Phosphoenolpyruvate carboxylase (PEPC) was characterized in extracts from C4 mesophyll protoplasts isolated from Digitaria sanguinalis leaves and shown to display the structural, functional, and regulatory properties typical of a C4 PEPC. In situ increases in the apparent phosphorylation state of the enzyme and the activity of its Ca2+-independent protein-serine kinase were induced by light plus NH4Cl or methylamine. The photosynthesis-related metabolite 3-phosphoglycerate (3-PGA) was used as a substitute for the weak base in these experiments. The early effects of light plus the weak base or 3-PGA treatment were alkalinization of protoplast cytosolic pH, shown by fluorescence cytometry, and calcium mobilization from vacuoles, as suggested by the use of the calcium channel blockers TMB-8 and verapamil. The increases in PEPC kinase activity and the apparent phosphorylation state of PEPC also were blocked in situ by the electron transport and ATP synthesis inhibitors DCMU and gramicidin, respectively, the calcium/calmodulin antagonists W7, W5, and compound 48/80, and the cytosolic protein synthesis inhibitor cycloheximide. These results suggest that the production of ATP and/or NADPH by the illuminated mesophyll chloroplast is required for the activation of the transduction pathway, which presumably includes an upstream Ca2+-dependent protein kinase and a cytosolic protein synthesis event. The collective data support the view that the C4 PEPC light transduction pathway is contained entirely within the mesophyll cell and imply cross-talk between the mesophyll and bundle sheath cells in the form of the photosynthetic metabolite 3-PGA.
Phosphoenolpyruvate carboxylase (PEPC) activity was detected in aleurone-endosperm extracts of barley (Hordeum vulgare) seeds during germination, and specific anti-sorghum (Sorghum bicolor) C 4 PEPC polyclonal antibodies immunodecorated constitutive 103-kD and inducible 108-kD PEPC polypeptides in western analysis. The 103-and 108-kD polypeptides were radiolabeled in situ after imbibition for up to 1.5 d in 32 P-labeled inorganic phosphate. In vitro phosphorylation by a Ca 2؉ -independent PEPC protein kinase (PK) in crude extracts enhanced the enzyme's velocity and decreased its sensitivity to L-malate at suboptimal pH and [PEP]. Isolated aleurone cell protoplasts contained both phosphorylated PEPC and a Ca 2؉ -independent PEPC-PK that was partially purified by affinity chromatography on blue dextran-agarose. This PK activity was present in dry seeds, and PEPC phosphorylation in situ during imbibition was not affected by the cytosolic protein-synthesis inhibitor cycloheximide, by weak acids, or by various pharmacological reagents that had proven to be effective blockers of the light signal transduction chain and PEPC phosphorylation in C 4 mesophyll protoplasts. These collective data support the hypothesis that this Ca 2؉ -independent PEPC-PK was formed during maturation of barley seeds and that its presumed underlying signaling elements were no longer operative during germination.
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