Intact mesophyll protoplasts from Zea mays as a source of phosphoenolpyruvate carboxylase unaffected by extraction: Advantages and limitations

Isolated intact mesophyll protoplasts from Zea mays L. were used as an enzyme source for studying properties of phosphoenolpyruvate (PEP) carboxylase (EC 4.1 1 31) just after release from cells into the reaction medium. After the injection of protoplasts into the assay mixture, an initial lag of activity was observed, mainly due to the time necessary for complete disruption of protoplasts by the osmotic shock. The final specific activity obtained was ca 18 μmol mg ‐1 of liberated protein min ‐1 , a value comparable to that usually achieved after arduous purification. Under the assay conditions employed, the chloroplasts were not disrupted and the retention of their proteins, together with the use of purified mesophyll protoplasts, were obviously the reasons for the high specific activity obtained. The activity and properties of phosphoenolpyruvate carboxylase stored in isolated protoplasts were stable for at least 24 h at 5°C. The main difference between the protoplast‐derived and the routinely extracted enzyme was the sensitivity to malate inhibition, which was partially lost in the extracted phosphoenolpyruvate carboxylase; no difference was found in the K m(PEP) . The stress imposed by the protoplast isolation procedure diminished the sensitivity of the enzyme to malate inhibition, so that it can be inferred that the real malate sensitivity of pbosphocnolpyruvale carboxylase is even greater and that it is grossly underestimated with routinely extracted enzyme.