磷脂酰甘油缺乏对光系统II供体侧的影响。

Effects of the lack of phosphatidylglycerol on the donor side of photosystem II.

作者信息

Sakurai Isamu, Mizusawa Naoki, Ohashi Shunsuke, Kobayashi Masami, Wada Hajime

机构信息

Department of Life Sciences, Graduate School of Arts and Sciences, University of Tokyo, Tokyo, Japan.

出版信息

Plant Physiol. 2007 Jul;144(3):1336-46. doi: 10.1104/pp.107.098731. Epub 2007 May 18.

DOI:10.1104/pp.107.098731

PMID:17513482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1914113/

Abstract

Our previous studies with the pgsA mutant of the cyanobacterium Synechocystis sp. PCC6803 (hereafter termed pgsA mutant), which is defective for the biosynthesis of phosphatidylglycerol (PG), revealed an important role for PG in the electron acceptor side of photosystem II (PSII), especially in the electron transport between plastoquinones Q(A) and Q(B). This study now shows that PG also plays an important role in the electron donor side of PSII, namely, the oxygen-evolving system. Analyses of purified PSII complexes indicated that PSII from PG-depleted pgsA mutant cells sustained only approximately 50% of the oxygen-evolving activity compared to wild-type cells. Dissociation of the extrinsic proteins PsbO, PsbV, and PsbU, which are required for stabilization of the manganese (Mn) cluster, followed by the release of a Mn atom, was observed in PSII of the PG-depleted mutant cells. The released PsbO rebound to PSII when PG was added back to the PG-depleted mutant cells, even when de novo protein synthesis was inhibited. Changes in photosynthetic activity of the PG-depleted pgsA mutant cells induced by heat treatment or dark incubation resembled those of DeltapsbO, DeltapsbV, and DeltapsbU mutant cells. These results suggest that PG plays an important role in binding extrinsic proteins required for sustaining a functional Mn cluster on the donor side of PSII.

摘要

我们之前对蓝藻集胞藻PCC6803的pgsA突变体（以下简称pgsA突变体）进行的研究表明，该突变体在磷脂酰甘油（PG）生物合成方面存在缺陷，揭示了PG在光系统II（PSII）的电子受体侧具有重要作用，特别是在质体醌Q(A)和Q(B)之间的电子传递过程中。本研究现在表明，PG在PSII的电子供体侧，即放氧系统中也起着重要作用。对纯化的PSII复合物的分析表明，与野生型细胞相比，来自PG缺失的pgsA突变体细胞的PSII仅维持了约50%的放氧活性。在PG缺失的突变体细胞的PSII中观察到，稳定锰（Mn）簇所需的外在蛋白PsbO、PsbV和PsbU发生解离，随后释放出一个Mn原子。当将PG重新添加到PG缺失的突变体细胞中时，即使抑制了从头蛋白质合成，释放的PsbO也会重新结合到PSII上。热处理或黑暗孵育诱导的PG缺失的pgsA突变体细胞光合活性的变化类似于DeltapsbO、DeltapsbV和DeltapsbU突变体细胞的变化。这些结果表明，PG在结合维持PSII供体侧功能性Mn簇所需的外在蛋白方面起着重要作用。

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