铜离子作为离体叶绿体光合作用电子传递的抑制剂。
The cupric ion as an inhibitor of photosynthetic electron transport in isolated chloroplasts.
机构信息
Department of Plant Sciences, University of California, Riverside, California 92502.
出版信息
Plant Physiol. 1972 Dec;50(6):698-701. doi: 10.1104/pp.50.6.698.
Abstract
Strong inhibition of uncoupled photosynthetic electron transport by Cu(2+) in isolated spinach chloroplasts was observed by measuring changes in O(2) concentration in the reaction medium. Inhibition was dependent not only on the concentration of the inhibitor, but also on the ratio of chlorophyll to inhibitor. Binding of Cu(2+) to the chloroplast membranes resulted in removal of Cu(2+) from solution. When chloroplasts were exposed to preincubation in light, there was increased inhibition as a result of Cu(2+) binding to inhibitory sites. Preincubation in the dark resulted in Cu(2+) binding to noninhibitory sites and decreased inhibition. The degree of inhibition was lower at low light intensities than at high light intensities.When the photosystems were assayed separately, photosystem I was more resistant to inhibition than photosystem II. The most sensitive site to the inhibitor was the oxidizing side of photosystem II.
摘要
通过测量反应介质中 O(2)浓度的变化,观察到 Cu(2+)对分离的菠菜叶绿体中未偶联的光合电子传递的强烈抑制作用。抑制作用不仅取决于抑制剂的浓度,还取决于叶绿素与抑制剂的比值。Cu(2+)与叶绿体膜的结合导致 Cu(2+)从溶液中去除。当叶绿体在光照下进行预孵育时,由于 Cu(2+)与抑制性结合位点结合,抑制作用增强。黑暗预孵育导致 Cu(2+)与非抑制性结合位点结合,抑制作用减弱。与高光强相比,低光强下的抑制程度较低。当分别测定光系统时,光系统 I 比光系统 II 更能抵抗抑制作用。对抑制剂最敏感的部位是光系统 II 的氧化侧。
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