XLOC_006095 (ppm1aa)


Basic Information

Item Value
gene id XLOC_006095
gene name ppm1aa
gene type coding
species zebrafish (Danio rerio)
category of species model fish

Chromosome Information

Item Value
chromosome id NC_007124.7
NCBI id CM002897.2
chromosome length 52186027
location 31545530 ~ 31580190 (+)
genome version GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00012022
TCACCTAACATATTATCATGCATTTATAACAGTGTTTCTGTTATTACCTGGCACTGAGAGCTTGTTTTCAGCCTCACACATGTTAGGGTTTTTCAAAAATGACCAGTGATAGACAAATAAAAAACGCAGGACAGATGATTTAGAGACAGTGGTGAAAGAATTATGTACATGAAGGAAGGTGCGAGACAGAATGATGTACAGATGGAGGGATGAGGTTGATGgagggatgatgatgatgatgtcattcTTTTAAGTGCGCAGCCCTGCTGAATCCACATCCGGGTCCTGCGCTGTTGCTGGTGTGCAGAGATTCGGTCCCGACCATAGCGGACCAAAACAGCGGTCAAACCCGAACACTTTTCATTTTCCACCAACATTCAGGACGTAGAATAAATGGGAATGATGCATCCCTGGTTTAAACAGATATGGGTGATCCGCTGTTTCACTGACTGAATGCAGAGCAAAACAATCCGCCAGCCTGTCTCTCTCTCACCACCGCCGCGCTCGCTTtatatctctctctttcttttcgtCCTTCTCTCTGATCTGTTTTTTTACCTCCTTCACCACCGAACTCTCCAGGACTGATTTTTAGGGGATTTTTAAGCAGCAGACATGGGTGCATTTCTGGATAAGCCAAAGATGGAGAAACATAACGCTCATGGGGATGGGAACAGTCTTCGCTACGGCCTGAGCAGCATGCAGGGCTGGCGTGTTGAGATGGAAGATGCGCACACCGCTGTCATCGGCCTGCCCAACAGTCTGGACCTCTGGTCGTTCTTTGCCGTTTATGATGGTCACGCGGGATCACAGGTGGCACGTTACTGCTGCGAGCACCTTCTGGAGCACATCACCAGCAACCCTGACTTCCAGGGTGGAGGCGGAGGAGGGGGACCAGCTGTGGAGCCCAGTGTGGACAGCGTGAAGTCGGGAATTCGCACTGGTTTCCTTCAGATCGACGATCACATGCGACAGATTTCGGAAAAGAAGCATGGTGGAGCTGACCGCAGCGGCTCGACAGCTGTCGGAGTGATGATTTCACCTCGCCATATCTACTTTATCAACTGCGGAGATTCGCGCGGGTTGCTGAGTCGCGGAGGGGCGGTGCACTTCTTCACACAGGACCACAAACCCAGCAACCCTCTCGAGAAGGAAAGGATCCAGAACGCTGGAGGGTCTGTGATGATCCAACGTGTCAATGGGTCTCTGGCGGTGTCCAGGGCTCTGGGGGACTTTGACTATAAGTGTGTGCATGGTAAGGGTCCCACGGAGCAGCTGGTGTCACCAGAGCCCGAGGTCTGTGCTATCGAGCGGTCAGAGGCGGAGGACGAGTTTATTGTTCTTGCTTGTGATGGGATCTGGGATGTGATGGCCAACGAGGAGTTGTGTGATTTTGTTCGTTCACGACTTGAGGTGACAGACGATCTGGAGAGGGTCTGCAATGAGATTGTAGATACCTGCTTGTACAAGGGAAGTCGTGACAACATGAGTGTTGTGCTGGTGTGTTTCGTCAGTGCACCGAAGGTTTCCCCTGAAGCTGTTAAAAGGGAAGCTGAGCTTGATAAATACCTAGAGAGCCGAGTAGAAGAGATCCTGAAGAGGCAGGGAGACGAAGGTGTGCCCGACCTGGTACATGTGATGCGCACGTTAGCATCTGAGAGCATCCCAAACCTACCCCCTGGAGGAGAACTGGCCAGCAAGCGGAGTGTAATTGAAGCAGTATACAACAAACTCAACCCATACAGGAACGAGGATACAacTTGA
>TCONS_00012023
TCACCTAACATATTATCATGCATTTATAACAGTGTTTCTGTTATTACCTGGCACTGAGAGCTTGTTTTCAGCCTCACACATGTTAGGGTTTTTCAAAAATGACCAGTGATAGACAAATAAAAAACGCAGGACAGATGATTTAGAGACAGTGGTGAAAGAATTATGTACATGAAGGAAGGTGCGAGACAGAATGATGTACAGATGGAGGGATGAGGTTGATGgagggatgatgatgatgatgtcattcTTTTAAGTGCGCAGCCCTGCTGAATCCACATCCGGGTCCTGCGCTGTTGCTGGTGTGCAGAGATTCGGTCCCGACCATAGCGGACCAAAACAGCGGTCAAACCCGAACACTTTTCATTTTCCACCAACATTCAGGACGTAGAATAAATGGGAATGATGCATCCCTGGTTTAAACAGATATGGGTGATCCGCTGTTTCACTGACTGAATGCAGAGCAAAACAATCCGCCAGCCTGTCTCTCTCTCACCACCGCCGCGCTCGCTTtatatctctctctttcttttcgtCCTTCTCTCTGATCTGTTTTTTTACCTCCTTCACCACCGAACTCTCCAGGACTGATTTTTAGGGGATTTTTAAGCAGCAGACATGGGTGCATTTCTGGATAAGCCAAAGATGGAGAAACATAACGCTCATGGGGATGGGAACAGTCTTCGCTACGGCCTGAGCAGCATGCAGGGCTGGCGTGTTGAGATGGAAGATGCGCACACCGCTGTCATCGGCCTGCCCAACAGTCTGGACCTCTGGTCGTTCTTTGCCGTTTATGATGGTCACGCGGGATCACAGGTGGCACGTTACTGCTGCGAGCACCTTCTGGAGCACATCACCAGCAACCCTGACTTCCAGGGTGGAGGCGGAGGAGGGGGACCAGCTGTGGAGCCCAGTGTGGACAGCGTGAAGTCGGGAATTCGCACTGGTTTCCTTCAGATCGACGATCACATGCGACAGATTTCGGAAAAGAAGCATGGTGGAGCTGACCGCAGCGGCTCGACAGCTGTCGGAGTGATGATTTCACCTCGCCATATCTACTTTATCAACTGCGGAGATTCGCGCGGGTTGCTGAGTCGCGGAGGGGCGGTGCACTTCTTCACACAGGACCACAAACCCAGCAACCCTCTCGAGAAGGAAAGGATCCAGAACGCTGGAGGGTCTGTGATGATCCAACGTGTCAATGGGTCTCTGGCGGTGTCCAGGGCTCTGGGGGACTTTGACTATAAGTGTGTGCATGGTAAGGGTCCCACGGAGCAGCTGGTGTCACCAGAGCCCGAGGTCTGTGCTATCGAGCGGTCAGAGGCGGAGGACGAGTTTATTGTTCTTGCTTGTGATGGGATCTGGGATGTGATGGCCAACGAGGAGTTGTGTGATTTTGTTCGTTCACGACTTGAGGTGACAGACGATCTGGAGAGGGTCTGCAATGAGATTGTAGATACCTGCTTGTACAAGGGAAGTCGTGACAACATGAGTGTTGTGCTGGTGTGTTTCGTCAGTGCACCGAAGGTTTCCCCTGAAGCTGTTAAAAGGGAAGCTGAGCTTGATAAATACCTAGAGAGCCGAGTAGAAGAGATCCTGAAGAGGCAGGGAGACGAAGGTGTGCCCGACCTGGTACATGTGATGCGCACGTTAGCATCTGAGAGCATCCCAAACCTACCCCCTGGAGGAGAACTGGCCAGCAAGCGGAGTGTAATTGAAGCAGTATACAACAAACTCAACCCATACAGGAACGAGGATACAGACTCTGCATCCACGGATGACATGTGGTAG
>TCONS_00012024
TCACCTAACATATTATCATGCATTTATAACAGTGTTTCTGTTATTACCTGGCACTGAGAGCTTGTTTTCAGCCTCACACATGTTAGGGTTTTTCAAAAATGACCAGTGATAGACAAATAAAAAACGCAGGACAGATGATTTAGAGACAGTGGTGAAAGAATTATGTACATGAAGGAAGGTGCGAGACAGAATGATGTACAGATGGAGGGATGAGGTTGATGgagggatgatgatgatgatgtcattcTTTTAAGTGCGCAGCCCTGCTGAATCCACATCCGGGTCCTGCGCTGTTGCTGGTGTGCAGAGATTCGGTCCCGACCATAGCGGACCAAAACAGCGGTCAAACCCGAACACTTTTCATTTTCCACCAACATTCAGGACGTAGAATAAATGGGAATGATGCATCCCTGGTTTAAACAGATATGGGTGATCCGCTGTTTCACTGACTGAATGCAGAGCAAAACAATCCGCCAGCCTGTCTCTCTCTCACCACCGCCGCGCTCGCTTtatatctctctctttcttttcgtCCTTCTCTCTGATCTGTTTTTTTACCTCCTTCACCACCGAACTCTCCAGGACTGATTTTTAGGGGATTTTTAAGCAGCAGACATGGGTGCATTTCTGGATAAGCCAAAGATGGAGAAACATAACGCTCATGGGGATGGGAACAGTCTTCGCTACGGCCTGAGCAGCATGCAGGGCTGGCGTGTTGAGATGGAAGATGCGCACACCGCTGTCATCGGCCTGCCCAACAGTCTGGACCTCTGGTCGTTCTTTGCCGTTTATGATGGTCACGCGGGATCACAGGTGGCACGTTACTGCTGCGAGCACCTTCTGGAGCACATCACCAGCAACCCTGACTTCCAGGGTGGAGGCGGAGGAGGGGGACCAGCTGTGGAGCCCAGTGTGGACAGCGTGAAGTCGGGAATTCGCACTGGTTTCCTTCAGATCGACGATCACATGCGACAGATTTCGGAAAAGAAGCATGGTGGAGCTGACCGCAGCGGCTCGACAGCTGTCGGAGTGATGATTTCACCTCGCCATATCTACTTTATCAACTGCGGAGATTCGCGCGGGTTGCTGAGTCGCGGAGGGGCGGTGCACTTCTTCACACAGGACCACAAACCCAGCAACCCTCTCGAGAAGGAAAGGATCCAGAACGCTGGAGGGTCTGTGATGATCCAACGTGTCAATGGGTCTCTGGCGGTGTCCAGGGCTCTGGGGGACTTTGACTATAAGTGTGTGCATGGTAAGGGTCCCACGGAGCAGCTGGTGTCACCAGAGCCCGAGGTCTGTGCTATCGAGCGGTCAGAGGCGGAGGACGAGTTTATTGTTCTTGCTTGTGATGGGATCTGGGATGTGATGGCCAACGAGGAGTTGTGTGATTTTGTTCGTTCACGACTTGAGGTGACAGACGATCTGGAGAGGGTCTGCAATGAGATTGTAGATACCTGCTTGTACAAGGGAAGTCGTGACAACATGAGTGTTGTGCTGGTGTGTTTCGTCAGTGCACCGAAGGTTTCCCCTGAAGCTGTTAAAAGGGAAGCTGAGCTTGATAAATACCTAGAGAGCCGAGTAGAAGAGATCCTGAAGAGGCAGGGAGACGAAGGTGTGCCCGACCTGGTACATGTGATGCGCACGTTAGCATCTGAGAGCATCCCAAACCTACCCCCTGGAGGAGAACTGGCCAGCAAGCGGAGTGTAATTGAAGCAGTATACAACAAACTCAACCCATACAGGAACGAGGATACAGATCCAGACATCCTTTTCTTCAGAGGTTTCAGCTAAACACTGCACAAGTCTGTTATTCGCCCCCCTTTCTCCTTTTCTCGTGGCAGGTTTAGTTTGTCTGTTTATGCCTTTTAGATTTCGGCTTTTTAGGGATGATAATGTTAGAGGATCTCCAGTGAGTGTTGTATTGTTTAGCATTTGCACATTCTAGTTGCTTCTGGCAtctcattgtttttcttttgctttatgGTTTTACCCAGTCAGTCTCTCTGTGTAGTTCATCTGACCAATATATTACGATAAACTGACCATCTTTTTAGTAAGGCATACAAATAATACGTACAATATTGTTCAAATGTTTGGGATTGGTAAAAATTGAAATGTTATTGAACGAAGTCTCTTGTTTTCAGCAAGGCTGtatatatttgatcaaatattacTTAAAGATGTTCATATTTAAAGACTAATTTCTATATTAAGGGGAtctattgtgcaaaaataacttttataaggctttttaaacagttttgtgtggcaacagtgtgtgaaaacAGCCGGCCTCTAATGGTAACAatccattcattcaatttttatataaaaaaaaaagtcttcaaaaGCACTTTAATTGATGTTCTCCCCCTTGGCACATCAGAGGGGGAAAAATCCCGCCCACTAGTGAAAATCtcaccctcattagcataaacaaccctgaatgagaagcagccatccTCTAATATGCTGACACAGAAGCGTTTATAGCCCCGCTcccttttgaaaagagggctgaGGAGACAATCTCATTTGATTTTAAAGCGACAGACATCAAAAACAccatcaaagcctaaaagaggcagttacaaacaattataaaaaaactatttgtgtGGTAAaacctcacatacacactcttacaTTTTGCTAAAAGGGGCATATAGGTCCCCTTCAAAAAAAACTATTACTCTTTTAATTTGTCTTCAatttcacatgatccttcagaaatcattttattttaacgaTCTGGTGCTCAAGTAAAATTTATTGTTGTACTATTTTATTATGTTGATTTGGGGCTCAAGTaacatttattcttatttttatcattattattattatgtttatcattattattatcattaatattattattaaaatagcgTTTATTCCTGTGCCAATAAAGCTGAATTGTCAGCGTAGTTACACCAGGCTTCAGTATCACATGACTCTCCAAAAATCATTCTTGTAGGATGATTTGGTGCTCAAGTAAcgtatttattgttgttgttgttttattatattatgatgaTCTGGTGCTCAAATATCATCTGTTATTAAAACTGTTGAAAGGGTGCTTAAAATTTCAGTGGAAGCTGCTAAGACTTGTTCCAGCACTTTTCAATGTTCAAGTGtttatttagaattattattattattattatcattattttttttttttttttttttatttatttatttcatttttaatcagtTGAATACATCTTTgctgaataaaacaattaatacttttctaaaaaacaaactaacaaacatttGACCAATAGTGTATCTATTATTCTCCACCAAAGGTGACTGGGTCTTCGTCTACTAGTGAATTATATAGTAGTAAATATTTTAGCTATAAACTCTAAAGGCATTATTTGATGTATGATGTGTCATCAAAACAAAAGGAAATCTTCTTTATAATGACATGCTTTCACTATGAAATGTGGAACAGCCCTATAACTGCATTTATCATACAAGGGAACCAGCTTTAGAACAGTGTTTGATAGCAGCCGGTTGGTGTTTTTTTGTCTGCTCTCTGTTGTTGTAATGAGAGTGAACCACAGTGCAGTTTCTATCAGGGAAGAGAGCAGTCCACAGAGAGCCTTTGACTGCTGCTGATGTACTGATTACCTCAGAGGATTCGCTTTCTCCACAGAGAGGCAGATCGGCCTGAGACGGGTCCAGCTGTGTGCTTCTATAACTCTTTCAGAGCAGTGCACAGCACCTCATGTTGATTCTGGGTTTTTTGTTCCTTTCTGAACTGAAAGTGTTACACTTGTTCACACTGTTCCATGGAGAGCAGAGCTGCAAATGCAGTTTAATGTAGGGATAGTAGTTTAAAGTTTGAAAGTATCCAAAATTGGTATCCAGattaaagtttaaatttaaaattaaatgtcaaaGTTAAACTTATAAGATTTACTTTCAAATTTCAAGACAAAAATATGTTAATATGGTTATAAAccttaacataataatataaatattaatgttattttacataaCTTACAGTGTACTTTTAGACAACaggaaaaatactgtataaatcaaTTCAATAAAGAATTCATTAATCATACAATtagggatgggcaaaaatacattgaaatgtttttttaaataaaataacaaaaacatcaattttaagggtatcaaaaaaaaaaacaaaatacagcagccacacaTGAAgcacaataaaatactgtatgtttgtgttttacaaatactgcaaaatacttttaaaatggagaATGAAATTTCTTTGCAAATCTTCCATCTATAGACCTATTGGATCAACCCCTCCACCATTAAATTGACACAATGTTTGACAGCAGCAACAACTGCCACTTCATTCACCTATAGGGGGAAGTTGTGTCCTAATGGTTAGTGAGTTGGACTTTTTAATCCAACTTGTGTTTCACTTTAAGTTACAAATTACAGTCCTTCTATAATTTTTACAATATACTCATTCTCCCAATATTCTTTCAGTTCTTTAAATGGAAGATTATTGGTTTACCCTCTTAAAAAACATCAGTACACCATCTTTAGGTGTGTTTTATTTCTAAAATTCCTCTGCTTTTCCACCTGCGGCACTGAGACTGATGATGTTCTGAAGGCTATACtgatattttattccatctccttaagcaaagatgctgaattgtacacctttAGCCATTTTATTCTTCTGGTCTTGCTCGGTAGCTATTTTAAGTAGTTGTTGACTTGCTCCTGAATCTACCCTCATCCTTCGTCTGTTTCTATCTTTTAGCTTAATTTCCATCCATCATTGAccacctttttaaaaataaatcaagtttctATTCTGATCCCAAGTTTAGGTAAACAATGGAGAAAACACCAATCAGAGGTGCTTAATCGTTTTTAAGATCAAGTCATCATGTACTGTAGACTTCTCGCAAAGTATTTTACAggattttaaaattacaaaagtaCAACACACTAAAGtaatttgatacaaaatattaagccattttcatcaaccctatcaaatacaaattacaaaatgtattttgttgcatttaacatttgcattattttgttgcatttaaacaaaacagatttattaaaca
>TCONS_00012025
GTCCTGCGCTGTTGCTGGTGTGCAGAGATTCGGTCCCGACCATAGCGGACCAAAACAGCGGTCAAACCCGAACACTTTTCATTTTCCACCAACATTCAGGACGTAGAATAAATGGGAATGATGCATCCCTGGTTTAAACAGATATGGGTGATCCGCTGTTTCACTGACTGAATGCAGAGCAAAACAATCCGCCAGCCTGTCTCTCTCTCACCACCGCCGCGCTCGCTTtatatctctctctttcttttcgtCCTTCTCTCTGATCTGTTTTTTTACCTCCTTCACCACCGAACTCTCCAGGACTGATTTTTAGGGGATTTTTAAGCAGCAGACATGGGTGCATTTCTGGATAAGCCAAAGATGGAGAAACATAACGCTCATGGGGATGGGAACAGTCTTCGCTACGGCCTGAGCAGCATGCAGGGCTGGCGTGTTGAGATGGAAGATGCGCACACCGCTGTCATCGGCCTGCCCAACAGTCTGGACCTCTGGTCGTTCTTTGCCGTTTATGATGGTCACGCGGGATCACAGGTGGCACGTTACTGCTGCGAGCACCTTCTGGAGCACATCACCAGCAACCCTGACTTCCAGGGTGGAGGCGGAGGAGGGGGACCAGCTGTGGAGCCCAGTGTGGACAGCGTGAAGTCGGGAATTCGCACTGGTTTCCTTCAGATCGACGATCACATGCGACAGATTTCGGAAAAGAAGCATGGTGGAGCTGACCGCAGCGGCTCGACAGCTGTCGGAGTGATGATTTCACCTCGCCATATCTACTTTATCAACTGCGGAGATTCGCGCGGGTTGCTGAGTCGCGGAGGGGCGGTGCACTTCTTCACACAGGACCACAAACCCAGCAACCCTCTCGAGAAGGAAAGGATCCAGAACGCTGGAGGGTCTGTGATGATCCAACGTGTCAATGGGTCTCTGGCGGTGTCCAGGGCTCTGGGGGACTTTGACTATAAGTGTGTGCATGGTAAGGGTCCCACGGAGCAGCTGGTGTCACCAGAGCCCGAGGTCTGTGCTATCGAGCGGTCAGAGGCGGAGGACGAGTTTATTGTTCTTGCTTGTGATGGGATCTGGGATGTGATGGCCAACGAGGAGTTGTGTGATTTTGTTCGTTCACGACTTGAGGTGACAGACGATCTGGAGAGGGTCTGCAATGAGATTGTAGATACCTGCTTGTACAAGGGAAGTCGTGACAACATGAGTGTTGTGCTGGTGTGTTTCGTCAGTGCACCGAAGGTTTCCCCTGAAGCTGTTAAAAGGGAAGCTGAGCTTGATAAATACCTAGAGAGCCGAGTAGAAGAGATCCTGAAGAGGCAGGGAGACGAAGGTGTGCCCGACCTGGTACATGTGATGCGCACGTTAGCATCTGAGAGCATCCCAAACCTACCCCCTGGAGGAGAACTGGCCAGCAAGCGGAGTGTAATTGAAGCAGTATACAACAAACTCAACCCATACAGGAACGAGGATACAGTGCTACTTTGACCATGCAGCAACAAATAGTGCTTTAAGTTTAAGCCTTTCAGCTGCACTGTGGGATGTTTTTCTGCTTCCGTTTGCCATTTGGAAGACAGAACGAGgcagaggaaaagaaaaaaagagattaTTTGGCACATCATCCTTGTTGATTTGGCCTTATGCAAGAGAGTGGAGGGGCTTGTTGGTAAATATGTAAATGGTGCACTGTAAAGACATTCTGACTGGCATGAATCTTCAGCCAAACAAAGACAGAGTTCAGAAAATAACTGGACGAGGAGGTAAAAAATAGCTACACTGTTGGCGTTTGAATTTGAGCTTTGCTGTATTGTTGATCTTGCACGCTGGCAAAATCACACATATATAATTCGagctttatattatatattattaaatggttgaactataataaaaaatcagTATCTGA
>TCONS_00012026
CCCAGCAACCCTCTCGAGAAGGAAAGGATCCAGAACGCTGGAGGGTCTGTGATGATCCAACGTGTCAATGGGTCTCTGGCGGTGTCCAGGGCTCTGGGGGACTTTGACTATAAGTGTGTGCATGGTAAGGGTCCCACGGAGCAGCTGGTGTCACCAGAGCCCGAGGTCTGTGCTATCGAGCGGTCAGAGGCGGAGGACGAGTTTATTGTTCTTGCTTGTGATGGGATCTGGGATGTGATGGCCAACGAGGAGTTGTGTGATTTTGTTCGTTCACGACTTGAGGTGACAGACGATCTGGAGAGGGTCTGCAATGAGATTGTAGATACCTGCTTGTACAAGGGAAGTCGTGACAACATGAGTGTTGTGCTGGTGTGTTTCGTCAGTGCACCGAAGGTTTCCCCTGAAGCTGTTAAAAGGGAAGCTGAGCTTGATAAATACCTAGAGAGCCGAGTAGAAGAGATCCTGAAGAGGCAGGGAGACGAAGGTGTGCCCGACCTGGTACATGTGATGCGCACGTTAGCATCTGAGAGCATCCCAAACCTACCCCCTGGAGGAGAACTGGCCAGCAAGCGGAGTGTAATTGAAGCAGTATACAACAAACTCAACCCATACAGGAACGAGGATACAGACTCTGCATCCACGGATGACATGTGGTAGCCCTGCACCTTTAAACACTGCACAGAGTTTACAACCCTCCAGAACCCTGCACAACAACCTTTCCTCCAGGACCCGGCACCAGAACCCTGCacaaaaaccctcaactactacAGGACCTGCACAAGAACCCCTACTGCAGCCCGGCTCCGCTGCTCTGGACTGTTTGGaaaaaagaggaggaggaagaggaggaggaagggaACGAGGGCTCCCTCTTTGTTCACATAATG

Function

symbol description
ppm1aa Predicted to enable magnesium ion binding activity; manganese ion binding activity; and phosphoprotein phosphatase activity. Predicted to be involved in negative regulation of I-kappaB kinase/NF-kappaB signaling and positive regulation of canonical Wnt signaling pathway. Predicted to be located in cytoplasm and membrane. Predicted to be active in cytosol and nucleus. Orthologous to human PPM1A (protein phosphatase, Mg2+/Mn2+ dependent 1A).

GO:

id name namespace
GO:0090263 positive regulation of canonical Wnt signaling pathway biological_process
GO:0006470 protein dephosphorylation biological_process
GO:0043124 negative regulation of I-kappaB kinase/NF-kappaB signaling biological_process
GO:0005829 cytosol cellular_component
GO:0005634 nucleus cellular_component
GO:0030145 manganese ion binding molecular_function
GO:0046872 metal ion binding molecular_function
GO:0016787 hydrolase activity molecular_function
GO:0043169 cation binding molecular_function
GO:0003824 catalytic activity molecular_function
GO:0004721 phosphoprotein phosphatase activity molecular_function
GO:0004722 protein serine/threonine phosphatase activity molecular_function
GO:0000287 magnesium ion binding molecular_function

KEGG: NA

ZFIN:

id description
ZDB-GENE-991102-15 Predicted to enable magnesium ion binding activity; manganese ion binding activity; and phosphoprotein phosphatase activity. Predicted to be involved in negative regulation of I-kappaB kinase/NF-kappaB signaling and positive regulation of canonical Wnt signaling pathway. Predicted to be located in cytoplasm and membrane. Predicted to be active in cytosol and nucleus. Orthologous to human PPM1A (protein phosphatase, Mg2+/Mn2+ dependent 1A).

Ensembl:

ensembl_id ENSDARG00000032155

RNA

RNA id representative length rna type GC content exon number start site end site
TCONS_00012022 False 1764 mRNA 0.51 6 31545530 31560661
TCONS_00012023 False 1788 mRNA 0.51 6 31545530 31562781
TCONS_00012024 False 5108 mRNA 0.39 6 31545530 31575102
TCONS_00012025 False 1906 mRNA 0.49 6 31545812 31580190
TCONS_00012026 True 887 mRNA 0.53 5 31550185 31563011

Neighbor

gene id symbol gene type direction distance location
XLOC_006094 pcnx4 coding upstream 10022 31520537 ~ 31535508 (+)
XLOC_006093 lrrc9 coding upstream 31380 31497236 ~ 31514150 (+)
XLOC_006092 lrrc9 coding upstream 51243 31479814 ~ 31494287 (+)
XLOC_006091 lrrc9 coding upstream 65729 31473190 ~ 31479801 (+)
XLOC_006090 tdrd9 coding upstream 122184 31402067 ~ 31423346 (+)
XLOC_006096 six6a coding downstream 2844 31583034 ~ 31606247 (+)
XLOC_006097 mnat1 coding downstream 68081 31648271 ~ 31681951 (+)
XLOC_006098 slc38a6 coding downstream 107783 31687973 ~ 31707870 (+)
XLOC_006099 prkcha coding downstream 136630 31716820 ~ 31748970 (+)
XLOC_006100 hif1aa coding downstream 177141 31757331 ~ 31783663 (+)
XLOC_006074 NA non-coding upstream 616869 30920554 ~ 30928661 (+)
XLOC_006071 CR762493.1 non-coding upstream 708754 30836656 ~ 30836776 (+)
XLOC_006067 NA non-coding upstream 867887 30676825 ~ 30677643 (+)
XLOC_006065 AL844152.1 non-coding upstream 1033807 30511607 ~ 30511723 (+)
XLOC_006063 AL929330.1 non-coding upstream 1293673 30251741 ~ 30251857 (+)
XLOC_006101 NA non-coding downstream 226330 31806520 ~ 31850508 (+)
XLOC_006102 NA non-coding downstream 375030 31955220 ~ 31978484 (+)
XLOC_006103 NA non-coding downstream 525075 32105265 ~ 32108472 (+)
XLOC_006105 CR769766.1 non-coding downstream 812193 32392383 ~ 32392499 (+)
XLOC_006111 CR936241.1 non-coding downstream 1266303 32846493 ~ 32846609 (+)

Expression


Co-expression Network