EC Number |
Metals/Ions |
Reference |
---|
3.6.4.B10 | Co2+ |
activates |
734107 |
3.6.4.B10 | K+ |
activates |
728108 |
3.6.4.B10 | K+ |
ATPase activity of the two chaperonin subunits is dependent on the salt concentration. Among the ions examined, K+ are the most effective at enhancing the ATP hydrolysis activity of ApCpnA and ApCpnB. Activity is maximal at 200 mM K+ |
728108 |
3.6.4.B10 | K+ |
required, the ATP hydrolysis rate is negligible in the absence of K+ |
734484 |
3.6.4.B10 | Mg2+ |
required |
728108, 733161, 733514, 733723, 733876, 734095, 734484, 734489, 735091, 749858, 751330, 756197, 756366, 756368, 756410, 756411, 756984, 757098, 757168, 757429, 757660, 757782, 757789, 758147 |
3.6.4.B10 | Mg2+ |
with the addition of Mg2+ ion protection activity on inorganic phosphatase from thermal inactivation at 85°C and 110°C increases 2fold compared with the addition of enzyme alone |
744559 |
3.6.4.B10 | Mn2+ |
activates |
728108, 734107 |
3.6.4.B10 | more |
no activity with Mg2+ |
734107 |
3.6.4.B10 | more |
the ATPase activity of the two chaperonin subunits is dependent on the salt concentration. Potassium ions are the most effective at enhancing the ATP hydrolysis activity of ApCpnA and ApCpnB, activity is maximal at 200 mM K+ |
728108 |
3.6.4.B10 | Na+ |
activates |
728108 |