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Molecular Biology and Gene Regulation

Comparative Studies of Phosphoenolpyruvate Carboxylase from C₃ and C₄ Plants ¹

National Institute of Agrobiological Resources, Tsukuba Science City, Yatabe, Ibaraki 305 Japan

Phosphoenolpyruvate carboxylase (PEPC) from several C₃ plants was compared to maize PEPC by immunoblotting using an antibody against maize PEPC and by peptide mapping. In C₃ gramineous plants, PEPCs of slightly different monomeric sizes were detected as two bands for wheat and barley leaves, as three bands for etiolated maize leaves and as four bands for rice leaves by SDS-polyacrylamide gel electrophoresis and immunoblotting, whereas only one PEPC band was detected for maize leaves, a C₄ plant, or tobacco leaves, a dicotyledonous C₃ plant. The peptide fragment patterns of the lower molecular weight PEPC (major band in immunoblotting) in wheat leaves was similar to that of maize PEPC in peptide mapping by protein staining or by immunological detection, but the upper one (minor band) had a different pattern from the lower one in peptide mapping by immunological detection and few peptide fragments from this were recognized by the anti-(maize) PEPC antibody. These results suggest that there are multiple forms of PEPC subunits in the gramineous plants tested, and the major PEPC has a primary structure similar to that of maize PEPC. To obtain information about the expression of PEPCs in C₃ plants, changes in the amount of PEPC protein were investigated during the greening of rice and wheat seedlings. Judging from the regulation by light, there were two types of PEPCs in greening rice seedlings, one induced by light and the other reduced by it. Greening wheat seedlings also show a PEPC band induced by light. These findings indicate that some PEPCs in C₃ gramineous plants not only have structures similar to that of maize PEPC, but also are regulated by light in a similar manner.