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KMID : 0368420030460020122
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Journal of Plant Biology
2003 Volume.46 No. 2 p.122 ~ p.129
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Recovery from Low-Temperature Photoinhibition is Related to Dephosphorylation of Phosphorylated CP29 Rather Than Zeaxanthin Epoxidation in Rice Leaves
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Hwang, Hong Jin
Xu, Chang Cheng/Moon, Byoung Yong/Lee, Choon-Hwan
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Abstract
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During recovery from chilling-induced photoinhibition in rice leaves, we compared the reactivation kinetics of PS¥± photochemical efficiency (Fv/Fm) with that of zeaxanthin (Z) epoxidation and the dephosphorylation of CP34 (i.e., the phosphorylated form of CP29). The latter two processes were kinetically similar to the slow increase in Fv/Fm measured in our control leaves. However, the rate of Z epoxidation was significantly retarded by an epoxidase inhibitor, 5 mM salicylaldoxime (SA), without any significant changes in the processes of PS¥± reactivation and CP34 dephosphorylation. When chilled leaves were incubated at 10¡É in the dark, both reactivation and dephosphorylation were significantly blocked, but Z epoxidation was not. Finally, we observed that the kinetics of CP34 dephosphorylation matched very well with those of PS¥± recovery in two rice cultivars with different chilling sensitivities. These results suggest that PS¥± reactivation from low-temperature photoinhibition is more closely related to CP34 dephosphorylation than to Z epoxidation.
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