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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:ATP2B1-LIN7A (FusionGDB2 ID:7856) |
Fusion Gene Summary for ATP2B1-LIN7A |
 Fusion gene summary |
| Fusion gene information | Fusion gene name: ATP2B1-LIN7A | Fusion gene ID: 7856 | Hgene | Tgene | Gene symbol | ATP2B1 | LIN7A | Gene ID | 490 | 8825 |
| Gene name | ATPase plasma membrane Ca2+ transporting 1 | lin-7 homolog A, crumbs cell polarity complex component | |
| Synonyms | PMCA1|PMCA1kb | LIN-7A|LIN7|MALS-1|MALS1|TIP-33|VELI1 | |
| Cytomap | 12q21.33 | 12q21.31 | |
| Type of gene | protein-coding | protein-coding | |
| Description | plasma membrane calcium-transporting ATPase 1ATPase, Ca++ transporting, plasma membrane 1plasma membrane calcium pump | protein lin-7 homolog Amammalian lin-seven protein 1tax interaction protein 33vertebrate LIN7 homolog 1 | |
| Modification date | 20200322 | 20200313 | |
| UniProtAcc | P20020 | O14910 | |
| Ensembl transtripts involved in fusion gene | ENST00000261173, ENST00000348959, ENST00000359142, ENST00000393164, ENST00000428670, | ENST00000552864, | |
| Fusion gene scores | * DoF score | 15 X 12 X 6=1080 | 12 X 5 X 4=240 |
| # samples | 13 | 7 | |
| ** MAII score | log2(13/1080*10)=-3.05444778402238 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | log2(7/240*10)=-1.77760757866355 possibly effective Gene in Pan-Cancer Fusion Genes (peGinPCFGs). DoF>8 and MAII<0 | |
| Context | PubMed: ATP2B1 [Title/Abstract] AND LIN7A [Title/Abstract] AND fusion [Title/Abstract] | ||
| Most frequent breakpoint | ATP2B1(90003714)-LIN7A(81283148), # samples:1 | ||
| Anticipated loss of major functional domain due to fusion event. | |||
| * DoF score (Degree of Frequency) = # partners X # break points X # cancer types ** MAII score (Major Active Isofusion Index) = log2(# samples/DoF score*10) |
| 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 | ATP2B1 | GO:0051480 | regulation of cytosolic calcium ion concentration | 18029012 |
| Hgene | ATP2B1 | GO:1990034 | calcium ion export across plasma membrane | 18029012 |
| Fusion gene breakpoints across ATP2B1 (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 LIN7A (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 | SARC | TCGA-3B-A9HO-01A | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
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Fusion Gene ORF analysis for ATP2B1-LIN7A |
| 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 |
| In-frame | ENST00000261173 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
| In-frame | ENST00000348959 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
| In-frame | ENST00000359142 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
| In-frame | ENST00000393164 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
| In-frame | ENST00000428670 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - |
| 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) |
| ENST00000348959 | ATP2B1 | chr12 | 90003714 | - | ENST00000552864 | LIN7A | chr12 | 81283148 | - | 8450 | 2623 | 181 | 2769 | 862 |
| ENST00000261173 | ATP2B1 | chr12 | 90003714 | - | ENST00000552864 | LIN7A | chr12 | 81283148 | - | 8450 | 2623 | 181 | 2769 | 862 |
| ENST00000359142 | ATP2B1 | chr12 | 90003714 | - | ENST00000552864 | LIN7A | chr12 | 81283148 | - | 8494 | 2667 | 225 | 2813 | 862 |
| ENST00000428670 | ATP2B1 | chr12 | 90003714 | - | ENST00000552864 | LIN7A | chr12 | 81283148 | - | 8726 | 2899 | 457 | 3045 | 862 |
| ENST00000393164 | ATP2B1 | chr12 | 90003714 | - | ENST00000552864 | LIN7A | chr12 | 81283148 | - | 7591 | 1764 | 93 | 1910 | 605 |
| 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 |
| ENST00000348959 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - | 0.000383745 | 0.99961627 |
| ENST00000261173 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - | 0.000383745 | 0.99961627 |
| ENST00000359142 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - | 0.000379904 | 0.9996201 |
| ENST00000428670 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - | 0.00039961 | 0.99960035 |
| ENST00000393164 | ENST00000552864 | ATP2B1 | chr12 | 90003714 | - | LIN7A | chr12 | 81283148 | - | 0.00011932 | 0.9998807 |
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Fusion Genomic Features for ATP2B1-LIN7A |
| 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 ATP2B1-LIN7A |
| Four levels of functional features of fusion genes Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr12:90003714/chr12:81283148) - 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 |
| ATP2B1 | LIN7A |
| FUNCTION: Catalyzes the hydrolysis of ATP coupled with the transport of calcium from the cytoplasm to the extracellular space thereby maintaining intracellular calcium homeostasis. Plays a role in blood pressure regulation through regulation of intracellular calcium concentration and nitric oxide production leading to regulation of vascular smooth muscle cells vasoconstriction. Positively regulates bone mineralization through absorption of calcium from the intestine. Plays dual roles in osteoclast differentiation and survival by regulating RANKL-induced calcium oscillations in preosteoclasts and mediating calcium extrusion in mature osteoclasts (By similarity). Regulates insulin sensitivity through calcium/calmodulin signaling pathway by regulating AKT1 activation and NOS3 activation in endothelial cells (PubMed:29104511). {ECO:0000250|UniProtKB:G5E829, ECO:0000269|PubMed:29104511}. | FUNCTION: Plays a role in establishing and maintaining the asymmetric distribution of channels and receptors at the plasma membrane of polarized cells. Forms membrane-associated multiprotein complexes that may regulate delivery and recycling of proteins to the correct membrane domains. The tripartite complex composed of LIN7 (LIN7A, LIN7B or LIN7C), CASK and APBA1 associates with the motor protein KIF17 to transport vesicles containing N-methyl-D-aspartate (NMDA) receptor subunit NR2B along microtubules (By similarity). This complex may have the potential to couple synaptic vesicle exocytosis to cell adhesion in brain. Ensures the proper localization of GRIN2B (subunit 2B of the NMDA receptor) to neuronal postsynaptic density and may function in localizing synaptic vesicles at synapses where it is recruited by beta-catenin and cadherin. Required to localize Kir2 channels, GABA transporter (SLC6A12) and EGFR/ERBB1, ERBB2, ERBB3 and ERBB4 to the basolateral membrane of epithelial cells. {ECO:0000250|UniProtKB:Q8JZS0, ECO:0000269|PubMed:12967566}. |
| 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 | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 296_299 | 814 | 1221.0 | Compositional bias | Note=Poly-Glu |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 296_299 | 814 | 1185.0 | Compositional bias | Note=Poly-Glu |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 296_299 | 814 | 1177.0 | Compositional bias | Note=Poly-Glu |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 296_299 | 814 | 1221.0 | Compositional bias | Note=Poly-Glu |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 127_154 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 176_366 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 2_105 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 387_418 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 127_154 | 814 | 1185.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 176_366 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 2_105 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 387_418 | 814 | 1185.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 127_154 | 814 | 1177.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 176_366 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 2_105 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 387_418 | 814 | 1177.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 127_154 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 176_366 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 2_105 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 387_418 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 106_126 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 155_175 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 367_386 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 419_439 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 106_126 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 155_175 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 367_386 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 419_439 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 106_126 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 155_175 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 367_386 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 419_439 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 106_126 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 155_175 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 367_386 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 419_439 | 814 | 1221.0 | Transmembrane | Helical |
| Tgene | LIN7A | chr12:90003714 | chr12:81283148 | ENST00000552864 | 0 | 6 | 210_213 | 27 | 1908.0 | Compositional bias | Note=Poly-Gln | |
| Tgene | LIN7A | chr12:90003714 | chr12:81283148 | ENST00000552864 | 0 | 6 | 217_229 | 27 | 1908.0 | Compositional bias | Note=Poly-Gln | |
| Tgene | LIN7A | chr12:90003714 | chr12:81283148 | ENST00000552864 | 0 | 6 | 108_190 | 27 | 1908.0 | Domain | PDZ | |
| Tgene | LIN7A | chr12:90003714 | chr12:81283148 | ENST00000552864 | 0 | 6 | 25_80 | 27 | 1908.0 | Domain | L27 |
| - 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 | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1100_1117 | 814 | 1221.0 | Region | Calmodulin-binding subdomain A |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1118_1220 | 814 | 1221.0 | Region | Required for basolateral membrane targeting |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1100_1117 | 814 | 1185.0 | Region | Calmodulin-binding subdomain A |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1118_1220 | 814 | 1185.0 | Region | Required for basolateral membrane targeting |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1100_1117 | 814 | 1177.0 | Region | Calmodulin-binding subdomain A |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1118_1220 | 814 | 1177.0 | Region | Required for basolateral membrane targeting |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1100_1117 | 814 | 1221.0 | Region | Calmodulin-binding subdomain A |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1118_1220 | 814 | 1221.0 | Region | Required for basolateral membrane targeting |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1028_1039 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1061_1220 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 440_855 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 877_882 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 904_927 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 949_971 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 992_1005 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1028_1039 | 814 | 1185.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1061_1220 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 440_855 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 877_882 | 814 | 1185.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 904_927 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 949_971 | 814 | 1185.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 992_1005 | 814 | 1185.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1028_1039 | 814 | 1177.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1061_1220 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 440_855 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 877_882 | 814 | 1177.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 904_927 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 949_971 | 814 | 1177.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 992_1005 | 814 | 1177.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1028_1039 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1061_1220 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 440_855 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 877_882 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 904_927 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 949_971 | 814 | 1221.0 | Topological domain | Extracellular |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 992_1005 | 814 | 1221.0 | Topological domain | Cytoplasmic |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1006_1027 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 1040_1060 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 856_876 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 883_903 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 928_948 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000261173 | - | 14 | 20 | 972_991 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1006_1027 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 1040_1060 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 856_876 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 883_903 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 928_948 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000348959 | - | 14 | 19 | 972_991 | 814 | 1185.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1006_1027 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 1040_1060 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 856_876 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 883_903 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 928_948 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000359142 | - | 14 | 21 | 972_991 | 814 | 1177.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1006_1027 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 1040_1060 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 856_876 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 883_903 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 928_948 | 814 | 1221.0 | Transmembrane | Helical |
| Hgene | ATP2B1 | chr12:90003714 | chr12:81283148 | ENST00000428670 | - | 15 | 21 | 972_991 | 814 | 1221.0 | Transmembrane | Helical |
| Tgene | LIN7A | chr12:90003714 | chr12:81283148 | ENST00000552864 | 0 | 6 | 14_28 | 27 | 1908.0 | Motif | Note=Kinase interacting site |
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Fusion Gene Sequence for ATP2B1-LIN7A |
| 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. |
| >7856_7856_1_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000261173_LIN7A_chr12_81283148_ENST00000552864_length(transcript)=8450nt_BP=2623nt GGCCAAAGGTCAAGATACTTCTCTGGGAAATGTTGCTGCTGATGCTGCTTTACAAAGTCATACAATGAGTGTTTGGTTTAAGAAAGATTT TCATACTTAAAAGATTTTCATCTTGGAAATACATCAAGTGAAAATTAAATTCTTTTGGGAAACATTTTCCTTCTGATATATTATACTTGT AATGGGCGACATGGCAAACAACTCAGTTGCTTACAGTGGTGTGAAAAACTCTTTGAAGGAAGCTAATCATGATGGAGACTTTGGAATTAC GCTCGCAGAGCTGCGGGCTCTCATGGAGCTCAGGTCCACAGATGCATTACGAAAAATACAGGAAAGCTATGGAGATGTCTATGGAATTTG CACCAAATTGAAAACATCTCCCAATGAAGGTTTAAGTGGAAACCCTGCAGATTTAGAAAGAAGAGAAGCAGTGTTTGGAAAGAATTTTAT ACCTCCTAAAAAGCCAAAAACCTTTCTTCAATTAGTATGGGAAGCATTACAAGATGTCACTTTAATTATATTAGAAATTGCAGCCATAGT ATCATTGGGCCTTTCTTTTTATCAGCCTCCAGAAGGGGATAATGCACTTTGTGGAGAAGTTTCTGTTGGGGAGGAAGAAGGTGAAGGTGA AACTGGTTGGATTGAAGGAGCTGCAATCCTCTTGTCTGTAGTGTGTGTGGTGTTAGTAACAGCTTTCAATGACTGGAGTAAGGAAAAACA GTTTAGAGGTTTGCAGAGCCGAATTGAACAAGAACAGAAGTTCACTGTCATCAGGGGTGGTCAGGTCATTCAGATACCTGTAGCTGACAT TACTGTTGGAGATATTGCTCAAGTGAAATATGGTGATCTTCTTCCAGCTGACGGCATACTTATTCAAGGCAACGATCTTAAAATTGATGA AAGCTCATTGACTGGTGAATCAGATCATGTTAAAAAGTCTTTAGATAAGGATCCCTTACTTCTATCAGGTACTCATGTAATGGAAGGCTC TGGAAGAATGGTAGTTACAGCTGTAGGTGTAAATTCTCAAACTGGAATTATCTTTACCTTACTTGGAGCTGGAGGTGAAGAGGAAGAGAA GAAAGATGAGAAGAAAAAGGAAAAGAAAAATAAGAAACAAGATGGAGCTATTGAGAATCGCAACAAAGCAAAAGCCCAGGATGGTGCAGC CATGGAAATGCAGCCATTGAAGAGTGAAGAAGGTGGAGATGGTGATGAAAAAGATAAAAAGAAAGCAAATTTGCCAAAAAAGGAAAAATC TGTTTTACAAGGGAAACTTACAAAACTGGCTGTTCAGATTGGCAAAGCAGGTCTGTTGATGTCTGCCATCACAGTTATCATTCTAGTATT ATATTTTGTCATTGACACCTTCTGGGTTCAGAAAAGACCATGGCTTGCTGAGTGCACACCAATTTATATACAATACTTTGTGAAGTTCTT CATTATTGGAGTTACAGTTTTAGTGGTCGCAGTGCCAGAAGGTCTTCCACTTGCAGTCACGATCTCACTGGCTTATTCAGTCAAAAAAAT GATGAAAGATAATAACTTAGTAAGGCATCTGGATGCTTGTGAAACCATGGGAAATGCTACAGCTATTTGTTCAGATAAAACAGGAACTTT GACAATGAACAGAATGACAGTCGTTCAAGCTTACATAAATGAAAAACATTATAAAAAGGTTCCTGAACCAGAAGCTATTCCACCAAATAT TTTGTCCTATCTTGTAACAGGAATTTCTGTGAATTGTGCTTATACATCAAAAATATTGCCACCAGAGAAAGAGGGTGGATTACCTCGTCA CGTTGGTAATAAAACTGAATGTGCCTTGTTGGGACTTCTTTTGGATTTAAAACGGGATTATCAGGATGTTAGAAATGAAATACCAGAAGA AGCACTGTACAAAGTCTACACCTTCAATTCTGTTAGGAAGTCCATGAGTACTGTCCTGAAAAATTCAGATGGAAGTTATCGAATATTCAG CAAGGGTGCATCTGAGATAATTCTGAAAAAGTGTTTCAAAATCTTGAGTGCTAATGGTGAGGCAAAAGTATTCAGACCAAGGGACCGTGA TGATATTGTAAAAACTGTGATTGAACCGATGGCATCAGAAGGCTTGAGAACCATATGTCTTGCATTCAGAGATTTTCCAGCAGGAGAACC AGAACCAGAGTGGGATAATGAAAATGATATTGTCACCGGCCTTACATGCATTGCTGTTGTGGGGATTGAAGATCCTGTGAGACCTGAGGT GCCAGATGCAATTAAAAAGTGTCAGAGGGCTGGAATTACTGTGCGGATGGTCACTGGTGATAATATTAATACTGCTCGGGCCATTGCTAC CAAATGTGGTATTTTACATCCTGGGGAAGATTTTCTGTGCCTAGAAGGTAAAGATTTTAACAGAAGAATACGAAATGAAAAAGGAGAGAT TGAGCAAGAGAGGATAGACAAGATTTGGCCAAAACTTCGAGTACTTGCAAGATCATCTCCTACTGATAAGCATACACTGGTTAAAGGTAT AATTGACAGCACTGTCTCAGACCAACGCCAGGTTGTAGCTGTAACTGGTGATGGTACAAATGATGGCCCAGCACTAAAGAAAGCAGATGT TGGATTTGCAATGATGTTGCAAGAGCAATTGAATTACTGGAAAAACTACAGGAATCTGGAGAAGTACCAGTGCACAAGCTACAATCCCTC AAAAAAGTGCTTCAGAGTGAGTTTTGTACAGCTATTCGAGAGGTGTATCAATATATGCATGAAACGATAACTGTTAATGGCTGTCCCGAA TTCCGTGCGAGGGCAACAGCAAAGGCAACAGTTGCAGCTTTTGCAGCTAGTGAAGGCCACTCCCACCCTCGAGTAGTTGAACTGCCAAAG ACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAGGAGCAAAATTCCCCCATTTATATCTCTCGCATAATTCCTGGAGGGGTGGCT GAAAGACACGGAGGCCTCAAAAGAGGAGACCAGCTGCTATCAGTGAACGGAGTGAGTGTGGAAGGAGAACACCATGAGAAAGCTGTGGAA CTACTCAAGGCTGCTAAAGACAGCGTCAAGCTGGTGGTGCGATACACCCCAAAAGTTCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTA CGAACAGCCAGGCGTCGGCAGCAGCAGCAATTGCTAATTCAGCAGCAGCAACAGCAGCAGCAGCAACAAACACAACAAAACCACATGTCA TAGGCCCTTGAGGGAAAGCTACTTGATCAAACATCCGATAGTCACAAATTTGAAACCGTGCTTCAGAATCCCAGCACATAGTAAAAGACA ACACTGATAATTATACCTGTCAAGAAGCTGTGAACACATGGTGTATAAATTCTTTACCAAGGCAACTCAACACCTTCTTTCTCTGGGCTT GAACCGCCACTGCTCACGTGGGCTTTACATACATTGACCTTCCATTCACTGCAGTGGGAATTCTCAGTGTGCAGAGGGAGAGGTTTTCTA GTCTGCAAACTGAAACAGTGTAAGAAGAATAAAGTCTATGACTTTTAAATAAATCACCAGGGCCAAGATTGAGTGAATCTTGGGTCCATA GCTTTTCCAGATATTAGCAAACCCCTCATTAGGCTATAATTCAAACTGCATCAGTTCAAAGTGAAACCTACACATTGCTCCTTACCCTCA CCTGCTCCACAATCCATAGTGCTGAGTTGTCTGAATTGGAATTCCAGTTAATTGCAAGTTCAACCTGTTTTCCTCTTGAAAATCGCAAGG TATCATACTATATTTATATTTTCTTCAGGTTCTAGAAGCAATCGGCTTTTTCTTTTGTTTCCATGAATTTTATTATGCATTAATAGAATG GACCAATTTTAGCTCAACTTTTAGTTTGTTAGAAGCAAGTGTAGGAACTCTAGCACTGTAGTTTTTAATTATTGCTTGTATCTATTATTA TTAATTCCAACAGAGTATAATGTATATTTATTCTATAAAATATATATTATCAGAGTGCATTTGTTACAACTTAGGTTCTTTTCTTACCAA GTATTAAGAATCTAGTAAGAGAATACTAGCAAAGGACCTAGCCCTGTGAACAGATTCTCGTATGTTATATACATAAACCCACTCTCAATA TTTTTTGAGTTTTATACTTTTTGATTGATAAACACTGAAGAAATCTAAACTCTACTCACACTGATGTGCTGTCATAGAAGCCTATTTCAT ATTTTAAAGCTTAGCAAAACTAAATTATATGTGCATATATATTCAAATATTTGTGTCACACAAAGTTTAGGTCAATTTCCCCAAATATAA ACCAGATATTTTTGGCACTCTCAGATAAACAAGTATTATTTCTCTTATAATTGGGCAGGTGGAAACCAGTGATATCAATATTGTGAATGG CAGATGCTGCTTCCTCTAGAAAAATAAAATAAAATCACCAACTTTAATATATTCCCATAGGTAAATAGACAATGAGATATCATTTTTCAG AAAATATCATTCACTGGAAAATAATCTGTTATAACTACATTTACAGGTCATAATTTTTGGTTTATGGTAAATCTAGGCACCTAAGTCTGA TTTTACTTTATGAAATAAATAGGAAGCAATAATTGTTTGGGCATTTGAATACCTTAAGCACATAAATGAACCTAAGAAAAGAATAATTGC TTAGTTGAAGTATTCAAAATAGATCAGTAAACCACAGGCAAATATTTGAATGTTCCCTTTTCTCAAATACAGAAATTGATTCCCCAAGAT ACAATACAATTTGACACTTCAGATAATCCCCCAAAATAGAAATGTATGAAGCTCAGTTTAGACTGTCTTCTTGAAAATAAAACAAAACCA ATCAAAACTACCCAGCACATTTTATTATGCCCTGTTGGGTGATAGTATTGTCAATACCAGGTTTTCCCTGCTCTTCACAATGCATCCCTC ACCAGAGGAAAAACAGCAAGAAAACTAGGACATTTGCTAATTTCAACAATACACCCCTGTGATAACAGATTCCCATCCTTGAATACATAT CATTTTTTACTAGAGAGAACGGGGGTGGTGAGGTGGGGGCAGTTAGGACCCTGTATGTTATGTAAAATAGATTTACAAAAAGGACAAGCA TGATAAAAGGGAATGAATGGAGACGATGTATTATTCAGTTTGAAAGAGATAGTTCACATTTTTATAAGAAAAATTTAATAAAACATATAT TTTAGTTATCATTTAACAAAGATATATTAAAGCTATTCAGGCAATGCCACAGGATTCTCATGAAGGGAAATCACTGAACCCTTGTCATGA GAAAATGGTCATTTCAACACATTTCAATACATTGTATAAATTTGGAGCTTAAGGTGAGTGAGTATGTTTTCACTTAGTCATAAATGTTTG GTCAAAATTAAAGTTATCATATGGTTTCACATCAATACAAATATTGTCACAGTGTTACAGAAACAACTATCAAATGGTAAGATAGTTTAC ATTTGTGTTTTCTAGAAACCTTTGTATTTATGCTTCATTTGGTTAATGTTAAGTGCTGATAAAGGCATACCAGATTGTTTGTCAAAGTAA AGAAGCAATCCATCACACCTAGGACATCTAAGGATGGATTATACGTCAGAGTGGTCTCATATACAAATGACCATTTTCCTTCAGTAAAAT CTTGTTGGTTGAAATGTAAGTCTTTTCCTAAAGTTTTAATCAGAGGTAGCCATCACTAAGACTTAAGCCACCTGTGGTTCTCTTAAGTTT CACTGAAGCCAGAAGAAGGAAATTACCACAACTTGTATTATACTAATTATCTTCATTATTAACGATCATATTAGAGCCACTGACATGTCC CAAATTATATTAAAATAAAAACCTGCATTGCTCTGACATGAAGCTCAATTCAATGTAATAAACAAATTAGGTATTAAACGTTATAATTTA AAAAACTTCTACGATATCACCAGAAATCCTGGTGAAATTTAATTTTTTCCCTTTTTTAGGTCAGTGGCCGGTGGGATAGATTTTTCTAAA CTTTTTCCTGCTATGATTTTGAAGGCAAATACATAGAGCACAGTTCAGTAAAAGAGTTTCCAAGCCTTTTCACTGGAGCATTTACATTTT GATTCTGTTGTCATTTGAAATAGAACATCTGCAGGGAGATAATGAGCTTAAGTTACAATTGACTTTGGAAAGAATAACAGACTTTTGTGT TTCCTCAATCATGTAGTCAATAGGGAATTCTCCAGTTATGTGAACAATCACAGTCTTTTAAGACAATACTTAGATCTAAATGCAAAATCT AGCATGCAGAGGCTTTTTAAGGATTTTAGACTGTCTCCAAAGAACTTGGCTCGAGATGGATTACACAGATTTACAAATGCAGTTTTCAAC TGTGACATCAAACTGATCTTATCTCATTTCATGTTACTCAACTGTGCCCGTAGGACCCCAAGAGGTGGAATATTTTGTCTACATTATTTT AAACATCTATAGATATGTGTGGATGTGTGAATAATGCCTAAATTTCTCATCTTTTAACTAGTTTGTTTTTATCATACAGACACAGCCTGT TCATAAGACCAGCTTTAGACAACTTAGAACTCAATGCTCTGAAGATTCAGGGAGGCCAACATAGAAAAAGATCTTCCAAAATATGGGGTG GTCCAACCCATCTCATCCCTCTCTAGCTGGAAAACTATAGAGAAAGGGCTGTGACTGCCTTGACCACTGCCTGGCACAATGTAGGCACTC GGTATTTGTTGGATGAATAAGTGGCTGAATCAGTGAATAGACAAAAAACATGGATTTTGCCTTCTGAAAATCTCACAAATTTTACCAGCT TATATTATACTGATTGTCACTATGATTTCTAAGTTTCATGGTTAGAACCATATTTTGAGTCTATATAAAAACTTTTTAGATGTATGAATT TGAAATTTCATTAATTACTTTAAAGGCTTCAAAGATTTGAGGACATTTGAACAGTGGATAAGGAACAATGTTTGGGGATACAGAGTTTTT ATGCTGAGTTGAACTCAACCTTTCTAGTTCTTTATACAAGCTTCCTGAATTATCTGGCAGGAATGATTCAAACATAAAACCCCATTTTTA AATTTTATAAAAGATATTTTCATTTTTATATAAAAAGATCATCAGGCATATTATCCCCTTTGATATTTATTAACAACCATTCTCTAAGAA ATTCATAATAATTGGAGACACCATCCCTAAATCTCTTCCTATTTTCAAAAGATCATTTATCCTTTCATATTTGATTCCTGGAATACACTA AGCTGAAGTTTAATCACATACTTACTCAGATGTTTCCATGTGTTTATTCATTTAACAAATACTTATTGTGTACCTAGTGCATGCTAGGTT CTGGAAATGCAACAGCAAACAAGACAGACACAATCCCTCTTGGAGGTTACTGTGAGAAACTCTCCAACATTTACTCTAGCAATAACTAGA GAGTTTACTGTCCATTGGGTCCTCTTCACACCTGATAGAAAAAATAAAATTCCTCACCCCATGGAAGTCATGAAATACTCCCTGCACAGA TTTGTGTGAGCTTGCTTTTCTAAAACCACTGCTCAAAAATGCTGCTTAGTTTATCTATAAACCACGGTTATACCCCAGTGAGGTAGGTAA GTAATTTATTCATAACTAACATTTATGCAGCTCTATTTTCTAGCCACTGTGCTGAGTGCTTTTATGGACTATCTCACCAAATCCCTTCAA CAACTCTATTCAGTAGGTTCCATTTTATAGATACAAAAACTGAAGCACAGATATATTATGTGACTTGTCCAAGGTCACACAGCTAGCAGG TGGAACTGGGATTTGAACCCATGCAATCTGACACAAGAGTTCATGTGTCTAATCATTATCTGTGGTTTGGGGGACACCATTACATTAAAA TGAATGAGTCACTAAGTGAGTCACTGTATATAAAATACTTGGAAATTGTAAAGTAATATACAAAAGATATTAACAAAGTATTATTCATGG TAAACAAATCACATCAGTAGCAAACACAGGGTGGGAACTCAATCTTATGTTATAGCTTACTCTTAAGAAGAATATGTGAAGCCAGGAACA TGGTTAAAGGTACAGACCAGAAAATTTCTGACATGTGATAAATATTTCAGTGACTTTTCAGATTTATTTCTTGTTAGCCGCTGTGTCTAT TTGGTGCTACAAAAACTGAAAGAAACAAAATCCCTGATGTAAGGGCTTATAATAAATACACAGTTTGGAGATGAACTAAGGATATTTTAC ATTTACGGGAAAGGATTGGACAATAGTATCATTTTCTCACCATTTGCATGTACATCATGTCTTTCCAATTGTTTTCATTATTTTTCTGAA >7856_7856_1_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000261173_LIN7A_chr12_81283148_ENST00000552864_length(amino acids)=862AA_BP=814 MGDMANNSVAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICTKLKTSPNEGLSGNPADLERREAVFGKNFI PPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQ FRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGS GRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKS VLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKM MKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKVPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRH VGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRD DIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPDAIKKCQRAGITVRMVTGDNINTARAIAT KCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSDQRQVVAVTGDGTNDGPALKKADV -------------------------------------------------------------- >7856_7856_2_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000348959_LIN7A_chr12_81283148_ENST00000552864_length(transcript)=8450nt_BP=2623nt GGCCAAAGGTCAAGATACTTCTCTGGGAAATGTTGCTGCTGATGCTGCTTTACAAAGTCATACAATGAGTGTTTGGTTTAAGAAAGATTT TCATACTTAAAAGATTTTCATCTTGGAAATACATCAAGTGAAAATTAAATTCTTTTGGGAAACATTTTCCTTCTGATATATTATACTTGT AATGGGCGACATGGCAAACAACTCAGTTGCTTACAGTGGTGTGAAAAACTCTTTGAAGGAAGCTAATCATGATGGAGACTTTGGAATTAC GCTCGCAGAGCTGCGGGCTCTCATGGAGCTCAGGTCCACAGATGCATTACGAAAAATACAGGAAAGCTATGGAGATGTCTATGGAATTTG CACCAAATTGAAAACATCTCCCAATGAAGGTTTAAGTGGAAACCCTGCAGATTTAGAAAGAAGAGAAGCAGTGTTTGGAAAGAATTTTAT ACCTCCTAAAAAGCCAAAAACCTTTCTTCAATTAGTATGGGAAGCATTACAAGATGTCACTTTAATTATATTAGAAATTGCAGCCATAGT ATCATTGGGCCTTTCTTTTTATCAGCCTCCAGAAGGGGATAATGCACTTTGTGGAGAAGTTTCTGTTGGGGAGGAAGAAGGTGAAGGTGA AACTGGTTGGATTGAAGGAGCTGCAATCCTCTTGTCTGTAGTGTGTGTGGTGTTAGTAACAGCTTTCAATGACTGGAGTAAGGAAAAACA GTTTAGAGGTTTGCAGAGCCGAATTGAACAAGAACAGAAGTTCACTGTCATCAGGGGTGGTCAGGTCATTCAGATACCTGTAGCTGACAT TACTGTTGGAGATATTGCTCAAGTGAAATATGGTGATCTTCTTCCAGCTGACGGCATACTTATTCAAGGCAACGATCTTAAAATTGATGA AAGCTCATTGACTGGTGAATCAGATCATGTTAAAAAGTCTTTAGATAAGGATCCCTTACTTCTATCAGGTACTCATGTAATGGAAGGCTC TGGAAGAATGGTAGTTACAGCTGTAGGTGTAAATTCTCAAACTGGAATTATCTTTACCTTACTTGGAGCTGGAGGTGAAGAGGAAGAGAA GAAAGATGAGAAGAAAAAGGAAAAGAAAAATAAGAAACAAGATGGAGCTATTGAGAATCGCAACAAAGCAAAAGCCCAGGATGGTGCAGC CATGGAAATGCAGCCATTGAAGAGTGAAGAAGGTGGAGATGGTGATGAAAAAGATAAAAAGAAAGCAAATTTGCCAAAAAAGGAAAAATC TGTTTTACAAGGGAAACTTACAAAACTGGCTGTTCAGATTGGCAAAGCAGGTCTGTTGATGTCTGCCATCACAGTTATCATTCTAGTATT ATATTTTGTCATTGACACCTTCTGGGTTCAGAAAAGACCATGGCTTGCTGAGTGCACACCAATTTATATACAATACTTTGTGAAGTTCTT CATTATTGGAGTTACAGTTTTAGTGGTCGCAGTGCCAGAAGGTCTTCCACTTGCAGTCACGATCTCACTGGCTTATTCAGTCAAAAAAAT GATGAAAGATAATAACTTAGTAAGGCATCTGGATGCTTGTGAAACCATGGGAAATGCTACAGCTATTTGTTCAGATAAAACAGGAACTTT GACAATGAACAGAATGACAGTCGTTCAAGCTTACATAAATGAAAAACATTATAAAAAGGTTCCTGAACCAGAAGCTATTCCACCAAATAT TTTGTCCTATCTTGTAACAGGAATTTCTGTGAATTGTGCTTATACATCAAAAATATTGCCACCAGAGAAAGAGGGTGGATTACCTCGTCA CGTTGGTAATAAAACTGAATGTGCCTTGTTGGGACTTCTTTTGGATTTAAAACGGGATTATCAGGATGTTAGAAATGAAATACCAGAAGA AGCACTGTACAAAGTCTACACCTTCAATTCTGTTAGGAAGTCCATGAGTACTGTCCTGAAAAATTCAGATGGAAGTTATCGAATATTCAG CAAGGGTGCATCTGAGATAATTCTGAAAAAGTGTTTCAAAATCTTGAGTGCTAATGGTGAGGCAAAAGTATTCAGACCAAGGGACCGTGA TGATATTGTAAAAACTGTGATTGAACCGATGGCATCAGAAGGCTTGAGAACCATATGTCTTGCATTCAGAGATTTTCCAGCAGGAGAACC AGAACCAGAGTGGGATAATGAAAATGATATTGTCACCGGCCTTACATGCATTGCTGTTGTGGGGATTGAAGATCCTGTGAGACCTGAGGT GCCAGATGCAATTAAAAAGTGTCAGAGGGCTGGAATTACTGTGCGGATGGTCACTGGTGATAATATTAATACTGCTCGGGCCATTGCTAC CAAATGTGGTATTTTACATCCTGGGGAAGATTTTCTGTGCCTAGAAGGTAAAGATTTTAACAGAAGAATACGAAATGAAAAAGGAGAGAT TGAGCAAGAGAGGATAGACAAGATTTGGCCAAAACTTCGAGTACTTGCAAGATCATCTCCTACTGATAAGCATACACTGGTTAAAGGTAT AATTGACAGCACTGTCTCAGACCAACGCCAGGTTGTAGCTGTAACTGGTGATGGTACAAATGATGGCCCAGCACTAAAGAAAGCAGATGT TGGATTTGCAATGATGTTGCAAGAGCAATTGAATTACTGGAAAAACTACAGGAATCTGGAGAAGTACCAGTGCACAAGCTACAATCCCTC AAAAAAGTGCTTCAGAGTGAGTTTTGTACAGCTATTCGAGAGGTGTATCAATATATGCATGAAACGATAACTGTTAATGGCTGTCCCGAA TTCCGTGCGAGGGCAACAGCAAAGGCAACAGTTGCAGCTTTTGCAGCTAGTGAAGGCCACTCCCACCCTCGAGTAGTTGAACTGCCAAAG ACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAGGAGCAAAATTCCCCCATTTATATCTCTCGCATAATTCCTGGAGGGGTGGCT GAAAGACACGGAGGCCTCAAAAGAGGAGACCAGCTGCTATCAGTGAACGGAGTGAGTGTGGAAGGAGAACACCATGAGAAAGCTGTGGAA CTACTCAAGGCTGCTAAAGACAGCGTCAAGCTGGTGGTGCGATACACCCCAAAAGTTCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTA CGAACAGCCAGGCGTCGGCAGCAGCAGCAATTGCTAATTCAGCAGCAGCAACAGCAGCAGCAGCAACAAACACAACAAAACCACATGTCA TAGGCCCTTGAGGGAAAGCTACTTGATCAAACATCCGATAGTCACAAATTTGAAACCGTGCTTCAGAATCCCAGCACATAGTAAAAGACA ACACTGATAATTATACCTGTCAAGAAGCTGTGAACACATGGTGTATAAATTCTTTACCAAGGCAACTCAACACCTTCTTTCTCTGGGCTT GAACCGCCACTGCTCACGTGGGCTTTACATACATTGACCTTCCATTCACTGCAGTGGGAATTCTCAGTGTGCAGAGGGAGAGGTTTTCTA GTCTGCAAACTGAAACAGTGTAAGAAGAATAAAGTCTATGACTTTTAAATAAATCACCAGGGCCAAGATTGAGTGAATCTTGGGTCCATA GCTTTTCCAGATATTAGCAAACCCCTCATTAGGCTATAATTCAAACTGCATCAGTTCAAAGTGAAACCTACACATTGCTCCTTACCCTCA CCTGCTCCACAATCCATAGTGCTGAGTTGTCTGAATTGGAATTCCAGTTAATTGCAAGTTCAACCTGTTTTCCTCTTGAAAATCGCAAGG TATCATACTATATTTATATTTTCTTCAGGTTCTAGAAGCAATCGGCTTTTTCTTTTGTTTCCATGAATTTTATTATGCATTAATAGAATG GACCAATTTTAGCTCAACTTTTAGTTTGTTAGAAGCAAGTGTAGGAACTCTAGCACTGTAGTTTTTAATTATTGCTTGTATCTATTATTA TTAATTCCAACAGAGTATAATGTATATTTATTCTATAAAATATATATTATCAGAGTGCATTTGTTACAACTTAGGTTCTTTTCTTACCAA GTATTAAGAATCTAGTAAGAGAATACTAGCAAAGGACCTAGCCCTGTGAACAGATTCTCGTATGTTATATACATAAACCCACTCTCAATA TTTTTTGAGTTTTATACTTTTTGATTGATAAACACTGAAGAAATCTAAACTCTACTCACACTGATGTGCTGTCATAGAAGCCTATTTCAT ATTTTAAAGCTTAGCAAAACTAAATTATATGTGCATATATATTCAAATATTTGTGTCACACAAAGTTTAGGTCAATTTCCCCAAATATAA ACCAGATATTTTTGGCACTCTCAGATAAACAAGTATTATTTCTCTTATAATTGGGCAGGTGGAAACCAGTGATATCAATATTGTGAATGG CAGATGCTGCTTCCTCTAGAAAAATAAAATAAAATCACCAACTTTAATATATTCCCATAGGTAAATAGACAATGAGATATCATTTTTCAG AAAATATCATTCACTGGAAAATAATCTGTTATAACTACATTTACAGGTCATAATTTTTGGTTTATGGTAAATCTAGGCACCTAAGTCTGA TTTTACTTTATGAAATAAATAGGAAGCAATAATTGTTTGGGCATTTGAATACCTTAAGCACATAAATGAACCTAAGAAAAGAATAATTGC TTAGTTGAAGTATTCAAAATAGATCAGTAAACCACAGGCAAATATTTGAATGTTCCCTTTTCTCAAATACAGAAATTGATTCCCCAAGAT ACAATACAATTTGACACTTCAGATAATCCCCCAAAATAGAAATGTATGAAGCTCAGTTTAGACTGTCTTCTTGAAAATAAAACAAAACCA ATCAAAACTACCCAGCACATTTTATTATGCCCTGTTGGGTGATAGTATTGTCAATACCAGGTTTTCCCTGCTCTTCACAATGCATCCCTC ACCAGAGGAAAAACAGCAAGAAAACTAGGACATTTGCTAATTTCAACAATACACCCCTGTGATAACAGATTCCCATCCTTGAATACATAT CATTTTTTACTAGAGAGAACGGGGGTGGTGAGGTGGGGGCAGTTAGGACCCTGTATGTTATGTAAAATAGATTTACAAAAAGGACAAGCA TGATAAAAGGGAATGAATGGAGACGATGTATTATTCAGTTTGAAAGAGATAGTTCACATTTTTATAAGAAAAATTTAATAAAACATATAT TTTAGTTATCATTTAACAAAGATATATTAAAGCTATTCAGGCAATGCCACAGGATTCTCATGAAGGGAAATCACTGAACCCTTGTCATGA GAAAATGGTCATTTCAACACATTTCAATACATTGTATAAATTTGGAGCTTAAGGTGAGTGAGTATGTTTTCACTTAGTCATAAATGTTTG GTCAAAATTAAAGTTATCATATGGTTTCACATCAATACAAATATTGTCACAGTGTTACAGAAACAACTATCAAATGGTAAGATAGTTTAC ATTTGTGTTTTCTAGAAACCTTTGTATTTATGCTTCATTTGGTTAATGTTAAGTGCTGATAAAGGCATACCAGATTGTTTGTCAAAGTAA AGAAGCAATCCATCACACCTAGGACATCTAAGGATGGATTATACGTCAGAGTGGTCTCATATACAAATGACCATTTTCCTTCAGTAAAAT CTTGTTGGTTGAAATGTAAGTCTTTTCCTAAAGTTTTAATCAGAGGTAGCCATCACTAAGACTTAAGCCACCTGTGGTTCTCTTAAGTTT CACTGAAGCCAGAAGAAGGAAATTACCACAACTTGTATTATACTAATTATCTTCATTATTAACGATCATATTAGAGCCACTGACATGTCC CAAATTATATTAAAATAAAAACCTGCATTGCTCTGACATGAAGCTCAATTCAATGTAATAAACAAATTAGGTATTAAACGTTATAATTTA AAAAACTTCTACGATATCACCAGAAATCCTGGTGAAATTTAATTTTTTCCCTTTTTTAGGTCAGTGGCCGGTGGGATAGATTTTTCTAAA CTTTTTCCTGCTATGATTTTGAAGGCAAATACATAGAGCACAGTTCAGTAAAAGAGTTTCCAAGCCTTTTCACTGGAGCATTTACATTTT GATTCTGTTGTCATTTGAAATAGAACATCTGCAGGGAGATAATGAGCTTAAGTTACAATTGACTTTGGAAAGAATAACAGACTTTTGTGT TTCCTCAATCATGTAGTCAATAGGGAATTCTCCAGTTATGTGAACAATCACAGTCTTTTAAGACAATACTTAGATCTAAATGCAAAATCT AGCATGCAGAGGCTTTTTAAGGATTTTAGACTGTCTCCAAAGAACTTGGCTCGAGATGGATTACACAGATTTACAAATGCAGTTTTCAAC TGTGACATCAAACTGATCTTATCTCATTTCATGTTACTCAACTGTGCCCGTAGGACCCCAAGAGGTGGAATATTTTGTCTACATTATTTT AAACATCTATAGATATGTGTGGATGTGTGAATAATGCCTAAATTTCTCATCTTTTAACTAGTTTGTTTTTATCATACAGACACAGCCTGT TCATAAGACCAGCTTTAGACAACTTAGAACTCAATGCTCTGAAGATTCAGGGAGGCCAACATAGAAAAAGATCTTCCAAAATATGGGGTG GTCCAACCCATCTCATCCCTCTCTAGCTGGAAAACTATAGAGAAAGGGCTGTGACTGCCTTGACCACTGCCTGGCACAATGTAGGCACTC GGTATTTGTTGGATGAATAAGTGGCTGAATCAGTGAATAGACAAAAAACATGGATTTTGCCTTCTGAAAATCTCACAAATTTTACCAGCT TATATTATACTGATTGTCACTATGATTTCTAAGTTTCATGGTTAGAACCATATTTTGAGTCTATATAAAAACTTTTTAGATGTATGAATT TGAAATTTCATTAATTACTTTAAAGGCTTCAAAGATTTGAGGACATTTGAACAGTGGATAAGGAACAATGTTTGGGGATACAGAGTTTTT ATGCTGAGTTGAACTCAACCTTTCTAGTTCTTTATACAAGCTTCCTGAATTATCTGGCAGGAATGATTCAAACATAAAACCCCATTTTTA AATTTTATAAAAGATATTTTCATTTTTATATAAAAAGATCATCAGGCATATTATCCCCTTTGATATTTATTAACAACCATTCTCTAAGAA ATTCATAATAATTGGAGACACCATCCCTAAATCTCTTCCTATTTTCAAAAGATCATTTATCCTTTCATATTTGATTCCTGGAATACACTA AGCTGAAGTTTAATCACATACTTACTCAGATGTTTCCATGTGTTTATTCATTTAACAAATACTTATTGTGTACCTAGTGCATGCTAGGTT CTGGAAATGCAACAGCAAACAAGACAGACACAATCCCTCTTGGAGGTTACTGTGAGAAACTCTCCAACATTTACTCTAGCAATAACTAGA GAGTTTACTGTCCATTGGGTCCTCTTCACACCTGATAGAAAAAATAAAATTCCTCACCCCATGGAAGTCATGAAATACTCCCTGCACAGA TTTGTGTGAGCTTGCTTTTCTAAAACCACTGCTCAAAAATGCTGCTTAGTTTATCTATAAACCACGGTTATACCCCAGTGAGGTAGGTAA GTAATTTATTCATAACTAACATTTATGCAGCTCTATTTTCTAGCCACTGTGCTGAGTGCTTTTATGGACTATCTCACCAAATCCCTTCAA CAACTCTATTCAGTAGGTTCCATTTTATAGATACAAAAACTGAAGCACAGATATATTATGTGACTTGTCCAAGGTCACACAGCTAGCAGG TGGAACTGGGATTTGAACCCATGCAATCTGACACAAGAGTTCATGTGTCTAATCATTATCTGTGGTTTGGGGGACACCATTACATTAAAA TGAATGAGTCACTAAGTGAGTCACTGTATATAAAATACTTGGAAATTGTAAAGTAATATACAAAAGATATTAACAAAGTATTATTCATGG TAAACAAATCACATCAGTAGCAAACACAGGGTGGGAACTCAATCTTATGTTATAGCTTACTCTTAAGAAGAATATGTGAAGCCAGGAACA TGGTTAAAGGTACAGACCAGAAAATTTCTGACATGTGATAAATATTTCAGTGACTTTTCAGATTTATTTCTTGTTAGCCGCTGTGTCTAT TTGGTGCTACAAAAACTGAAAGAAACAAAATCCCTGATGTAAGGGCTTATAATAAATACACAGTTTGGAGATGAACTAAGGATATTTTAC ATTTACGGGAAAGGATTGGACAATAGTATCATTTTCTCACCATTTGCATGTACATCATGTCTTTCCAATTGTTTTCATTATTTTTCTGAA >7856_7856_2_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000348959_LIN7A_chr12_81283148_ENST00000552864_length(amino acids)=862AA_BP=814 MGDMANNSVAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICTKLKTSPNEGLSGNPADLERREAVFGKNFI PPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQ FRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGS GRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKS VLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKM MKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKVPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRH VGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRD DIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPDAIKKCQRAGITVRMVTGDNINTARAIAT KCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSDQRQVVAVTGDGTNDGPALKKADV -------------------------------------------------------------- >7856_7856_3_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000359142_LIN7A_chr12_81283148_ENST00000552864_length(transcript)=8494nt_BP=2667nt ACAGATGTGTATATCTCATGATTGATATGGAGAAACTAGTCATGGGCCAAAGGTCAAGATACTTCTCTGGGAAATGTTGCTGCTGATGCT GCTTTACAAAGTCATACAATGAGTGTTTGGTTTAAGAAAGATTTTCATACTTAAAAGATTTTCATCTTGGAAATACATCAAGTGAAAATT AAATTCTTTTGGGAAACATTTTCCTTCTGATATATTATACTTGTAATGGGCGACATGGCAAACAACTCAGTTGCTTACAGTGGTGTGAAA AACTCTTTGAAGGAAGCTAATCATGATGGAGACTTTGGAATTACGCTCGCAGAGCTGCGGGCTCTCATGGAGCTCAGGTCCACAGATGCA TTACGAAAAATACAGGAAAGCTATGGAGATGTCTATGGAATTTGCACCAAATTGAAAACATCTCCCAATGAAGGTTTAAGTGGAAACCCT GCAGATTTAGAAAGAAGAGAAGCAGTGTTTGGAAAGAATTTTATACCTCCTAAAAAGCCAAAAACCTTTCTTCAATTAGTATGGGAAGCA TTACAAGATGTCACTTTAATTATATTAGAAATTGCAGCCATAGTATCATTGGGCCTTTCTTTTTATCAGCCTCCAGAAGGGGATAATGCA CTTTGTGGAGAAGTTTCTGTTGGGGAGGAAGAAGGTGAAGGTGAAACTGGTTGGATTGAAGGAGCTGCAATCCTCTTGTCTGTAGTGTGT GTGGTGTTAGTAACAGCTTTCAATGACTGGAGTAAGGAAAAACAGTTTAGAGGTTTGCAGAGCCGAATTGAACAAGAACAGAAGTTCACT GTCATCAGGGGTGGTCAGGTCATTCAGATACCTGTAGCTGACATTACTGTTGGAGATATTGCTCAAGTGAAATATGGTGATCTTCTTCCA GCTGACGGCATACTTATTCAAGGCAACGATCTTAAAATTGATGAAAGCTCATTGACTGGTGAATCAGATCATGTTAAAAAGTCTTTAGAT AAGGATCCCTTACTTCTATCAGGTACTCATGTAATGGAAGGCTCTGGAAGAATGGTAGTTACAGCTGTAGGTGTAAATTCTCAAACTGGA ATTATCTTTACCTTACTTGGAGCTGGAGGTGAAGAGGAAGAGAAGAAAGATGAGAAGAAAAAGGAAAAGAAAAATAAGAAACAAGATGGA GCTATTGAGAATCGCAACAAAGCAAAAGCCCAGGATGGTGCAGCCATGGAAATGCAGCCATTGAAGAGTGAAGAAGGTGGAGATGGTGAT GAAAAAGATAAAAAGAAAGCAAATTTGCCAAAAAAGGAAAAATCTGTTTTACAAGGGAAACTTACAAAACTGGCTGTTCAGATTGGCAAA GCAGGTCTGTTGATGTCTGCCATCACAGTTATCATTCTAGTATTATATTTTGTCATTGACACCTTCTGGGTTCAGAAAAGACCATGGCTT GCTGAGTGCACACCAATTTATATACAATACTTTGTGAAGTTCTTCATTATTGGAGTTACAGTTTTAGTGGTCGCAGTGCCAGAAGGTCTT CCACTTGCAGTCACGATCTCACTGGCTTATTCAGTCAAAAAAATGATGAAAGATAATAACTTAGTAAGGCATCTGGATGCTTGTGAAACC ATGGGAAATGCTACAGCTATTTGTTCAGATAAAACAGGAACTTTGACAATGAACAGAATGACAGTCGTTCAAGCTTACATAAATGAAAAA CATTATAAAAAGGTTCCTGAACCAGAAGCTATTCCACCAAATATTTTGTCCTATCTTGTAACAGGAATTTCTGTGAATTGTGCTTATACA TCAAAAATATTGCCACCAGAGAAAGAGGGTGGATTACCTCGTCACGTTGGTAATAAAACTGAATGTGCCTTGTTGGGACTTCTTTTGGAT TTAAAACGGGATTATCAGGATGTTAGAAATGAAATACCAGAAGAAGCACTGTACAAAGTCTACACCTTCAATTCTGTTAGGAAGTCCATG AGTACTGTCCTGAAAAATTCAGATGGAAGTTATCGAATATTCAGCAAGGGTGCATCTGAGATAATTCTGAAAAAGTGTTTCAAAATCTTG AGTGCTAATGGTGAGGCAAAAGTATTCAGACCAAGGGACCGTGATGATATTGTAAAAACTGTGATTGAACCGATGGCATCAGAAGGCTTG AGAACCATATGTCTTGCATTCAGAGATTTTCCAGCAGGAGAACCAGAACCAGAGTGGGATAATGAAAATGATATTGTCACCGGCCTTACA TGCATTGCTGTTGTGGGGATTGAAGATCCTGTGAGACCTGAGGTGCCAGATGCAATTAAAAAGTGTCAGAGGGCTGGAATTACTGTGCGG ATGGTCACTGGTGATAATATTAATACTGCTCGGGCCATTGCTACCAAATGTGGTATTTTACATCCTGGGGAAGATTTTCTGTGCCTAGAA GGTAAAGATTTTAACAGAAGAATACGAAATGAAAAAGGAGAGATTGAGCAAGAGAGGATAGACAAGATTTGGCCAAAACTTCGAGTACTT GCAAGATCATCTCCTACTGATAAGCATACACTGGTTAAAGGTATAATTGACAGCACTGTCTCAGACCAACGCCAGGTTGTAGCTGTAACT GGTGATGGTACAAATGATGGCCCAGCACTAAAGAAAGCAGATGTTGGATTTGCAATGATGTTGCAAGAGCAATTGAATTACTGGAAAAAC TACAGGAATCTGGAGAAGTACCAGTGCACAAGCTACAATCCCTCAAAAAAGTGCTTCAGAGTGAGTTTTGTACAGCTATTCGAGAGGTGT ATCAATATATGCATGAAACGATAACTGTTAATGGCTGTCCCGAATTCCGTGCGAGGGCAACAGCAAAGGCAACAGTTGCAGCTTTTGCAG CTAGTGAAGGCCACTCCCACCCTCGAGTAGTTGAACTGCCAAAGACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAGGAGCAAA ATTCCCCCATTTATATCTCTCGCATAATTCCTGGAGGGGTGGCTGAAAGACACGGAGGCCTCAAAAGAGGAGACCAGCTGCTATCAGTGA ACGGAGTGAGTGTGGAAGGAGAACACCATGAGAAAGCTGTGGAACTACTCAAGGCTGCTAAAGACAGCGTCAAGCTGGTGGTGCGATACA CCCCAAAAGTTCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTACGAACAGCCAGGCGTCGGCAGCAGCAGCAATTGCTAATTCAGCAGC AGCAACAGCAGCAGCAGCAACAAACACAACAAAACCACATGTCATAGGCCCTTGAGGGAAAGCTACTTGATCAAACATCCGATAGTCACA AATTTGAAACCGTGCTTCAGAATCCCAGCACATAGTAAAAGACAACACTGATAATTATACCTGTCAAGAAGCTGTGAACACATGGTGTAT AAATTCTTTACCAAGGCAACTCAACACCTTCTTTCTCTGGGCTTGAACCGCCACTGCTCACGTGGGCTTTACATACATTGACCTTCCATT CACTGCAGTGGGAATTCTCAGTGTGCAGAGGGAGAGGTTTTCTAGTCTGCAAACTGAAACAGTGTAAGAAGAATAAAGTCTATGACTTTT AAATAAATCACCAGGGCCAAGATTGAGTGAATCTTGGGTCCATAGCTTTTCCAGATATTAGCAAACCCCTCATTAGGCTATAATTCAAAC TGCATCAGTTCAAAGTGAAACCTACACATTGCTCCTTACCCTCACCTGCTCCACAATCCATAGTGCTGAGTTGTCTGAATTGGAATTCCA GTTAATTGCAAGTTCAACCTGTTTTCCTCTTGAAAATCGCAAGGTATCATACTATATTTATATTTTCTTCAGGTTCTAGAAGCAATCGGC TTTTTCTTTTGTTTCCATGAATTTTATTATGCATTAATAGAATGGACCAATTTTAGCTCAACTTTTAGTTTGTTAGAAGCAAGTGTAGGA ACTCTAGCACTGTAGTTTTTAATTATTGCTTGTATCTATTATTATTAATTCCAACAGAGTATAATGTATATTTATTCTATAAAATATATA TTATCAGAGTGCATTTGTTACAACTTAGGTTCTTTTCTTACCAAGTATTAAGAATCTAGTAAGAGAATACTAGCAAAGGACCTAGCCCTG TGAACAGATTCTCGTATGTTATATACATAAACCCACTCTCAATATTTTTTGAGTTTTATACTTTTTGATTGATAAACACTGAAGAAATCT AAACTCTACTCACACTGATGTGCTGTCATAGAAGCCTATTTCATATTTTAAAGCTTAGCAAAACTAAATTATATGTGCATATATATTCAA ATATTTGTGTCACACAAAGTTTAGGTCAATTTCCCCAAATATAAACCAGATATTTTTGGCACTCTCAGATAAACAAGTATTATTTCTCTT ATAATTGGGCAGGTGGAAACCAGTGATATCAATATTGTGAATGGCAGATGCTGCTTCCTCTAGAAAAATAAAATAAAATCACCAACTTTA ATATATTCCCATAGGTAAATAGACAATGAGATATCATTTTTCAGAAAATATCATTCACTGGAAAATAATCTGTTATAACTACATTTACAG GTCATAATTTTTGGTTTATGGTAAATCTAGGCACCTAAGTCTGATTTTACTTTATGAAATAAATAGGAAGCAATAATTGTTTGGGCATTT GAATACCTTAAGCACATAAATGAACCTAAGAAAAGAATAATTGCTTAGTTGAAGTATTCAAAATAGATCAGTAAACCACAGGCAAATATT TGAATGTTCCCTTTTCTCAAATACAGAAATTGATTCCCCAAGATACAATACAATTTGACACTTCAGATAATCCCCCAAAATAGAAATGTA TGAAGCTCAGTTTAGACTGTCTTCTTGAAAATAAAACAAAACCAATCAAAACTACCCAGCACATTTTATTATGCCCTGTTGGGTGATAGT ATTGTCAATACCAGGTTTTCCCTGCTCTTCACAATGCATCCCTCACCAGAGGAAAAACAGCAAGAAAACTAGGACATTTGCTAATTTCAA CAATACACCCCTGTGATAACAGATTCCCATCCTTGAATACATATCATTTTTTACTAGAGAGAACGGGGGTGGTGAGGTGGGGGCAGTTAG GACCCTGTATGTTATGTAAAATAGATTTACAAAAAGGACAAGCATGATAAAAGGGAATGAATGGAGACGATGTATTATTCAGTTTGAAAG AGATAGTTCACATTTTTATAAGAAAAATTTAATAAAACATATATTTTAGTTATCATTTAACAAAGATATATTAAAGCTATTCAGGCAATG CCACAGGATTCTCATGAAGGGAAATCACTGAACCCTTGTCATGAGAAAATGGTCATTTCAACACATTTCAATACATTGTATAAATTTGGA GCTTAAGGTGAGTGAGTATGTTTTCACTTAGTCATAAATGTTTGGTCAAAATTAAAGTTATCATATGGTTTCACATCAATACAAATATTG TCACAGTGTTACAGAAACAACTATCAAATGGTAAGATAGTTTACATTTGTGTTTTCTAGAAACCTTTGTATTTATGCTTCATTTGGTTAA TGTTAAGTGCTGATAAAGGCATACCAGATTGTTTGTCAAAGTAAAGAAGCAATCCATCACACCTAGGACATCTAAGGATGGATTATACGT CAGAGTGGTCTCATATACAAATGACCATTTTCCTTCAGTAAAATCTTGTTGGTTGAAATGTAAGTCTTTTCCTAAAGTTTTAATCAGAGG TAGCCATCACTAAGACTTAAGCCACCTGTGGTTCTCTTAAGTTTCACTGAAGCCAGAAGAAGGAAATTACCACAACTTGTATTATACTAA TTATCTTCATTATTAACGATCATATTAGAGCCACTGACATGTCCCAAATTATATTAAAATAAAAACCTGCATTGCTCTGACATGAAGCTC AATTCAATGTAATAAACAAATTAGGTATTAAACGTTATAATTTAAAAAACTTCTACGATATCACCAGAAATCCTGGTGAAATTTAATTTT TTCCCTTTTTTAGGTCAGTGGCCGGTGGGATAGATTTTTCTAAACTTTTTCCTGCTATGATTTTGAAGGCAAATACATAGAGCACAGTTC AGTAAAAGAGTTTCCAAGCCTTTTCACTGGAGCATTTACATTTTGATTCTGTTGTCATTTGAAATAGAACATCTGCAGGGAGATAATGAG CTTAAGTTACAATTGACTTTGGAAAGAATAACAGACTTTTGTGTTTCCTCAATCATGTAGTCAATAGGGAATTCTCCAGTTATGTGAACA ATCACAGTCTTTTAAGACAATACTTAGATCTAAATGCAAAATCTAGCATGCAGAGGCTTTTTAAGGATTTTAGACTGTCTCCAAAGAACT TGGCTCGAGATGGATTACACAGATTTACAAATGCAGTTTTCAACTGTGACATCAAACTGATCTTATCTCATTTCATGTTACTCAACTGTG CCCGTAGGACCCCAAGAGGTGGAATATTTTGTCTACATTATTTTAAACATCTATAGATATGTGTGGATGTGTGAATAATGCCTAAATTTC TCATCTTTTAACTAGTTTGTTTTTATCATACAGACACAGCCTGTTCATAAGACCAGCTTTAGACAACTTAGAACTCAATGCTCTGAAGAT TCAGGGAGGCCAACATAGAAAAAGATCTTCCAAAATATGGGGTGGTCCAACCCATCTCATCCCTCTCTAGCTGGAAAACTATAGAGAAAG GGCTGTGACTGCCTTGACCACTGCCTGGCACAATGTAGGCACTCGGTATTTGTTGGATGAATAAGTGGCTGAATCAGTGAATAGACAAAA AACATGGATTTTGCCTTCTGAAAATCTCACAAATTTTACCAGCTTATATTATACTGATTGTCACTATGATTTCTAAGTTTCATGGTTAGA ACCATATTTTGAGTCTATATAAAAACTTTTTAGATGTATGAATTTGAAATTTCATTAATTACTTTAAAGGCTTCAAAGATTTGAGGACAT TTGAACAGTGGATAAGGAACAATGTTTGGGGATACAGAGTTTTTATGCTGAGTTGAACTCAACCTTTCTAGTTCTTTATACAAGCTTCCT GAATTATCTGGCAGGAATGATTCAAACATAAAACCCCATTTTTAAATTTTATAAAAGATATTTTCATTTTTATATAAAAAGATCATCAGG CATATTATCCCCTTTGATATTTATTAACAACCATTCTCTAAGAAATTCATAATAATTGGAGACACCATCCCTAAATCTCTTCCTATTTTC AAAAGATCATTTATCCTTTCATATTTGATTCCTGGAATACACTAAGCTGAAGTTTAATCACATACTTACTCAGATGTTTCCATGTGTTTA TTCATTTAACAAATACTTATTGTGTACCTAGTGCATGCTAGGTTCTGGAAATGCAACAGCAAACAAGACAGACACAATCCCTCTTGGAGG TTACTGTGAGAAACTCTCCAACATTTACTCTAGCAATAACTAGAGAGTTTACTGTCCATTGGGTCCTCTTCACACCTGATAGAAAAAATA AAATTCCTCACCCCATGGAAGTCATGAAATACTCCCTGCACAGATTTGTGTGAGCTTGCTTTTCTAAAACCACTGCTCAAAAATGCTGCT TAGTTTATCTATAAACCACGGTTATACCCCAGTGAGGTAGGTAAGTAATTTATTCATAACTAACATTTATGCAGCTCTATTTTCTAGCCA CTGTGCTGAGTGCTTTTATGGACTATCTCACCAAATCCCTTCAACAACTCTATTCAGTAGGTTCCATTTTATAGATACAAAAACTGAAGC ACAGATATATTATGTGACTTGTCCAAGGTCACACAGCTAGCAGGTGGAACTGGGATTTGAACCCATGCAATCTGACACAAGAGTTCATGT GTCTAATCATTATCTGTGGTTTGGGGGACACCATTACATTAAAATGAATGAGTCACTAAGTGAGTCACTGTATATAAAATACTTGGAAAT TGTAAAGTAATATACAAAAGATATTAACAAAGTATTATTCATGGTAAACAAATCACATCAGTAGCAAACACAGGGTGGGAACTCAATCTT ATGTTATAGCTTACTCTTAAGAAGAATATGTGAAGCCAGGAACATGGTTAAAGGTACAGACCAGAAAATTTCTGACATGTGATAAATATT TCAGTGACTTTTCAGATTTATTTCTTGTTAGCCGCTGTGTCTATTTGGTGCTACAAAAACTGAAAGAAACAAAATCCCTGATGTAAGGGC TTATAATAAATACACAGTTTGGAGATGAACTAAGGATATTTTACATTTACGGGAAAGGATTGGACAATAGTATCATTTTCTCACCATTTG CATGTACATCATGTCTTTCCAATTGTTTTCATTATTTTTCTGAAAGAGCTGCAAAATTGTGCAGTGGTTCAACCTGACCAAAGTGGTATT >7856_7856_3_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000359142_LIN7A_chr12_81283148_ENST00000552864_length(amino acids)=862AA_BP=814 MGDMANNSVAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICTKLKTSPNEGLSGNPADLERREAVFGKNFI PPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQ FRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGS GRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKS VLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKM MKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKVPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRH VGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRD DIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPDAIKKCQRAGITVRMVTGDNINTARAIAT KCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSDQRQVVAVTGDGTNDGPALKKADV -------------------------------------------------------------- >7856_7856_4_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000393164_LIN7A_chr12_81283148_ENST00000552864_length(transcript)=7591nt_BP=1764nt TTTCCTAAATGTTGAGGCTGTTAAAAACAATATTACTGAAGTTTGAAATTTGGTGGTAGCAAGGAGATCTATCAGTATTTTTAAAAACAA ACTATGTTTTTGGTTATAGGTACTCATGTAATGGAAGGCTCTGGAAGAATGGTAGTTACAGCTGTAGGTGTAAATTCTCAAACTGGAATT ATCTTTACCTTACTTGGAGCTGGAGGTGAAGAGGAAGAGAAGAAAGATGAGAAGAAAAAGGAAAAGAAAAATAAGAAACAAGATGGAGCT ATTGAGAATCGCAACAAAGCAAAAGCCCAGGATGGTGCAGCCATGGAAATGCAGCCATTGAAGAGTGAAGAAGGTGGAGATGGTGATGAA AAAGATAAAAAGAAAGCAAATTTGCCAAAAAAGGAAAAATCTGTTTTACAAGGGAAACTTACAAAACTGGCTGTTCAGATTGGCAAAGCA GGTCTGTTGATGTCTGCCATCACAGTTATCATTCTAGTATTATATTTTGTCATTGACACCTTCTGGGTTCAGAAAAGACCATGGCTTGCT GAGTGCACACCAATTTATATACAATACTTTGTGAAGTTCTTCATTATTGGAGTTACAGTTTTAGTGGTCGCAGTGCCAGAAGGTCTTCCA CTTGCAGTCACGATCTCACTGGCTTATTCAGTCAAAAAAATGATGAAAGATAATAACTTAGTAAGGCATCTGGATGCTTGTGAAACCATG GGAAATGCTACAGCTATTTGTTCAGATAAAACAGGAACTTTGACAATGAACAGAATGACAGTCGTTCAAGCTTACATAAATGAAAAACAT TATAAAAAGGTTCCTGAACCAGAAGCTATTCCACCAAATATTTTGTCCTATCTTGTAACAGGAATTTCTGTGAATTGTGCTTATACATCA AAAATATTGCCACCAGAGAAAGAGGGTGGATTACCTCGTCACGTTGGTAATAAAACTGAATGTGCCTTGTTGGGACTTCTTTTGGATTTA AAACGGGATTATCAGGATGTTAGAAATGAAATACCAGAAGAAGCACTGTACAAAGTCTACACCTTCAATTCTGTTAGGAAGTCCATGAGT ACTGTCCTGAAAAATTCAGATGGAAGTTATCGAATATTCAGCAAGGGTGCATCTGAGATAATTCTGAAAAAGTGTTTCAAAATCTTGAGT GCTAATGGTGAGGCAAAAGTATTCAGACCAAGGGACCGTGATGATATTGTAAAAACTGTGATTGAACCGATGGCATCAGAAGGCTTGAGA ACCATATGTCTTGCATTCAGAGATTTTCCAGCAGGAGAACCAGAACCAGAGTGGGATAATGAAAATGATATTGTCACCGGCCTTACATGC ATTGCTGTTGTGGGGATTGAAGATCCTGTGAGACCTGAGGTGCCAGATGCAATTAAAAAGTGTCAGAGGGCTGGAATTACTGTGCGGATG GTCACTGGTGATAATATTAATACTGCTCGGGCCATTGCTACCAAATGTGGTATTTTACATCCTGGGGAAGATTTTCTGTGCCTAGAAGGT AAAGATTTTAACAGAAGAATACGAAATGAAAAAGGAGAGATTGAGCAAGAGAGGATAGACAAGATTTGGCCAAAACTTCGAGTACTTGCA AGATCATCTCCTACTGATAAGCATACACTGGTTAAAGGTATAATTGACAGCACTGTCTCAGACCAACGCCAGGTTGTAGCTGTAACTGGT GATGGTACAAATGATGGCCCAGCACTAAAGAAAGCAGATGTTGGATTTGCAATGATGTTGCAAGAGCAATTGAATTACTGGAAAAACTAC AGGAATCTGGAGAAGTACCAGTGCACAAGCTACAATCCCTCAAAAAAGTGCTTCAGAGTGAGTTTTGTACAGCTATTCGAGAGGTGTATC AATATATGCATGAAACGATAACTGTTAATGGCTGTCCCGAATTCCGTGCGAGGGCAACAGCAAAGGCAACAGTTGCAGCTTTTGCAGCTA GTGAAGGCCACTCCCACCCTCGAGTAGTTGAACTGCCAAAGACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAGGAGCAAAATT CCCCCATTTATATCTCTCGCATAATTCCTGGAGGGGTGGCTGAAAGACACGGAGGCCTCAAAAGAGGAGACCAGCTGCTATCAGTGAACG GAGTGAGTGTGGAAGGAGAACACCATGAGAAAGCTGTGGAACTACTCAAGGCTGCTAAAGACAGCGTCAAGCTGGTGGTGCGATACACCC CAAAAGTTCTGGAAGAAATGGAGGCTCGCTTTGAAAAGCTACGAACAGCCAGGCGTCGGCAGCAGCAGCAATTGCTAATTCAGCAGCAGC AACAGCAGCAGCAGCAACAAACACAACAAAACCACATGTCATAGGCCCTTGAGGGAAAGCTACTTGATCAAACATCCGATAGTCACAAAT TTGAAACCGTGCTTCAGAATCCCAGCACATAGTAAAAGACAACACTGATAATTATACCTGTCAAGAAGCTGTGAACACATGGTGTATAAA TTCTTTACCAAGGCAACTCAACACCTTCTTTCTCTGGGCTTGAACCGCCACTGCTCACGTGGGCTTTACATACATTGACCTTCCATTCAC TGCAGTGGGAATTCTCAGTGTGCAGAGGGAGAGGTTTTCTAGTCTGCAAACTGAAACAGTGTAAGAAGAATAAAGTCTATGACTTTTAAA TAAATCACCAGGGCCAAGATTGAGTGAATCTTGGGTCCATAGCTTTTCCAGATATTAGCAAACCCCTCATTAGGCTATAATTCAAACTGC ATCAGTTCAAAGTGAAACCTACACATTGCTCCTTACCCTCACCTGCTCCACAATCCATAGTGCTGAGTTGTCTGAATTGGAATTCCAGTT AATTGCAAGTTCAACCTGTTTTCCTCTTGAAAATCGCAAGGTATCATACTATATTTATATTTTCTTCAGGTTCTAGAAGCAATCGGCTTT TTCTTTTGTTTCCATGAATTTTATTATGCATTAATAGAATGGACCAATTTTAGCTCAACTTTTAGTTTGTTAGAAGCAAGTGTAGGAACT CTAGCACTGTAGTTTTTAATTATTGCTTGTATCTATTATTATTAATTCCAACAGAGTATAATGTATATTTATTCTATAAAATATATATTA TCAGAGTGCATTTGTTACAACTTAGGTTCTTTTCTTACCAAGTATTAAGAATCTAGTAAGAGAATACTAGCAAAGGACCTAGCCCTGTGA ACAGATTCTCGTATGTTATATACATAAACCCACTCTCAATATTTTTTGAGTTTTATACTTTTTGATTGATAAACACTGAAGAAATCTAAA CTCTACTCACACTGATGTGCTGTCATAGAAGCCTATTTCATATTTTAAAGCTTAGCAAAACTAAATTATATGTGCATATATATTCAAATA TTTGTGTCACACAAAGTTTAGGTCAATTTCCCCAAATATAAACCAGATATTTTTGGCACTCTCAGATAAACAAGTATTATTTCTCTTATA ATTGGGCAGGTGGAAACCAGTGATATCAATATTGTGAATGGCAGATGCTGCTTCCTCTAGAAAAATAAAATAAAATCACCAACTTTAATA TATTCCCATAGGTAAATAGACAATGAGATATCATTTTTCAGAAAATATCATTCACTGGAAAATAATCTGTTATAACTACATTTACAGGTC ATAATTTTTGGTTTATGGTAAATCTAGGCACCTAAGTCTGATTTTACTTTATGAAATAAATAGGAAGCAATAATTGTTTGGGCATTTGAA TACCTTAAGCACATAAATGAACCTAAGAAAAGAATAATTGCTTAGTTGAAGTATTCAAAATAGATCAGTAAACCACAGGCAAATATTTGA ATGTTCCCTTTTCTCAAATACAGAAATTGATTCCCCAAGATACAATACAATTTGACACTTCAGATAATCCCCCAAAATAGAAATGTATGA AGCTCAGTTTAGACTGTCTTCTTGAAAATAAAACAAAACCAATCAAAACTACCCAGCACATTTTATTATGCCCTGTTGGGTGATAGTATT GTCAATACCAGGTTTTCCCTGCTCTTCACAATGCATCCCTCACCAGAGGAAAAACAGCAAGAAAACTAGGACATTTGCTAATTTCAACAA TACACCCCTGTGATAACAGATTCCCATCCTTGAATACATATCATTTTTTACTAGAGAGAACGGGGGTGGTGAGGTGGGGGCAGTTAGGAC CCTGTATGTTATGTAAAATAGATTTACAAAAAGGACAAGCATGATAAAAGGGAATGAATGGAGACGATGTATTATTCAGTTTGAAAGAGA TAGTTCACATTTTTATAAGAAAAATTTAATAAAACATATATTTTAGTTATCATTTAACAAAGATATATTAAAGCTATTCAGGCAATGCCA CAGGATTCTCATGAAGGGAAATCACTGAACCCTTGTCATGAGAAAATGGTCATTTCAACACATTTCAATACATTGTATAAATTTGGAGCT TAAGGTGAGTGAGTATGTTTTCACTTAGTCATAAATGTTTGGTCAAAATTAAAGTTATCATATGGTTTCACATCAATACAAATATTGTCA CAGTGTTACAGAAACAACTATCAAATGGTAAGATAGTTTACATTTGTGTTTTCTAGAAACCTTTGTATTTATGCTTCATTTGGTTAATGT TAAGTGCTGATAAAGGCATACCAGATTGTTTGTCAAAGTAAAGAAGCAATCCATCACACCTAGGACATCTAAGGATGGATTATACGTCAG AGTGGTCTCATATACAAATGACCATTTTCCTTCAGTAAAATCTTGTTGGTTGAAATGTAAGTCTTTTCCTAAAGTTTTAATCAGAGGTAG CCATCACTAAGACTTAAGCCACCTGTGGTTCTCTTAAGTTTCACTGAAGCCAGAAGAAGGAAATTACCACAACTTGTATTATACTAATTA TCTTCATTATTAACGATCATATTAGAGCCACTGACATGTCCCAAATTATATTAAAATAAAAACCTGCATTGCTCTGACATGAAGCTCAAT TCAATGTAATAAACAAATTAGGTATTAAACGTTATAATTTAAAAAACTTCTACGATATCACCAGAAATCCTGGTGAAATTTAATTTTTTC CCTTTTTTAGGTCAGTGGCCGGTGGGATAGATTTTTCTAAACTTTTTCCTGCTATGATTTTGAAGGCAAATACATAGAGCACAGTTCAGT AAAAGAGTTTCCAAGCCTTTTCACTGGAGCATTTACATTTTGATTCTGTTGTCATTTGAAATAGAACATCTGCAGGGAGATAATGAGCTT AAGTTACAATTGACTTTGGAAAGAATAACAGACTTTTGTGTTTCCTCAATCATGTAGTCAATAGGGAATTCTCCAGTTATGTGAACAATC ACAGTCTTTTAAGACAATACTTAGATCTAAATGCAAAATCTAGCATGCAGAGGCTTTTTAAGGATTTTAGACTGTCTCCAAAGAACTTGG CTCGAGATGGATTACACAGATTTACAAATGCAGTTTTCAACTGTGACATCAAACTGATCTTATCTCATTTCATGTTACTCAACTGTGCCC GTAGGACCCCAAGAGGTGGAATATTTTGTCTACATTATTTTAAACATCTATAGATATGTGTGGATGTGTGAATAATGCCTAAATTTCTCA TCTTTTAACTAGTTTGTTTTTATCATACAGACACAGCCTGTTCATAAGACCAGCTTTAGACAACTTAGAACTCAATGCTCTGAAGATTCA GGGAGGCCAACATAGAAAAAGATCTTCCAAAATATGGGGTGGTCCAACCCATCTCATCCCTCTCTAGCTGGAAAACTATAGAGAAAGGGC TGTGACTGCCTTGACCACTGCCTGGCACAATGTAGGCACTCGGTATTTGTTGGATGAATAAGTGGCTGAATCAGTGAATAGACAAAAAAC ATGGATTTTGCCTTCTGAAAATCTCACAAATTTTACCAGCTTATATTATACTGATTGTCACTATGATTTCTAAGTTTCATGGTTAGAACC ATATTTTGAGTCTATATAAAAACTTTTTAGATGTATGAATTTGAAATTTCATTAATTACTTTAAAGGCTTCAAAGATTTGAGGACATTTG AACAGTGGATAAGGAACAATGTTTGGGGATACAGAGTTTTTATGCTGAGTTGAACTCAACCTTTCTAGTTCTTTATACAAGCTTCCTGAA TTATCTGGCAGGAATGATTCAAACATAAAACCCCATTTTTAAATTTTATAAAAGATATTTTCATTTTTATATAAAAAGATCATCAGGCAT ATTATCCCCTTTGATATTTATTAACAACCATTCTCTAAGAAATTCATAATAATTGGAGACACCATCCCTAAATCTCTTCCTATTTTCAAA AGATCATTTATCCTTTCATATTTGATTCCTGGAATACACTAAGCTGAAGTTTAATCACATACTTACTCAGATGTTTCCATGTGTTTATTC ATTTAACAAATACTTATTGTGTACCTAGTGCATGCTAGGTTCTGGAAATGCAACAGCAAACAAGACAGACACAATCCCTCTTGGAGGTTA CTGTGAGAAACTCTCCAACATTTACTCTAGCAATAACTAGAGAGTTTACTGTCCATTGGGTCCTCTTCACACCTGATAGAAAAAATAAAA TTCCTCACCCCATGGAAGTCATGAAATACTCCCTGCACAGATTTGTGTGAGCTTGCTTTTCTAAAACCACTGCTCAAAAATGCTGCTTAG TTTATCTATAAACCACGGTTATACCCCAGTGAGGTAGGTAAGTAATTTATTCATAACTAACATTTATGCAGCTCTATTTTCTAGCCACTG TGCTGAGTGCTTTTATGGACTATCTCACCAAATCCCTTCAACAACTCTATTCAGTAGGTTCCATTTTATAGATACAAAAACTGAAGCACA GATATATTATGTGACTTGTCCAAGGTCACACAGCTAGCAGGTGGAACTGGGATTTGAACCCATGCAATCTGACACAAGAGTTCATGTGTC TAATCATTATCTGTGGTTTGGGGGACACCATTACATTAAAATGAATGAGTCACTAAGTGAGTCACTGTATATAAAATACTTGGAAATTGT AAAGTAATATACAAAAGATATTAACAAAGTATTATTCATGGTAAACAAATCACATCAGTAGCAAACACAGGGTGGGAACTCAATCTTATG TTATAGCTTACTCTTAAGAAGAATATGTGAAGCCAGGAACATGGTTAAAGGTACAGACCAGAAAATTTCTGACATGTGATAAATATTTCA GTGACTTTTCAGATTTATTTCTTGTTAGCCGCTGTGTCTATTTGGTGCTACAAAAACTGAAAGAAACAAAATCCCTGATGTAAGGGCTTA TAATAAATACACAGTTTGGAGATGAACTAAGGATATTTTACATTTACGGGAAAGGATTGGACAATAGTATCATTTTCTCACCATTTGCAT GTACATCATGTCTTTCCAATTGTTTTCATTATTTTTCTGAAAGAGCTGCAAAATTGTGCAGTGGTTCAACCTGACCAAAGTGGTATTATG >7856_7856_4_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000393164_LIN7A_chr12_81283148_ENST00000552864_length(amino acids)=605AA_BP=557 MFLVIGTHVMEGSGRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEK DKKKANLPKKEKSVLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPL AVTISLAYSVKKMMKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKVPEPEAIPPNILSYLVTGISVNCAYTSK ILPPEKEGGLPRHVGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSA NGEAKVFRPRDRDDIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPDAIKKCQRAGITVRMV TGDNINTARAIATKCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSDQRQVVAVTGD -------------------------------------------------------------- >7856_7856_5_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000428670_LIN7A_chr12_81283148_ENST00000552864_length(transcript)=8726nt_BP=2899nt AGCGTGAGTAGGGAGCCCCGGCTGGTGGACGCCGAGCCTCTCGGCTCCTTGGCCGCCCCATCCCCGAGGTGCAGCTGCACCTCCGCGTGG CGCCCCGAGCCCTGCGAGCCGGCTGCGGACGCGCTGAGGACGGAGCCCCCATCCTCTGCGTTTCCCGCTGCCCCTTAACGCCCCGCGACC CTCCCGCAGCCTGCCTTTCCTTCCCCCTCGGAAAATGGTTCCCACTGCCGGGCGAGATGTGTATATCTCATGATTGATATGGAGAAACTA GTCATGGGCCAAAGGTCAAGATACTTCTCTGGGAAATGTTGCTGCTGATGCTGCTTTACAAAGTCATACAATGAGTGTTTGGTTTAAGAA AGATTTTCATACTTAAAAGATTTTCATCTTGGAAATACATCAAGTGAAAATTAAATTCTTTTGGGAAACATTTTCCTTCTGATATATTAT ACTTGTAATGGGCGACATGGCAAACAACTCAGTTGCTTACAGTGGTGTGAAAAACTCTTTGAAGGAAGCTAATCATGATGGAGACTTTGG AATTACGCTCGCAGAGCTGCGGGCTCTCATGGAGCTCAGGTCCACAGATGCATTACGAAAAATACAGGAAAGCTATGGAGATGTCTATGG AATTTGCACCAAATTGAAAACATCTCCCAATGAAGGTTTAAGTGGAAACCCTGCAGATTTAGAAAGAAGAGAAGCAGTGTTTGGAAAGAA TTTTATACCTCCTAAAAAGCCAAAAACCTTTCTTCAATTAGTATGGGAAGCATTACAAGATGTCACTTTAATTATATTAGAAATTGCAGC CATAGTATCATTGGGCCTTTCTTTTTATCAGCCTCCAGAAGGGGATAATGCACTTTGTGGAGAAGTTTCTGTTGGGGAGGAAGAAGGTGA AGGTGAAACTGGTTGGATTGAAGGAGCTGCAATCCTCTTGTCTGTAGTGTGTGTGGTGTTAGTAACAGCTTTCAATGACTGGAGTAAGGA AAAACAGTTTAGAGGTTTGCAGAGCCGAATTGAACAAGAACAGAAGTTCACTGTCATCAGGGGTGGTCAGGTCATTCAGATACCTGTAGC TGACATTACTGTTGGAGATATTGCTCAAGTGAAATATGGTGATCTTCTTCCAGCTGACGGCATACTTATTCAAGGCAACGATCTTAAAAT TGATGAAAGCTCATTGACTGGTGAATCAGATCATGTTAAAAAGTCTTTAGATAAGGATCCCTTACTTCTATCAGGTACTCATGTAATGGA AGGCTCTGGAAGAATGGTAGTTACAGCTGTAGGTGTAAATTCTCAAACTGGAATTATCTTTACCTTACTTGGAGCTGGAGGTGAAGAGGA AGAGAAGAAAGATGAGAAGAAAAAGGAAAAGAAAAATAAGAAACAAGATGGAGCTATTGAGAATCGCAACAAAGCAAAAGCCCAGGATGG TGCAGCCATGGAAATGCAGCCATTGAAGAGTGAAGAAGGTGGAGATGGTGATGAAAAAGATAAAAAGAAAGCAAATTTGCCAAAAAAGGA AAAATCTGTTTTACAAGGGAAACTTACAAAACTGGCTGTTCAGATTGGCAAAGCAGGTCTGTTGATGTCTGCCATCACAGTTATCATTCT AGTATTATATTTTGTCATTGACACCTTCTGGGTTCAGAAAAGACCATGGCTTGCTGAGTGCACACCAATTTATATACAATACTTTGTGAA GTTCTTCATTATTGGAGTTACAGTTTTAGTGGTCGCAGTGCCAGAAGGTCTTCCACTTGCAGTCACGATCTCACTGGCTTATTCAGTCAA AAAAATGATGAAAGATAATAACTTAGTAAGGCATCTGGATGCTTGTGAAACCATGGGAAATGCTACAGCTATTTGTTCAGATAAAACAGG AACTTTGACAATGAACAGAATGACAGTCGTTCAAGCTTACATAAATGAAAAACATTATAAAAAGGTTCCTGAACCAGAAGCTATTCCACC AAATATTTTGTCCTATCTTGTAACAGGAATTTCTGTGAATTGTGCTTATACATCAAAAATATTGCCACCAGAGAAAGAGGGTGGATTACC TCGTCACGTTGGTAATAAAACTGAATGTGCCTTGTTGGGACTTCTTTTGGATTTAAAACGGGATTATCAGGATGTTAGAAATGAAATACC AGAAGAAGCACTGTACAAAGTCTACACCTTCAATTCTGTTAGGAAGTCCATGAGTACTGTCCTGAAAAATTCAGATGGAAGTTATCGAAT ATTCAGCAAGGGTGCATCTGAGATAATTCTGAAAAAGTGTTTCAAAATCTTGAGTGCTAATGGTGAGGCAAAAGTATTCAGACCAAGGGA CCGTGATGATATTGTAAAAACTGTGATTGAACCGATGGCATCAGAAGGCTTGAGAACCATATGTCTTGCATTCAGAGATTTTCCAGCAGG AGAACCAGAACCAGAGTGGGATAATGAAAATGATATTGTCACCGGCCTTACATGCATTGCTGTTGTGGGGATTGAAGATCCTGTGAGACC TGAGGTGCCAGATGCAATTAAAAAGTGTCAGAGGGCTGGAATTACTGTGCGGATGGTCACTGGTGATAATATTAATACTGCTCGGGCCAT TGCTACCAAATGTGGTATTTTACATCCTGGGGAAGATTTTCTGTGCCTAGAAGGTAAAGATTTTAACAGAAGAATACGAAATGAAAAAGG AGAGATTGAGCAAGAGAGGATAGACAAGATTTGGCCAAAACTTCGAGTACTTGCAAGATCATCTCCTACTGATAAGCATACACTGGTTAA AGGTATAATTGACAGCACTGTCTCAGACCAACGCCAGGTTGTAGCTGTAACTGGTGATGGTACAAATGATGGCCCAGCACTAAAGAAAGC AGATGTTGGATTTGCAATGATGTTGCAAGAGCAATTGAATTACTGGAAAAACTACAGGAATCTGGAGAAGTACCAGTGCACAAGCTACAA TCCCTCAAAAAAGTGCTTCAGAGTGAGTTTTGTACAGCTATTCGAGAGGTGTATCAATATATGCATGAAACGATAACTGTTAATGGCTGT CCCGAATTCCGTGCGAGGGCAACAGCAAAGGCAACAGTTGCAGCTTTTGCAGCTAGTGAAGGCCACTCCCACCCTCGAGTAGTTGAACTG CCAAAGACTGATGAAGGCCTTGGTTTTAATGTGATGGGAGGAAAGGAGCAAAATTCCCCCATTTATATCTCTCGCATAATTCCTGGAGGG GTGGCTGAAAGACACGGAGGCCTCAAAAGAGGAGACCAGCTGCTATCAGTGAACGGAGTGAGTGTGGAAGGAGAACACCATGAGAAAGCT GTGGAACTACTCAAGGCTGCTAAAGACAGCGTCAAGCTGGTGGTGCGATACACCCCAAAAGTTCTGGAAGAAATGGAGGCTCGCTTTGAA AAGCTACGAACAGCCAGGCGTCGGCAGCAGCAGCAATTGCTAATTCAGCAGCAGCAACAGCAGCAGCAGCAACAAACACAACAAAACCAC ATGTCATAGGCCCTTGAGGGAAAGCTACTTGATCAAACATCCGATAGTCACAAATTTGAAACCGTGCTTCAGAATCCCAGCACATAGTAA AAGACAACACTGATAATTATACCTGTCAAGAAGCTGTGAACACATGGTGTATAAATTCTTTACCAAGGCAACTCAACACCTTCTTTCTCT GGGCTTGAACCGCCACTGCTCACGTGGGCTTTACATACATTGACCTTCCATTCACTGCAGTGGGAATTCTCAGTGTGCAGAGGGAGAGGT TTTCTAGTCTGCAAACTGAAACAGTGTAAGAAGAATAAAGTCTATGACTTTTAAATAAATCACCAGGGCCAAGATTGAGTGAATCTTGGG TCCATAGCTTTTCCAGATATTAGCAAACCCCTCATTAGGCTATAATTCAAACTGCATCAGTTCAAAGTGAAACCTACACATTGCTCCTTA CCCTCACCTGCTCCACAATCCATAGTGCTGAGTTGTCTGAATTGGAATTCCAGTTAATTGCAAGTTCAACCTGTTTTCCTCTTGAAAATC GCAAGGTATCATACTATATTTATATTTTCTTCAGGTTCTAGAAGCAATCGGCTTTTTCTTTTGTTTCCATGAATTTTATTATGCATTAAT AGAATGGACCAATTTTAGCTCAACTTTTAGTTTGTTAGAAGCAAGTGTAGGAACTCTAGCACTGTAGTTTTTAATTATTGCTTGTATCTA TTATTATTAATTCCAACAGAGTATAATGTATATTTATTCTATAAAATATATATTATCAGAGTGCATTTGTTACAACTTAGGTTCTTTTCT TACCAAGTATTAAGAATCTAGTAAGAGAATACTAGCAAAGGACCTAGCCCTGTGAACAGATTCTCGTATGTTATATACATAAACCCACTC TCAATATTTTTTGAGTTTTATACTTTTTGATTGATAAACACTGAAGAAATCTAAACTCTACTCACACTGATGTGCTGTCATAGAAGCCTA TTTCATATTTTAAAGCTTAGCAAAACTAAATTATATGTGCATATATATTCAAATATTTGTGTCACACAAAGTTTAGGTCAATTTCCCCAA ATATAAACCAGATATTTTTGGCACTCTCAGATAAACAAGTATTATTTCTCTTATAATTGGGCAGGTGGAAACCAGTGATATCAATATTGT GAATGGCAGATGCTGCTTCCTCTAGAAAAATAAAATAAAATCACCAACTTTAATATATTCCCATAGGTAAATAGACAATGAGATATCATT TTTCAGAAAATATCATTCACTGGAAAATAATCTGTTATAACTACATTTACAGGTCATAATTTTTGGTTTATGGTAAATCTAGGCACCTAA GTCTGATTTTACTTTATGAAATAAATAGGAAGCAATAATTGTTTGGGCATTTGAATACCTTAAGCACATAAATGAACCTAAGAAAAGAAT AATTGCTTAGTTGAAGTATTCAAAATAGATCAGTAAACCACAGGCAAATATTTGAATGTTCCCTTTTCTCAAATACAGAAATTGATTCCC CAAGATACAATACAATTTGACACTTCAGATAATCCCCCAAAATAGAAATGTATGAAGCTCAGTTTAGACTGTCTTCTTGAAAATAAAACA AAACCAATCAAAACTACCCAGCACATTTTATTATGCCCTGTTGGGTGATAGTATTGTCAATACCAGGTTTTCCCTGCTCTTCACAATGCA TCCCTCACCAGAGGAAAAACAGCAAGAAAACTAGGACATTTGCTAATTTCAACAATACACCCCTGTGATAACAGATTCCCATCCTTGAAT ACATATCATTTTTTACTAGAGAGAACGGGGGTGGTGAGGTGGGGGCAGTTAGGACCCTGTATGTTATGTAAAATAGATTTACAAAAAGGA CAAGCATGATAAAAGGGAATGAATGGAGACGATGTATTATTCAGTTTGAAAGAGATAGTTCACATTTTTATAAGAAAAATTTAATAAAAC ATATATTTTAGTTATCATTTAACAAAGATATATTAAAGCTATTCAGGCAATGCCACAGGATTCTCATGAAGGGAAATCACTGAACCCTTG TCATGAGAAAATGGTCATTTCAACACATTTCAATACATTGTATAAATTTGGAGCTTAAGGTGAGTGAGTATGTTTTCACTTAGTCATAAA TGTTTGGTCAAAATTAAAGTTATCATATGGTTTCACATCAATACAAATATTGTCACAGTGTTACAGAAACAACTATCAAATGGTAAGATA GTTTACATTTGTGTTTTCTAGAAACCTTTGTATTTATGCTTCATTTGGTTAATGTTAAGTGCTGATAAAGGCATACCAGATTGTTTGTCA AAGTAAAGAAGCAATCCATCACACCTAGGACATCTAAGGATGGATTATACGTCAGAGTGGTCTCATATACAAATGACCATTTTCCTTCAG TAAAATCTTGTTGGTTGAAATGTAAGTCTTTTCCTAAAGTTTTAATCAGAGGTAGCCATCACTAAGACTTAAGCCACCTGTGGTTCTCTT AAGTTTCACTGAAGCCAGAAGAAGGAAATTACCACAACTTGTATTATACTAATTATCTTCATTATTAACGATCATATTAGAGCCACTGAC ATGTCCCAAATTATATTAAAATAAAAACCTGCATTGCTCTGACATGAAGCTCAATTCAATGTAATAAACAAATTAGGTATTAAACGTTAT AATTTAAAAAACTTCTACGATATCACCAGAAATCCTGGTGAAATTTAATTTTTTCCCTTTTTTAGGTCAGTGGCCGGTGGGATAGATTTT TCTAAACTTTTTCCTGCTATGATTTTGAAGGCAAATACATAGAGCACAGTTCAGTAAAAGAGTTTCCAAGCCTTTTCACTGGAGCATTTA CATTTTGATTCTGTTGTCATTTGAAATAGAACATCTGCAGGGAGATAATGAGCTTAAGTTACAATTGACTTTGGAAAGAATAACAGACTT TTGTGTTTCCTCAATCATGTAGTCAATAGGGAATTCTCCAGTTATGTGAACAATCACAGTCTTTTAAGACAATACTTAGATCTAAATGCA AAATCTAGCATGCAGAGGCTTTTTAAGGATTTTAGACTGTCTCCAAAGAACTTGGCTCGAGATGGATTACACAGATTTACAAATGCAGTT TTCAACTGTGACATCAAACTGATCTTATCTCATTTCATGTTACTCAACTGTGCCCGTAGGACCCCAAGAGGTGGAATATTTTGTCTACAT TATTTTAAACATCTATAGATATGTGTGGATGTGTGAATAATGCCTAAATTTCTCATCTTTTAACTAGTTTGTTTTTATCATACAGACACA GCCTGTTCATAAGACCAGCTTTAGACAACTTAGAACTCAATGCTCTGAAGATTCAGGGAGGCCAACATAGAAAAAGATCTTCCAAAATAT GGGGTGGTCCAACCCATCTCATCCCTCTCTAGCTGGAAAACTATAGAGAAAGGGCTGTGACTGCCTTGACCACTGCCTGGCACAATGTAG GCACTCGGTATTTGTTGGATGAATAAGTGGCTGAATCAGTGAATAGACAAAAAACATGGATTTTGCCTTCTGAAAATCTCACAAATTTTA CCAGCTTATATTATACTGATTGTCACTATGATTTCTAAGTTTCATGGTTAGAACCATATTTTGAGTCTATATAAAAACTTTTTAGATGTA TGAATTTGAAATTTCATTAATTACTTTAAAGGCTTCAAAGATTTGAGGACATTTGAACAGTGGATAAGGAACAATGTTTGGGGATACAGA GTTTTTATGCTGAGTTGAACTCAACCTTTCTAGTTCTTTATACAAGCTTCCTGAATTATCTGGCAGGAATGATTCAAACATAAAACCCCA TTTTTAAATTTTATAAAAGATATTTTCATTTTTATATAAAAAGATCATCAGGCATATTATCCCCTTTGATATTTATTAACAACCATTCTC TAAGAAATTCATAATAATTGGAGACACCATCCCTAAATCTCTTCCTATTTTCAAAAGATCATTTATCCTTTCATATTTGATTCCTGGAAT ACACTAAGCTGAAGTTTAATCACATACTTACTCAGATGTTTCCATGTGTTTATTCATTTAACAAATACTTATTGTGTACCTAGTGCATGC TAGGTTCTGGAAATGCAACAGCAAACAAGACAGACACAATCCCTCTTGGAGGTTACTGTGAGAAACTCTCCAACATTTACTCTAGCAATA ACTAGAGAGTTTACTGTCCATTGGGTCCTCTTCACACCTGATAGAAAAAATAAAATTCCTCACCCCATGGAAGTCATGAAATACTCCCTG CACAGATTTGTGTGAGCTTGCTTTTCTAAAACCACTGCTCAAAAATGCTGCTTAGTTTATCTATAAACCACGGTTATACCCCAGTGAGGT AGGTAAGTAATTTATTCATAACTAACATTTATGCAGCTCTATTTTCTAGCCACTGTGCTGAGTGCTTTTATGGACTATCTCACCAAATCC CTTCAACAACTCTATTCAGTAGGTTCCATTTTATAGATACAAAAACTGAAGCACAGATATATTATGTGACTTGTCCAAGGTCACACAGCT AGCAGGTGGAACTGGGATTTGAACCCATGCAATCTGACACAAGAGTTCATGTGTCTAATCATTATCTGTGGTTTGGGGGACACCATTACA TTAAAATGAATGAGTCACTAAGTGAGTCACTGTATATAAAATACTTGGAAATTGTAAAGTAATATACAAAAGATATTAACAAAGTATTAT TCATGGTAAACAAATCACATCAGTAGCAAACACAGGGTGGGAACTCAATCTTATGTTATAGCTTACTCTTAAGAAGAATATGTGAAGCCA GGAACATGGTTAAAGGTACAGACCAGAAAATTTCTGACATGTGATAAATATTTCAGTGACTTTTCAGATTTATTTCTTGTTAGCCGCTGT GTCTATTTGGTGCTACAAAAACTGAAAGAAACAAAATCCCTGATGTAAGGGCTTATAATAAATACACAGTTTGGAGATGAACTAAGGATA TTTTACATTTACGGGAAAGGATTGGACAATAGTATCATTTTCTCACCATTTGCATGTACATCATGTCTTTCCAATTGTTTTCATTATTTT >7856_7856_5_ATP2B1-LIN7A_ATP2B1_chr12_90003714_ENST00000428670_LIN7A_chr12_81283148_ENST00000552864_length(amino acids)=862AA_BP=814 MGDMANNSVAYSGVKNSLKEANHDGDFGITLAELRALMELRSTDALRKIQESYGDVYGICTKLKTSPNEGLSGNPADLERREAVFGKNFI PPKKPKTFLQLVWEALQDVTLIILEIAAIVSLGLSFYQPPEGDNALCGEVSVGEEEGEGETGWIEGAAILLSVVCVVLVTAFNDWSKEKQ FRGLQSRIEQEQKFTVIRGGQVIQIPVADITVGDIAQVKYGDLLPADGILIQGNDLKIDESSLTGESDHVKKSLDKDPLLLSGTHVMEGS GRMVVTAVGVNSQTGIIFTLLGAGGEEEEKKDEKKKEKKNKKQDGAIENRNKAKAQDGAAMEMQPLKSEEGGDGDEKDKKKANLPKKEKS VLQGKLTKLAVQIGKAGLLMSAITVIILVLYFVIDTFWVQKRPWLAECTPIYIQYFVKFFIIGVTVLVVAVPEGLPLAVTISLAYSVKKM MKDNNLVRHLDACETMGNATAICSDKTGTLTMNRMTVVQAYINEKHYKKVPEPEAIPPNILSYLVTGISVNCAYTSKILPPEKEGGLPRH VGNKTECALLGLLLDLKRDYQDVRNEIPEEALYKVYTFNSVRKSMSTVLKNSDGSYRIFSKGASEIILKKCFKILSANGEAKVFRPRDRD DIVKTVIEPMASEGLRTICLAFRDFPAGEPEPEWDNENDIVTGLTCIAVVGIEDPVRPEVPDAIKKCQRAGITVRMVTGDNINTARAIAT KCGILHPGEDFLCLEGKDFNRRIRNEKGEIEQERIDKIWPKLRVLARSSPTDKHTLVKGIIDSTVSDQRQVVAVTGDGTNDGPALKKADV -------------------------------------------------------------- |
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Fusion Gene PPI Analysis for ATP2B1-LIN7A |
| 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 ATP2B1-LIN7A |
| 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 ATP2B1-LIN7A |
| Diseases associated with fusion partners. (DisGeNet 4.0) |
| Partner | Gene | Disease ID | Disease name | # pubmeds | Source |
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