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 | Fusion Gene Summary |
| Fusion Gene ORF analysis |
| Fusion Genomic Features |
| Fusion Protein Features |
| Fusion Gene Sequence |
| Fusion Gene PPI analysis |
| Related Drugs |
| Related Diseases |
Fusion gene:DNAH1-CACNA1D (FusionGDB2 ID:23352) |
Fusion Gene Summary for DNAH1-CACNA1D |
 Fusion gene summary |
| Fusion gene information | Fusion gene name: DNAH1-CACNA1D | Fusion gene ID: 23352 | Hgene | Tgene | Gene symbol | DNAH1 | CACNA1D | Gene ID | 25981 | 776 |
| Gene name | dynein axonemal heavy chain 1 | calcium voltage-gated channel subunit alpha1 D | |
| Synonyms | CILD37|DNAHC1|HDHC7|HL-11|HL11|HSRF-1|SPGF18|XLHSRF-1 | CACH3|CACN4|CACNL1A2|CCHL1A2|Cav1.3|PASNA|SANDD | |
| Cytomap | 3p21.1 | 3p21.1 | |
| Type of gene | protein-coding | protein-coding | |
| Description | dynein heavy chain 1, axonemalaxonemal beta dynein heavy chain 1ciliary dynein heavy chain 1dynein, axonemal, heavy polypeptide 1heat shock regulated protein 1testicular tissue protein Li 60 | voltage-dependent L-type calcium channel subunit alpha-1Dcalcium channel, L type, alpha-1 polypeptidecalcium channel, neuroendocrine/brain-type, alpha 1 subunitcalcium channel, voltage-dependent, L type, alpha 1D subunitvoltage-gated calcium channel a | |
| Modification date | 20200320 | 20200313 | |
| UniProtAcc | Q9P2D7 | Q01668 | |
| Ensembl transtripts involved in fusion gene | ENST00000420323, ENST00000466628, | ENST00000498251, ENST00000540742, ENST00000544977, ENST00000288139, ENST00000350061, ENST00000422281, | |
| Fusion gene scores | * DoF score | 6 X 6 X 4=144 | 5 X 6 X 3=90 |
| # samples | 6 | 6 | |
| ** MAII score | log2(6/144*10)=-1.26303440583379 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | log2(6/90*10)=-0.584962500721156 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | |
| Context | PubMed: DNAH1 [Title/Abstract] AND CACNA1D [Title/Abstract] AND fusion [Title/Abstract] | ||
| Most frequent breakpoint | DNAH1(52418047)-CACNA1D(53834276), # samples:1 CACNA1D(53535747)-DNAH1(52391630), # samples:2 | ||
| Anticipated loss of major functional domain due to fusion event. | |||
| * DoF score (Degree of Frequency) = # partners X # break points X # cancer types ** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10) |
| Gene ontology of each fusion partner gene with evidence of Inferred from Direct Assay (IDA) from Entrez |
| Partner | Gene | GO ID | GO term | PubMed ID |
| Hgene | DNAH1 | GO:0036159 | inner dynein arm assembly | 24360805 |
| Tgene | CACNA1D | GO:0006816 | calcium ion transport | 11160515 |
| Tgene | CACNA1D | GO:0051928 | positive regulation of calcium ion transport | 1309651 |
| Tgene | CACNA1D | GO:0070509 | calcium ion import | 1309651 |
| Fusion gene breakpoints across DNAH1 (5'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
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| Fusion gene breakpoints across CACNA1D (3'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
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| Fusion gene information from two resources (ChiTars 5.0 and ChimerDB 4.0) * All genome coordinats were lifted-over on hg19. * Click on the break point to see the gene structure around the break point region using the UCSC Genome Browser. |
| Source | Disease | Sample | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand |
| ChimerDB4 | STAD | TCGA-D7-A74A-01A | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
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Fusion Gene ORF analysis for DNAH1-CACNA1D |
| 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. |
| ORF | Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand |
| 5CDS-intron | ENST00000420323 | ENST00000498251 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| 5CDS-intron | ENST00000420323 | ENST00000540742 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| 5CDS-intron | ENST00000420323 | ENST00000544977 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| In-frame | ENST00000420323 | ENST00000288139 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| In-frame | ENST00000420323 | ENST00000350061 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| In-frame | ENST00000420323 | ENST00000422281 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-3CDS | ENST00000466628 | ENST00000288139 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-3CDS | ENST00000466628 | ENST00000350061 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-3CDS | ENST00000466628 | ENST00000422281 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-intron | ENST00000466628 | ENST00000498251 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-intron | ENST00000466628 | ENST00000540742 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| intron-intron | ENST00000466628 | ENST00000544977 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + |
| ORFfinder result based on the fusion transcript sequence of in-frame fusion genes. |
| Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | Seq length (transcript) | BP loci (transcript) | Predicted start (transcript) | Predicted stop (transcript) | Seq length (amino acids) |
| ENST00000420323 | DNAH1 | chr3 | 52418047 | - | ENST00000350061 | CACNA1D | chr3 | 53834276 | + | 10785 | 8583 | 186 | 10145 | 3319 |
| ENST00000420323 | DNAH1 | chr3 | 52418047 | - | ENST00000288139 | CACNA1D | chr3 | 53834276 | + | 12473 | 8583 | 186 | 10145 | 3319 |
| ENST00000420323 | DNAH1 | chr3 | 52418047 | - | ENST00000422281 | CACNA1D | chr3 | 53834276 | + | 10119 | 8583 | 186 | 10118 | 3310 |
| DeepORF 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. |
| Henst | Tenst | Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | No-coding score | Coding score |
| ENST00000420323 | ENST00000350061 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + | 0.003644065 | 0.996356 |
| ENST00000420323 | ENST00000288139 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + | 0.001791619 | 0.9982084 |
| ENST00000420323 | ENST00000422281 | DNAH1 | chr3 | 52418047 | - | CACNA1D | chr3 | 53834276 | + | 0.004792906 | 0.99520713 |
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Fusion Genomic Features for DNAH1-CACNA1D |
| FusionAI 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. |
| Hgene | Hchr | Hbp | Hstrand | Tgene | Tchr | Tbp | Tstrand | 1-p | p (fusion gene breakpoint) |
| Distribution 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. |
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| Distribution of 44 human genomic features loci across 20kb length fusion breakpoint regions that are ovelapped with the top 1% feature importance score regions. More details are in help page. |
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Fusion Protein Features for DNAH1-CACNA1D |
| Four levels of functional features of fusion genes Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr3:52418047/chr3:53834276) - 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. |
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| Main function of each fusion partner protein. (from UniProt) |
| Hgene | Tgene |
| DNAH1 | CACNA1D |
| FUNCTION: Force generating protein of cilia required for sperm flagellum motility. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. Required in spermatozoa for the formation of the inner dynein arms and biogenesis of the axoneme (PubMed:24360805). {ECO:0000250|UniProtKB:Q91XQ0, ECO:0000269|PubMed:24360805}. | FUNCTION: Voltage-sensitive calcium channels (VSCC) mediate the entry of calcium ions into excitable cells and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, gene expression, cell motility, cell division and cell death. The isoform alpha-1D gives rise to L-type calcium currents. Long-lasting (L-type) calcium channels belong to the 'high-voltage activated' (HVA) group. They are blocked by dihydropyridines (DHP), phenylalkylamines, and by benzothiazepines. {ECO:0000269|PubMed:18482979, ECO:0000269|PubMed:25620733, ECO:0000269|PubMed:28472301}. |
| Retention 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 * 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. |
| Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Protein feature | Protein feature note |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2167_2172 | 2774 | 4266.0 | Compositional bias | Note=Poly-Glu |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1581_1588 | 2774 | 4266.0 | Motif | Note=GPAGTGKT motif |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1631_1637 | 2774 | 4266.0 | Motif | Note=CFDEFNR motif |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1862_1869 | 2774 | 4266.0 | Nucleotide binding | ATP |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2227_2234 | 2774 | 4266.0 | Nucleotide binding | ATP |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2586_2593 | 2774 | 4266.0 | Nucleotide binding | ATP |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1543_1764 | 2774 | 4266.0 | Region | AAA 1 |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1824_2057 | 2774 | 4266.0 | Region | AAA 2 |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 1_1542 | 2774 | 4266.0 | Region | Stem |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2189_2449 | 2774 | 4266.0 | Region | AAA 3 |
| - In-frame and not-retained protein feature among the 13 regional features. |
| Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Protein feature | Protein feature note |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 3074_3122 | 2774 | 4266.0 | Coiled coil | Ontology_term=ECO:0000255 |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2547_2799 | 2774 | 4266.0 | Region | AAA 4 |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 2814_3112 | 2774 | 4266.0 | Region | Stalk |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 3197_3427 | 2774 | 4266.0 | Region | AAA 5 |
| Hgene | DNAH1 | chr3:52418047 | chr3:53834276 | ENST00000420323 | - | 52 | 78 | 3640_3859 | 2774 | 4266.0 | Region | AAA 6 |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1493_1504 | 1661 | 2182.0 | Calcium binding | Ontology_term=ECO:0000250 | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1493_1504 | 1641 | 2162.0 | Calcium binding | Ontology_term=ECO:0000250 | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1493_1504 | 1626 | 2138.0 | Calcium binding | Ontology_term=ECO:0000250 | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1_7 | 1661 | 2182.0 | Compositional bias | Note=Poly-Met | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 653_659 | 1661 | 2182.0 | Compositional bias | Note=Poly-Leu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 827_838 | 1661 | 2182.0 | Compositional bias | Note=Poly-Glu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1_7 | 1641 | 2162.0 | Compositional bias | Note=Poly-Met | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 653_659 | 1641 | 2162.0 | Compositional bias | Note=Poly-Leu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 827_838 | 1641 | 2162.0 | Compositional bias | Note=Poly-Glu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1_7 | 1626 | 2138.0 | Compositional bias | Note=Poly-Met | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 653_659 | 1626 | 2138.0 | Compositional bias | Note=Poly-Leu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 827_838 | 1626 | 2138.0 | Compositional bias | Note=Poly-Glu | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1075_1165 | 1661 | 2182.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1420_1486 | 1661 | 2182.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1432_1475 | 1661 | 2182.0 | Region | Phenylalkylamine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 429_446 | 1661 | 2182.0 | Region | Binding to the beta subunit | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1075_1165 | 1641 | 2162.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1420_1486 | 1641 | 2162.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1432_1475 | 1641 | 2162.0 | Region | Phenylalkylamine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 429_446 | 1641 | 2162.0 | Region | Binding to the beta subunit | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1075_1165 | 1626 | 2138.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1420_1486 | 1626 | 2138.0 | Region | Dihydropyridine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1432_1475 | 1626 | 2138.0 | Region | Phenylalkylamine binding | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 429_446 | 1626 | 2138.0 | Region | Binding to the beta subunit | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 113_409 | 1661 | 2182.0 | Repeat | Note=I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1192_1467 | 1661 | 2182.0 | Repeat | Note=IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 509_755 | 1661 | 2182.0 | Repeat | Note=II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 873_1155 | 1661 | 2182.0 | Repeat | Note=III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 113_409 | 1641 | 2162.0 | Repeat | Note=I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1192_1467 | 1641 | 2162.0 | Repeat | Note=IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 509_755 | 1641 | 2162.0 | Repeat | Note=II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 873_1155 | 1641 | 2162.0 | Repeat | Note=III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 113_409 | 1626 | 2138.0 | Repeat | Note=I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1192_1467 | 1626 | 2138.0 | Repeat | Note=IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 509_755 | 1626 | 2138.0 | Repeat | Note=II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 873_1155 | 1626 | 2138.0 | Repeat | Note=III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1038_1127 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1149_1205 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1225_1239 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1260_1266 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1289_1313 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1334_1352 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1373_1439 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1465_2161 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 146_163 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 184_195 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1_126 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 215_235 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 255_273 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 294_381 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 407_523 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 544_558 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 578_585 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 605_614 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 634_652 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 674_727 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 753_886 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 906_921 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 942_953 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 973_978 | 1661 | 2182.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 999_1017 | 1661 | 2182.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1038_1127 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1149_1205 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1225_1239 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1260_1266 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1289_1313 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1334_1352 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1373_1439 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1465_2161 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 146_163 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 184_195 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1_126 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 215_235 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 255_273 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 294_381 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 407_523 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 544_558 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 578_585 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 605_614 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 634_652 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 674_727 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 753_886 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 906_921 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 942_953 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 973_978 | 1641 | 2162.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 999_1017 | 1641 | 2162.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1038_1127 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1149_1205 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1225_1239 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1260_1266 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1289_1313 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1334_1352 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1373_1439 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1465_2161 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 146_163 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 184_195 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1_126 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 215_235 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 255_273 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 294_381 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 407_523 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 544_558 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 578_585 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 605_614 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 634_652 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 674_727 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 753_886 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 906_921 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 942_953 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 973_978 | 1626 | 2138.0 | Topological domain | Extracellular | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 999_1017 | 1626 | 2138.0 | Topological domain | Cytoplasmic | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1018_1037 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS5 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1128_1148 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS6 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1206_1224 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS1 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1240_1259 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS2 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1267_1288 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS3 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 127_145 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS1 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1314_1333 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS4 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1353_1372 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS5 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 1440_1464 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS6 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 164_183 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS2 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 196_214 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS3 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 236_254 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS4 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 274_293 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS5 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 382_406 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS6 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 524_543 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS1 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 559_577 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS2 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 586_604 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS3 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 615_633 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS4 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 653_673 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS5 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 728_752 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS6 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 887_905 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS1 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 922_941 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS2 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 954_972 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS3 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000288139 | 40 | 49 | 979_998 | 1661 | 2182.0 | Transmembrane | Helical%3B Name%3DS4 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1018_1037 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS5 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1128_1148 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS6 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1206_1224 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS1 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1240_1259 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS2 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1267_1288 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS3 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 127_145 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS1 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1314_1333 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS4 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1353_1372 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS5 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 1440_1464 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS6 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 164_183 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS2 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 196_214 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS3 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 236_254 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS4 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 274_293 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS5 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 382_406 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS6 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 524_543 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS1 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 559_577 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS2 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 586_604 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS3 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 615_633 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS4 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 653_673 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS5 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 728_752 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS6 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 887_905 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS1 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 922_941 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS2 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 954_972 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS3 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000350061 | 39 | 48 | 979_998 | 1641 | 2162.0 | Transmembrane | Helical%3B Name%3DS4 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1018_1037 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS5 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1128_1148 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS6 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1206_1224 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS1 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1240_1259 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS2 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1267_1288 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS3 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 127_145 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS1 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1314_1333 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS4 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1353_1372 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS5 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 1440_1464 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS6 of repeat IV | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 164_183 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS2 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 196_214 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS3 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 236_254 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS4 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 274_293 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS5 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 382_406 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS6 of repeat I | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 524_543 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS1 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 559_577 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS2 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 586_604 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS3 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 615_633 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS4 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 653_673 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS5 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 728_752 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS6 of repeat II | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 887_905 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS1 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 922_941 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS2 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 954_972 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS3 of repeat III | |
| Tgene | CACNA1D | chr3:52418047 | chr3:53834276 | ENST00000422281 | 38 | 46 | 979_998 | 1626 | 2138.0 | Transmembrane | Helical%3B Name%3DS4 of repeat III |
Top |
Fusion Gene Sequence for DNAH1-CACNA1D |
| 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. |
| >23352_23352_1_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000288139_length(transcript)=12473nt_BP=8583nt GGGGGGTACCCAACCTATACGCAGACCCATTGAGCAGCCAGACTGCCCTAAACAGGGCTATGGAGTCCTTGTCCCTTCTAAGAGCTGTGG ACACCTTGCCTCCAGTTCCCCTCACAGTCCTTTCTTCCTTCTGCAGTGATCACTGAGTACCTGTGTGAATGCCAACAAGAAAAATAAAAC CACAGTTTGGATTCAGGAAAGGTTGCACCACCATCAGGTCTTGAAGGGAGCTTCGGCTGGGGCATCTCCCTGAGAAGCAGCATGGAGCAG CCTAACAGTAAAGGCTATAGCCTGGGAAGGACCCCTCAGGGCCCAGAGTGCAGCAGTGCTCCTGCAGTCCAAGTGGGGACCCACAGGGGC CTAGAGTATAACCCGGGGAAGATTCTTCCAGGATCAGACTATGGGTTGGGAAATCCTCCAGCCCTTGACCCCAAGCTCCCACATTTACCC CTGCCCCCGGCCCCACCCACACTCTCAGACTTGGGGCAGCCACGGAAGTCACCCCTGACAGGCACTGATAAGAAGTACCCGCTGATGAAG CAGCGTGGGTTCTACTCCGACATCCTCAGCCCTGGAACCTTAGATCAACTTGGGGAGGTATGTCGTGGCCCCCGAATGAGCCAGAACCTC CTGCGGCAGGCTGACCTTGACAAGTTCACCCCAAGAGTCGGAAGCTTTGAGGTTCCTGAAGACTTCCAGGAGCGCATGGAGCAGCAGTGC ATCGGGTCCACCACCCGGCTGCTCGCCCAGACTGACTTCCCACTGCAGGCCTACGAGCCCAAGATGCAGGTGCCTTTCCAGGTGCTGCCA GGCCAGCATCCTCGCAAGATTGAGATCGAGAGGAGGAAACAGCAGTACCTGAGCCTGGACATTGAGCAGTTGCTGTTCAGCCAGGGCATC GACTCCAACAAGCTCATGCCCAGGCACCTGGACCACCAGCACCCCCAAACCATCGAACAGGGCCATGACCCAATCTTCCCCATCTACCTC CCACTGAAGGTATTTGACAATGAGGACTTTGACTGCCGGACTCCCAGAGAGTGGATCAACATGGGCTTGGAGCCAGGGTCTCTGGACAGG AAACCTGTCCCGGGAAAAGCCCTCTTGCCCACTGATGACTTCCTGGGGCATGAGGACCCCAAGAGTCAGAAGCTGAAGTACAAATGGTGC GAGGTCGGCGTCCTGGACTACGACGAGGAGAAGAAGCTATACCTGGTACACAAGACAGACGAGAAAGGCCTGGTGCGAGATGAGATGGGG AGGCCCATCCTGAATGCAGGGGTCACCACTGAAGGAAGGCCACCCCTTCAGGTCTGTCAGTACTGGGTGCCACGGATCCAGCTTCTCTTC TGCGCTGAGGACCCTTGCATGTTCGCACAACGTGTGGTCCAGGCCAACGCCCTGCGCAAGAACACGGAAGCACTGCTGCTCTACAACTTG TATGTGGACTGCATGCCCTCTGACGGCCAGCATGTCATCAGTGAACAGAGCCTGAGCAAGATCAAGCAGTGGGCCCTGAGCACGCCTCGG ATGCGCAAAGGCCCCTCGGTTCTAGAGCACCTCAGCAGTCTTGCCAGAGAAGTGAGCCTGGACTATGAGCGCAGCATGAACAAGATCAAC TTTGACCACGTTGTCTCTTCCAAGCCCGAGACCTTCTCCTACGTCACCCTCCCCAAGAAGGAGGAGGAGCAGGTGCCTGAGCGAGGGCTG GTGAGTGTCCCCAAGTACCACTTCTGGGAGCAGAAGGAGGACTTCACTTTCGTGTCCCTGCTCACACGGCCAGAGGTCATCACGGCCCTC AGCAAGGTGAGGGCCGAGTGCAACAAGGTGACCGCCATGTCCCTGTTCCACTCGAGCCTCTCCAAGTACAGCCACCTGGAGGAATTTGAG CAGATCCAGTCACAGACCTTCTCCCAGGTGCAGATGTTCCTCAAGGACAGCTGGATCAGCTCGCTAAAGGTGGCCATGCGCAGCAGCCTG CGCGACATGAGCAAGGGCTGGTACAACCTCTACGAGACCAACTGGGAGGTGTACCTCATGTCCAAGCTGCGCAAGCTGATGGAGCTGGTG AAGTACATGCTGCAGGACACACTGCGCTTCCTGGTGCAGGACTCACTTGCCAGCTTCTCACAGTTCATCAGCGACACCTGTTGCAGCGTG CTCAACTGCACCGATGACATGGTCTGGGGTGACGACTTAATTAACAGCCCCTACAGGCCCCGGAAGAATCCCCTGTTCATCATGGACCTG GTGCTGGACAGCTCTGGGGTGCACTATAGCACCCCACTGGAGCAGTTTGAGGCATCTCTGCTGAACCTCTTCGACAAGGGCATCCTGGCC ACCCATGCCGTGCCCCAGCTGGAGAAGCTGGTGATGGAGGACATCTTCATCAGCGGTGACCCCCTGCTGGAGTCCGTGGGCCTTCATGAG CCACTGGTGGAAGAGCTACGGGCCACCATTGCCAGTGCCGTGTCCAAGGCCATGATCCCACTGCAGGCCTACGCCAAGGAGTACCGAAAG TACCTGGAGCTGAACAACAATGACATTGCCTCCTTTCTCAAAACCTACCAGACGCAGGGCCTGTTGGCCCAGGAGGTGCGGGAGGTAGTG CTCACCCACCTGCGGGAGAAGGAGATCCTGGACAGCTCGCTGCCCAGCAGCATCATCATTGGGCCTTTCTACATCAACACCGACAATGTC AAGCAGAGCCTGTCCAAGAAACGCAAGGCCCTGGCCACTTCCGTGCTGGACATCCTTGCCAAGAACCTGCATAAGGAGGTGGATAGCATC TGCGAGGAGTTCCGCAGCATCAGCCGCAAGATCTATGAGAAGCCCAACAGCATTGAGGAGCTGGCTGAGCTGCGAGAGTGGATGAAGGGC ATCCCGGAGAGGCTGGTGGGCCTGGAGGAGCGGATTGTGAAGGTCATGGATGACTACCAGGTCATGGATGAATTCCTCTACAACCTCAGC TCAGATGACTTCAATGACAAATGGATTGCCAGCAACTGGCCTTCTAAGATCCTTGGGCAGATAGAGCTGGTGCAGCAGCAGCATGTGGAG GATGAGGAGAAGTTCCGCAAAATCCAGATCATGGATCAGAACAACTTCCAAGAGAAGCTGGAAGGGCTGCAGCTGGTAGTAGCTGGCTTC TCCATCCATGTGGAGATTTCACGTGCACACGAGATCGCCAACGAGGTGCGGCGTGTCAAGAAGCAGCTGAAGGACTGCCAGCAGCTGGCC ATGCTCTACAACAACCGCGAGCGCATCTTCAGCTTGCCCATCACCAATTATGACAAGCTCTCCAGGATGGTGAAGGAGTTCCAACCCTAC CTGGACCTTTGGACCACAGCGTCTGACTGGCTGCGCTGGTCGGAGAGCTGGATGAATGACCCCCTCTCTGCCATCGATGCTGAGCAGCTG GAGAAGAACGTGGTTGAAGCCTTCAAGACCATGCACAAGTGCGTGAAGCAGTTTAAGGACATGCCAGCCTGCCAGGAAGTGGCCTTGGAC ATCCGGGCCCGCATCGAGGAGTTCAAACCATACATCCCACTGATCCAGGGGCTGCGCAACCCTGGCATGCGGATCCGGCACTGGGAGACA CTGTCCAACCAGATCAACATCAATGTCAGGCCCAAGGCCAACCTGACCTTTGCTCGCTGCCTGGAGATGAACCTGCAGGACCATATCGAG AGCATCAGCAAGGTGGCTGAGGTGGCTGGCAAGGAGTACGCCATCGAGCAGGCACTGGACAAGATGGAGAAGGAGTGGTCGACCATCCTG TTCAATGTACTGCCCTACAAGGCGACAGACACCTACATCCTGAAGAGCCCGGACGAGGCCTCACAGCTGCTGGACGACCACATCGTCATG ACCCAGAATATGTCATTTTCACCCTACAAGAAGCCCTTTGAGCAGCGCATCAACTCCTGGGAGAACAAACTGAAGCTGACCCAGGAGGTT CTGGAGGAGTGGCTGAACTGTCAGCGGTCCTGGCTCTACCTGGAGCCCATCTTTAGCTCTGAGGACATCAACCAGCAGCTGCCTGTGGAG AGCAAGCGCTACCAGACCATGGAGCGGATCTGGAAGAAGATCATGAAGAATGCCTACGAGAACCGGGAGGTGATCAATGTGTGTTCCGAC CTGAGAATGCTGGACAGCCTGCGGGACTGCAACAAGATTCTGGACCTGGTGCAGAAGGGCCTCAGCGAGTATCTGGAGACCAAGAGGAGC GCCTTCCCCAGATTCTACTTCCTGTCAGATGATGAACTACTAGAGATCTTGTCGCAGACAAAGGACCCCACGGCCGTGCAGCCACACCTG CGCAAGTGCTTCGAGAACATCGCTCGGCTGCTATTCCAGGAGGACCTGGAGATCACGCACATGTACTCAGCCGAGGGGGAGGAGGTACAG TTGTGCTTCTCCATCTACCCCTCCAGCAACGTGGAGGACTGGCTGCGGGAGGTGGAGCGCAGCATGAAGGCCAGTGTGCACGACATCATT GAGAAGGCCATCAGGGCCTACCCCACGATGCCCAGGACCCAGTGGGTTCTGAACTGGCCTGGCCAGGTGACCATCGCTGGGTGCCAGACC TACTGGACCATGGAGGTGGCAGAGGCTCTGGAGGCCGGCAACCTCAGAAGCCAACTGTTCCCCCAGCTCTGCCAGCAGCTCAGTGATCTG GTGGCCCTTGTGCGGGGGAAGCTGTCCCGCATGCAGCGGGCAGTGCTGTCAGCGCTAATCGTCATTGAGGTCCATGCCAAGGACGTGGTG AGCAAGCTAATCCAGGAGAACGTGGTCAGCGTGAATGACTTCCAGTGGATCTCACAGCTGAGGTACTACTGGACAAATAATGACCTGTAT ATCCGTGCTGTGAATGCTGAGTTCATCTATGGCTATGAGTACCTGGGCAACAGTGGGAGGCTGGTGATCACGCCCCTCACCGACAGGTGC TACCTGACACTGACCGGAGCTCTGCACCTCAAGTTTGGGGGTGCCCCAGCTGGCCCAGCTGGCACAGGCAAAACTGAGACCACCAAAGAC CTGGGTAAGGCCTTGGCCATACAGACCGTTGTGTTCAACTGCTCTGACCAGCTCGACTTCATGGCCATGGGCAAGTTCTTCAAGGGCCTG GCCAGTGCTGGGGCCTGGGCCTGCTTCGACGAGTTCAATCGCATCGACATCGAGGTGCTGTCTGTGGTGGCGCAGCAGATCACCACCATC CAGAAGGCGCAGCAGCAGCGGGTGGAACGCTTCATGTTTGAGGGTGTGGAGATCCCACTGGTGCCATCCTGCGCAGTGTTTATCACCATG AACCCGGGCTACGCTGGCCGCACGGAGCTGCCTGACAATCTGAAGGCGCTCTTCCGACCCGTGGCCATGATGGTTCCAGATTACGCCATG ATCACTGAGATCTCCCTCTATTCCTTTGGCTTTAATGAGGCCAGTGTGCTGGCTAAGAAGATCACAACCACCTTCAAGCTGTCTTCTGAG CAGCTCAGCTCCCAGGATCACTATGACTTCGGGATGAGAGCCGTGAAAACTGTGATCTCGGCTGCTGGGAACCTCAAGCGAGAAAACCCC AGCATGAATGAGGAGCTGATCTGCCTCCGGGCCATCCGTGATGTGAACGTGCCCAAGTTCCTGCAGGAGGACCTCAAGCTCTTCTCTGGC ATCGTGTCCGACCTGTTTCCCACCATCAAGGAGGAGGACACGGACTACGGCATCCTGGATGAGGCCATCCGCGAGGCCTGCAGGAACAGC AACCTCAAGGATGTGGAGGGCTTCCTGACAAAGTGCATCCAGCTCTACGAGACCACGGTGGTACGACACGGCCTCATGCTCGTCGGGCCC ACAGGCTCCGGCAAGAGTACTTGTTACAGAGTCCTGGCAGCTGCCATGACGTCACTGAAAGGGCAGCCATCCATCAGTGGTGGCATGTAC GAGGCTGTCAACTACTACGTGCTCAACCCCAAGTCCATCACGATGGGCCAGCTGTACGGGGAGTTTGACCTCCTCACCCATGAGTGGACA GACGGGATATTCTCCTCGTTCATCCGGGCGGGGGCCATCACCTCCGACACCAACAAGAAGTGGTACATGTTCGATGGGCCGGTGGATGCC ATCTGGATTGAGAACATGAACACGGTGCTGGATGACAACAAGAAGCTGTGCCTCAGCTCTGGGGAGATCATCAAGCTCACAGAGGCAATG ACCATGATGTTCGAGGTGCAAGACCTGGCGGTGGCTTCACCAGCTACAGTCTCCCGCTGTGGCATGGTGTACCTGGAGCCCAGCATCCTG GGGCTCATGCCCTTCATCGAGTGCTGGCTGAGGAAGCTGCCTCCCTTGCTGAAGCCCTATGAGGAGCATTTCAAGGCCCTCTTTGTCAGC TTCCTGGAGGAATCCATCTCCTTCGTTCGGTCCTCAGTGAAGGAGGTGATCGCCTCAACCAACTGCAACCTGACCATGAGCCTCCTCAAG CTGCTGGACTGCTTCTTCAAGCCCTTTCTGCCTAGAGAGGGCCTCAAGAAAATACCCTCTGAAAAGCTGAGTCGCATCGTAGAGTTGATC GAGCCCTGGTTCATCTTCTCCCTGATCTGGAGCGTGGGTGCCACTGGGGACAGCAGTGGCCGCACCAGTTTCAGCCACTGGCTAAGGCTC AAGATGGAGAACGAACAGCTGACTCTGCTTTTCCCAGAAGAGGGGCTGGTGTTCGATTACAGGCTGGAGGACGCGGGCATCAGTGGCACC AACGACAGTGAGGATGAAGAGGAGGAATACAAGCAGGTTGCCTGGGTGAAGTGGATGGACTCCTCAGCTCCATTCACCATGGTACCAGAC ACCAACTACTGCAACATCATTGTGCCCACCATGGACACCGTGCAGATGTCCCATTTACTGGACATGCTGCTCACCAACAAGAAGCCCGTG CTGTGCATTGGGCCAACAGGCACGGGGAAGACGCTCACCATCTCTGACAAGCTCCTCAAGAACCTGGCACTGGATTACATCAGCCACTTC CTCACCTTCTCAGCCCGCACTTCAGCCAACCAGACCCAGGACTTCATTGACAGCAAGCTGGACAAGAGGCGGAAGGGTGTGTTTGGACCA CCTCTGGGGCGCAACTTTATCTTCTTCATCGATGACCTGAACATGCCGGCCCTGGAGACCTACGGTGCACAGCCACCCATCGAGCTGTTG CGCCAGTGGATGGACCACGGCGGCTGGTACGACCGCAAGATCATTGGTGCCTTCAAGAACCTAGTGGACATCAACTTTGTCTGTGCCATG GGCCCCCCGGGTGGAGGCAGGAACACCGTCACCCCGCGGCTGATGCGTCACTTCAACTACCTGTCTTTCGCTGAGATGGACGAGGTCAGC AAGAAACGCATCTTCTCCACCATCCTGGGCAACTGGTTGGATGGACTCCTTGGAGAAAAAAGCTACCGGGAGCGTGTGCCTGGGGCCCCC CACATTGCCCACTTCACGGAGCCCCTTGTGGAAGCCACCATCATGGTGTATGCAACCATCACCTCCCAGCTGCTGCCCACTCCAGCCAAG TCCCACTACACCTTCAACCTGAGGGACCTCTCCAAGGTCTTCCAAGGCATGCTCATGGCTGACCCGGCCAAGGTCGAGGACCAAGTGCAG CTGCTGCGACTGTGGTATCACGAGAACTGCCGCGTGTTCCGGGACCGACTGGTGAATGAGGAGGACCGCAGCTGGTTCGACCAGCTCCTC AAGCGCTGCATGGAGCAGTGGGAGGTGACCTTCAACAAGGTCTGCCCCTTCCAGCCCATTCTTTACGGGGACTTCATGTCACCAGGCTCC GATGTCAAGTCCTACGAGCTCATCACCAGTGAGAGTAAGATGATGCAGGTGATAGAGGAGTACATAGAGGACTACAACCAGATCAACACG GCCAAGCTGAAGCTGGTCCTCTTCATGGACGCCATGAGCCACATCTGTCGCATCAGCCGCACCCTACGCCAGGCGCTGGGCAATGCACTC CTGCTGGGCGTGGGTGGCAGCGGCCGCAGCTCCCTCACAAGGCTCGCCTCGCACATGGCCGAGTACGAGTGCTTCCAGATTGAACTATCC AAGAACTACGGCATGTCCGAGTGGCGAGATGATGTGAAGAAGGTCCTGCTCAAGGCGGGCCTACAGAACCTACCCATCACCTTCCTCTTC TCAGACACCCAGATCAAGAACGAATCCTTCCTGGAAGATATCAACAACGTCCTAAACTCTGGTGACATTCCCAATCTGTATACTGCGGAC GAGCAGGACCAGATCGTCAGCACCATGCGGCCCTATATCCAGGAGCAGGGCCTACAGCCCACCAAGGCCAACCTCATGGCTGCTTACACA GGGCGTGTGCGCAGCAACATCCACATGGTGCTGTGCATGAGCCCCATCGGAGAGGTCTTCCGAGCTCGTCTGAGGCAGTTTCCCTCCCTG GTCAACTGCTGTACCATCGACTGGTTTAACGAGTGGCCGGCAGAAGCCCTGAAGTCTGTGGCCACCGTGTTCCTCAATGAGATCCCAGAA CTGGAATCCTCCCAGGAAGAAATCCAAGGACTGGCGGGATTAAGGACACTGCATGACATTGGGCCAGAAATCCGGCGTGCTATATCGTGT GATTTGCAAGATGACGAGCCTGAGGAAACAAAACGAGAAGAAGAAGATGATGTGTTCAAAAGAAATGGTGCCCTGCTTGGAAACCATGTC AATCATGTTAATAGTGATAGGAGAGATTCCCTTCAGCAGACCAATACCACCCACCGTCCCCTGCATGTCCAAAGGCCTTCAATTCCACCT GCAAGTGATACTGAGAAACCGCTGTTTCCTCCAGCAGGAAATTCGGTGTGTCATAACCATCATAACCATAATTCCATAGGAAAGCAAGTT CCCACCTCAACAAATGCCAATCTCAATAATGCCAATATGTCCAAAGCTGCCCATGGAAAGCGGCCCAGCATTGGGAACCTTGAGCATGTG TCTGAAAATGGGCATCATTCTTCCCACAAGCATGACCGGGAGCCTCAGAGAAGGTCCAGTGTGAAAAGAACCCGCTATTATGAAACTTAC ATTAGGTCCGACTCAGGAGATGAACAGCTCCCAACTATTTGCCGGGAAGACCCAGAGATACATGGCTATTTCAGGGACCCCCACTGCTTG GGGGAGCAGGAGTATTTCAGTAGTGAGGAATGCTACGAGGATGACAGCTCGCCCACCTGGAGCAGGCAAAACTATGGCTACTACAGCAGA TACCCAGGCAGAAACATCGACTCTGAGAGGCCCCGAGGCTACCATCATCCCCAAGGATTCTTGGAGGACGATGACTCGCCCGTTTGCTAT GATTCACGGAGATCTCCAAGGAGACGCCTACTACCTCCCACCCCAGCATCCCACCGGAGATCCTCCTTCAACTTTGAGTGCCTGCGCCGG CAGAGCAGCCAGGAAGAGGTCCCGTCGTCTCCCATCTTCCCCCATCGCACGGCCCTGCCTCTGCATCTAATGCAGCAACAGATCATGGCA GTTGCCGGCCTAGATTCAAGTAAAGCCCAGAAGTACTCACCGAGTCACTCGACCCGGTCGTGGGCCACCCCTCCAGCAACCCCTCCCTAC CGGGACTGGACACCGTGCTACACCCCCCTGATCCAAGTGGAGCAGTCAGAGGCCCTGGACCAGGTGAACGGCAGCCTGCCGTCCCTGCAC CGCAGCTCCTGGTACACAGACGAGCCCGACATCTCCTACCGGACTTTCACACCAGCCAGCCTGACTGTCCCCAGCAGCTTCCGGAACAAA AACAGCGACAAGCAGAGGAGTGCGGACAGCTTGGTGGAGGCAGTCCTGATATCCGAAGGCTTGGGACGCTATGCAAGGGACCCAAAATTT GTGTCAGCAACAAAACACGAAATCGCTGATGCCTGTGACCTCACCATCGACGAGATGGAGAGTGCAGCCAGCACCCTGCTTAATGGGAAC GTGCGTCCCCGAGCCAACGGGGATGTGGGCCCCCTCTCACACCGGCAGGACTATGAGCTACAGGACTTTGGTCCTGGCTACAGCGACGAA GAGCCAGACCCTGGGAGGGATGAGGAGGACCTGGCGGATGAAATGATATGCATCACCACCTTGTAGCCCCCAGCGAGGGGCAGACTGGCT CTGGCCTCAGGTGGGGCGCAGGAGAGCCAGGGGAAAAGTGCCTCATAGTTAGGAAAGTTTAGGCACTAGTTGGGAGTAATATTCAATTAA TTAGACTTTTGTATAAGAGATGTCATGCCTCAAGAAAGCCATAAACCTGGTAGGAACAGGTCCCAAGCGGTTGAGCCTGGCAGAGTACCA TGCGCTCGGCCCCAGCTGCAGGAAACAGCAGGCCCCGCCCTCTCACAGAGGATGGGTGAGGAGGCCAGACCTGCCCTGCCCCATTGTCCA GATGGGCACTGCTGTGGAGTCTGCTTCTCCCATGTACCAGGGCACCAGGCCCACCCAACTGAAGGCATGGCGGCGGGGTGCAGGGGAAAG TTAAAGGTGATGACGATCATCACACCTGTGTCGTTACCTCAGCCATCGGTCTAGCATATCAGTCACTGGGCCCAACATATCCATTTTTAA ACCCTTTCCCCCAAATACACTGCGTCCTGGTTCCTGTTTAGCTGTTCTGAAATACGGTGTGTAAGTAAGTCAGAACCCAGCTACCAGTGA TTATTGCGAGGGCAATGGGACCTCATAAATAAGGTTTTCTGTGATGTGACGCCAGTTTACATAAGAGAATATCACTCCGATGGTCGGTTT CTGACTGTCACGCTAAGGGCAACTGTAAACTGGAATAATAATGCACTCGCAACCAGGTAAACTTAGATACACTAGTTTGTTTAAAATTAT AGATTTACTGTACATGACTTGTAATATACTATAATTTGTATTTGTAAAGAGATGGTCTATATTTTGTAATTACTGTATTGTATTTGAACT GCAGCAATATCCATGGGTCCTAATAATTGTAGTTCCCCACTAAAATCTAGAAATTATTAGTATTTTTACTCGGGCTATCCAGAAGTAGAA GAAATAGAGCCAATTCTCATTTATTCAGCGAAAATCCTCTGGGGTTAAAATTTTAAGTTTGAAAGAACTTGACACTACAGAAATTTTTCT AAAATATTTTGAGTCACTATAAACCTATCATCTTTCCACAAGATATACCAGATGACTATTTGCAGTCTTTTCTTTGGGCAAGAGTTCCAT GATTTTGATACTGTACCTTTGGATCCACCATGGGTTGCAACTGTCTTTGGTTTTGTTTGTTTGACTTGAACCACCCTCTGGTAAGTAAGT AAGTGAATTACAGAGCAGGTCCAGCTGGCTGCTCTGCCCCTTGGGTATCCATAGTTACGGTTTTCTCTGTGGCCCACCCAGGGTGTTTTT TGCATCGCTGGTGCAGAAATGCATAGGTGGATGAGATATAGCTGCTCTTGTCCTCTGGGGACTGGTGGTGCTGCTTAAGAAATAAGGGGT GCTGGGGACAGAGGAGCAACGTGGTGATCTATAGGATTGGAGTGTCGGGGTCTGTACAAATCGTATTGTTGCCTTTTACAAAACTGCTGT ACTGTATGTTCTCTTTGAGGGCTTTTATATGCAATTGAATGAGGGCTGAAGTTTTCATTAGAATGCACTCACACTCTGACTGTACGTCCT GATGAAAACCCACTTTTGGATAATTAGAACCGTCAAGGCTTCATTTTCTGTCAACAGAATTAGGCCGACTGTCAGGTTACCTTGGCAGGG ATTCCCTGCAATCAAAAAGATAGATGATAGGTAGCAATTTTGGTCCAAAATTTTTAATAGTATACAGACAACCTGTTAATTTTTTTTTTT TTTTTTTTTTTTGTAAATAACAAACACCACTTTGTTATGAAGACCTTACAAACCTCTTCTTAAGACATTCTTACTCTGATCCAGGCAAAA ACACTTCAAGGTTTGTAAATGACTCTTTCCTGACATAAATCCTTTTTTATTAAAATGCAAAATGTTCTTCAGAATAAAACTGTGTAATAA TTTTTATACTTGGGAGTGCTCCTTGCACAGAGCTGTCATTTGCCAGTGAGAGCCTCCGACAGGGCAGGTACTGTGCCAGGGCAGCTCTGA AATTATGGATATTCTTATCCTCCTGGTTCCTTCGGTGCCAATGGTAACCTAATACCAGCCGCAGGGAGCGCCATTTCTCCTAAAGGGCTA CACCACTGTCAACATTATCCTGGACTCTGTGTCTCTCTCTGTTGGGTCTTGTGGCATCACATCAGGCCAAAATTGCCAGACCAGGACCCT AAGTGTCTGATAGAGGCGATGATCTTTTCCAAAGTCAGTACTTACAAACTGGCATTCTTACAGGCTGCACCATTTCCTAGTATGTCTGCT >23352_23352_1_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000288139_length(amino acids)=3319AA_BP=1 MDSGKVAPPSGLEGSFGWGISLRSSMEQPNSKGYSLGRTPQGPECSSAPAVQVGTHRGLEYNPGKILPGSDYGLGNPPALDPKLPHLPLP PAPPTLSDLGQPRKSPLTGTDKKYPLMKQRGFYSDILSPGTLDQLGEVCRGPRMSQNLLRQADLDKFTPRVGSFEVPEDFQERMEQQCIG STTRLLAQTDFPLQAYEPKMQVPFQVLPGQHPRKIEIERRKQQYLSLDIEQLLFSQGIDSNKLMPRHLDHQHPQTIEQGHDPIFPIYLPL KVFDNEDFDCRTPREWINMGLEPGSLDRKPVPGKALLPTDDFLGHEDPKSQKLKYKWCEVGVLDYDEEKKLYLVHKTDEKGLVRDEMGRP ILNAGVTTEGRPPLQVCQYWVPRIQLLFCAEDPCMFAQRVVQANALRKNTEALLLYNLYVDCMPSDGQHVISEQSLSKIKQWALSTPRMR KGPSVLEHLSSLAREVSLDYERSMNKINFDHVVSSKPETFSYVTLPKKEEEQVPERGLVSVPKYHFWEQKEDFTFVSLLTRPEVITALSK VRAECNKVTAMSLFHSSLSKYSHLEEFEQIQSQTFSQVQMFLKDSWISSLKVAMRSSLRDMSKGWYNLYETNWEVYLMSKLRKLMELVKY MLQDTLRFLVQDSLASFSQFISDTCCSVLNCTDDMVWGDDLINSPYRPRKNPLFIMDLVLDSSGVHYSTPLEQFEASLLNLFDKGILATH AVPQLEKLVMEDIFISGDPLLESVGLHEPLVEELRATIASAVSKAMIPLQAYAKEYRKYLELNNNDIASFLKTYQTQGLLAQEVREVVLT HLREKEILDSSLPSSIIIGPFYINTDNVKQSLSKKRKALATSVLDILAKNLHKEVDSICEEFRSISRKIYEKPNSIEELAELREWMKGIP ERLVGLEERIVKVMDDYQVMDEFLYNLSSDDFNDKWIASNWPSKILGQIELVQQQHVEDEEKFRKIQIMDQNNFQEKLEGLQLVVAGFSI HVEISRAHEIANEVRRVKKQLKDCQQLAMLYNNRERIFSLPITNYDKLSRMVKEFQPYLDLWTTASDWLRWSESWMNDPLSAIDAEQLEK NVVEAFKTMHKCVKQFKDMPACQEVALDIRARIEEFKPYIPLIQGLRNPGMRIRHWETLSNQININVRPKANLTFARCLEMNLQDHIESI SKVAEVAGKEYAIEQALDKMEKEWSTILFNVLPYKATDTYILKSPDEASQLLDDHIVMTQNMSFSPYKKPFEQRINSWENKLKLTQEVLE EWLNCQRSWLYLEPIFSSEDINQQLPVESKRYQTMERIWKKIMKNAYENREVINVCSDLRMLDSLRDCNKILDLVQKGLSEYLETKRSAF PRFYFLSDDELLEILSQTKDPTAVQPHLRKCFENIARLLFQEDLEITHMYSAEGEEVQLCFSIYPSSNVEDWLREVERSMKASVHDIIEK AIRAYPTMPRTQWVLNWPGQVTIAGCQTYWTMEVAEALEAGNLRSQLFPQLCQQLSDLVALVRGKLSRMQRAVLSALIVIEVHAKDVVSK LIQENVVSVNDFQWISQLRYYWTNNDLYIRAVNAEFIYGYEYLGNSGRLVITPLTDRCYLTLTGALHLKFGGAPAGPAGTGKTETTKDLG KALAIQTVVFNCSDQLDFMAMGKFFKGLASAGAWACFDEFNRIDIEVLSVVAQQITTIQKAQQQRVERFMFEGVEIPLVPSCAVFITMNP GYAGRTELPDNLKALFRPVAMMVPDYAMITEISLYSFGFNEASVLAKKITTTFKLSSEQLSSQDHYDFGMRAVKTVISAAGNLKRENPSM NEELICLRAIRDVNVPKFLQEDLKLFSGIVSDLFPTIKEEDTDYGILDEAIREACRNSNLKDVEGFLTKCIQLYETTVVRHGLMLVGPTG SGKSTCYRVLAAAMTSLKGQPSISGGMYEAVNYYVLNPKSITMGQLYGEFDLLTHEWTDGIFSSFIRAGAITSDTNKKWYMFDGPVDAIW IENMNTVLDDNKKLCLSSGEIIKLTEAMTMMFEVQDLAVASPATVSRCGMVYLEPSILGLMPFIECWLRKLPPLLKPYEEHFKALFVSFL EESISFVRSSVKEVIASTNCNLTMSLLKLLDCFFKPFLPREGLKKIPSEKLSRIVELIEPWFIFSLIWSVGATGDSSGRTSFSHWLRLKM ENEQLTLLFPEEGLVFDYRLEDAGISGTNDSEDEEEEYKQVAWVKWMDSSAPFTMVPDTNYCNIIVPTMDTVQMSHLLDMLLTNKKPVLC IGPTGTGKTLTISDKLLKNLALDYISHFLTFSARTSANQTQDFIDSKLDKRRKGVFGPPLGRNFIFFIDDLNMPALETYGAQPPIELLRQ WMDHGGWYDRKIIGAFKNLVDINFVCAMGPPGGGRNTVTPRLMRHFNYLSFAEMDEVSKKRIFSTILGNWLDGLLGEKSYRERVPGAPHI AHFTEPLVEATIMVYATITSQLLPTPAKSHYTFNLRDLSKVFQGMLMADPAKVEDQVQLLRLWYHENCRVFRDRLVNEEDRSWFDQLLKR CMEQWEVTFNKVCPFQPILYGDFMSPGSDVKSYELITSESKMMQVIEEYIEDYNQINTAKLKLVLFMDAMSHICRISRTLRQALGNALLL GVGGSGRSSLTRLASHMAEYECFQIELSKNYGMSEWRDDVKKVLLKAGLQNLPITFLFSDTQIKNESFLEDINNVLNSGDIPNLYTADEQ DQIVSTMRPYIQEQGLQPTKANLMAAYTGRVRSNIHMVLCMSPIGEVFRARLRQFPSLVNCCTIDWFNEWPAEALKSVATVFLNEIPELE SSQEEIQGLAGLRTLHDIGPEIRRAISCDLQDDEPEETKREEEDDVFKRNGALLGNHVNHVNSDRRDSLQQTNTTHRPLHVQRPSIPPAS DTEKPLFPPAGNSVCHNHHNHNSIGKQVPTSTNANLNNANMSKAAHGKRPSIGNLEHVSENGHHSSHKHDREPQRRSSVKRTRYYETYIR SDSGDEQLPTICREDPEIHGYFRDPHCLGEQEYFSSEECYEDDSSPTWSRQNYGYYSRYPGRNIDSERPRGYHHPQGFLEDDDSPVCYDS RRSPRRRLLPPTPASHRRSSFNFECLRRQSSQEEVPSSPIFPHRTALPLHLMQQQIMAVAGLDSSKAQKYSPSHSTRSWATPPATPPYRD WTPCYTPLIQVEQSEALDQVNGSLPSLHRSSWYTDEPDISYRTFTPASLTVPSSFRNKNSDKQRSADSLVEAVLISEGLGRYARDPKFVS -------------------------------------------------------------- >23352_23352_2_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000350061_length(transcript)=10785nt_BP=8583nt GGGGGGTACCCAACCTATACGCAGACCCATTGAGCAGCCAGACTGCCCTAAACAGGGCTATGGAGTCCTTGTCCCTTCTAAGAGCTGTGG ACACCTTGCCTCCAGTTCCCCTCACAGTCCTTTCTTCCTTCTGCAGTGATCACTGAGTACCTGTGTGAATGCCAACAAGAAAAATAAAAC CACAGTTTGGATTCAGGAAAGGTTGCACCACCATCAGGTCTTGAAGGGAGCTTCGGCTGGGGCATCTCCCTGAGAAGCAGCATGGAGCAG CCTAACAGTAAAGGCTATAGCCTGGGAAGGACCCCTCAGGGCCCAGAGTGCAGCAGTGCTCCTGCAGTCCAAGTGGGGACCCACAGGGGC CTAGAGTATAACCCGGGGAAGATTCTTCCAGGATCAGACTATGGGTTGGGAAATCCTCCAGCCCTTGACCCCAAGCTCCCACATTTACCC CTGCCCCCGGCCCCACCCACACTCTCAGACTTGGGGCAGCCACGGAAGTCACCCCTGACAGGCACTGATAAGAAGTACCCGCTGATGAAG CAGCGTGGGTTCTACTCCGACATCCTCAGCCCTGGAACCTTAGATCAACTTGGGGAGGTATGTCGTGGCCCCCGAATGAGCCAGAACCTC CTGCGGCAGGCTGACCTTGACAAGTTCACCCCAAGAGTCGGAAGCTTTGAGGTTCCTGAAGACTTCCAGGAGCGCATGGAGCAGCAGTGC ATCGGGTCCACCACCCGGCTGCTCGCCCAGACTGACTTCCCACTGCAGGCCTACGAGCCCAAGATGCAGGTGCCTTTCCAGGTGCTGCCA GGCCAGCATCCTCGCAAGATTGAGATCGAGAGGAGGAAACAGCAGTACCTGAGCCTGGACATTGAGCAGTTGCTGTTCAGCCAGGGCATC GACTCCAACAAGCTCATGCCCAGGCACCTGGACCACCAGCACCCCCAAACCATCGAACAGGGCCATGACCCAATCTTCCCCATCTACCTC CCACTGAAGGTATTTGACAATGAGGACTTTGACTGCCGGACTCCCAGAGAGTGGATCAACATGGGCTTGGAGCCAGGGTCTCTGGACAGG AAACCTGTCCCGGGAAAAGCCCTCTTGCCCACTGATGACTTCCTGGGGCATGAGGACCCCAAGAGTCAGAAGCTGAAGTACAAATGGTGC GAGGTCGGCGTCCTGGACTACGACGAGGAGAAGAAGCTATACCTGGTACACAAGACAGACGAGAAAGGCCTGGTGCGAGATGAGATGGGG AGGCCCATCCTGAATGCAGGGGTCACCACTGAAGGAAGGCCACCCCTTCAGGTCTGTCAGTACTGGGTGCCACGGATCCAGCTTCTCTTC TGCGCTGAGGACCCTTGCATGTTCGCACAACGTGTGGTCCAGGCCAACGCCCTGCGCAAGAACACGGAAGCACTGCTGCTCTACAACTTG TATGTGGACTGCATGCCCTCTGACGGCCAGCATGTCATCAGTGAACAGAGCCTGAGCAAGATCAAGCAGTGGGCCCTGAGCACGCCTCGG ATGCGCAAAGGCCCCTCGGTTCTAGAGCACCTCAGCAGTCTTGCCAGAGAAGTGAGCCTGGACTATGAGCGCAGCATGAACAAGATCAAC TTTGACCACGTTGTCTCTTCCAAGCCCGAGACCTTCTCCTACGTCACCCTCCCCAAGAAGGAGGAGGAGCAGGTGCCTGAGCGAGGGCTG GTGAGTGTCCCCAAGTACCACTTCTGGGAGCAGAAGGAGGACTTCACTTTCGTGTCCCTGCTCACACGGCCAGAGGTCATCACGGCCCTC AGCAAGGTGAGGGCCGAGTGCAACAAGGTGACCGCCATGTCCCTGTTCCACTCGAGCCTCTCCAAGTACAGCCACCTGGAGGAATTTGAG CAGATCCAGTCACAGACCTTCTCCCAGGTGCAGATGTTCCTCAAGGACAGCTGGATCAGCTCGCTAAAGGTGGCCATGCGCAGCAGCCTG CGCGACATGAGCAAGGGCTGGTACAACCTCTACGAGACCAACTGGGAGGTGTACCTCATGTCCAAGCTGCGCAAGCTGATGGAGCTGGTG AAGTACATGCTGCAGGACACACTGCGCTTCCTGGTGCAGGACTCACTTGCCAGCTTCTCACAGTTCATCAGCGACACCTGTTGCAGCGTG CTCAACTGCACCGATGACATGGTCTGGGGTGACGACTTAATTAACAGCCCCTACAGGCCCCGGAAGAATCCCCTGTTCATCATGGACCTG GTGCTGGACAGCTCTGGGGTGCACTATAGCACCCCACTGGAGCAGTTTGAGGCATCTCTGCTGAACCTCTTCGACAAGGGCATCCTGGCC ACCCATGCCGTGCCCCAGCTGGAGAAGCTGGTGATGGAGGACATCTTCATCAGCGGTGACCCCCTGCTGGAGTCCGTGGGCCTTCATGAG CCACTGGTGGAAGAGCTACGGGCCACCATTGCCAGTGCCGTGTCCAAGGCCATGATCCCACTGCAGGCCTACGCCAAGGAGTACCGAAAG TACCTGGAGCTGAACAACAATGACATTGCCTCCTTTCTCAAAACCTACCAGACGCAGGGCCTGTTGGCCCAGGAGGTGCGGGAGGTAGTG CTCACCCACCTGCGGGAGAAGGAGATCCTGGACAGCTCGCTGCCCAGCAGCATCATCATTGGGCCTTTCTACATCAACACCGACAATGTC AAGCAGAGCCTGTCCAAGAAACGCAAGGCCCTGGCCACTTCCGTGCTGGACATCCTTGCCAAGAACCTGCATAAGGAGGTGGATAGCATC TGCGAGGAGTTCCGCAGCATCAGCCGCAAGATCTATGAGAAGCCCAACAGCATTGAGGAGCTGGCTGAGCTGCGAGAGTGGATGAAGGGC ATCCCGGAGAGGCTGGTGGGCCTGGAGGAGCGGATTGTGAAGGTCATGGATGACTACCAGGTCATGGATGAATTCCTCTACAACCTCAGC TCAGATGACTTCAATGACAAATGGATTGCCAGCAACTGGCCTTCTAAGATCCTTGGGCAGATAGAGCTGGTGCAGCAGCAGCATGTGGAG GATGAGGAGAAGTTCCGCAAAATCCAGATCATGGATCAGAACAACTTCCAAGAGAAGCTGGAAGGGCTGCAGCTGGTAGTAGCTGGCTTC TCCATCCATGTGGAGATTTCACGTGCACACGAGATCGCCAACGAGGTGCGGCGTGTCAAGAAGCAGCTGAAGGACTGCCAGCAGCTGGCC ATGCTCTACAACAACCGCGAGCGCATCTTCAGCTTGCCCATCACCAATTATGACAAGCTCTCCAGGATGGTGAAGGAGTTCCAACCCTAC CTGGACCTTTGGACCACAGCGTCTGACTGGCTGCGCTGGTCGGAGAGCTGGATGAATGACCCCCTCTCTGCCATCGATGCTGAGCAGCTG GAGAAGAACGTGGTTGAAGCCTTCAAGACCATGCACAAGTGCGTGAAGCAGTTTAAGGACATGCCAGCCTGCCAGGAAGTGGCCTTGGAC ATCCGGGCCCGCATCGAGGAGTTCAAACCATACATCCCACTGATCCAGGGGCTGCGCAACCCTGGCATGCGGATCCGGCACTGGGAGACA CTGTCCAACCAGATCAACATCAATGTCAGGCCCAAGGCCAACCTGACCTTTGCTCGCTGCCTGGAGATGAACCTGCAGGACCATATCGAG AGCATCAGCAAGGTGGCTGAGGTGGCTGGCAAGGAGTACGCCATCGAGCAGGCACTGGACAAGATGGAGAAGGAGTGGTCGACCATCCTG TTCAATGTACTGCCCTACAAGGCGACAGACACCTACATCCTGAAGAGCCCGGACGAGGCCTCACAGCTGCTGGACGACCACATCGTCATG ACCCAGAATATGTCATTTTCACCCTACAAGAAGCCCTTTGAGCAGCGCATCAACTCCTGGGAGAACAAACTGAAGCTGACCCAGGAGGTT CTGGAGGAGTGGCTGAACTGTCAGCGGTCCTGGCTCTACCTGGAGCCCATCTTTAGCTCTGAGGACATCAACCAGCAGCTGCCTGTGGAG AGCAAGCGCTACCAGACCATGGAGCGGATCTGGAAGAAGATCATGAAGAATGCCTACGAGAACCGGGAGGTGATCAATGTGTGTTCCGAC CTGAGAATGCTGGACAGCCTGCGGGACTGCAACAAGATTCTGGACCTGGTGCAGAAGGGCCTCAGCGAGTATCTGGAGACCAAGAGGAGC GCCTTCCCCAGATTCTACTTCCTGTCAGATGATGAACTACTAGAGATCTTGTCGCAGACAAAGGACCCCACGGCCGTGCAGCCACACCTG CGCAAGTGCTTCGAGAACATCGCTCGGCTGCTATTCCAGGAGGACCTGGAGATCACGCACATGTACTCAGCCGAGGGGGAGGAGGTACAG TTGTGCTTCTCCATCTACCCCTCCAGCAACGTGGAGGACTGGCTGCGGGAGGTGGAGCGCAGCATGAAGGCCAGTGTGCACGACATCATT GAGAAGGCCATCAGGGCCTACCCCACGATGCCCAGGACCCAGTGGGTTCTGAACTGGCCTGGCCAGGTGACCATCGCTGGGTGCCAGACC TACTGGACCATGGAGGTGGCAGAGGCTCTGGAGGCCGGCAACCTCAGAAGCCAACTGTTCCCCCAGCTCTGCCAGCAGCTCAGTGATCTG GTGGCCCTTGTGCGGGGGAAGCTGTCCCGCATGCAGCGGGCAGTGCTGTCAGCGCTAATCGTCATTGAGGTCCATGCCAAGGACGTGGTG AGCAAGCTAATCCAGGAGAACGTGGTCAGCGTGAATGACTTCCAGTGGATCTCACAGCTGAGGTACTACTGGACAAATAATGACCTGTAT ATCCGTGCTGTGAATGCTGAGTTCATCTATGGCTATGAGTACCTGGGCAACAGTGGGAGGCTGGTGATCACGCCCCTCACCGACAGGTGC TACCTGACACTGACCGGAGCTCTGCACCTCAAGTTTGGGGGTGCCCCAGCTGGCCCAGCTGGCACAGGCAAAACTGAGACCACCAAAGAC CTGGGTAAGGCCTTGGCCATACAGACCGTTGTGTTCAACTGCTCTGACCAGCTCGACTTCATGGCCATGGGCAAGTTCTTCAAGGGCCTG GCCAGTGCTGGGGCCTGGGCCTGCTTCGACGAGTTCAATCGCATCGACATCGAGGTGCTGTCTGTGGTGGCGCAGCAGATCACCACCATC CAGAAGGCGCAGCAGCAGCGGGTGGAACGCTTCATGTTTGAGGGTGTGGAGATCCCACTGGTGCCATCCTGCGCAGTGTTTATCACCATG AACCCGGGCTACGCTGGCCGCACGGAGCTGCCTGACAATCTGAAGGCGCTCTTCCGACCCGTGGCCATGATGGTTCCAGATTACGCCATG ATCACTGAGATCTCCCTCTATTCCTTTGGCTTTAATGAGGCCAGTGTGCTGGCTAAGAAGATCACAACCACCTTCAAGCTGTCTTCTGAG CAGCTCAGCTCCCAGGATCACTATGACTTCGGGATGAGAGCCGTGAAAACTGTGATCTCGGCTGCTGGGAACCTCAAGCGAGAAAACCCC AGCATGAATGAGGAGCTGATCTGCCTCCGGGCCATCCGTGATGTGAACGTGCCCAAGTTCCTGCAGGAGGACCTCAAGCTCTTCTCTGGC ATCGTGTCCGACCTGTTTCCCACCATCAAGGAGGAGGACACGGACTACGGCATCCTGGATGAGGCCATCCGCGAGGCCTGCAGGAACAGC AACCTCAAGGATGTGGAGGGCTTCCTGACAAAGTGCATCCAGCTCTACGAGACCACGGTGGTACGACACGGCCTCATGCTCGTCGGGCCC ACAGGCTCCGGCAAGAGTACTTGTTACAGAGTCCTGGCAGCTGCCATGACGTCACTGAAAGGGCAGCCATCCATCAGTGGTGGCATGTAC GAGGCTGTCAACTACTACGTGCTCAACCCCAAGTCCATCACGATGGGCCAGCTGTACGGGGAGTTTGACCTCCTCACCCATGAGTGGACA GACGGGATATTCTCCTCGTTCATCCGGGCGGGGGCCATCACCTCCGACACCAACAAGAAGTGGTACATGTTCGATGGGCCGGTGGATGCC ATCTGGATTGAGAACATGAACACGGTGCTGGATGACAACAAGAAGCTGTGCCTCAGCTCTGGGGAGATCATCAAGCTCACAGAGGCAATG ACCATGATGTTCGAGGTGCAAGACCTGGCGGTGGCTTCACCAGCTACAGTCTCCCGCTGTGGCATGGTGTACCTGGAGCCCAGCATCCTG GGGCTCATGCCCTTCATCGAGTGCTGGCTGAGGAAGCTGCCTCCCTTGCTGAAGCCCTATGAGGAGCATTTCAAGGCCCTCTTTGTCAGC TTCCTGGAGGAATCCATCTCCTTCGTTCGGTCCTCAGTGAAGGAGGTGATCGCCTCAACCAACTGCAACCTGACCATGAGCCTCCTCAAG CTGCTGGACTGCTTCTTCAAGCCCTTTCTGCCTAGAGAGGGCCTCAAGAAAATACCCTCTGAAAAGCTGAGTCGCATCGTAGAGTTGATC GAGCCCTGGTTCATCTTCTCCCTGATCTGGAGCGTGGGTGCCACTGGGGACAGCAGTGGCCGCACCAGTTTCAGCCACTGGCTAAGGCTC AAGATGGAGAACGAACAGCTGACTCTGCTTTTCCCAGAAGAGGGGCTGGTGTTCGATTACAGGCTGGAGGACGCGGGCATCAGTGGCACC AACGACAGTGAGGATGAAGAGGAGGAATACAAGCAGGTTGCCTGGGTGAAGTGGATGGACTCCTCAGCTCCATTCACCATGGTACCAGAC ACCAACTACTGCAACATCATTGTGCCCACCATGGACACCGTGCAGATGTCCCATTTACTGGACATGCTGCTCACCAACAAGAAGCCCGTG CTGTGCATTGGGCCAACAGGCACGGGGAAGACGCTCACCATCTCTGACAAGCTCCTCAAGAACCTGGCACTGGATTACATCAGCCACTTC CTCACCTTCTCAGCCCGCACTTCAGCCAACCAGACCCAGGACTTCATTGACAGCAAGCTGGACAAGAGGCGGAAGGGTGTGTTTGGACCA CCTCTGGGGCGCAACTTTATCTTCTTCATCGATGACCTGAACATGCCGGCCCTGGAGACCTACGGTGCACAGCCACCCATCGAGCTGTTG CGCCAGTGGATGGACCACGGCGGCTGGTACGACCGCAAGATCATTGGTGCCTTCAAGAACCTAGTGGACATCAACTTTGTCTGTGCCATG GGCCCCCCGGGTGGAGGCAGGAACACCGTCACCCCGCGGCTGATGCGTCACTTCAACTACCTGTCTTTCGCTGAGATGGACGAGGTCAGC AAGAAACGCATCTTCTCCACCATCCTGGGCAACTGGTTGGATGGACTCCTTGGAGAAAAAAGCTACCGGGAGCGTGTGCCTGGGGCCCCC CACATTGCCCACTTCACGGAGCCCCTTGTGGAAGCCACCATCATGGTGTATGCAACCATCACCTCCCAGCTGCTGCCCACTCCAGCCAAG TCCCACTACACCTTCAACCTGAGGGACCTCTCCAAGGTCTTCCAAGGCATGCTCATGGCTGACCCGGCCAAGGTCGAGGACCAAGTGCAG CTGCTGCGACTGTGGTATCACGAGAACTGCCGCGTGTTCCGGGACCGACTGGTGAATGAGGAGGACCGCAGCTGGTTCGACCAGCTCCTC AAGCGCTGCATGGAGCAGTGGGAGGTGACCTTCAACAAGGTCTGCCCCTTCCAGCCCATTCTTTACGGGGACTTCATGTCACCAGGCTCC GATGTCAAGTCCTACGAGCTCATCACCAGTGAGAGTAAGATGATGCAGGTGATAGAGGAGTACATAGAGGACTACAACCAGATCAACACG GCCAAGCTGAAGCTGGTCCTCTTCATGGACGCCATGAGCCACATCTGTCGCATCAGCCGCACCCTACGCCAGGCGCTGGGCAATGCACTC CTGCTGGGCGTGGGTGGCAGCGGCCGCAGCTCCCTCACAAGGCTCGCCTCGCACATGGCCGAGTACGAGTGCTTCCAGATTGAACTATCC AAGAACTACGGCATGTCCGAGTGGCGAGATGATGTGAAGAAGGTCCTGCTCAAGGCGGGCCTACAGAACCTACCCATCACCTTCCTCTTC TCAGACACCCAGATCAAGAACGAATCCTTCCTGGAAGATATCAACAACGTCCTAAACTCTGGTGACATTCCCAATCTGTATACTGCGGAC GAGCAGGACCAGATCGTCAGCACCATGCGGCCCTATATCCAGGAGCAGGGCCTACAGCCCACCAAGGCCAACCTCATGGCTGCTTACACA GGGCGTGTGCGCAGCAACATCCACATGGTGCTGTGCATGAGCCCCATCGGAGAGGTCTTCCGAGCTCGTCTGAGGCAGTTTCCCTCCCTG GTCAACTGCTGTACCATCGACTGGTTTAACGAGTGGCCGGCAGAAGCCCTGAAGTCTGTGGCCACCGTGTTCCTCAATGAGATCCCAGAA CTGGAATCCTCCCAGGAAGAAATCCAAGGACTGGCGGGATTAAGGACACTGCATGACATTGGGCCAGAAATCCGGCGTGCTATATCGTGT GATTTGCAAGATGACGAGCCTGAGGAAACAAAACGAGAAGAAGAAGATGATGTGTTCAAAAGAAATGGTGCCCTGCTTGGAAACCATGTC AATCATGTTAATAGTGATAGGAGAGATTCCCTTCAGCAGACCAATACCACCCACCGTCCCCTGCATGTCCAAAGGCCTTCAATTCCACCT GCAAGTGATACTGAGAAACCGCTGTTTCCTCCAGCAGGAAATTCGGTGTGTCATAACCATCATAACCATAATTCCATAGGAAAGCAAGTT CCCACCTCAACAAATGCCAATCTCAATAATGCCAATATGTCCAAAGCTGCCCATGGAAAGCGGCCCAGCATTGGGAACCTTGAGCATGTG TCTGAAAATGGGCATCATTCTTCCCACAAGCATGACCGGGAGCCTCAGAGAAGGTCCAGTGTGAAAAGAACCCGCTATTATGAAACTTAC ATTAGGTCCGACTCAGGAGATGAACAGCTCCCAACTATTTGCCGGGAAGACCCAGAGATACATGGCTATTTCAGGGACCCCCACTGCTTG GGGGAGCAGGAGTATTTCAGTAGTGAGGAATGCTACGAGGATGACAGCTCGCCCACCTGGAGCAGGCAAAACTATGGCTACTACAGCAGA TACCCAGGCAGAAACATCGACTCTGAGAGGCCCCGAGGCTACCATCATCCCCAAGGATTCTTGGAGGACGATGACTCGCCCGTTTGCTAT GATTCACGGAGATCTCCAAGGAGACGCCTACTACCTCCCACCCCAGCATCCCACCGGAGATCCTCCTTCAACTTTGAGTGCCTGCGCCGG CAGAGCAGCCAGGAAGAGGTCCCGTCGTCTCCCATCTTCCCCCATCGCACGGCCCTGCCTCTGCATCTAATGCAGCAACAGATCATGGCA GTTGCCGGCCTAGATTCAAGTAAAGCCCAGAAGTACTCACCGAGTCACTCGACCCGGTCGTGGGCCACCCCTCCAGCAACCCCTCCCTAC CGGGACTGGACACCGTGCTACACCCCCCTGATCCAAGTGGAGCAGTCAGAGGCCCTGGACCAGGTGAACGGCAGCCTGCCGTCCCTGCAC CGCAGCTCCTGGTACACAGACGAGCCCGACATCTCCTACCGGACTTTCACACCAGCCAGCCTGACTGTCCCCAGCAGCTTCCGGAACAAA AACAGCGACAAGCAGAGGAGTGCGGACAGCTTGGTGGAGGCAGTCCTGATATCCGAAGGCTTGGGACGCTATGCAAGGGACCCAAAATTT GTGTCAGCAACAAAACACGAAATCGCTGATGCCTGTGACCTCACCATCGACGAGATGGAGAGTGCAGCCAGCACCCTGCTTAATGGGAAC GTGCGTCCCCGAGCCAACGGGGATGTGGGCCCCCTCTCACACCGGCAGGACTATGAGCTACAGGACTTTGGTCCTGGCTACAGCGACGAA GAGCCAGACCCTGGGAGGGATGAGGAGGACCTGGCGGATGAAATGATATGCATCACCACCTTGTAGCCCCCAGCGAGGGGCAGACTGGCT CTGGCCTCAGGTGGGGCGCAGGAGAGCCAGGGGAAAAGTGCCTCATAGTTAGGAAAGTTTAGGCACTAGTTGGGAGTAATATTCAATTAA TTAGACTTTTGTATAAGAGATGTCATGCCTCAAGAAAGCCATAAACCTGGTAGGAACAGGTCCCAAGCGGTTGAGCCTGGCAGAGTACCA TGCGCTCGGCCCCAGCTGCAGGAAACAGCAGGCCCCGCCCTCTCACAGAGGATGGGTGAGGAGGCCAGACCTGCCCTGCCCCATTGTCCA GATGGGCACTGCTGTGGAGTCTGCTTCTCCCATGTACCAGGGCACCAGGCCCACCCAACTGAAGGCATGGCGGCGGGGTGCAGGGGAAAG TTAAAGGTGATGACGATCATCACACCTGTGTCGTTACCTCAGCCATCGGTCTAGCATATCAGTCACTGGGCCCAACATATCCATTTTTAA ACCCTTTCCCCCAAATACACTGCGTCCTGGTTCCTGTTTAGCTGTTCTGAAATACGGTGTGTAAGTAAGTCAGAACCCAGCTACCAGTGA >23352_23352_2_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000350061_length(amino acids)=3319AA_BP=1 MDSGKVAPPSGLEGSFGWGISLRSSMEQPNSKGYSLGRTPQGPECSSAPAVQVGTHRGLEYNPGKILPGSDYGLGNPPALDPKLPHLPLP PAPPTLSDLGQPRKSPLTGTDKKYPLMKQRGFYSDILSPGTLDQLGEVCRGPRMSQNLLRQADLDKFTPRVGSFEVPEDFQERMEQQCIG STTRLLAQTDFPLQAYEPKMQVPFQVLPGQHPRKIEIERRKQQYLSLDIEQLLFSQGIDSNKLMPRHLDHQHPQTIEQGHDPIFPIYLPL KVFDNEDFDCRTPREWINMGLEPGSLDRKPVPGKALLPTDDFLGHEDPKSQKLKYKWCEVGVLDYDEEKKLYLVHKTDEKGLVRDEMGRP ILNAGVTTEGRPPLQVCQYWVPRIQLLFCAEDPCMFAQRVVQANALRKNTEALLLYNLYVDCMPSDGQHVISEQSLSKIKQWALSTPRMR KGPSVLEHLSSLAREVSLDYERSMNKINFDHVVSSKPETFSYVTLPKKEEEQVPERGLVSVPKYHFWEQKEDFTFVSLLTRPEVITALSK VRAECNKVTAMSLFHSSLSKYSHLEEFEQIQSQTFSQVQMFLKDSWISSLKVAMRSSLRDMSKGWYNLYETNWEVYLMSKLRKLMELVKY MLQDTLRFLVQDSLASFSQFISDTCCSVLNCTDDMVWGDDLINSPYRPRKNPLFIMDLVLDSSGVHYSTPLEQFEASLLNLFDKGILATH AVPQLEKLVMEDIFISGDPLLESVGLHEPLVEELRATIASAVSKAMIPLQAYAKEYRKYLELNNNDIASFLKTYQTQGLLAQEVREVVLT HLREKEILDSSLPSSIIIGPFYINTDNVKQSLSKKRKALATSVLDILAKNLHKEVDSICEEFRSISRKIYEKPNSIEELAELREWMKGIP ERLVGLEERIVKVMDDYQVMDEFLYNLSSDDFNDKWIASNWPSKILGQIELVQQQHVEDEEKFRKIQIMDQNNFQEKLEGLQLVVAGFSI HVEISRAHEIANEVRRVKKQLKDCQQLAMLYNNRERIFSLPITNYDKLSRMVKEFQPYLDLWTTASDWLRWSESWMNDPLSAIDAEQLEK NVVEAFKTMHKCVKQFKDMPACQEVALDIRARIEEFKPYIPLIQGLRNPGMRIRHWETLSNQININVRPKANLTFARCLEMNLQDHIESI SKVAEVAGKEYAIEQALDKMEKEWSTILFNVLPYKATDTYILKSPDEASQLLDDHIVMTQNMSFSPYKKPFEQRINSWENKLKLTQEVLE EWLNCQRSWLYLEPIFSSEDINQQLPVESKRYQTMERIWKKIMKNAYENREVINVCSDLRMLDSLRDCNKILDLVQKGLSEYLETKRSAF PRFYFLSDDELLEILSQTKDPTAVQPHLRKCFENIARLLFQEDLEITHMYSAEGEEVQLCFSIYPSSNVEDWLREVERSMKASVHDIIEK AIRAYPTMPRTQWVLNWPGQVTIAGCQTYWTMEVAEALEAGNLRSQLFPQLCQQLSDLVALVRGKLSRMQRAVLSALIVIEVHAKDVVSK LIQENVVSVNDFQWISQLRYYWTNNDLYIRAVNAEFIYGYEYLGNSGRLVITPLTDRCYLTLTGALHLKFGGAPAGPAGTGKTETTKDLG KALAIQTVVFNCSDQLDFMAMGKFFKGLASAGAWACFDEFNRIDIEVLSVVAQQITTIQKAQQQRVERFMFEGVEIPLVPSCAVFITMNP GYAGRTELPDNLKALFRPVAMMVPDYAMITEISLYSFGFNEASVLAKKITTTFKLSSEQLSSQDHYDFGMRAVKTVISAAGNLKRENPSM NEELICLRAIRDVNVPKFLQEDLKLFSGIVSDLFPTIKEEDTDYGILDEAIREACRNSNLKDVEGFLTKCIQLYETTVVRHGLMLVGPTG SGKSTCYRVLAAAMTSLKGQPSISGGMYEAVNYYVLNPKSITMGQLYGEFDLLTHEWTDGIFSSFIRAGAITSDTNKKWYMFDGPVDAIW IENMNTVLDDNKKLCLSSGEIIKLTEAMTMMFEVQDLAVASPATVSRCGMVYLEPSILGLMPFIECWLRKLPPLLKPYEEHFKALFVSFL EESISFVRSSVKEVIASTNCNLTMSLLKLLDCFFKPFLPREGLKKIPSEKLSRIVELIEPWFIFSLIWSVGATGDSSGRTSFSHWLRLKM ENEQLTLLFPEEGLVFDYRLEDAGISGTNDSEDEEEEYKQVAWVKWMDSSAPFTMVPDTNYCNIIVPTMDTVQMSHLLDMLLTNKKPVLC IGPTGTGKTLTISDKLLKNLALDYISHFLTFSARTSANQTQDFIDSKLDKRRKGVFGPPLGRNFIFFIDDLNMPALETYGAQPPIELLRQ WMDHGGWYDRKIIGAFKNLVDINFVCAMGPPGGGRNTVTPRLMRHFNYLSFAEMDEVSKKRIFSTILGNWLDGLLGEKSYRERVPGAPHI AHFTEPLVEATIMVYATITSQLLPTPAKSHYTFNLRDLSKVFQGMLMADPAKVEDQVQLLRLWYHENCRVFRDRLVNEEDRSWFDQLLKR CMEQWEVTFNKVCPFQPILYGDFMSPGSDVKSYELITSESKMMQVIEEYIEDYNQINTAKLKLVLFMDAMSHICRISRTLRQALGNALLL GVGGSGRSSLTRLASHMAEYECFQIELSKNYGMSEWRDDVKKVLLKAGLQNLPITFLFSDTQIKNESFLEDINNVLNSGDIPNLYTADEQ DQIVSTMRPYIQEQGLQPTKANLMAAYTGRVRSNIHMVLCMSPIGEVFRARLRQFPSLVNCCTIDWFNEWPAEALKSVATVFLNEIPELE SSQEEIQGLAGLRTLHDIGPEIRRAISCDLQDDEPEETKREEEDDVFKRNGALLGNHVNHVNSDRRDSLQQTNTTHRPLHVQRPSIPPAS DTEKPLFPPAGNSVCHNHHNHNSIGKQVPTSTNANLNNANMSKAAHGKRPSIGNLEHVSENGHHSSHKHDREPQRRSSVKRTRYYETYIR SDSGDEQLPTICREDPEIHGYFRDPHCLGEQEYFSSEECYEDDSSPTWSRQNYGYYSRYPGRNIDSERPRGYHHPQGFLEDDDSPVCYDS RRSPRRRLLPPTPASHRRSSFNFECLRRQSSQEEVPSSPIFPHRTALPLHLMQQQIMAVAGLDSSKAQKYSPSHSTRSWATPPATPPYRD WTPCYTPLIQVEQSEALDQVNGSLPSLHRSSWYTDEPDISYRTFTPASLTVPSSFRNKNSDKQRSADSLVEAVLISEGLGRYARDPKFVS -------------------------------------------------------------- >23352_23352_3_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000422281_length(transcript)=10119nt_BP=8583nt GGGGGGTACCCAACCTATACGCAGACCCATTGAGCAGCCAGACTGCCCTAAACAGGGCTATGGAGTCCTTGTCCCTTCTAAGAGCTGTGG ACACCTTGCCTCCAGTTCCCCTCACAGTCCTTTCTTCCTTCTGCAGTGATCACTGAGTACCTGTGTGAATGCCAACAAGAAAAATAAAAC CACAGTTTGGATTCAGGAAAGGTTGCACCACCATCAGGTCTTGAAGGGAGCTTCGGCTGGGGCATCTCCCTGAGAAGCAGCATGGAGCAG CCTAACAGTAAAGGCTATAGCCTGGGAAGGACCCCTCAGGGCCCAGAGTGCAGCAGTGCTCCTGCAGTCCAAGTGGGGACCCACAGGGGC CTAGAGTATAACCCGGGGAAGATTCTTCCAGGATCAGACTATGGGTTGGGAAATCCTCCAGCCCTTGACCCCAAGCTCCCACATTTACCC CTGCCCCCGGCCCCACCCACACTCTCAGACTTGGGGCAGCCACGGAAGTCACCCCTGACAGGCACTGATAAGAAGTACCCGCTGATGAAG CAGCGTGGGTTCTACTCCGACATCCTCAGCCCTGGAACCTTAGATCAACTTGGGGAGGTATGTCGTGGCCCCCGAATGAGCCAGAACCTC CTGCGGCAGGCTGACCTTGACAAGTTCACCCCAAGAGTCGGAAGCTTTGAGGTTCCTGAAGACTTCCAGGAGCGCATGGAGCAGCAGTGC ATCGGGTCCACCACCCGGCTGCTCGCCCAGACTGACTTCCCACTGCAGGCCTACGAGCCCAAGATGCAGGTGCCTTTCCAGGTGCTGCCA GGCCAGCATCCTCGCAAGATTGAGATCGAGAGGAGGAAACAGCAGTACCTGAGCCTGGACATTGAGCAGTTGCTGTTCAGCCAGGGCATC GACTCCAACAAGCTCATGCCCAGGCACCTGGACCACCAGCACCCCCAAACCATCGAACAGGGCCATGACCCAATCTTCCCCATCTACCTC CCACTGAAGGTATTTGACAATGAGGACTTTGACTGCCGGACTCCCAGAGAGTGGATCAACATGGGCTTGGAGCCAGGGTCTCTGGACAGG AAACCTGTCCCGGGAAAAGCCCTCTTGCCCACTGATGACTTCCTGGGGCATGAGGACCCCAAGAGTCAGAAGCTGAAGTACAAATGGTGC GAGGTCGGCGTCCTGGACTACGACGAGGAGAAGAAGCTATACCTGGTACACAAGACAGACGAGAAAGGCCTGGTGCGAGATGAGATGGGG AGGCCCATCCTGAATGCAGGGGTCACCACTGAAGGAAGGCCACCCCTTCAGGTCTGTCAGTACTGGGTGCCACGGATCCAGCTTCTCTTC TGCGCTGAGGACCCTTGCATGTTCGCACAACGTGTGGTCCAGGCCAACGCCCTGCGCAAGAACACGGAAGCACTGCTGCTCTACAACTTG TATGTGGACTGCATGCCCTCTGACGGCCAGCATGTCATCAGTGAACAGAGCCTGAGCAAGATCAAGCAGTGGGCCCTGAGCACGCCTCGG ATGCGCAAAGGCCCCTCGGTTCTAGAGCACCTCAGCAGTCTTGCCAGAGAAGTGAGCCTGGACTATGAGCGCAGCATGAACAAGATCAAC TTTGACCACGTTGTCTCTTCCAAGCCCGAGACCTTCTCCTACGTCACCCTCCCCAAGAAGGAGGAGGAGCAGGTGCCTGAGCGAGGGCTG GTGAGTGTCCCCAAGTACCACTTCTGGGAGCAGAAGGAGGACTTCACTTTCGTGTCCCTGCTCACACGGCCAGAGGTCATCACGGCCCTC AGCAAGGTGAGGGCCGAGTGCAACAAGGTGACCGCCATGTCCCTGTTCCACTCGAGCCTCTCCAAGTACAGCCACCTGGAGGAATTTGAG CAGATCCAGTCACAGACCTTCTCCCAGGTGCAGATGTTCCTCAAGGACAGCTGGATCAGCTCGCTAAAGGTGGCCATGCGCAGCAGCCTG CGCGACATGAGCAAGGGCTGGTACAACCTCTACGAGACCAACTGGGAGGTGTACCTCATGTCCAAGCTGCGCAAGCTGATGGAGCTGGTG AAGTACATGCTGCAGGACACACTGCGCTTCCTGGTGCAGGACTCACTTGCCAGCTTCTCACAGTTCATCAGCGACACCTGTTGCAGCGTG CTCAACTGCACCGATGACATGGTCTGGGGTGACGACTTAATTAACAGCCCCTACAGGCCCCGGAAGAATCCCCTGTTCATCATGGACCTG GTGCTGGACAGCTCTGGGGTGCACTATAGCACCCCACTGGAGCAGTTTGAGGCATCTCTGCTGAACCTCTTCGACAAGGGCATCCTGGCC ACCCATGCCGTGCCCCAGCTGGAGAAGCTGGTGATGGAGGACATCTTCATCAGCGGTGACCCCCTGCTGGAGTCCGTGGGCCTTCATGAG CCACTGGTGGAAGAGCTACGGGCCACCATTGCCAGTGCCGTGTCCAAGGCCATGATCCCACTGCAGGCCTACGCCAAGGAGTACCGAAAG TACCTGGAGCTGAACAACAATGACATTGCCTCCTTTCTCAAAACCTACCAGACGCAGGGCCTGTTGGCCCAGGAGGTGCGGGAGGTAGTG CTCACCCACCTGCGGGAGAAGGAGATCCTGGACAGCTCGCTGCCCAGCAGCATCATCATTGGGCCTTTCTACATCAACACCGACAATGTC AAGCAGAGCCTGTCCAAGAAACGCAAGGCCCTGGCCACTTCCGTGCTGGACATCCTTGCCAAGAACCTGCATAAGGAGGTGGATAGCATC TGCGAGGAGTTCCGCAGCATCAGCCGCAAGATCTATGAGAAGCCCAACAGCATTGAGGAGCTGGCTGAGCTGCGAGAGTGGATGAAGGGC ATCCCGGAGAGGCTGGTGGGCCTGGAGGAGCGGATTGTGAAGGTCATGGATGACTACCAGGTCATGGATGAATTCCTCTACAACCTCAGC TCAGATGACTTCAATGACAAATGGATTGCCAGCAACTGGCCTTCTAAGATCCTTGGGCAGATAGAGCTGGTGCAGCAGCAGCATGTGGAG GATGAGGAGAAGTTCCGCAAAATCCAGATCATGGATCAGAACAACTTCCAAGAGAAGCTGGAAGGGCTGCAGCTGGTAGTAGCTGGCTTC TCCATCCATGTGGAGATTTCACGTGCACACGAGATCGCCAACGAGGTGCGGCGTGTCAAGAAGCAGCTGAAGGACTGCCAGCAGCTGGCC ATGCTCTACAACAACCGCGAGCGCATCTTCAGCTTGCCCATCACCAATTATGACAAGCTCTCCAGGATGGTGAAGGAGTTCCAACCCTAC CTGGACCTTTGGACCACAGCGTCTGACTGGCTGCGCTGGTCGGAGAGCTGGATGAATGACCCCCTCTCTGCCATCGATGCTGAGCAGCTG GAGAAGAACGTGGTTGAAGCCTTCAAGACCATGCACAAGTGCGTGAAGCAGTTTAAGGACATGCCAGCCTGCCAGGAAGTGGCCTTGGAC ATCCGGGCCCGCATCGAGGAGTTCAAACCATACATCCCACTGATCCAGGGGCTGCGCAACCCTGGCATGCGGATCCGGCACTGGGAGACA CTGTCCAACCAGATCAACATCAATGTCAGGCCCAAGGCCAACCTGACCTTTGCTCGCTGCCTGGAGATGAACCTGCAGGACCATATCGAG AGCATCAGCAAGGTGGCTGAGGTGGCTGGCAAGGAGTACGCCATCGAGCAGGCACTGGACAAGATGGAGAAGGAGTGGTCGACCATCCTG TTCAATGTACTGCCCTACAAGGCGACAGACACCTACATCCTGAAGAGCCCGGACGAGGCCTCACAGCTGCTGGACGACCACATCGTCATG ACCCAGAATATGTCATTTTCACCCTACAAGAAGCCCTTTGAGCAGCGCATCAACTCCTGGGAGAACAAACTGAAGCTGACCCAGGAGGTT CTGGAGGAGTGGCTGAACTGTCAGCGGTCCTGGCTCTACCTGGAGCCCATCTTTAGCTCTGAGGACATCAACCAGCAGCTGCCTGTGGAG AGCAAGCGCTACCAGACCATGGAGCGGATCTGGAAGAAGATCATGAAGAATGCCTACGAGAACCGGGAGGTGATCAATGTGTGTTCCGAC CTGAGAATGCTGGACAGCCTGCGGGACTGCAACAAGATTCTGGACCTGGTGCAGAAGGGCCTCAGCGAGTATCTGGAGACCAAGAGGAGC GCCTTCCCCAGATTCTACTTCCTGTCAGATGATGAACTACTAGAGATCTTGTCGCAGACAAAGGACCCCACGGCCGTGCAGCCACACCTG CGCAAGTGCTTCGAGAACATCGCTCGGCTGCTATTCCAGGAGGACCTGGAGATCACGCACATGTACTCAGCCGAGGGGGAGGAGGTACAG TTGTGCTTCTCCATCTACCCCTCCAGCAACGTGGAGGACTGGCTGCGGGAGGTGGAGCGCAGCATGAAGGCCAGTGTGCACGACATCATT GAGAAGGCCATCAGGGCCTACCCCACGATGCCCAGGACCCAGTGGGTTCTGAACTGGCCTGGCCAGGTGACCATCGCTGGGTGCCAGACC TACTGGACCATGGAGGTGGCAGAGGCTCTGGAGGCCGGCAACCTCAGAAGCCAACTGTTCCCCCAGCTCTGCCAGCAGCTCAGTGATCTG GTGGCCCTTGTGCGGGGGAAGCTGTCCCGCATGCAGCGGGCAGTGCTGTCAGCGCTAATCGTCATTGAGGTCCATGCCAAGGACGTGGTG AGCAAGCTAATCCAGGAGAACGTGGTCAGCGTGAATGACTTCCAGTGGATCTCACAGCTGAGGTACTACTGGACAAATAATGACCTGTAT ATCCGTGCTGTGAATGCTGAGTTCATCTATGGCTATGAGTACCTGGGCAACAGTGGGAGGCTGGTGATCACGCCCCTCACCGACAGGTGC TACCTGACACTGACCGGAGCTCTGCACCTCAAGTTTGGGGGTGCCCCAGCTGGCCCAGCTGGCACAGGCAAAACTGAGACCACCAAAGAC CTGGGTAAGGCCTTGGCCATACAGACCGTTGTGTTCAACTGCTCTGACCAGCTCGACTTCATGGCCATGGGCAAGTTCTTCAAGGGCCTG GCCAGTGCTGGGGCCTGGGCCTGCTTCGACGAGTTCAATCGCATCGACATCGAGGTGCTGTCTGTGGTGGCGCAGCAGATCACCACCATC CAGAAGGCGCAGCAGCAGCGGGTGGAACGCTTCATGTTTGAGGGTGTGGAGATCCCACTGGTGCCATCCTGCGCAGTGTTTATCACCATG AACCCGGGCTACGCTGGCCGCACGGAGCTGCCTGACAATCTGAAGGCGCTCTTCCGACCCGTGGCCATGATGGTTCCAGATTACGCCATG ATCACTGAGATCTCCCTCTATTCCTTTGGCTTTAATGAGGCCAGTGTGCTGGCTAAGAAGATCACAACCACCTTCAAGCTGTCTTCTGAG CAGCTCAGCTCCCAGGATCACTATGACTTCGGGATGAGAGCCGTGAAAACTGTGATCTCGGCTGCTGGGAACCTCAAGCGAGAAAACCCC AGCATGAATGAGGAGCTGATCTGCCTCCGGGCCATCCGTGATGTGAACGTGCCCAAGTTCCTGCAGGAGGACCTCAAGCTCTTCTCTGGC ATCGTGTCCGACCTGTTTCCCACCATCAAGGAGGAGGACACGGACTACGGCATCCTGGATGAGGCCATCCGCGAGGCCTGCAGGAACAGC AACCTCAAGGATGTGGAGGGCTTCCTGACAAAGTGCATCCAGCTCTACGAGACCACGGTGGTACGACACGGCCTCATGCTCGTCGGGCCC ACAGGCTCCGGCAAGAGTACTTGTTACAGAGTCCTGGCAGCTGCCATGACGTCACTGAAAGGGCAGCCATCCATCAGTGGTGGCATGTAC GAGGCTGTCAACTACTACGTGCTCAACCCCAAGTCCATCACGATGGGCCAGCTGTACGGGGAGTTTGACCTCCTCACCCATGAGTGGACA GACGGGATATTCTCCTCGTTCATCCGGGCGGGGGCCATCACCTCCGACACCAACAAGAAGTGGTACATGTTCGATGGGCCGGTGGATGCC ATCTGGATTGAGAACATGAACACGGTGCTGGATGACAACAAGAAGCTGTGCCTCAGCTCTGGGGAGATCATCAAGCTCACAGAGGCAATG ACCATGATGTTCGAGGTGCAAGACCTGGCGGTGGCTTCACCAGCTACAGTCTCCCGCTGTGGCATGGTGTACCTGGAGCCCAGCATCCTG GGGCTCATGCCCTTCATCGAGTGCTGGCTGAGGAAGCTGCCTCCCTTGCTGAAGCCCTATGAGGAGCATTTCAAGGCCCTCTTTGTCAGC TTCCTGGAGGAATCCATCTCCTTCGTTCGGTCCTCAGTGAAGGAGGTGATCGCCTCAACCAACTGCAACCTGACCATGAGCCTCCTCAAG CTGCTGGACTGCTTCTTCAAGCCCTTTCTGCCTAGAGAGGGCCTCAAGAAAATACCCTCTGAAAAGCTGAGTCGCATCGTAGAGTTGATC GAGCCCTGGTTCATCTTCTCCCTGATCTGGAGCGTGGGTGCCACTGGGGACAGCAGTGGCCGCACCAGTTTCAGCCACTGGCTAAGGCTC AAGATGGAGAACGAACAGCTGACTCTGCTTTTCCCAGAAGAGGGGCTGGTGTTCGATTACAGGCTGGAGGACGCGGGCATCAGTGGCACC AACGACAGTGAGGATGAAGAGGAGGAATACAAGCAGGTTGCCTGGGTGAAGTGGATGGACTCCTCAGCTCCATTCACCATGGTACCAGAC ACCAACTACTGCAACATCATTGTGCCCACCATGGACACCGTGCAGATGTCCCATTTACTGGACATGCTGCTCACCAACAAGAAGCCCGTG CTGTGCATTGGGCCAACAGGCACGGGGAAGACGCTCACCATCTCTGACAAGCTCCTCAAGAACCTGGCACTGGATTACATCAGCCACTTC CTCACCTTCTCAGCCCGCACTTCAGCCAACCAGACCCAGGACTTCATTGACAGCAAGCTGGACAAGAGGCGGAAGGGTGTGTTTGGACCA CCTCTGGGGCGCAACTTTATCTTCTTCATCGATGACCTGAACATGCCGGCCCTGGAGACCTACGGTGCACAGCCACCCATCGAGCTGTTG CGCCAGTGGATGGACCACGGCGGCTGGTACGACCGCAAGATCATTGGTGCCTTCAAGAACCTAGTGGACATCAACTTTGTCTGTGCCATG GGCCCCCCGGGTGGAGGCAGGAACACCGTCACCCCGCGGCTGATGCGTCACTTCAACTACCTGTCTTTCGCTGAGATGGACGAGGTCAGC AAGAAACGCATCTTCTCCACCATCCTGGGCAACTGGTTGGATGGACTCCTTGGAGAAAAAAGCTACCGGGAGCGTGTGCCTGGGGCCCCC CACATTGCCCACTTCACGGAGCCCCTTGTGGAAGCCACCATCATGGTGTATGCAACCATCACCTCCCAGCTGCTGCCCACTCCAGCCAAG TCCCACTACACCTTCAACCTGAGGGACCTCTCCAAGGTCTTCCAAGGCATGCTCATGGCTGACCCGGCCAAGGTCGAGGACCAAGTGCAG CTGCTGCGACTGTGGTATCACGAGAACTGCCGCGTGTTCCGGGACCGACTGGTGAATGAGGAGGACCGCAGCTGGTTCGACCAGCTCCTC AAGCGCTGCATGGAGCAGTGGGAGGTGACCTTCAACAAGGTCTGCCCCTTCCAGCCCATTCTTTACGGGGACTTCATGTCACCAGGCTCC GATGTCAAGTCCTACGAGCTCATCACCAGTGAGAGTAAGATGATGCAGGTGATAGAGGAGTACATAGAGGACTACAACCAGATCAACACG GCCAAGCTGAAGCTGGTCCTCTTCATGGACGCCATGAGCCACATCTGTCGCATCAGCCGCACCCTACGCCAGGCGCTGGGCAATGCACTC CTGCTGGGCGTGGGTGGCAGCGGCCGCAGCTCCCTCACAAGGCTCGCCTCGCACATGGCCGAGTACGAGTGCTTCCAGATTGAACTATCC AAGAACTACGGCATGTCCGAGTGGCGAGATGATGTGAAGAAGGTCCTGCTCAAGGCGGGCCTACAGAACCTACCCATCACCTTCCTCTTC TCAGACACCCAGATCAAGAACGAATCCTTCCTGGAAGATATCAACAACGTCCTAAACTCTGGTGACATTCCCAATCTGTATACTGCGGAC GAGCAGGACCAGATCGTCAGCACCATGCGGCCCTATATCCAGGAGCAGGGCCTACAGCCCACCAAGGCCAACCTCATGGCTGCTTACACA GGGCGTGTGCGCAGCAACATCCACATGGTGCTGTGCATGAGCCCCATCGGAGAGGTCTTCCGAGCTCGTCTGAGGCAGTTTCCCTCCCTG GTCAACTGCTGTACCATCGACTGGTTTAACGAGTGGCCGGCAGAAGCCCTGAAGTCTGTGGCCACCGTGTTCCTCAATGAGATCCCAGAA CTGGAATCCTCCCAGGAAGAAATCCAAGGACTGGCGGGATTAAGGACACTGCATGACATTGGGCCAGAAATCCGGCGTGCTATATCGTGT GATTTGCAAGATGACGAGCCTGAGGAAACAAAACGAGAAGAAGAAGATGATGTGTTCAAAAGAAATGGTGCCCTGCTTGGAAACCATGTC AATCATGTTAATAGTGATAGGAGAGATTCCCTTCAGCAGACCAATACCACCCACCGTCCCCTGCATGTCCAAAGGCCTTCAATTCCACCT GCAAGTGATACTGAGAAACCGCTGTTTCCTCCAGCAGGAAATTCGGTGTGTCATAACCATCATAACCATAATTCCATAGGAAAGCAAGTT CCCACCTCAACAAATGCCAATCTCAATAATGCCAATATGTCCAAAGCTGCCCATGGAAAGCGGCCCAGCATTGGGAACCTTGAGCATGTG TCTGAAAATGGGCATCATTCTTCCCACAAGCATGACCGGGAGCCTCAGAGAAGGTCCAGTGTGAAAAGGTCCGACTCAGGAGATGAACAG CTCCCAACTATTTGCCGGGAAGACCCAGAGATACATGGCTATTTCAGGGACCCCCACTGCTTGGGGGAGCAGGAGTATTTCAGTAGTGAG GAATGCTACGAGGATGACAGCTCGCCCACCTGGAGCAGGCAAAACTATGGCTACTACAGCAGATACCCAGGCAGAAACATCGACTCTGAG AGGCCCCGAGGCTACCATCATCCCCAAGGATTCTTGGAGGACGATGACTCGCCCGTTTGCTATGATTCACGGAGATCTCCAAGGAGACGC CTACTACCTCCCACCCCAGCATCCCACCGGAGATCCTCCTTCAACTTTGAGTGCCTGCGCCGGCAGAGCAGCCAGGAAGAGGTCCCGTCG TCTCCCATCTTCCCCCATCGCACGGCCCTGCCTCTGCATCTAATGCAGCAACAGATCATGGCAGTTGCCGGCCTAGATTCAAGTAAAGCC CAGAAGTACTCACCGAGTCACTCGACCCGGTCGTGGGCCACCCCTCCAGCAACCCCTCCCTACCGGGACTGGACACCGTGCTACACCCCC CTGATCCAAGTGGAGCAGTCAGAGGCCCTGGACCAGGTGAACGGCAGCCTGCCGTCCCTGCACCGCAGCTCCTGGTACACAGACGAGCCC GACATCTCCTACCGGACTTTCACACCAGCCAGCCTGACTGTCCCCAGCAGCTTCCGGAACAAAAACAGCGACAAGCAGAGGAGTGCGGAC AGCTTGGTGGAGGCAGTCCTGATATCCGAAGGCTTGGGACGCTATGCAAGGGACCCAAAATTTGTGTCAGCAACAAAACACGAAATCGCT GATGCCTGTGACCTCACCATCGACGAGATGGAGAGTGCAGCCAGCACCCTGCTTAATGGGAACGTGCGTCCCCGAGCCAACGGGGATGTG GGCCCCCTCTCACACCGGCAGGACTATGAGCTACAGGACTTTGGTCCTGGCTACAGCGACGAAGAGCCAGACCCTGGGAGGGATGAGGAG >23352_23352_3_DNAH1-CACNA1D_DNAH1_chr3_52418047_ENST00000420323_CACNA1D_chr3_53834276_ENST00000422281_length(amino acids)=3310AA_BP=1 MDSGKVAPPSGLEGSFGWGISLRSSMEQPNSKGYSLGRTPQGPECSSAPAVQVGTHRGLEYNPGKILPGSDYGLGNPPALDPKLPHLPLP PAPPTLSDLGQPRKSPLTGTDKKYPLMKQRGFYSDILSPGTLDQLGEVCRGPRMSQNLLRQADLDKFTPRVGSFEVPEDFQERMEQQCIG STTRLLAQTDFPLQAYEPKMQVPFQVLPGQHPRKIEIERRKQQYLSLDIEQLLFSQGIDSNKLMPRHLDHQHPQTIEQGHDPIFPIYLPL KVFDNEDFDCRTPREWINMGLEPGSLDRKPVPGKALLPTDDFLGHEDPKSQKLKYKWCEVGVLDYDEEKKLYLVHKTDEKGLVRDEMGRP ILNAGVTTEGRPPLQVCQYWVPRIQLLFCAEDPCMFAQRVVQANALRKNTEALLLYNLYVDCMPSDGQHVISEQSLSKIKQWALSTPRMR KGPSVLEHLSSLAREVSLDYERSMNKINFDHVVSSKPETFSYVTLPKKEEEQVPERGLVSVPKYHFWEQKEDFTFVSLLTRPEVITALSK VRAECNKVTAMSLFHSSLSKYSHLEEFEQIQSQTFSQVQMFLKDSWISSLKVAMRSSLRDMSKGWYNLYETNWEVYLMSKLRKLMELVKY MLQDTLRFLVQDSLASFSQFISDTCCSVLNCTDDMVWGDDLINSPYRPRKNPLFIMDLVLDSSGVHYSTPLEQFEASLLNLFDKGILATH AVPQLEKLVMEDIFISGDPLLESVGLHEPLVEELRATIASAVSKAMIPLQAYAKEYRKYLELNNNDIASFLKTYQTQGLLAQEVREVVLT HLREKEILDSSLPSSIIIGPFYINTDNVKQSLSKKRKALATSVLDILAKNLHKEVDSICEEFRSISRKIYEKPNSIEELAELREWMKGIP ERLVGLEERIVKVMDDYQVMDEFLYNLSSDDFNDKWIASNWPSKILGQIELVQQQHVEDEEKFRKIQIMDQNNFQEKLEGLQLVVAGFSI HVEISRAHEIANEVRRVKKQLKDCQQLAMLYNNRERIFSLPITNYDKLSRMVKEFQPYLDLWTTASDWLRWSESWMNDPLSAIDAEQLEK NVVEAFKTMHKCVKQFKDMPACQEVALDIRARIEEFKPYIPLIQGLRNPGMRIRHWETLSNQININVRPKANLTFARCLEMNLQDHIESI SKVAEVAGKEYAIEQALDKMEKEWSTILFNVLPYKATDTYILKSPDEASQLLDDHIVMTQNMSFSPYKKPFEQRINSWENKLKLTQEVLE EWLNCQRSWLYLEPIFSSEDINQQLPVESKRYQTMERIWKKIMKNAYENREVINVCSDLRMLDSLRDCNKILDLVQKGLSEYLETKRSAF PRFYFLSDDELLEILSQTKDPTAVQPHLRKCFENIARLLFQEDLEITHMYSAEGEEVQLCFSIYPSSNVEDWLREVERSMKASVHDIIEK AIRAYPTMPRTQWVLNWPGQVTIAGCQTYWTMEVAEALEAGNLRSQLFPQLCQQLSDLVALVRGKLSRMQRAVLSALIVIEVHAKDVVSK LIQENVVSVNDFQWISQLRYYWTNNDLYIRAVNAEFIYGYEYLGNSGRLVITPLTDRCYLTLTGALHLKFGGAPAGPAGTGKTETTKDLG KALAIQTVVFNCSDQLDFMAMGKFFKGLASAGAWACFDEFNRIDIEVLSVVAQQITTIQKAQQQRVERFMFEGVEIPLVPSCAVFITMNP GYAGRTELPDNLKALFRPVAMMVPDYAMITEISLYSFGFNEASVLAKKITTTFKLSSEQLSSQDHYDFGMRAVKTVISAAGNLKRENPSM NEELICLRAIRDVNVPKFLQEDLKLFSGIVSDLFPTIKEEDTDYGILDEAIREACRNSNLKDVEGFLTKCIQLYETTVVRHGLMLVGPTG SGKSTCYRVLAAAMTSLKGQPSISGGMYEAVNYYVLNPKSITMGQLYGEFDLLTHEWTDGIFSSFIRAGAITSDTNKKWYMFDGPVDAIW IENMNTVLDDNKKLCLSSGEIIKLTEAMTMMFEVQDLAVASPATVSRCGMVYLEPSILGLMPFIECWLRKLPPLLKPYEEHFKALFVSFL EESISFVRSSVKEVIASTNCNLTMSLLKLLDCFFKPFLPREGLKKIPSEKLSRIVELIEPWFIFSLIWSVGATGDSSGRTSFSHWLRLKM ENEQLTLLFPEEGLVFDYRLEDAGISGTNDSEDEEEEYKQVAWVKWMDSSAPFTMVPDTNYCNIIVPTMDTVQMSHLLDMLLTNKKPVLC IGPTGTGKTLTISDKLLKNLALDYISHFLTFSARTSANQTQDFIDSKLDKRRKGVFGPPLGRNFIFFIDDLNMPALETYGAQPPIELLRQ WMDHGGWYDRKIIGAFKNLVDINFVCAMGPPGGGRNTVTPRLMRHFNYLSFAEMDEVSKKRIFSTILGNWLDGLLGEKSYRERVPGAPHI AHFTEPLVEATIMVYATITSQLLPTPAKSHYTFNLRDLSKVFQGMLMADPAKVEDQVQLLRLWYHENCRVFRDRLVNEEDRSWFDQLLKR CMEQWEVTFNKVCPFQPILYGDFMSPGSDVKSYELITSESKMMQVIEEYIEDYNQINTAKLKLVLFMDAMSHICRISRTLRQALGNALLL GVGGSGRSSLTRLASHMAEYECFQIELSKNYGMSEWRDDVKKVLLKAGLQNLPITFLFSDTQIKNESFLEDINNVLNSGDIPNLYTADEQ DQIVSTMRPYIQEQGLQPTKANLMAAYTGRVRSNIHMVLCMSPIGEVFRARLRQFPSLVNCCTIDWFNEWPAEALKSVATVFLNEIPELE SSQEEIQGLAGLRTLHDIGPEIRRAISCDLQDDEPEETKREEEDDVFKRNGALLGNHVNHVNSDRRDSLQQTNTTHRPLHVQRPSIPPAS DTEKPLFPPAGNSVCHNHHNHNSIGKQVPTSTNANLNNANMSKAAHGKRPSIGNLEHVSENGHHSSHKHDREPQRRSSVKRSDSGDEQLP TICREDPEIHGYFRDPHCLGEQEYFSSEECYEDDSSPTWSRQNYGYYSRYPGRNIDSERPRGYHHPQGFLEDDDSPVCYDSRRSPRRRLL PPTPASHRRSSFNFECLRRQSSQEEVPSSPIFPHRTALPLHLMQQQIMAVAGLDSSKAQKYSPSHSTRSWATPPATPPYRDWTPCYTPLI QVEQSEALDQVNGSLPSLHRSSWYTDEPDISYRTFTPASLTVPSSFRNKNSDKQRSADSLVEAVLISEGLGRYARDPKFVSATKHEIADA -------------------------------------------------------------- |
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Fusion Gene PPI Analysis for DNAH1-CACNA1D |
| Go to ChiPPI (Chimeric Protein-Protein interactions) to see the chimeric PPI interaction in |
| Protein-protein interactors with each fusion partner protein in wild-type (BIOGRID-3.4.160) |
| Hgene | Hgene's interactors | Tgene | Tgene's interactors |
| - Retained PPIs in in-frame fusion. |
| Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Still interaction with |
| - Lost PPIs in in-frame fusion. |
| Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Interaction lost with |
| - Retained PPIs, but lost function due to frame-shift fusion. |
| Partner | Gene | Hbp | Tbp | ENST | Strand | BPexon | TotalExon | Protein feature loci | *BPloci | TotalLen | Interaction lost with |
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Related Drugs for DNAH1-CACNA1D |
| Drugs targeting genes involved in this fusion gene. (DrugBank Version 5.1.8 2021-05-08) |
| Partner | Gene | UniProtAcc | DrugBank ID | Drug name | Drug activity | Drug type | Drug status |
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Related Diseases for DNAH1-CACNA1D |
| Diseases associated with fusion partners. (DisGeNet 4.0) |
| Partner | Gene | Disease ID | Disease name | # pubmeds | Source |
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