EC Number |
Activating Compound |
Reference |
---|
2.7.12.1 | abscisic acid |
induces the expression of isozymes DPK1-DPK3 in seedlings |
666664 |
2.7.12.1 | H2O2 |
the kinase activity of biliverdin reductase is stimulated by generators of free radicals such as H2O2 |
701357 |
2.7.12.1 | more |
activation of Rad53 in response to DNA damage in G(1) requires the Rad9, Mec3, Ddc1, Rad17 and Rad24 checkpoint factors, while this dependence is greatly reduced in S phase cells. Furthermore, during recovery from checkpoint activation, Rad53 activity decreases through a process that does not require protein synthesis |
491349 |
2.7.12.1 | more |
autophosphorylation of a tyrosine residue within the activation loop is necessary for full DYRK4 kinase activity |
740698 |
2.7.12.1 | more |
cold stress increased the expression level |
664170 |
2.7.12.1 | more |
high salinity, drought, and blast by fungus Magnaporthe grisea induce the expression of isozymes DPK1-DPK3 in seedlings |
666664 |
2.7.12.1 | more |
PrkG activation by phosphorylation seems to be quite complex and is dependent on multiple residues, e.g. the two critical residues Tyr349 and Thr245 |
740700 |
2.7.12.1 | more |
the enzyme is induced by abiotic stresses, the activation loop is located between subdomains VII and VIII, phosphorylation at Tyr317, Tyr297, and Tyr148 activates the enzyme |
665483 |
2.7.12.1 | sodium arsenite |
the kinase activity of biliverdin reductase is stimulated by generators of free radicals such as sodium arsenite |
701357 |