EC Number |
Metals/Ions |
Reference |
---|
2.7.12.2 | Ca2+ |
elevation of cytosolic Ca2+ by ethylene may stimulate protein phosphatase and MAPKK, which finally activates IPO expression |
682336 |
2.7.12.2 | Cd2+ |
can partially substitue Mg2+ |
490935 |
2.7.12.2 | Co2+ |
can partially substitue Mg2+ |
490935 |
2.7.12.2 | Mg2+ |
- |
490796, 662926, 679153, 682214, 682326, 686711, 687739, 688931 |
2.7.12.2 | Mg2+ |
dependent on, Mg2+ is the physiologic metal ion, other divalent cations are able to support nucleotide binding, but only Mn2+, Co2+, and Cd2+ can substitute Mg2+ in supporting the catalytic activity |
490935 |
2.7.12.2 | Mg2+ |
required |
739844, 739980, 740258, 740278, 740416, 740419, 740483, 740497, 740693, 740701, 740705, 740713, 740818, 740925, 741009, 741027, 741140, 741156 |
2.7.12.2 | Mg2+ |
required, maximum activity at 0.02 mM |
762174 |
2.7.12.2 | Mn2+ |
can partially substitue Mg2+ |
490935 |
2.7.12.2 | Mn2+ |
highly activating, more effective than Mg2+ |
740278 |
2.7.12.2 | more |
serine/threonine and tyrosine kinase activities are distinctly influenced by Mg2+ and Mn2+ cofactors. Pfnek3 can undergo further tyrosine autophosphorylation in vitro, with Mn2+ as the preferred metal cofactor |
740278 |