Effect of sulphite on phosphoenolpyruvate carboxylase and malate formation in extracts of Zea mays

The effect of SO₃^2? on the activity of PEP-carboxylase and on subsequent malate formation has been studied in leaf extracts of Zea mays. PEP-carboxylase was assayed by incorporation of H¹⁴CO₃ - into oxaloacetate dinitrophenylhydrazone and by a spectrophotometric method. In contrast to ribulose diphosphate carboxylase, PEP-carboxylase was not inhibited by 10 mM SO₃^2? with respect to PEP. As was the case with ribulose diphosphate carboxylase, the activity of PEP-carboxylase was inhibited non-competitively with respect to Mg²⁺. However, the K_i value (84.5 mM) was found to be very high. With respect to HCO₃^?, like ribulose diphosphate carboxylase, PEP-carboxylase was inhibited competitively, but the K_i value (27 mM SO₃^2?) increased by about the same factor (× 9) as the K_m, (0·5 mM HCO₃^?) is decreased. This indicates that the replacement of HCO₃^? by SO₃^2?, common to both enzymes, is facilitated by decreasing the affinity of the enzyme for HCO₃^?. At substrate saturating conditions malate formation by the combined action of PEP-carboxylase and endogenous NADH-dependent malate dehydrogenase in leaf extracts was not inhibited by 10 mM SO₃^2?. Although the malate dehydrogenase is inhibited at this SO₃^2? concentration to about 85%, malate formation is unaffected, as PEP-carboxylase is the rate limiting step its turnover rate being only about 8% of NADH-dependent malate dehydrogenase.