通过单点突变失活的氯离子泵的化学重构。

Chemical reconstitution of a chloride pump inactivated by a single point mutation.

作者信息

Rüdiger M, Haupts U, Gerwert K, Oesterhelt D

机构信息

Max-Planck-Institut für Biochemie, Martinsried, Germany.

出版信息

EMBO J. 1995 Apr 18;14(8):1599-606. doi: 10.1002/j.1460-2075.1995.tb07148.x.

DOI:10.1002/j.1460-2075.1995.tb07148.x

PMID:7737112

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC398252/

Abstract

The arginine residue R108 plays an essential role in the transport mechanism of the light-driven anion pump halorhodopsin (HR) as demonstrated by complete inactivation of chloride transport in mutant HR-R108Q. In the presence of substrate anions, guanidinium ions bind to the mutant protein with affinities in the mM range, thereby restoring transport activity and photochemical properties of wild type. One guanidinium ion and one anion are bound per molecule of HR-R108Q. For HR wild type, HR-R108Q-guanidinium and HR-R108K, differences in transport activity and anion selectivity are found which may be explained by effects of anion solvation. The agreement between light-induced FTIR difference spectra of HR wild type and HR-R108Q-guanidinium demonstrates that no structural changes occur in the reconstituted mutant and that the photoreactions of wild type and reconstituted mutant are identical. Furthermore, an IR absorbance band of the guanidino group of R108 can be identified at 1695/1688 cm-1. In HR-R108Q, a guanidinium ion binding close to the mutated residue is proposed to mimick the role of the R108 side chain as the anion uptake site. Thus the wild type reaction mechanism is reconstituted.

摘要

精氨酸残基R108在光驱动阴离子泵盐视紫红质（HR）的转运机制中起着至关重要的作用，这一点已通过突变体HR-R108Q中氯离子转运的完全失活得到证明。在底物阴离子存在的情况下，胍离子以毫摩尔范围内的亲和力与突变蛋白结合，从而恢复野生型的转运活性和光化学性质。每分子HR-R108Q结合一个胍离子和一个阴离子。对于HR野生型、HR-R108Q-胍和HR-R108K，发现了转运活性和阴离子选择性的差异，这可能由阴离子溶剂化的影响来解释。HR野生型和HR-R108Q-胍的光诱导傅里叶变换红外差谱之间的一致性表明，重构的突变体没有发生结构变化，并且野生型和重构突变体的光反应是相同的。此外，在1695/1688 cm-1处可以识别出R108胍基的红外吸收带。在HR-R108Q中，有人提出靠近突变残基的胍离子结合模拟了R108侧链作为阴离子摄取位点的作用。因此，野生型反应机制得以重构。

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