UTHEALTH HOME ABOUT SBMI A-Z WEBMAIL INSIDE THE UNIVERSITY |
|
Kinase Fusion Gene:WNK1_ATP6V1G1 |
Kinase Fusion Protein Summary |
Kinase Fusion gene summary |
Kinase Fusion partner gene information | Kinase Fusion gene name: WNK1_ATP6V1G1 | KinaseFusionDB ID: KFG7133 | FusionGDB2.0 ID: KFG7133 | Hgene | Tgene | Gene symbol | WNK1 | ATP6V1G1 | Gene ID | 65125 | 9550 | |
Gene name | WNK lysine deficient protein kinase 1 | ATPase H+ transporting V1 subunit G1 | ||||||||||
Synonyms | HSAN2|HSN2|KDP|PPP1R167|PRKWNK1|PSK|p65 | ATP6G|ATP6G1|ATP6GL|ATP6J|Vma10 | ||||||||||
Cytomap | 12p13.33 | 9q32 | ||||||||||
Type of gene | protein-coding | protein-coding | ||||||||||
Description | serine/threonine-protein kinase WNK1erythrocyte 65 kDa proteinprostate-derived sterile 20-like kinaseprotein kinase with no lysine 1protein phosphatase 1, regulatory subunit 167serine/threonine-protein kinase WNK1 1serine/threonine-protein kinase WN | V-type proton ATPase subunit G 1ATPase, H+ transporting, lysosomal (vacuolar proton pump), member JATPase, H+ transporting, lysosomal 13kDa, V1 subunit G1V-ATPase 13 kDa subunit 1V-ATPase subunit G 1vacuolar ATP synthase subunit M16vacuolar H(+)-ATP | ||||||||||
Modification date | 20240403 | 20240411 | ||||||||||
UniProtAcc | Q9H4A3 | O75348 | ||||||||||
Ensembl transtripts involved in fusion gene | ENST ids | ENST00000315939, ENST00000340908, ENST00000530271, ENST00000535572, ENST00000537687, ENST00000447667, ENST00000540360, ENST00000574564, | ENST00000473413, ENST00000374050, | |||||||||
Context (manual curation of fusion genes in KinaseFusionDB) | PubMed: WNK1 [Title/Abstract] AND ATP6V1G1 [Title/Abstract] AND fusion [Title/Abstract] | |||||||||||
Most frequent breakpoint (based on all fusion genes of FusionGDB 2.0) | WNK1(998389)-ATP6V1G1(117359849), # samples:1 |
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 | WNK1 | GO:0006468 | protein phosphorylation | 10660600 |
Hgene | WNK1 | GO:0006884 | cell volume homeostasis | 36318922 |
Hgene | WNK1 | GO:0007165 | signal transduction | 16669787 |
Hgene | WNK1 | GO:0010793 | regulation of mRNA export from nucleus | 29196535 |
Hgene | WNK1 | GO:0031397 | negative regulation of protein ubiquitination | 33964204 |
Hgene | WNK1 | GO:0035556 | intracellular signal transduction | 10660600 |
Hgene | WNK1 | GO:0045050 | protein insertion into ER membrane by stop-transfer membrane-anchor sequence | 33964204 |
Hgene | WNK1 | GO:0071474 | cellular hyperosmotic response | 15883153|17190791|34289367|36318922 |
Hgene | WNK1 | GO:0140694 | non-membrane-bounded organelle assembly | 36318922 |
Hgene | WNK1 | GO:1903490 | positive regulation of mitotic cytokinesis | 21220314 |
Hgene | WNK1 | GO:1904595 | positive regulation of termination of RNA polymerase II transcription | 29196535 |
Kinase Fusion gene breakpoints across WNK1 (5'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
Kinase Fusion gene breakpoints across ATP6V1G1 (3'-gene) * Click on the image to open the UCSC genome browser with custom track showing this image in a new window. |
Top |
Kinase Fusion Gene Sample Information |
Kinase Fusion gene information. |
Kinase Fusion gene information from four resources (ChiTars 5.0, ChimerDB 4.0, COSMIC, and CCLE) * 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 | Sample | Hgene | Hchr | Hbp | Tgene | Tchr | Tbp |
ChimerDB4 | TCGA-DX-A3UA | WNK1 | chr12 | 998389 | ATP6V1G1 | chr9 | 117359849 |
Top |
Kinase Fusion ORF Analysis |
Kinase Fusion information from ORFfinder translation from full-length transcript sequence from KinaseFusionDB. |
Henst | Tenst | Hgene | Hchr | Hbp | Tgene | Tchr | Tbp | Seq length (transcript) | Seq length (amino acids) |
ENST00000535572 | ENST00000374050 | WNK1 | chr12 | 998389 | ATP6V1G1 | chr9 | 117359849 | 6484 | 1675 |
Top |
Kinase Fusion Amino Acid Sequences |
For individual full-length fusion transcript sequence from KinaseFusionDB, we ran ORFfinder and chose the longest ORF among the all predicted ones. |
>Henst_Tenst_Hgene_Hchr_Hbp_Tgene_Tchr_Tbp_length(fusion AA)_AAseq >ENST00000535572_ENST00000374050_WNK1_chr12_998389_ATP6V1G1_chr9_117359849_length(amino acids)=1675 MSVLSEASSGSARTRPAAVPCRPLRGRLGPSRPFRSRIRARSPLSSEPTMSGGAAEKQSSTPGSLFLSPPAPAPKNGSSSDSSVGEKLGA AAADAVTGRTEEYRRRRHTMDKDSRGAAATTTTTEHRFFRRSVICDSNATALELPGLPLSLPQPSIPAAVPQSAPPEPHREETVTATATS QVAQQPPAAAAPGEQAVAGPAPSTVPSSTSKDRPVSQPSLVGSKEEPPPARSGSGGGSAKEPQEERSQQQDDIEELETKAVGMSNDGRFL KFDIEIGRGSFKTVYKGLDTETTVEVAWCELQDRKLTKSERQRFKEEAEMLKGLQHPNIVRFYDSWESTVKGKKCIVLVTELMTSGTLKT YLKRFKVMKIKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDE SVDVYAFGMCMLEMATSEYPYSECQNAAQIYRRVTSGVKPASFDKVAIPEVKEIIEGCIRQNKDERYSIKDLLNHAFFQEETGVRVELAE EDDGEKIAIKLWLRIEDIKKLKGKYKDNEAIEFSFDLERDVPEDVAQEMVESGYVCEGDHKTMAKAIKDRVSLIKRKREQRQLVREEQEK KKQEESSLKQQVEQSSASQTGIKQLPSASTGIPTASTTSASVSTQVEPEEPEADQHQQLQYQQPSISVLSDGTVDSGQGSSVFTESRVSS QQTVSYGSQHEQAHSTGTVPGHIPSTVQAQSQPHGVYPPSSVAQGQSQGQPSSSSLTGVSSSQPIQHPQQQGIQQTAPPQQTVQYSLSQT STSSEATTAQPVSQPQAPQVLPQVSAGKQSTQGVSQVAPAEPVAVAQTQATQPTTLASSVDSAHSDVASGMSDGNENVPSSSGRHEGRTT KRHYRKSVRSRSRHEKTSRPKLRILNVSNKGDRVVECQLETHNRKMVTFKFDLDGDNPEEIATIMVNNDFILAIERESFVDQVREIIEKA DEMLSEDVSVEPEGDQGLESLQGKDDYGFSGSQKLEGEFKQPIPASSMPQQIGIPTSSLTQVVHSAGRRFIVSPVPESRLRESKVFPSEI TDTVAASTAQSPGMNLSHSASSLSLQQAFSELRRAQMTEGPNTAPPNFSHTGPTFPVVPPFLSSIAGVPTTAAATAPVPATSSPPNDIST SVIQSEVTVPTEEGIAGVATSTGVVTSGGLPIPPVSESPVLSSVVSSITIPAVVSISTTSPSLQVPTSTSEIVVSSTALYPSVTVSATSA SAGGSTATPGPKPPAVVSQQAAGSTTVGATLTSVSTTTSFPSTASQLCIQLSSSTSTPTLAETVVVSAHSLDKTSHSSTTGLAFSLSAPS SSSSPGAGVSSYISQPGGLHPLVIPSVIASTPILPQAAGPTSTPLLPQVPSIPPLVQPVANVPAVQQTLIHSQPQPALLPNQPHTHCPEV DSDTQPKAPGIDDIKTLEEKLRSLFSEHSSSGAQHASVSLETSLVIESTVTPGIPTTAVAPSKLLTSTTSTCLPPTNLPLGTVALPVTPV VTPGQVSTPVSTTTSGVKPGTAPSKPPLTKAPVLPVGTELPAGTLPSEQLPPFPGPSLTQSQQPLEDLDAQLRRTLSPEMITVTSAVGAL -------------------------------------------------------------- |
Multiple Sequence Alignment of All Fusion Protein Isoforms |
Top |
Kinase Fusion Protein Functional Features |
Four levels of functional features of fusion genes Go to FGviewer search page for the most frequent breakpoint (https://ccsmweb.uth.edu/FGviewer/chr12:998389/chr9:117359849) - 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. |
Main function of each fusion partner protein. (from UniProt) |
Hgene | Tgene |
WNK1 | ATP6V1G1 |
FUNCTION: Serine/threonine-protein kinase component of the WNK1-SPAK/OSR1 kinase cascade, which acts as a key regulator of blood pressure and regulatory volume increase by promoting ion influx (PubMed:15883153, PubMed:17190791, PubMed:31656913, PubMed:34289367, PubMed:36318922). WNK1 mediates regulatory volume increase in response to hyperosmotic stress by acting as a molecular crowding sensor, which senses cell shrinkage and mediates formation of a membraneless compartment by undergoing liquid-liquid phase separation (PubMed:36318922). The membraneless compartment concentrates WNK1 with its substrates, OXSR1/OSR1 and STK39/SPAK, promoting WNK1-dependent phosphorylation and activation of downstream kinases OXSR1/OSR1 and STK39/SPAK (PubMed:15883153, PubMed:16263722, PubMed:17190791, PubMed:19739668, PubMed:21321328, PubMed:22989884, PubMed:25477473, PubMed:34289367, PubMed:36318922). Following activation, OXSR1/OSR1 and STK39/SPAK catalyze phosphorylation of ion cotransporters SLC12A1/NKCC2, SLC12A2/NKCC1, SLC12A5/KCC2 and SLC12A6/KCC3, regulating their activity (PubMed:16263722, PubMed:21321328). Phosphorylation of Na-K-Cl cotransporters SLC12A2/NKCC1 and SLC12A2/NKCC1 promote their activation and ion influx; simultaneously, phosphorylation of K-Cl cotransporters SLC12A5/KCC2 and SLC12A6/KCC3 inhibit their activity, blocking ion efflux (PubMed:19665974, PubMed:21321328). Also acts as a regulator of angiogenesis in endothelial cells via activation of OXSR1/OSR1 and STK39/SPAK: activation of OXSR1/OSR1 regulates chemotaxis and invasion, while STK39/SPAK regulates endothelial cell proliferation (PubMed:25362046). Also acts independently of the WNK1-SPAK/OSR1 kinase cascade by catalyzing phosphorylation of other substrates, such as SYT2, PCF11 and NEDD4L (PubMed:29196535). Mediates phosphorylation of SYT2, regulating SYT2 association with phospholipids and membrane-binding (By similarity). Regulates mRNA export in the nucleus by mediating phosphorylation of PCF11, thereby decreasing the association between PCF11 and POLR2A/RNA polymerase II and promoting mRNA export to the cytoplasm (PubMed:29196535). Acts as a negative regulator of autophagy (PubMed:27911840). Required for the abscission step during mitosis, independently of the WNK1-SPAK/OSR1 kinase cascade (PubMed:21220314). May also play a role in actin cytoskeletal reorganization (PubMed:10660600). Also acts as a scaffold protein independently of its protein kinase activity: negatively regulates cell membrane localization of various transporters and channels, such as SLC4A4, SLC26A6, SLC26A9, TRPV4 and CFTR (By similarity). Involved in the regulation of epithelial Na(+) channel (ENaC) by promoting activation of SGK1 in a kinase-independent manner: probably acts as a scaffold protein that promotes the recruitment of SGK1 to the mTORC2 complex in response to chloride, leading to mTORC2-dependent phosphorylation and activation of SGK1 (PubMed:36373794). Acts as an assembly factor for the ER membrane protein complex independently of its protein kinase activity: associates with EMC2 in the cytoplasm via its amphipathic alpha-helix, and prevents EMC2 ubiquitination and subsequent degradation, thereby promoting EMC2 stabilization (PubMed:33964204). {ECO:0000250|UniProtKB:P83741, ECO:0000250|UniProtKB:Q9JIH7, ECO:0000269|PubMed:10660600, ECO:0000269|PubMed:15883153, ECO:0000269|PubMed:16263722, ECO:0000269|PubMed:17190791, ECO:0000269|PubMed:19665974, ECO:0000269|PubMed:19739668, ECO:0000269|PubMed:21220314, ECO:0000269|PubMed:21321328, ECO:0000269|PubMed:22989884, ECO:0000269|PubMed:25362046, ECO:0000269|PubMed:25477473, ECO:0000269|PubMed:27911840, ECO:0000269|PubMed:29196535, ECO:0000269|PubMed:31656913, ECO:0000269|PubMed:33964204, ECO:0000269|PubMed:34289367, ECO:0000269|PubMed:36318922, ECO:0000269|PubMed:36373794}.; FUNCTION: [Isoform 3]: Kinase-defective isoform specifically expressed in kidney, which acts as a dominant-negative regulator of the longer isoform 1 (PubMed:14645531). Does not directly inhibit WNK4 and has no direct effect on sodium and chloride ion transport (By similarity). Down-regulates sodium-chloride cotransporter activity indirectly by inhibiting isoform 1, it associates with isoform 1 and attenuates its kinase activity (By similarity). In kidney, may play an important role regulating sodium and potassium balance (By similarity). {ECO:0000250|UniProtKB:Q9JIH7, ECO:0000269|PubMed:14645531}. | FUNCTION: Subunit of the V1 complex of vacuolar(H+)-ATPase (V-ATPase), a multisubunit enzyme composed of a peripheral complex (V1) that hydrolyzes ATP and a membrane integral complex (V0) that translocates protons (PubMed:33065002, PubMed:32001091). V-ATPase is responsible for acidifying and maintaining the pH of intracellular compartments and in some cell types, is targeted to the plasma membrane, where it is responsible for acidifying the extracellular environment (PubMed:32001091). In aerobic conditions, involved in intracellular iron homeostasis, thus triggering the activity of Fe(2+) prolyl hydroxylase (PHD) enzymes, and leading to HIF1A hydroxylation and subsequent proteasomal degradation (PubMed:28296633). {ECO:0000269|PubMed:28296633, ECO:0000269|PubMed:33065002, ECO:0000303|PubMed:32001091}. |
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. |
- Retained domain in the 5'-partner of fusion protein (protein functional feature from UniProt). |
Partner | Hgeneene | Hbp | Tgeneene | Tbp | ENST | BPexon | TotalExon | Protein feature loci | BPloci | TotalLen | Feature | Note |
Hgene | WNK1 | 998389 | ATP6V1G1 | 117359849 | ENST00000535572 | 18 | 25 | 221_479 | 14091 | 1976 | Domain | Note=Protein kinase;Ontology_term=ECO:0000255;evidence=ECO:0000255|PROSITE-ProRule:PRU00159 |
Hgene | WNK1 | 998389 | ATP6V1G1 | 117359849 | ENST00000535572 | 21 | 28 | 221_479 | 18161 | 2383 | Domain | Note=Protein kinase;Ontology_term=ECO:0000255;evidence=ECO:0000255|PROSITE-ProRule:PRU00159 |
Hgene | WNK1 | 998389 | ATP6V1G1 | 117359849 | ENST00000535572 | 21 | 28 | 221_479 | 20761 | 2643 | Domain | Note=Protein kinase;Ontology_term=ECO:0000255;evidence=ECO:0000255|PROSITE-ProRule:PRU00159 |
- Retained domain in the 3'-partner of fusion protein (protein functional feature from UniProt). |
Partner | Hgeneene | Hbp | Tgeneene | Tbp | ENST | BPexon | TotalExon | Protein feature loci | BPloci | TotalLen | Feature | Note |
Top |
Kinase Fusion Protein Structures |
CIF files of the predicted kinase fusion proteins * Here we show the 3D structure of the fusion proteins using Mol*. AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. Model confidence is shown from the pLDDT values per residue. pLDDT corresponds to the model’s prediction of its score on the local Distance Difference Test. It is a measure of local accuracy (from AlphfaFold website). To color code individual residues, we transformed individual PDB files into CIF format. |
Kinase Fusion protein CIF link (fusion AA seq ID in KinaseFusionDB) | Henst | Tenst | Hgene | Hchr | Hbp | Tgene | Tchr | Tbp | AA seq | Len(AA seq) |
PDB file >>>301_WNK1_ATP6V1G1 | ENST00000535572 | ENST00000374050 | WNK1 | chr12 | 998389 | ATP6V1G1 | chr9 | 117359849 | MSVLSEASSGSARTRPAAVPCRPLRGRLGPSRPFRSRIRARSPLSSEPTMSGGAAEKQSSTPGSLFLSPPAPAPKNGSSSDSSVGEKLGA AAADAVTGRTEEYRRRRHTMDKDSRGAAATTTTTEHRFFRRSVICDSNATALELPGLPLSLPQPSIPAAVPQSAPPEPHREETVTATATS QVAQQPPAAAAPGEQAVAGPAPSTVPSSTSKDRPVSQPSLVGSKEEPPPARSGSGGGSAKEPQEERSQQQDDIEELETKAVGMSNDGRFL KFDIEIGRGSFKTVYKGLDTETTVEVAWCELQDRKLTKSERQRFKEEAEMLKGLQHPNIVRFYDSWESTVKGKKCIVLVTELMTSGTLKT YLKRFKVMKIKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDE SVDVYAFGMCMLEMATSEYPYSECQNAAQIYRRVTSGVKPASFDKVAIPEVKEIIEGCIRQNKDERYSIKDLLNHAFFQEETGVRVELAE EDDGEKIAIKLWLRIEDIKKLKGKYKDNEAIEFSFDLERDVPEDVAQEMVESGYVCEGDHKTMAKAIKDRVSLIKRKREQRQLVREEQEK KKQEESSLKQQVEQSSASQTGIKQLPSASTGIPTASTTSASVSTQVEPEEPEADQHQQLQYQQPSISVLSDGTVDSGQGSSVFTESRVSS QQTVSYGSQHEQAHSTGTVPGHIPSTVQAQSQPHGVYPPSSVAQGQSQGQPSSSSLTGVSSSQPIQHPQQQGIQQTAPPQQTVQYSLSQT STSSEATTAQPVSQPQAPQVLPQVSAGKQSTQGVSQVAPAEPVAVAQTQATQPTTLASSVDSAHSDVASGMSDGNENVPSSSGRHEGRTT KRHYRKSVRSRSRHEKTSRPKLRILNVSNKGDRVVECQLETHNRKMVTFKFDLDGDNPEEIATIMVNNDFILAIERESFVDQVREIIEKA DEMLSEDVSVEPEGDQGLESLQGKDDYGFSGSQKLEGEFKQPIPASSMPQQIGIPTSSLTQVVHSAGRRFIVSPVPESRLRESKVFPSEI TDTVAASTAQSPGMNLSHSASSLSLQQAFSELRRAQMTEGPNTAPPNFSHTGPTFPVVPPFLSSIAGVPTTAAATAPVPATSSPPNDIST SVIQSEVTVPTEEGIAGVATSTGVVTSGGLPIPPVSESPVLSSVVSSITIPAVVSISTTSPSLQVPTSTSEIVVSSTALYPSVTVSATSA SAGGSTATPGPKPPAVVSQQAAGSTTVGATLTSVSTTTSFPSTASQLCIQLSSSTSTPTLAETVVVSAHSLDKTSHSSTTGLAFSLSAPS SSSSPGAGVSSYISQPGGLHPLVIPSVIASTPILPQAAGPTSTPLLPQVPSIPPLVQPVANVPAVQQTLIHSQPQPALLPNQPHTHCPEV DSDTQPKAPGIDDIKTLEEKLRSLFSEHSSSGAQHASVSLETSLVIESTVTPGIPTTAVAPSKLLTSTTSTCLPPTNLPLGTVALPVTPV VTPGQVSTPVSTTTSGVKPGTAPSKPPLTKAPVLPVGTELPAGTLPSEQLPPFPGPSLTQSQQPLEDLDAQLRRTLSPEMITVTSAVGAL | 1675 |
3D view using mol* of 301_WNK1_ATP6V1G1 | ||||||||||
PDB file >>>HKFP_439_WNK1_ATP6V1G1 | ENST00000535572 | ENST00000374050 | WNK1 | chr12 | 998389 | ATP6V1G1 | chr9 | 117359849 | MSVLSEASSGSARTRPAAVPCRPLRGRLGPSRPFRSRIRARSPLSSEPTMSGGAAEKQSSTPGSLFLSPPAPAPKNGSSSDSSVGEKLGA AAADAVTGRTEEYRRRRHTMDKDSRGAAATTTTTEHRFFRRSVICDSNATALELPGLPLSLPQPSIPAAVPQSAPPEPHREETVTATATS QVAQQPPAAAAPGEQAVAGPAPSTVPSSTSKDRPVSQPSLVGSKEEPPPARSGSGGGSAKEPQEERSQQQDDIEELETKAVGMSNDGRFL KFDIEIGRGSFKTVYKGLDTETTVEVAWCELQDRKLTKSERQRFKEEAEMLKGLQHPNIVRFYDSWESTVKGKKCIVLVTELMTSGTLKT YLKRFKVMKIKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDE SVDVYAFGMCMLEMATSEYPYSECQNAAQIYRRVTSGVKPASFDKVAIPEVKEIIEGCIRQNKDERYSIKDLLNHAFFQEETGVRVELAE EDDGEKIAIKLWLRIEDIKKLKGKYKDNEAIEFSFDLERDVPEDVAQEMVESGYVCEGDHKTMAKAIKDRVSLIKRKREQRQLVREEQEK KKQEESSLKQQVEQSSASQTGIKQLPSASTGIPTASTTSASVSTQVEPEEPEADQHQQLQYQQPSISVLSDGTVDSGQGSSVFTESRVSS QQTVSYGSQHEQAHSTGTVPGHIPSTVQAQSQPHGVYPPSSVAQGQSQGQPSSSSLTGVSSSQPIQHPQQQGIQQTAPPQQTVQYSLSQT STSSEATTAQPVSQPQAPQVLPQVSAGKQSTQGVSQVAPAEPVAVAQTQATQPTTLASSVDSAHSDVASGMSDGNENVPSSSGRHEGRTT KRHYRKSVRSRSRHEKTSRPKLRILNVSNKGDRVVECQLETHNRKMVTFKFDLDGDNPEEIATIMVNNDFILAIERESFVDQVREIIEKA DEMLSEDVSVEPEGDQGLESLQGKDDYGFSGSQKLEGEFKQPIPASSMPQQIGIPTSSLTQVVHSAGRRFIVSPVPESRLRESKVFPSEI TDTVAASTAQSPGMNLSHSASSLSLQQAFSELRRAQMTEGPNTAPPNFSHTGPTFPVVPPFLSSIAGVPTTAAATAPVPATSSPPNDIST SVIQSEVTVPTEEGIAGVATSTGVVTSGGLPIPPVSESPVLSSVVSSITIPAVVSISTTSPSLQVPTSTSEIVVSSTALYPSVTVSATSA SAGGSTATPGPKPPAVVSQQAAGSTTVGATLTSVSTTTSFPSTASQLCIQLSSSTSTPTLAETVVVSAHSLDKTSHSSTTGLAFSLSAPS SSSSPGAGVSSYISQPGGLHPLVIPSVIASTPILPQAAGPTSTPLLPQVPSIPPLVQPVANVPAVQQTLIHSQPQPALLPNQPHTHCPEV DSDTQPKAPGIDDIKTLEEKLRSLFSEHSSSGAQHASVSLETSLVIESTVTPGIPTTAVAPSKLLTSTTSTCLPPTNLPLGTVALPVTPV VTPGQVSTPVSTTTSGVKPGTAPSKPPLTKAPVLPVGTELPAGTLPSEQLPPFPGPSLTQSQQPLEDLDAQLRRTLSPEMITVTSAVGAL | 1675_WNK1_ATP6V1G1 |
Top |
Comparison of Fusion Protein Isoforms |
Superimpose the 3D Structures Among All Fusion Protein Isoforms * Download the pdb file and open it from the molstar online viewer. |
Comparison of the Secondary Structures of Fusion Protein Isoforms |
Top |
Comparison of Fusion Protein Sequences/Structures with Known Sequences/Structures from PDB |
Top |
pLDDT score distribution |
pLDDT score distribution of the predicted fusion protein structures from AlphaFold2 * AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. * The blue color at the bottom marks the best active site residues. |
301_WNK1_ATP6V1G1.png |
301_WNK1_ATP6V1G1.png |
Top |
Potential Active Site Information |
The potential binding sites of these fusion proteins were identified using SiteMap, a module of the Schrodinger suite. |
Kinase Fusion AA seq ID in KinaseFusionDB | Site score | Size | Dscore | Volume | Exposure | Enclosure | Contact | Phobic | Philic | Balance | Don/Acc | Residues |
Top |
Ramachandran Plot of Kinase Fusion Protein Structure |
Ramachandran plot of the torsional angles - phi (φ)and psi (ψ) - of the residues (amino acids) contained in this fusion protein peptide. |
301_WNK1_ATP6V1G1_ramachandran.png |
Top |
Virtual Screening Results |
Distribution of the average docking score across all approved kinase inhibitors. Distribution of the number of occurrence across all approved kinase inhibitors. |
5'-kinase fusion protein case |
3'-kinase fusion protein case |
Top |
Drug information from DrugBank of the top 20 interacting small molecules. * The detailed information of individual kinase inhibitors are available in the download page. |
Fusion gene name info | Drug | Docking score | Glide g score | Glide energy |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Acalabrutinib | -7.9794 | -7.9935 | -51.656000000000006 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Acalabrutinib | -7.9794 | -7.9935 | -51.656000000000006 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Acalabrutinib | -7.61877 | -7.63287 | -46.2262 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Acalabrutinib | -7.61877 | -7.63287 | -46.2262 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Larotrectinib | -7.58745 | -7.58745 | -48.4587 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Larotrectinib | -7.45936 | -7.45936 | -49.1187 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Belumosudil | -7.0637300000000005 | -7.07143 | -52.3532 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Futibatinib | -6.6865 | -6.6865 | -40.39 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Ruxolitinib | -6.60425 | -6.60425 | -25.2686 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Tucatinib | -6.53482 | -6.910019999999999 | -45.4824 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Neratinib | -6.29116 | -6.47346 | -44.4157 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Neratinib | -6.29116 | -6.47346 | -44.4157 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Vandetanib | -6.24723 | -6.24723 | -43.12 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Axitinib | -6.21385 | -6.21705 | -22.773000000000003 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Lapatinib | -6.1237900000000005 | -6.2125900000000005 | -52.5233 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Binimetinib | -6.0961300000000005 | -6.104830000000001 | -43.8374 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Binimetinib | -6.0961300000000005 | -6.104830000000001 | -43.8374 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Imatinib | -5.967890000000001 | -6.1744900000000005 | -44.0202 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Imatinib | -5.967890000000001 | -6.1744900000000005 | -44.0202 |
301_WNK1_ATP6V1G1-DOCK_HTVS_1-001 | Imatinib | -5.967890000000001 | -6.1744900000000005 | -44.0202 |
Top |
Kinase-Substrate Information of WNK1_ATP6V1G1 |
Phosphorylation target of the kinase (phosphosite, 03-17-2024) |
Kinase | Kinase UniProt Acc | Kinase species | Substrate | Substrate UniProt Acc | Substrate phosphorylated residues | Substrate phosphorylated sites (+/-7AA) | Domain |
WNK1 | Q9H4A3 | human | PCF11 | O94913 | S120 | KSLFKLRstWDEIFP | CID |
WNK1 | Q9H4A3 | human | WNK1 | Q9H4A3 | S382 | kRAsFAKsVIGTPEF | Pkinase |
WNK1 | Q9H4A3 | human | SLC12A6 | Q9UHW9 | T991 | SAYTYERtLMMEQRS | SLC12 |
WNK1 | Q9H4A3 | human | OXSR1 | O95747 | S325 | VRRVPGssGRLHKtE | |
WNK1 | Q9H4A3 | human | OXSR1 | O95747 | T185 | TRNKVRktFVGtPCW | Pkinase |
WNK1 | Q9H4A3 | human | SLC12A6 | Q9UHW9 | T1048 | YQEKVHMtWTKDKYM | SLC12 |
WNK1 | Q9H4A3 | human | STK39 | Q9UEW8 | T231 | tRNKVRktFVGtPCW | Pkinase |
WNK1 | Q9H4A3 | human | PCF11 | O94913 | T121 | SLFKLRstWDEIFPL | CID |
WNK1 | Q9H4A3 | human | STK39 | Q9UEW8 | S371 | VRRVPGssGHLHKTE |
Biological Network Integration of This Kinase and Substrates (GeneMANIA website) |
Enriched GO biological processes of the phosphorylation target genes of the kinase |
Kinase | GOID | GO term | P.adjust |
WNK1 | ID | Description | 0.00e+00 |
WNK1 | GO:0006884 | cell volume homeostasis | 1.28e-08 |
WNK1 | GO:0071470 | cellular response to osmotic stress | 3.30e-08 |
WNK1 | GO:0071476 | cellular hypotonic response | 1.01e-07 |
WNK1 | GO:0006970 | response to osmotic stress | 1.01e-07 |
WNK1 | GO:0006971 | hypotonic response | 1.32e-07 |
WNK1 | GO:0010820 | positive regulation of T cell chemotaxis | 1.75e-07 |
WNK1 | GO:0010819 | regulation of T cell chemotaxis | 1.84e-07 |
WNK1 | GO:0055064 | chloride ion homeostasis | 2.62e-07 |
WNK1 | GO:0071474 | cellular hyperosmotic response | 2.62e-07 |
WNK1 | GO:0140131 | positive regulation of lymphocyte chemotaxis | 2.62e-07 |
WNK1 | GO:0055081 | monoatomic anion homeostasis | 2.78e-07 |
WNK1 | GO:1901623 | regulation of lymphocyte chemotaxis | 4.80e-07 |
WNK1 | GO:0006972 | hyperosmotic response | 4.80e-07 |
WNK1 | GO:0010818 | T cell chemotaxis | 4.80e-07 |
WNK1 | GO:0008361 | regulation of cell size | 7.97e-07 |
WNK1 | GO:2000406 | positive regulation of T cell migration | 9.40e-07 |
WNK1 | GO:2000403 | positive regulation of lymphocyte migration | 1.55e-06 |
WNK1 | GO:2000404 | regulation of T cell migration | 2.35e-06 |
WNK1 | GO:0048247 | lymphocyte chemotaxis | 4.98e-06 |
WNK1 | GO:0062197 | cellular response to chemical stress | 4.98e-06 |
WNK1 | GO:2000401 | regulation of lymphocyte migration | 5.33e-06 |
WNK1 | GO:0071214 | cellular response to abiotic stimulus | 5.33e-06 |
WNK1 | GO:0104004 | cellular response to environmental stimulus | 5.33e-06 |
WNK1 | GO:0071677 | positive regulation of mononuclear cell migration | 5.70e-06 |
WNK1 | GO:0072678 | T cell migration | 5.70e-06 |
WNK1 | GO:0032535 | regulation of cellular component size | 7.11e-06 |
WNK1 | GO:0070098 | chemokine-mediated signaling pathway | 1.03e-05 |
WNK1 | GO:0002690 | positive regulation of leukocyte chemotaxis | 1.17e-05 |
WNK1 | GO:1990868 | response to chemokine | 1.19e-05 |
WNK1 | GO:1990869 | cellular response to chemokine | 1.19e-05 |
WNK1 | GO:0018107 | peptidyl-threonine phosphorylation | 1.19e-05 |
WNK1 | GO:0018210 | peptidyl-threonine modification | 1.54e-05 |
WNK1 | GO:0030002 | intracellular monoatomic anion homeostasis | 1.92e-05 |
WNK1 | GO:0030644 | intracellular chloride ion homeostasis | 1.92e-05 |
WNK1 | GO:0072676 | lymphocyte migration | 2.01e-05 |
WNK1 | GO:0071675 | regulation of mononuclear cell migration | 2.01e-05 |
WNK1 | GO:0002688 | regulation of leukocyte chemotaxis | 2.01e-05 |
WNK1 | GO:0030157 | pancreatic juice secretion | 2.10e-05 |
WNK1 | GO:0070294 | renal sodium ion absorption | 2.83e-05 |
WNK1 | GO:0050921 | positive regulation of chemotaxis | 2.83e-05 |
WNK1 | GO:0002687 | positive regulation of leukocyte migration | 3.00e-05 |
WNK1 | GO:0060457 | negative regulation of digestive system process | 3.14e-05 |
WNK1 | GO:0003096 | renal sodium ion transport | 3.95e-05 |
WNK1 | GO:0006369 | termination of RNA polymerase II transcription | 3.95e-05 |
WNK1 | GO:0071674 | mononuclear cell migration | 7.34e-05 |
WNK1 | GO:0071805 | potassium ion transmembrane transport | 8.27e-05 |
WNK1 | GO:0002685 | regulation of leukocyte migration | 9.59e-05 |
WNK1 | GO:0050920 | regulation of chemotaxis | 9.59e-05 |
WNK1 | GO:1901017 | negative regulation of potassium ion transmembrane transporter activity | 9.59e-05 |
Top |
Related Drugs to WNK1_ATP6V1G1 |
Drugs used for this fusion-positive patient. (Manual curation of PubMed, 04-30-2022 + MyCancerGenome) |
Hgene | Tgene | Drug | Source | PMID |
Distribution of the number of studies mentioning WNK1-ATP6V1G1 and kinase inhibitors the PubMed Abstract (04-01-2024) |
Fusion gene - drug pair 1 | Fusion gene - drug pair 2 | PMID | Publication date | DOI | Study title |
Top |
Related Diseases to WNK1_ATP6V1G1 |
Diseases that have this fusion gene. (Manual curation of PubMed, 04-30-2022 + MyCancerGenome) |
Hgene | Tgene | Disease | Source | PMID |
Related diseases from the literature mentioned this fusion gene and drug. (PubMed, 04-01-2024) |
MeSH ID | MeSH term |
Diseases associated with fusion partners. (DisGeNet 4.0) |
Partner | Gene | Disease ID | Disease name | # pubmeds | Source |
Top |
Clinical Trials of the Found Drugs/Small Molecules |
Statistics of the Clinical Trials of the Found Kinase Inibitors from clinicaltrials.gov (06-17-2024) |
Clinical Trials from clinicaltrials.gov (06-17-2024) |
Fusion Gene | Kinase Inhibitor | NCT ID | Study Status | Phases | Disease | # Enrolment | Date |