EC Number   |
Natural Substrates |
|---|
    4.1.1.31 | ADP + phosphoenolpyruvate + CO2 |
- |
| 4.1.1.31 | more |
the guard cell enzyme is regulated by reversible phosphorylation of at least one isoform |
| 4.1.1.31 | more |
PEPC may be involved in protein biosynthesis during grain development, and it may have an important role in regulating carbon and nitrogen metabolism in the ear organ of wheat |
| 4.1.1.31 | more |
recombinant PPC4 forms class-2 PEPC when combined with class-1 PEPCs |
| 4.1.1.31 | phosphate + oxaloacetate |
- |
| 4.1.1.31 | phosphoenolpyruvate + CO2 |
by shifting to CAM in the C4 Portulaca a nes PEPC isoform may be synthesized to meet CAM requirements |
| 4.1.1.31 | phosphoenolpyruvate + CO2 |
key enzyme in fixation of atmospheric CO2 in C4 and crassulacean acid metabolism |
| 4.1.1.31 | phosphoenolpyruvate + CO2 |
moderated water stress applied to Pinus halepensis has no effect on PEPC activity. Ozone stress induces a dramatic increase of PEPC activity in pine needles |
| 4.1.1.31 | phosphoenolpyruvate + CO2 |
NaCl and LiCl induce enzyme expression in roots. Other abiotic stresses affecting water status, such as drought or cold, induce PEPC expression. Important role of the enzyme in the adaption of plants to environmental changes |
| 4.1.1.31 | phosphoenolpyruvate + CO2 |
the enzyme is responsible for primary CO2 fixation. PEPC activity and regulationm are modified upon drought stress treatment in a way that allows Portulaca oleracea to perform a CAM-like metabolism |
