EC Number |
Metals/Ions |
Reference |
---|
3.1.3.11 | Ca2+ |
at low concentrations |
653727 |
3.1.3.11 | Ca2+ |
regulation of complex of enzyme with alodolase. Elevated Ca2+ concentration decreases association constant of enzyme-aldolase complex and enzyme-alpha-actinin complex. Release of Ca2+ during muscle contraction may result in inhibition of glyconeogenesis and in the acceleration of glycolysis |
664951 |
3.1.3.11 | Ca2+ |
requied for activation of FBPase by 2-Cys peroxiredoxin |
677956 |
3.1.3.11 | Co2+ |
activates |
749848 |
3.1.3.11 | Co2+ |
slight activation |
170798 |
3.1.3.11 | Cs+ |
enhances activity |
170739 |
3.1.3.11 | Cu2+ |
stimulation increases in the order Mg2+, Mn2+, Zn2+, Cu2+. Mg2+ stimulates below 5 mM, inhibits above 10 mM |
730360 |
3.1.3.11 | dithiothreitol |
the recombinant enzyme is activated |
653727 |
3.1.3.11 | Hg2+ |
low concentrations stimulate the oxidized enzyme form, but not the reduced enzyme form many hundred-fold. Half-maximal stimulation at 0.2 femtoM: Hg2+ stimulates by binding to an enzyme thiol group, thereby stabilizing the oxidized enzyme in an active conformation |
170791 |
3.1.3.11 | K+ |
- |
652041 |