TSC1 |
Нинди таксонда бар |
H. sapiens[d][1] |
Кодлаучы ген |
TSC1[d][1] |
Молекуляр функция |
chaperone binding[d][2], связывание с белками плазмы[d][3][4][5][…], protein N-terminus binding[d][6][7][8], Hsp70 protein binding[d][9], ATPase inhibitor activity[d][8][9], Hsp90 protein binding[d][9] һәм GTPase activating protein binding[d][8] |
Күзәнәк компоненты |
цитоплазма[8][8][4], cell cortex[d][6], Конус роста[d][8], intracellular membrane-bounded organelle[d][8], lamellipodium[d][6], мембрана[d][8][10], микрофиламент[d][6], TSC1-TSC2 complex[d][11], цитоскелет[d][8], цитозоль[d][8][8][2][…], төш[8][8], perinuclear region of cytoplasm[d][8][8], lipid droplet[d][8], күзәнәк мембранасы[d][8], cell projection[d][8], protein-containing complex[d][8][2], chaperone complex[d][9], постсинаптическое уплотнение[d][8] һәм TSC1-TSC2 complex[d][4][12] |
Биологик процесс |
rRNA export from nucleus[d][13], regulation of cell cycle[d][12], neural tube closure[d][8], cerebral cortex development[d][8], memory T cell differentiation[d][8], regulation of protein kinase activity[d][8], positive regulation of focal adhesion assembly[d][6], myelination[d][8], negative regulation of insulin receptor signaling pathway[d][12], synapse organization[d][8], regulation of translation[d][13], развитие гиппокампа[d][8], regulation of phosphoprotein phosphatase activity[d][13], cell-matrix adhesion[d][6], potassium ion transport[d][8], adaptive immune response[d][8], protein heterooligomerization[d][8], нефрогенез[d][8], нерв системасы үсеше[d][8], cell projection organization[d][8], activation of GTPase activity[d][6], regulation of focal adhesion assembly[d][8], glucose import[d][8], regulation of cell-matrix adhesion[d][6], negative regulation of cell size[d][8], response to insulin[d][14], cardiac muscle cell differentiation[d][8], negative regulation of translation[d][13], негативная регуляция пролиферации клеток[d][15][8], cellular response to oxygen-glucose deprivation[d][8][8], adult locomotory behavior[d][8][8], negative regulation of TOR signaling[d][16][17][18][…], regulation of neuron death[d][8][8], negative regulation of macroautophagy[d][8][8], negative regulation of neuron projection development[d][8], positive regulation of macroautophagy[d][8], negative regulation of GTPase activity[d][8], regulation of stress fiber assembly[d][6], positive regulation of stress fiber assembly[d][8], negative regulation of oxidative stress-induced neuron death[d][8], negative regulation of ATP-dependent activity[d][8][9], protein stabilization[d][9][8][19] һәм negative regulation of TOR signaling[d][8][13][20][…] |
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