在光合作用 I 中 P700 叶绿素对的正离子态分布。
Cationic state distribution over the P700 chlorophyll pair in photosystem I.
机构信息
Career-Path Promotion Unit for Young Life Scientists, Graduate School of Medicine, Kyoto University, Kyoto, Japan.
出版信息
Biophys J. 2011 Oct 19;101(8):2018-25. doi: 10.1016/j.bpj.2011.09.010.
Abstract
The primary electron donor P700 in photosystem I is composed of two chlorophylls, P(A) and P(B). P700 forms the cationic P(A)/P(B) state as a result of light-induced electron transfer. We obtained a P(A)(•+)/P(B)(•+) ratio of 28:72 and a spin distribution of 22:78 for the entire PSI protein-pigment complex. By considering the influence of the protein components on the redox potential for one-electron oxidation of P(A)/P(B) monomers, we found that the following three factors significantly contributed to a large P(B)(•+) population relative to P(A)(•+): 1), Thr-A743 forming a H-bond with P(A); 2), P(A) as a chlorophyll a epimer; and 3), a conserved PsaA/PsaB pair, the Arg-A750/Ser-B734 residue. In addition, 4), the methyl-ester groups of the accessory chlorophylls A(-1A)/A(-1B) significantly stabilized the cationic P(A)/P(B) state and 5), the methyl-ester group orientations were completely different in A(-1A) and A(-1B) as seen in the crystal structure. When the methyl-ester group was rotated, the spin-density distribution over P(A)/P(B) ranged from 22:78 to 15:85.
摘要
光系统 I 的初级电子供体 P700 由两个叶绿素 P(A)和 P(B)组成。P700 通过光诱导电子转移形成阳离子P(A)/P(B)态。我们获得了整个 PSI 蛋白-色素复合物中 P(A)(•+)/P(B)(•+)的比值为 28:72,自旋分布为 22:78。通过考虑蛋白质成分对 P(A)/P(B)单体单电子氧化还原电位的影响,我们发现以下三个因素显著导致 P(B)(•+)比 P(A)(•+)多:1), Thr-A743 与 P(A)形成氢键;2),P(A)为叶绿素 a 的差向异构体;3),保守的 PsaA/PsaB 对,Arg-A750/Ser-B734 残基。此外,4),辅助叶绿素 A(-1A)/A(-1B)的甲酯基团显著稳定了阳离子P(A)/P(B)态,5),在晶体结构中,甲酯基团的取向在 A(-1A)和 A(-1B)中完全不同。当甲酯基团旋转时,P(A)/P(B)上的自旋密度分布范围从 22:78 到 15:85。
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