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Inhibition of 3-Phosphoglycerate-Dependent O₂ Evolution by Phosphoenolpyruvate in C₄ Mesophyll Chloroplasts of Digitaria sanguinalis (L.) Scop. ¹

Department of Botany, Washington State University, Pullman, Washington 99164-4230, Institute of Biological Chemistry, Washington State University, Pullman, Washington 99164-4230

The effects of phosphoenolpyruvate (PEP), inorganic phosphate (Pi), and ATP on 3-phosphoglycerate (PGA)-dependent O₂ evolution by chloroplasts of Digitaria sanguinalis (L.) Scop. (crabgrass) were evaluated relative to possible mechanisms of PEP transport by the C₄ mesophyll chloroplast. Crude and Percoll purified chloroplast preparations exhibited rates of PGA-dependent O₂ evolution in the range of 90 to 135 micromoles O₂ per milligram chlorophyll per hour, and up to 180 micromoles O₂ per milligram chlorophyll per hour at optimal Pi concentrations (approximately 0.2 millimolar at 9 millimolar PGA). Higher concentrations of Pi were inhibitory. PEP inhibited O₂ evolution (up to 70%) in both chloroplast preparations when the PEP to PGA ratio was high (i.e. 9 millimolar PEP to 0.36 millimolar PGA). Usually no inhibition was seen when the PEP to PGA ratio was less than 2. PEP acted as a competitive inhibitor and, at a concentration of 9 millimolar, increased the apparent K_m (PGA) from 0.15 to 0.53 millimolar in Percoll purified chloroplasts. A low concentration of PGA and high ratio of PEP to PGA, which are considered unphysiological, were required to detect any inhibition of O₂ evolution by PEP. Similar results were obtained from crude versus Percoll purified preparations. Neither the addition of Pi nor ATP could overcome PEP inhibition. As PEP inhibition was competitive with respect to PGA concentration, and as addition of ATP or Pi could not prevent PEP inhibition of PGA-dependent O₂ evolution, the inhibition was not due to PEP exchange of adenylates or Pi out of the chloroplast. Analysis of the effect of Pi and PEP, separately and in combination, on PGA-dependent O₂ evolution suggests interactions between PEP, Pi, and PGA on the same translocator in the C₄ mesophyll chloroplast. C₃ spinach chloroplasts were also found to be sensitive to PEP, but to a lesser extent than crabgrass chloroplasts. The apparent K_i values (PEP) were 3 and 21 millimolar for crabgrass and spinach, respectively.

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