Abstract
In etiolated barley (Hordeum vulgare L.) seedlings the light-induced accumulation of chlorophyll is controlled by two light-dependent NADPH-proto-chlorophyllide oxidoreductase (POR; EC 1.6.99.1) enzymes. While the concentration of one of these enzymes (POR A) and its mRNA rapidly decline during illumination, the second POR protein (POR B) and its mRNA remain at an approximately constant level during the transition from dark growth to the light. These results may suggest that only one of the enzymes, POR B, operates throughout the greening process and in light-adapted mature plants while the second enzyme, POR A, is active only in etiolated seedlings at the beginning of illumination. The fate of the two POR proteins and their mRNAs in fully green plants, however, has not been studied yet. In the present work we determined changes in the level of POR A and POR B proteins and mRNAs in green barley plants kept under a diurnal 12 h light/12 h dark cycle. In green barley plants, not only POR B is present but also trace amounts of POR A continue to reappear transiently at the end of a night period and seem to be involved in the synthesis and accumulation of chlorophyll at the beginning of each day.
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