质花青素带电氨基酸残基在与高等植物细胞色素 B6f 复合物和光系统 I 相互作用中的作用:布朗动力学方法研究

V. Fedorov, I.A. Volkhin, S. S. Khrushchev, T.K. Antal, I.B. Kovalenko
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引用次数: 0

摘要

质花青素是叶绿体电子传递链中的一种电子载体蛋白,负责将电子从细胞色素 b6f 复合物的细胞色素 f 转移到光系统 I。研究了蛋白质的静电特性,并确定了它们相互作用的最重要氨基酸残基。结果表明,在 73% 的情况下,质体花青素通过其 "大"(D42、E43、D44、E45、D51)和 "小"(E59、E60、D61)带负电荷区域的氨基酸残基与突出到光系统 I F 亚基腔内的带正电荷的 alpha-螺旋接触,而在 27% 的情况下,只通过 "大 "区域接触。将研究结果与之前获得的有关质体花青素与细胞色素 f 相互作用的数据进行比较,可以确定质体花青素带电氨基酸残基在与光系统 I 和细胞色素 f 形成复合物过程中的作用。当与细胞色素 f 相互作用时,位于细胞色素 f 小结构域附近、由 K58、K65、K66、K187 和 R209 氨基酸残基形成的带正电荷的区域会吸引质体花青素 "大 "区域的带负电荷的氨基酸残基 D42、E43、D44、E45 和 D51,形成静电铰链接触,当最终复合物形成时,会围绕该接触旋转。质花青素的 "小 "区域参与最终复合物的稳定。因此,无论是在与光系统 I 形成相遇复合物时,还是在与细胞色素 f 反应时,都使用了相同的带负电荷的质蓝蛋白氨基酸残基。
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Role of Charged Amino Acid Residues of Plastocyanin in Interaction with Cytochrome B6f Complex and Photosystem I of Higher Plants: A Study Using the Brownian Dynamics Method
Plastocyanin is an electron carrier protein in the electron transport chain of chloroplasts, carrying out the transfer of an electron from cytochrome f of the cytochrome b6f complex to photosystem I. Using the method of Brownian dynamics, the process of formation of the encounter complex of plastocyanin and photosystem I of higher plants was studied. The electrostatic properties of proteins were studied, and the most important amino acid residues for their interaction were identified. It was shown that plastocyanin contacts the positively charged alpha-helix protruding into the lumen of the F subunit of photosystem I with amino acid residues of both its “large” (D42, E43, D44, E45, D51) and “small” (E59, E60, D61) the negatively charged regions in 73 % of cases, and only the "large" region in 27 % of cases. A comparison of the study results with previously obtained data on the interaction of plastocyanin with cytochrome f made it possible to identify the role of charged amino acid residues of plastocyanin in the process of complex formation with photosystem I and cytochrome f. When interacting with cytochrome f, a positively charged region located near the small domain of cytochrome f and formed by amino acid residues K58, K65, K66, K187 and R209, attracts negatively charged amino acid residues D42, E43, D44, E45, D51 of the “large” region of plastocyanin, forming an electrostatic hinge contact around which rotation occurs when the final complex is formed. The “small” region of plastocyanin is involved in the stabilization of the final complex. Thus, both in the formation of the encounter complex with photosystem I, and in the reaction with cytochrome f the same negatively charged amino acid residues of plastocyanin are used.
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Mathematical Biology and Bioinformatics
Mathematical Biology and Bioinformatics Mathematics-Applied Mathematics
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13
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