EC Number |
Natural Substrates |
---|
3.6.1.11 | (phosphate)n + H2O |
- |
3.6.1.11 | (phosphate)n + H2O |
degradation of polyphosphate |
3.6.1.11 | (phosphate)n + H2O |
h-prune efficiently hydrolyzes short-chain polyphosphates |
3.6.1.11 | (phosphate)n + H2O |
regulatory enzyme in polyphosphate metabolism |
3.6.1.11 | (polyphosphate)n + H2O |
- |
3.6.1.11 | (polyphosphate)n + H2O |
phosphate starvation induces the formation of the enzyme |
3.6.1.11 | (polyphosphate)n + H2O |
the inhibitory effect of long-chain polyphosphates on adenylate kinase is higher than that of short-chain polyphosphates, suggesting a potential role of polyphosphate metabolism in regulating intracellular concentration of adenylate nucleotides |
3.6.1.11 | (polyphosphate)n + H2O |
enzyme is derepressed under phosphate starvation conditions |
3.6.1.11 | more |
polyphosphates play a role in the parasite's osmoregulation, overview |
3.6.1.11 | more |
h-prune is the missing exopolyphosphatase in animals and support the hypothesis that the metastatic effects of h-prune are modulated by inorganic polyphosphates, which are increasingly recognized as critical regulators in cells |