XLOC_007131 (kcnk4a)


Basic Information

Item Value
gene id XLOC_007131
gene name kcnk4a
gene type coding
species zebrafish (Danio rerio)
category of species model fish

Chromosome Information

Item Value
chromosome id NC_007125.7
NCBI id CM002898.2
chromosome length 52660232
location 8710568 ~ 8755197 (+)
genome version GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00014103
tttaccATTATGTCTCAGGTTTTAGTGTGGGCTGGTGAAATAGGCTGCACAGACACATGAAGAGTGTAGAAGCAACTACAGCAAACATCTGATATGGAGGAGAAGGAGAAATCTGTGGAATTGGATTAAATTCTTTCATAAGATAATGTCATTACTGTGAGCATTTCCCTTGACGTTCCCCTCTACGCTCCAGCAAACCTGATGGACACACGATGACCTGTGTTTCCACAACAGTCCTCCAGCTGGCCTGACGTCACAGCCATGCGCTACTccacactgttgaccatcctgGCGGCGGTGCTGCTGTATTTGGTGCTGGGGGCTTTGGTGTTCGGCTGGCTCGAGTCCTCCAGGGAGGAATGGGCTCATCGGGAGCTGCTCACCTCTCAGATGGCTTTCCTGCAGAACCACAGCTGCGTCACCGCTTACAGTCTGAGGGAGTTCACAGAGAAAGTGGTTGACGCCATTGAGGCAGGTGTGGATGCAAGAAGCACATCAAATTACACCAGCAGATGGGATCCATCCAATGCTTTCTTTTTCTGTGGCACCATAATCACCACCATCGGCTTTGGAAACATCTCACCCAAGACCAAAGGTGGTCAGTTGTTCTGCATATTTTACGCTCTGGTGGGGATCCCCATGTTTGGGATACTGTTAGCCGGGGTTGGAGATCACCTGGGCACCCTGCTGCGGAGAGCCGTGGCCAAGGTGGAGACTTTGTTCTTGCGCAAGGGTGTGAAGCCCACCAGTGTCCGCATAATCTCAGCTGTGTTCTCCATCCTGATTGGCTGCTTGGTCTTCATCGCCGTGCCGACCATGGTGTTTCAGGAAGTGGAGAGCTGGAGCCTGCTGGAAGCGGTGTATTTTGTTGTGATTACACTCACCACGGTGGGCTTTGGGGACTATGTGGCAGAGAACAGGAGAGATGGAACGCCCCTGTACAAGCCATTGGTGTGGTTGTGGATAGTGTTTGGTCTGGCGTATTTTGCATCCATCCTCACGATGATTGGGAACTGGCTTAGAGTCCTTTCAAAGAAGACGCGTGCAGAGATGGAGGAGCTGAGAGCTCACGCCACAGACTGGACTCAAAACATCCAGAACATGTCTATGGACTTCCGTATTCCCGTTCCACTGGATCTTAATGACCCCTTTCAGCTTCAGCGGAGACGCAGAAGGAAGCgccaccaccaccatcatcatcatcatcgccaCCCAAGACCAAACACAACAGGACTGACTCATGGGATCTCTCTTGATGCCGATATTATCAGAGAGAACGGACATCTGATCCTTGGCTGGCCGACATGCAGATACAAACCAGCTTCAGAAGTACTGTCCCAATCCAGGTCAATGAGCAGGATTGATGGAGCGCATTATGAGATGAGACCAGGATCACGGCTGACAGTAGGACCGACGTCGAGATCCATCTCACGGCTAGAGCTAAAACCAGCATCCAGAGCCGGGTCCAGAGCCATTTCCAGATCCCCCTCACAATCCGAATCGGGGTCATTTTCTGCATCCGAGACACCATCTGAGTCCTGGTCGGAATATGAATACGAGTCAAACTCCTGTAACTCAGAGGATGTGGAATCTGGAGCGAAGGCATCACGGAGATCACTGGAAAGTCAGAATGATGTTCCGATTGTGGTAGTTGCAAGCTGCAGTCCACCCCGTCCGTCCCTTCTGGACTTCTTTGGCGAGAACCTAGCCTACATCGACGAGTCTTCCGACGCTCTTAGTGATCGGGTCAAACCGTCAGGACAGAACCGTCAACGCAGACCAAAGAGGAGGAGTATGACAAAGCGGCAGCCTGCTGGACTACAGAGGGAGGTCAGTAATGAACTACAACCCCCATCACATCCTCCGACTCCACCACCTCCAACATCTTAGCTTTCAAAATCACTGTCAAACACTGTCAACCAAAATGACTTGCGTAATGAACTCTGGCTTTCAGAATAGCACACTAcatcttttttaaattatatatacgATAAATCAGATCCTCCACTATTTTGAGATTGCTGTATTTAACGCAAATTGTCGGAAGAtttcccacttttttttttttagttcagtcTGGTTTAAATTCCTGCACCgtcacagagcgccatctgcacaGTTTTACATTCAAAAACAATAGTATTTGAGTATAGAATGTGCTCGTACGGTTTGCAAAGCCTCTCTTGTACACACATTGGATCATTTACATCAATTTGTTCAAATAGTCGTCAAACAATAcggttatttattgtttttatcgcaaatttgaccctggaccacaacaTCAGGGATAAGACTACATTGTTTGGAAATTGAGGTTTATACATCATCTGAGACGCTGATTAAATAAGTTTTATATTGAtgttagtgatgggtcgttcatgaacgattcgttcattttgaacgaatcttcaatatgactcgggaactatagctgcgtcccaaatcgcatacttatgcacttactacgccattttgtagtaaaaatagtataagtagtgtgttcacattgaaaactctaaaaataataagtgcacactttaattacccggattcAGGGTAATTAGacctcattcagccgctaaaatgaagcgtggaatgatggacacatcacgcactcaacgaccgcaggtttgctcacgtagcggaagggcggagctatcgggcgcacatgttggataactttatttattttggatggtgaaagcaaaattttccTACAAAAGTgtttatagcgcctcccgatggtgaatgcggttatactcatggcaggtattattcgataattcggttgtttatttcactgatttggcaaccgtcaaacgtcatcagggaaacggtttgaatttccgcttagtaaaaaaaatgttagtgtgccatttgggacgacaccacacatatactatgctgttgagtgtgtaagtgcataagtacatagtgcatgagtgcatagtgtatagtgtgccatttgggacgcagcttatgagtCCTCTctgggagtgattcgttcatccgtgtgtgtgtgcacatttgtggaggtggtatcgttcattttaagtcttgagtcgttcatcgcggaaaggcggaagtcaatcatatgcgtttagagacAGAAAAAGtattgatccattcatctctcgagtcctctatctgGTTTGAGGCATTTGTtcctcatgggccaatcatatacatttagagccggaaaaagaattgaattgaaaggtgaactaattatcatggctcctattgaCTCAGACTGTGTACCatagttaagattatatgtgactatcagtgtaacgtgaatgaaccactgacatttgaagaggtaaactgagcaaagagacaataccttcatagacaaaagagcaggtaaacattgaattattattttctccttcttatagtattctgtttatgacttatttgtcgtgtgatcaaccttttgggctagttagggaccgagcaccgaacggtgcaaggccctattggaattgctccgtttcttattattattcttccgacttctaccgcggaatgaatcgcggttttgaggggctcaacatgcccgaaaactcacgaaactttgcacacacctcaaaagtggtgaaaatttacgtttattatgggtttcggaagtgggcgtggcaaagtgactcgacagcgccacctataaaaattaaacggacgagcccctgatctacgaatcacgcacatgcacgaaaattggcacacacctcaaacatgccaaaacatacgaaaaagtctcttgaagctatatctcaaacccaacaggaagtcggatatttttaacttcctgcggcgaaaaagtggcatttttgccatttccaggcgttgtattttaacgaactcctcctagggattttatccgatcgacaccaaaattgggtttagtcatctaaaggccttggcgatgttaaattgcaaaagcttttgagttttcggcgatgggcgtgtctgtggtggcctcgcaaactttgatgattcgccacaaaacaggaagttggtataactcaggcatgcattatccgatctgcttcaaaattcacacgtttgataagagtcctgacctgaacacgtttacatgcaaATATCCAGATACAAttgtagcgccacctgctggccacaggaaatgacatgttttacagtgtaacaaactcctcccacaattgtttttgtatcagcaccaaaattgggtggtgttatctgaaagctctagcgatgatatattgtgaagatctagagttttcgcagaggggcgtgtctgtggcggcatgacaaacctcaacgcttcgccatggaacaggaagtccttataactcaaccacaaaaagtctgatcagcctgaaacttcacatggttgataaaagtccacccctgaacacatctacataacaatattgagtcagtcatagcgccacctgctggcagaaggtagtttggcttataactcagccacacaatgtctgatctgcctgaaacttcacatggttgattaaattcctctcctgaagacatctacatgcccatagagtcacagtcatagcgccacctgctgacaaaaggcagtttggcttataactcggctaaacaatgtccgatctgcctcaCAGTTATAGCGACAcatgctgacaggaggaagtttggcataaatcttagattttctcagattttttaaatatctcagcttaaattattattgtttcctcttctctgtcatcctgcggccactgggcggcggtgagcccgggtgcgaggtccctatcatcgctgcttgcagctttaattatagatgtgtttggaagcaattcgtaacattttaataatattttggcaaattcaaccaaatgaacaaaatgactcgaaaaaagatttgttcatctcgatgaacgagactcaaagatccgagtcagtaaaatgatccgaacttcccatcactgaTTGATGTTTGGTTTGTTAGAATAGGTCTTTTTGGCAGAAATACAACTATTAGCAAATCTTTAATCTGAGGgttttaaaaagctaaataatttggaaataatttttttaagttaataataataattcttcacATTTATAAAGCGCATTTCTGcacactcaaatcgctttacacattttaggGGGGATCTCCTCATTCATCACCAGTGTGAAGCATCAACCTGGATAACACGACGGCAGcaatattgcgccagaccgcacaccacaccaATGGATGCAGACATGATGCAGTTTCAGACCGATGCAATCTCGGCCGCGCATGCGCATTTATATCGATGCAATCTCAGATGCTCACACACATTTTAACATGTGTATTCTCGTGCACGTTGTGGCGGGTCAAAGACGGAATTACGGCAAAATACGGTTTACAAACTAAAGGTACGACTGACAAAATAAATTCCTATGTATCTATACACATAACTATAAGAGAAAGTGTGCCCGCTTGTGCATGTGTGGCTGAGTGCTTTCTGATTGCGAATGCCTAGCTGAGATTGCATTAATCTGAATGCGCATGTCTGGCTGAGATTGCATCGGTCTGAGACTGCATcatgtctgcatccagacccttctccaccacacaccagctgattggtggagaggagacagagtactGAAGCCAATTATAACataggatggttaggaggccatgatgaacaaAGGCCAGTAGGCAAATTTGGCTAGAATGCTGGTGTTCGACCCTAccctttttttgaaggacatccagGGGACAGGACCTAGGTTTACATGTCATCTGAAAGATGGTGCCCACTGAGcaatatagagtccccatcaatatactggggcgttaggacccacacaaaccgcaggttgagcgccccctgctagtctcactaacaccactgcttagcttcagtggacaaccatgtgagagttgctggCGTTtgtataaatgttatatttacaataattgtTGTGTAAATTAAGACAAATTCTTAGAAATGCATATAAGTATTCagaattttgatatatttatggaGGGAAATTTACAAAACGGCTTCATGGAAGCTGATGCTTACTTATTATTCTAATGATTATTGGCAAAACATAAAAATGCACAATTAACCCTTTCATGCATGGCGTCCACATTTGTGGacagttaatttaacttaatttaaggtTCATTAATCATGGTAATTTTCTCCAAACCACTTGAGGGCAGTGTCGGTAGACTGTCAGCAGCATTGTCACAGTGGCTACTCTTTTGCATTCCAGttattagctgcgtcccaaatggcacactatacactatgcactcatgcactatgtacttatgcacttacacactcaacaggatagtatatgtatgtagtggcgtcccaaatggcacaataACGTTTTTTtgctaagcggaaattcaaaccgtttccctgatgacgtttgacggttgccaaatcactgaaataaacgaccgaattatcaagtaatacctgccgtgagtattgccgaattcaccatcgggaggcgctataatcactctcgtaggagaattttgctttcaccacccaaataaataaagttatccaacatgtgcgcccgatagctccacccttccgctacgtaagcaaacctgcggtcgttgagtgcgtgaagtgtccatcattacacacttcattttagcggctgaataagtgcatcatccgggttattaaagtgcacttattatttttagagttttcaatgtgaacacactacttacactatttatactacaaaatggcgtagaatagtgcataagtatgcgatttgggacgcagctattctTTGCTTGATGACATCATTAATCCAAGATGGCCGACAGTGATGGCCGTGTGCTAAATGCCTCAGACATATCTATAAAAAACGTTTATTTAAGGGGGGCAACTGAGGTGAAAAAATATCAGTATGTACAGAAAAGTATGATGAATAtgttagtaatttattaaatttagtgtaaaatgtagtttttattcaccAAAAACCAACTTTCCACATATGTCGACATCTTGCAACAGAGTCAGATTGCATAAAAGtcctttttttctgtaacctgctAGTatctattctttttttaaagatgttataAATTCCTTATTACAATATAAAACGGACATTTAACAattatattaacataaatatttatttaaaccgACATATTACAGCATTAAATGGcaattttacacatttatatgaAAACAAATGAGCATTTTGCCTTCTAAACAGTGAAAGAATAGGTCAGGAAGTCAGTACAGAATAATTGAGAAAATTCCAGTGGGAGTGACAGCAGTGATGAGTATGTGTCAGGTTACCCTGTGTCCTGACAGCTTTGTGGGCTTTCACACGAAATAAGAATAATTTATTGCGTGCTGTAAAAAGACCAGTTTCAACTAAAAATACTATAACTGAGATGATTTAACATGAAGTAAGATAGGGATGAAATAATAAGTTACAATCAGCAGTAAATGTTTTCCATGATTTATCCATACTGCAAACCTTTCTGCATATATATAACTGCTGTTATTGTTGTTCCTAcaatgtgttttattgttttttatattgtactattattgtttttaacaAATGAGCTGATATGAATAGAATAACAggccattaaaaaaaacacaatattccATATTGGCAGCTAtgtctttgggctctattttgacggtccatgcgcaaaacgcagggcgcaaacgctttcagggcatgtcagaatccacttttgctaatttaaggatgggaaaatccgctttgcgctgtggcgcatggtctaaaagggttgagtttattttcttaatgagttatagatgtgttttaagaataaaccaatcagagtctcatctcccattccctttaagagtcagctgcgtcgtgccataagtgcatttgctatttacatgacgtaaagtaagtggaagtggaaaaactgagcatttcactagcaaacagttaacagttttttttttaacagaaaacagttaaacagagcataccacgcaagaatgagagataatcgatttactttcgctctcgtggatggggaaacctttacgcatggacatcaattagcctataaataattaatttcgtttgttaagcccaaatatttgtttcaaaactatttctaaattcagttctaattttcagcaaacacataaatgaacaataataacaaaatgtgctctaaaacctgagttatatcctaaaacacatgctgtgccccatatggtctaaaacctgacaggtgggcaaatctaagcttgtttttaataaaacaaatataaatatgcatatgataaataatactgctaataataataacattaaacaaaagcaaattgttatgaatgaactgaaaaagcctcccgagatgaagaaggcaaaaaaaaagaaggctgtggtttttcatattcatgtaggctagaaaataatatgttttgtaatatttgtatcctttatatttatatcctatatatattcttatttataTCCTATTTATAtccttaataatttattttttttatatgtaaagatatttgcgtattgctctacatcttgtgtataggctattaagcagtgtgtaagcaaggcgcaactctgcacTCGCCTtcagaccgggtttgttttggtctaatgaaaaatctattatagtttctcaaaatagcaacgcgccaacagtgcgcctcagaacgcctccctttttagaccagaacgcctatgggcgcacatatgagcgcacatgcatttgctatttaaacagtgtagggcaacgcctcaaaacgactcttgtgcctagctgaaactagcaaaagactattgcgccgcgccttgcgccacattgcgccgggtgtatgatagagcccttgATGTCCCATTTTACACCTTTGTTGCATGGTGTTCACAAATGTGGACAgtaaaataccataatatttaaattaaacaaaattttgtgaaaatgaaaatggATTTTAATTTTAGTGTCATATTAACGTTATCAAAATAGCTAAAGAAATCTAAATAATGTTTTTCATGATTTTTGCATGAAAGGGTTAAAAGATCATTTTGAATATTTCCACAAATATATCTGTGCAATATAAGCTTTTGTGGTTCAAGGTCACAAATATAGtcaaaacaataatattatgaaaGTTTCATATTACTGCCTTCTACCCTGATATGTGTTATGATGCCTTCAGTGCCACATATTGatattaatgttaataacatGTTTCTTGGGCACcacattagaatgatttctgaaggaaatACCCAAAATTGCttcttaagaaacattttattgtttattattattataaatatgtgtTATATCTTATTAATAATATCTTTACGGCTAGACATTGTTTTCGTAATCCTTATTTGGTaacatattaaatgtatttattgacaCTTTAAAGCGTCCTTCATTTAGCTTCATTTCAAATCTTGCCTGAAGTTTATTTCAAAGTAGAAATGTCCTGAAGTGGCCAGTGTGGAAAAAGTGGACTTGAGTGTCGCGTCTGGAAAAACAAACATAGTCTATTGTTGTATTGTTGTGCCAAAGCAAATGATAAATACTGTTATACCATAATAAGTGATATTCTCTTCATTGTGCCTTGCTTGTTGATATCCCAATAATCTGCTTTACTTCATTTATAAAACAAGATATCTTTTAAATACAAGATGTACAGTACATTGTTTACTGAGATGTTGTGCAtcaaatagggctgcacgatattggaaaactcTAACATTGTgatatctttttattttgcaacatatattgcaatataaatagtTTCACCATGTAACTTCacatctctatttggaaagaatttataatgttaggtCAATTGGGAATATTCTGTATCTCCCtgaaatctaataaacaatctgtaAAATCT
>TCONS_00014104
ATGCGCTACTccacactgttgaccatcctgGCGGCGGTGCTGCTGTATTTGGTGCTGGGGGCTTTGGTGTTCGGCTGGCTCGAGTCCTCCAGGGAGGAATGGGCTCATCGGGAGCTGCTCACCTCTCAGATGGCTTTCCTGCAGAACCACAGCTGCGTCACCGCTTACAGTCTGAGGGAGTTCACAGAGAAAGTGGTTGACGCCATTGAGGCAGGTGTGGATGCAAGAAGCACATCAAATTACACCAGCAGATGGGATCCATCCAATGCTTTCTTTTTCTGTGGCACCATAATCACCACCATCGGCTTTGGAAACATCTCACCCAAGACCAAAGGTGGTCAGTTGTTCTGCATATTTTACGCTCTGGTGGGGATCCCCATGTTTGGGATACTGTTAGCCGGGGTTGGAGATCACCTGGGCACCCTGCTGCGGAGAGCCGTGGCCAAGGTGGAGACTTTGTTCTTGCGCAAGGGTGTGAAGCCCACCAGTGTCCGCATAATCTCAGCTGTGTTCTCCATCCTGATTGGCTGCTTGGTCTTCATCGCCGTGCCGACCATGGTGTTTCAGGAAGTGGAGAGCTGGAGCCTGCTGGAAGCGGTGTATTTTGTTGTGATTACACTCACCACGGTGGGCTTTGGGGACTATGTGGCAGAGAACAGGAGAGATGGAACGCCCCTGTACAAGCCATTGGTGTGGTTGTGGATAGTGTTTGGTCTGGCGTATTTTGCATCCATCCTCACGATGATTGGGAACTGGCTTAGAGTCCTTTCAAAGAAGACGCGTGCAGAGATGGAGGAGCTGAGAGCTCACGCCACAGACTGGACTCAAAACATCCAGAACATGTCTATGGACTTCCGTATTCCCGTTCCACTGGATCTTAATGACCCCTTTCAGCTTCAGCGGAGACGCAGAAGGAAGCgccaccaccaccatcatcatcatcatcgccaCCCAAGACCAAACACAACAGGACTGACTCATGGGATCTCTCTTGATGCCGATATTATCAGAGAGAACGGACATCTGATCCTTGGCTGGCCGACATGCAGATACAAACCAGCTTCAGAAGTACTGTCCCAATCCAGACCAGGATCACGGCTGACAGTAGGACCGACGTCGAGATCCATCTCACGGCTAGAGCTAAAACCAGCATCCAGAGCCGGGTCCAGAGCCATTTCCAGATCCCCCTCACAATCCGAATCGGGGTCATTTTCTGCATCCGAGACACCATCTGAGTCCTGGTCGGAATATGAATACGAGTCAAACTCCTCGAAGGCATCACGGAGATCACTGGAAAGTCAGAATGATGTTCCGATTGTGGTAGTTGCAAGCTGCAGTCCACCCCGTCCGTCCCTTCTGGACTTCTTTGGCGAGAACCTAGCCTACATCGACGAGTCTTCCGACGCTCTTAGTGATCGGGTCAAACCGTCAGGACAGAACCGTCAACGCAGACCAAAGAGGAGGAGTATGACAAAGCGGCAGCCTGCTGGACTACAGAGGGAGGTCAGTAATGAACTACAACCCCCATCACATCCTCCGACTCCACCACCTCCAACATCTTAG

Function

symbol description
kcnk4a Predicted to enable potassium ion leak channel activity. Predicted to be involved in potassium ion transmembrane transport and stabilization of membrane potential. Predicted to act upstream of or within ion transport. Predicted to be located in membrane. Predicted to be integral component of membrane. Predicted to be integral component of plasma membrane. Orthologous to human KCNK4 (potassium two pore domain channel subfamily K member 4).

GO:

id name namespace
GO:0071805 potassium ion transmembrane transport biological_process
GO:0006811 ion transport biological_process
GO:0030322 stabilization of membrane potential biological_process
GO:0005887 integral component of plasma membrane cellular_component
GO:0016020 membrane cellular_component
GO:0016021 integral component of membrane cellular_component
GO:0022841 potassium ion leak channel activity molecular_function
GO:0005267 potassium channel activity molecular_function

KEGG: NA

ZFIN:

id description
ZDB-GENE-141211-80 Predicted to enable potassium ion leak channel activity. Predicted to be involved in potassium ion transmembrane transport and stabilization of membrane potential. Predicted to act upstream of or within ion transport. Predicted to be located in membrane. Predicted to be integral component of membrane. Predicted to be integral component of plasma membrane. Orthologous to human KCNK4 (potassium two pore domain channel subfamily K member 4).

Ensembl:

ensembl_id ENSDARG00000103286

RNA

RNA id representative length rna type GC content exon number start site end site
TCONS_00014103 False 9914 mRNA 0.40 7 8710568 8755197
TCONS_00014104 True 1563 mRNA 0.53 8 8715527 8747173

Neighbor

gene id symbol gene type direction distance location
XLOC_007130 si:dkeyp-115e12.6 coding upstream 8689 8638353 ~ 8701879 (+)
XLOC_007129 stx5a coding upstream 93905 8594367 ~ 8616663 (+)
XLOC_007128 vegfba coding upstream 137089 8504410 ~ 8573479 (+)
XLOC_007127 dnajc4 coding upstream 213899 8475007 ~ 8496669 (+)
XLOC_007126 tmco6 coding upstream 238175 8456870 ~ 8472393 (+)
XLOC_007133 rps6kal coding downstream 185129 8940326 ~ 9002405 (+)
XLOC_007134 si:ch211-274f20.2 coding downstream 254403 9009600 ~ 9028955 (+)
XLOC_007135 CU468164.1 coding downstream 300874 9056071 ~ 9066756 (+)
XLOC_007136 CR293501.2 coding downstream 491164 9246361 ~ 9294910 (+)
XLOC_007137 msnb coding downstream 532486 9287683 ~ 9336601 (+)
XLOC_007118 FP245526.1 non-coding upstream 1113114 7582453 ~ 7597454 (+)
XLOC_007117 NA non-coding upstream 1177395 7524305 ~ 7533173 (+)
XLOC_007115 NA non-coding upstream 1283622 7408421 ~ 7426946 (+)
XLOC_007112 NA non-coding upstream 1457925 7250956 ~ 7252643 (+)
XLOC_007143 NA non-coding downstream 815621 9570818 ~ 9578082 (+)
XLOC_007147 NA non-coding downstream 1735601 10490798 ~ 10492241 (+)
XLOC_007152 NA non-coding downstream 2043685 10798882 ~ 10799415 (+)
XLOC_007153 CR855117.2 non-coding downstream 2061100 10816297 ~ 10816413 (+)

Expression


Co-expression Network