Phospho enol pyruvate carboxylase purified from leaves of C₃, C₄, and C₃-C₄ intermediate species of Alternanthera: properties at limiting and saturating bicarbonate

Abstract

Phosphoenolpyruvate carboxylase (PEPC) was purified from leaves of four species of Alternanthera differing in their photosynthetic carbon metabolism: Alternanthera sessilis (C₃), A. pungens (C₄), A. ficoides and A. tenella (C₃-C₄ intermediates or C₃-C₄). The activity and properties of PEPC were examined at limiting (0.05 mM) or saturating (10 mM) bicarbonate concentrations. The V_max as well as K_m values (for Mg²⁺ or PEP) of PEPC from A. ficoides and A. tenella (C₃-C₄ intermediates) were in between those of C₃ (A. sessilis) and C₄ species (A. pungens). Similarly, the sensitivity of PEPC to malate (an inhibitor) or G-6-P (an activator) of A. ficoides and A. tenella (C₃-C₄) was also of intermediate status between those of C₃ and C₄ species of A. sessilis and A. pungens, respectively. In all the four species, the maximal activity (V_max), affinity for PEP (K_m), and the sensitivity to malate (KI) or G-6-P (KA) of PEPC were higher at 10 mM bicarbonate than at 0.05 mM bicarbonate. Again, the sensitivity to bicarbonate of PEPC from C₃-C₄ intermediates was in between those of C₃- and C₄-species. Thus the characteristics of PEPC of C₃-C₄ intermediate species of Alternanthera are intermediate between C₃- and C₄-type, in both their kinetic and regulatory properties. Bicarbonate could be an important modulator of PEPC, particularly in C₄ plants.