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Articles

Biosynthesis of P700-Chlorophyll a Protein Complex, Plastocyanin, and Cytochrome b₆/f Complex ¹

Department of Chemistry, Faculty of Science and Technology, Meijo University, Tenpaku, Nagoya 468, Japan, Research Institute for Biochemical Regulation, School of Agriculture, Nagoya University, Chikusa, Nagoya 464, Japan

Changes in the amount of P700-chlorophyll a protein complex, plastocyanin, and cytochrome b₆/f complex during greening of pea (Pisum sativum L.), wheat (Triticum aestivum L.), and barley (Hordeum vulgare L.) leaves were analyzed by an immunochemical quantification method. Neither subunit I nor II of P700-chlorophyll a protein complex could be detected in the etiolated seedlings of all three plants and the accumulation of these subunits was shown to be light dependent. On the other hand, a small amount of plastocyanin was present in the etiolated seedlings of all three plants and its level increased about 30-fold during the subsequent 72-hour greening period. Furthermore, cytochrome f, cytochrome b₆, and Rieske Fe-S center protein in cytochrome b₆/f complex were also present in the etiolated seedings of all three plants. The level of each subunit component increased differently during greening and their induction pattern differed from species to species. The accumulation of cytochrome b₆/f complex was most profoundly affected by light in pea leaves, and the levels of cytochrome f, cytochrome b₆, and Rieske Fe-S center protein increased during greening about 10-, 20-, and more than 30-fold, respectively. In comparison to the case of pea seedlings, in wheat and barley leaves the level of each subunit component increased much less markedly. The results suggest that light regulates the accumulation of not only the chlorophyll protein complex but also the components of the electron transport systems.

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