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单甲基化和全甲基化细菌视紫红质的光化学

Photochemistry of monomethylated and permethylated bacteriorhodopsin.

作者信息

Govindjee R, Dancshazy Z, Ebrey T G, Longstaff C, Rando R R

机构信息

Department of Physiology, University of Illinois, Urbana 61801.

出版信息

Biophys J. 1988 Sep;54(3):557-62. doi: 10.1016/S0006-3495(88)82989-8.

DOI:10.1016/S0006-3495(88)82989-8
PMID:3207841
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330355/
Abstract

Methylation of the nonactive site lysines of bacteriorhodopsin to form permethylated bacteriorhodopsin does not interfere with the formation of the short wavelength intermediate M412 or light-induced proton release/uptake. The absorption spectrum is similar to that of the native bacteriorhodopsin. However, additional monomethylation of the active site lysine of bacteriorhodopsin causes a red shift of the absorption maximum from 568 nm in light-adapted bacteriorhodopsin [BR] to 630 nm. The photochemistry of active-site methylated BR does not proceed beyond the L-photointermediate. In particular, the photointermediate corresponding to M412 does not form, and there is no proton pumping. Moreover, there is no tyrosine deprotonation. Thus, the formation of an M-type photointermediate is required for proton pumping by BR.

摘要

将细菌视紫红质的非活性位点赖氨酸甲基化以形成全甲基化细菌视紫红质,并不干扰短波长中间体M412的形成或光诱导的质子释放/摄取。其吸收光谱与天然细菌视紫红质的相似。然而,细菌视紫红质活性位点赖氨酸的额外单甲基化会导致吸收最大值从光适应细菌视紫红质[BR]中的568 nm红移至630 nm。活性位点甲基化的BR的光化学过程不会超过L光中间体。特别是,对应于M412的光中间体不会形成,也没有质子泵浦。此外,没有酪氨酸去质子化。因此,BR进行质子泵浦需要形成M型光中间体。

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本文引用的文献

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The quantum efficiency of proton pumping by the purple membrane of Halobacterium halobium.嗜盐菌紫膜质子泵的量子效率。
Biophys J. 1980 May;30(2):231-42. doi: 10.1016/S0006-3495(80)85091-0.
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Environmental effects on formation and photoreaction of the M412 photoproduct of bacteriorhodopsin: implications for the mechanism of proton pumping.环境对细菌视紫红质M412光产物形成及光反应的影响:对质子泵浦机制的启示
Biochemistry. 1981 Feb 3;20(3):649-55. doi: 10.1021/bi00506a031.
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On the protein (tyrosine)-chromophore (protonated Schiff base) coupling in bacteriorhodopsin.关于细菌视紫红质中蛋白质(酪氨酸)-发色团(质子化席夫碱)的偶联
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Regeneration of native bacteriorhodopsin structure following acetylation of epsilon-amino groups of Lys-30, -40, and -41.
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