCTATGTATCAGCCAACAGTGGAGCAAGAATCGGACTGGCAGAAGAAATTCGCCATATGTTTCATGTGGCCTGGGTAGATCCTGAGGAT
CCTTACAAGGGATACAGGTATTTATATCTGACTCCTCAAGATTATAAGAGAGTCAGTGCTCTCAACTCTGTCCATTGTGAACACGTGGAA
GATGAAGGAGAATCCAGGTACAAGATAACAGATATTATTGGGAAAGAAGAGGGAATTGGACCCGAGAACCTTCGAGGTTCTGGAATGATT
GCTGGAGAATCCTCATTGGCCTATAATGAGATCATTACCATCAGCCTGGTGACGTGCCGGGCCATTGGGATTGGGGCTTACCTTGTCCGG
CTGGGACAGAGAACCATCCAGGTTGAGAATTCTCACTTAATTCTAACAGGAGCTGGAGCCCTCAACAAAGTCCTCGGGCGGGAAGTGTAC
ACCTCCAATAACCAGCTGGGGGGCATCCAGATTATGCACAACAATGGGGTGACCCACTGCACTGTGTGTGATGACTTTGAAGGGGTTTTC
ACTGTCCTGCACTGGCTGTCTTACATGCCCAAGAGCGTGCACAGTTCAGTTCCTCTTCTGAACTCAAAGGATCCTATAGACAGAATCATC
GAGTTTGTTCCCACAAAGACCCCATACGATCCTCGATGGATGCTAGCAGGCCGTCCTCACCCAACCCAAAAAGGTCAGTGGTTGAGTGGC
TTTTTTGACTATGGATCTTTCTCAGAGATTATGCAGCCCTGGGCACAGACTGTGGTGGTTGGTAGAGCCAGGCTAGGAGGAATACCTGTG
GGAGTTGTTGCTGTAGAAACCCGAACAGTAGAACTAAGTATCCCAGCTGATCCAGCAAACCTGGATTCTGAAGCCAAGATAATCCAGCAG
GCTGGCCAGGTTTGGTTCCCAGATTCTGCGTTTAAGACATATCAGGCCATCAAGGACTTCAACCGGGAAGGGCTGCCTCTGATGGTCTTT
GCCAACTGGAGAGGCTTCTCTGGTGGAATGAAAGATATGTACGACCAAGTGCTGAAGTTTGGTGCTTACATTGTGGATGGCTTGAGGGAG
TGCTGCCAGCCTGTGCTGGTTTACATTCCTCCCCAGGCTGAGCTGCGGGGTGGCTCCTGGGTGGTGATTGACTCCTCCATCAACCCCCGG
CACATGGAGATGTATGCTGACCGAGAAAGCAGGGGATCTGTTCTGGAGCCAGAAGGGACAGTAGAAATCAAATTCCGCAGAAAGGATCTG
GTGAAAACCATGCGTCGGGTGGACCCAGTCTACATCCACTTGGCTGAGCGATTGGGGACCCCAGAGCTAAGCACAGCTGAGCGGAAGGAG
TTGGAGAACAAGTTGAAGGAGCGGGAGGAATTCCTAATTCCCATTTACCATCAGGTAGCCGTGCAGTTTGCTGACTTGCACGACACACCA
GGCCGGATGCAGGAGAAGGGTGTTATTAGCGCATTCCTAGAGAAGTACGGATACCTCAATGAACAGGTCCCCAAAGCTCCCACCTCCACT
CGATTCAGCGATGCCATCAGAGCGTTTCAGTGGGTGTCCCAGCTACCTGTCAGCGGCGTGTTGGACCGCGCCACCCTGCGCCAGATGACT
CGTCCCCGCTGCGGGGTTACAGATACCAACAGTTATGCGGCCTGGGCTGAGAGGATCAGTGACTTGTTTGCTAGACACCGGACCAAAATG
AGGCGTAAGAAACGCTTTGCAAAGCAAGGTGAGCACTGTTAAAATCCGGCTAGGCCAAGATTTCCCAATGTCTTGAAGCCAATGGCTAGG
AAAACAGCTGAGCCTGGGACTGGACTTTGTCAGTAACCTCTCTTCCCTAGGGCACGGGAGGAGTGGGTGAATAGGACCTCTTGGCTTGAG
GACCATGATTGTGAATACAGACATTTAATTCAGAATGACACCTACATTGATGAATTTTCATTGTACAAGTGTTTTTCCAGATCAAACACA
AAACCCATGTAATTCCTTGATAAATTTTCAATGCAGGGCAGATAAACTGTTGCTAACATTTTTCATTTATATTTACTGAAGTTATTTTCA

>1165_1165_2_ACACA-MMP28_ACACA_chr17_35454765_ENST00000360679_MMP28_chr17_34106327_ENST00000250144_length(amino acids)=2284AA_BP=2191
MTEARQKAQYLLSSWVLSSCNRRRNCGLCLQGRNLKKKLPFFSHLDMEGSPEENKEMRYYMLQRSSMSGLHLVKQGRDRKKIDSQRDFTV
ASPAEFVTRFGGNKVIEKVLIANNGIAAVKCMRSIRRWSYEMFRNERAIRFVVMVTPEDLKANAEYIKMADHYVPVPGGPNNNNYANVEL
ILDIAKRIPVQAVWAGWGHASENPKLPELLLKNGIAFMGPPSQAMWALGDKIASSIVAQTAGIPTLPWSGSGLRVDWQENDFSKRILNVP
QELYEKGYVKDVDDGLQAAEEVGYPVMIKASEGGGGKGIRKVNNADDFPNLFRQVQAEVPGSPIFVMRLAKQSRHLEVQILADQYGNAIS
LFGRDCSVQRRHQKIIEEAPATIATPAVFEHMEQCAVKLAKMVGYVSAGTVEYLYSQDGSFYFLELNPRLQVEHPCTEMVADVNLPAAQL
QIAMGIPLYRIKDIRMMYGVSPWGDSPIDFEDSAHVPCPRGHVIAARITSENPDEGFKPSSGTVQELNFRSNKNVWGYFSVAAAGGLHEF
ADSQFGHCFSWGENREEAISNMVVALKELSIRGDFRTTVEYLIKLLETESFQMNRIDTGWLDRLIAEKVQAERPDTMLGVVCGALHVADV
SLRNSVSNFLHSLERGQVLPAHTLLNTVDVELIYEGVKYVLKVTRQSPNSYVVIMNGSCVEVDVHRLSDGGLLLSYDGSSYTTYMKEEVD
RYRITIGNKTCVFEKENDPSVMRSPSAGKLIQYIVEDGGHVFAGQCYAEIEVMKMVMTLTAVESGCIHYVKRPGAALDPGCVLAKMQLDN
PSKVQQAELHTGSLPRIQSTALRGEKLHRVFHYVLDNLVNVMNGYCLPDPFFSSKVKDWVERLMKTLRDPSLPLLELQDIMTSVSGRIPP
NVEKSIKKEMAQYASNITSVLCQFPSQQIANILDSHAATLNRKSEREVFFMNTQSIVQLVQRYRSGIRGHMKAVVMDLLRQYLRVETQFQ
NGHYDKCVFALREENKSDMNTVLNYIFSHAQVTKKNLLVTMLIDQLCGRDPTLTDELLNILTELTQLSKTTNAKVALRARQVLIASHLPS
YELRHNQVESIFLSAIDMYGHQFCIENLQKLILSETSIFDVLPNFFYHSNQVVRMAALEVYVRRAYIAYELNSVQHRQLKDNTCVVEFQF
MLPTSHPNRGNIPTLNRMSFSSNLNHYGMTHVASVSDVLLDNSFTPPCQRMGGMVSFRTFEDFVRIFDEVMGCFSDSPPQSPTFPEAGHT
SLYDEDKVPRDEPIHILNVAIKTDCDIEDDRLAAMFREFTQQNKATLVDHGIRRLTFLVAQKDFRKQVNYEVDRRFHREFPKFFTFRARD
KFEEDRIYRHLEPALAFQLELNRMRNFDLTAIPCANHKMHLYLGAAKVEVGTEVTDYRFFVRAIIRHSDLVTKEASFEYLQNEGERLLLE
AMDELEVAFNNTNVRTDCNHIFLNFVPTVIMDPSKIEESVRSMVMRYGSRLWKLRVLQAELKINIRLTPTGKAIPIRLFLTNESGYYLDI
SLYKEVTDSRTAQIMFQAYGDKQGPLHGMLINTPYVTKDLLQSKRFQAQSLGTTYIYDIPEMFRQSLIKLWESMSTQAFLPSPPLPSDML
TYTELVLDDQGQLVHMNRLPGGNEIGMVAWKMTFKSPEYPEGRDIIVIGNDITYRIGSFGPQEDLLFLRASELARAEGIPRIYVSANSGA
RIGLAEEIRHMFHVAWVDPEDPYKGYRYLYLTPQDYKRVSALNSVHCEHVEDEGESRYKITDIIGKEEGIGPENLRGSGMIAGESSLAYN
EIITISLVTCRAIGIGAYLVRLGQRTIQVENSHLILTGAGALNKVLGREVYTSNNQLGGIQIMHNNGVTHCTVCDDFEGVFTVLHWLSYM
PKSVHSSVPLLNSKDPIDRIIEFVPTKTPYDPRWMLAGRPHPTQKGQWLSGFFDYGSFSEIMQPWAQTVVVGRARLGGIPVGVVAVETRT
VELSIPADPANLDSEAKIIQQAGQVWFPDSAFKTYQAIKDFNREGLPLMVFANWRGFSGGMKDMYDQVLKFGAYIVDGLRECCQPVLVYI
PPQAELRGGSWVVIDSSINPRHMEMYADRESRGSVLEPEGTVEIKFRRKDLVKTMRRVDPVYIHLAERLGTPELSTAERKELENKLKERE
EFLIPIYHQVAVQFADLHDTPGRMQEKGVISAFLEKYGYLNEQVPKAPTSTRFSDAIRAFQWVSQLPVSGVLDRATLRQMTRPRCGVTDT

--------------------------------------------------------------
>1165_1165_3_ACACA-MMP28_ACACA_chr17_35454765_ENST00000361253_MMP28_chr17_34106327_ENST00000250144_length(transcript)=1956nt_BP=1305nt
AGAAATTCGCCATATGTTTCATGTGGCCTGGGTAGATCCTGAGGATCCTTACAAGGGATACAGGTATTTATATCTGACTCCTCAAGATTA
TAAGAGAGTCAGTGCTCTCAACTCTGTCCATTGTGAACACGTGGAAGATGAAGGAGAATCCAGGTGACGTGCCGGGCCATTGGGATTGGG
GCTTACCTTGTCCGGCTGGGACAGAGAACCATCCAGGTTGAGAATTCTCACTTAATTCTAACAGGAGCTGGAGCCCTCAACAAAGTCCTC
GGGCGGGAAGTGTACACCTCCAATAACCAGCTGGGGGGCATCCAGATTATGCACAACAATGGGGTGACCCACTGCACTGTGTGTGATGAC
TTTGAAGGGGTTTTCACTGTCCTGCACTGGCTGTCTTACATGCCCAAGAGCGTGCACAGTTCAGTTCCTCTTCTGAACTCAAAGGATCCT
ATAGACAGAATCATCGAGTTTGTTCCCACAAAGACCCCATACGATCCTCGATGGATGCTAGCAGGCCGTCCTCACCCAACCCAAAAAGGT
CAGTGGTTGAGTGGCTTTTTTGACTATGGATCTTTCTCAGAGATTATGCAGCCCTGGGCACAGACTGTGGTGGTTGGTAGAGCCAGGCTA
GGAGGAATACCTGTGGGAGTTGTTGCTGTAGAAACCCGAACAGTAGAACTAAGTATCCCAGCTGATCCAGCAAACCTGGATTCTGAAGCC
AAGATAATCCAGCAGGCTGGCCAGGTTTGGTTCCCAGATTCTGCGTTTAAGACATATCAGGCCATCAAGGACTTCAACCGGGAAGGGCTG
CCTCTGATGGTCTTTGCCAACTGGAGAGGCTTCTCTGGTGGAATGAAAGATATGTACGACCAAGTGCTGAAGTTTGGTGCTTACATTGTG
GATGGCTTGAGGGAGTGCTGCCAGCCTGTGCTGGTTTACATTCCTCCCCAGGCTGAGCTGCGGGGTGGCTCCTGGGTGGTGATTGACTCC
TCCATCAACCCCCGGCACATGGAGATGTATGCTGACCGAGAAAGCAGGGGATCTGTTCTGGAGCCAGAAGGGACAGTAGAAATCAAATTC
CGCAGAAAGGATCTGGTGAAAACCATGCGTCGGGTGGACCCAGTCTACATCCACTTGGCTGAGCGATTGGGGACCCCAGAGCTAAGCACA
GCTGAGCGGAAGGAGTTGGAGAACAAGTTGAAGGAGCGGGAGGAATTCCTAATTCCCATTTACCATCAGGTAGCCGTGCAGTTTGCTGAC
TTGCACGACACACCAGGCCGGATGCAGGAGAAGGGTGTTATTAGCGCATTCCTAGAGAAGTACGGATACCTCAATGAACAGGTCCCCAAA
GCTCCCACCTCCACTCGATTCAGCGATGCCATCAGAGCGTTTCAGTGGGTGTCCCAGCTACCTGTCAGCGGCGTGTTGGACCGCGCCACC
CTGCGCCAGATGACTCGTCCCCGCTGCGGGGTTACAGATACCAACAGTTATGCGGCCTGGGCTGAGAGGATCAGTGACTTGTTTGCTAGA
CACCGGACCAAAATGAGGCGTAAGAAACGCTTTGCAAAGCAAGGTGAGCACTGTTAAAATCCGGCTAGGCCAAGATTTCCCAATGTCTTG
AAGCCAATGGCTAGGAAAACAGCTGAGCCTGGGACTGGACTTTGTCAGTAACCTCTCTTCCCTAGGGCACGGGAGGAGTGGGTGAATAGG
ACCTCTTGGCTTGAGGACCATGATTGTGAATACAGACATTTAATTCAGAATGACACCTACATTGATGAATTTTCATTGTACAAGTGTTTT
TCCAGATCAAACACAAAACCCATGTAATTCCTTGATAAATTTTCAATGCAGGGCAGATAAACTGTTGCTAACATTTTTCATTTATATTTA

>1165_1165_3_ACACA-MMP28_ACACA_chr17_35454765_ENST00000361253_MMP28_chr17_34106327_ENST00000250144_length(amino acids)=463AA_BP=370
MGQRTIQVENSHLILTGAGALNKVLGREVYTSNNQLGGIQIMHNNGVTHCTVCDDFEGVFTVLHWLSYMPKSVHSSVPLLNSKDPIDRII
EFVPTKTPYDPRWMLAGRPHPTQKGQWLSGFFDYGSFSEIMQPWAQTVVVGRARLGGIPVGVVAVETRTVELSIPADPANLDSEAKIIQQ
AGQVWFPDSAFKTYQAIKDFNREGLPLMVFANWRGFSGGMKDMYDQVLKFGAYIVDGLRECCQPVLVYIPPQAELRGGSWVVIDSSINPR
HMEMYADRESRGSVLEPEGTVEIKFRRKDLVKTMRRVDPVYIHLAERLGTPELSTAERKELENKLKEREEFLIPIYHQVAVQFADLHDTP
GRMQEKGVISAFLEKYGYLNEQVPKAPTSTRFSDAIRAFQWVSQLPVSGVLDRATLRQMTRPRCGVTDTNSYAAWAERISDLFARHRTKM

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

Top

Fusion Gene PPI Analysis for ACACA-MMP28


check button Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in

ChiPPI page.


check button Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160)
HgeneHgene's interactorsTgeneTgene's interactors


check button - Retained PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenStill interaction with


check button - Lost PPIs in in-frame fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with


check button - Retained PPIs, but lost function due to frame-shift fusion.
PartnerGeneHbpTbpENSTStrandBPexonTotalExonProtein feature loci*BPlociTotalLenInteraction lost with


Top

Related Drugs for ACACA-MMP28


check button Drugs targeting genes involved in this fusion gene.
(DrugBank Version 5.1.8 2021-05-08)
PartnerGeneUniProtAccDrugBank IDDrug nameDrug activityDrug typeDrug status

Top

Related Diseases for ACACA-MMP28


check button Diseases associated with fusion partners.
(DisGeNet 4.0)
PartnerGeneDisease IDDisease name# pubmedsSource
HgeneACACAC0018801Heart failure1CTD_human
HgeneACACAC0018802Congestive heart failure1CTD_human
HgeneACACAC0023212Left-Sided Heart Failure1CTD_human
HgeneACACAC0235527Heart Failure, Right-Sided1CTD_human
HgeneACACAC1959583Myocardial Failure1CTD_human
HgeneACACAC1961112Heart Decompensation1CTD_human
HgeneACACAC2239176Liver carcinoma1CTD_human