Categorizing reactivity of bacteriorhodopsin cysteine mutants crosslinking to 4-bromoretinal.

Biochemistry and molecular biology international Pub Date : 1999-05-01 DOI:10.1080/15216549900201863

N Datta-Gupta, R K Crouch, E S Hazard

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Abstract

The structure of bacteriorhodopsin (bR) has been probed by a large number of experimental methods. In earlier work distance constraints measured from the 1BRD Brookhaven structure (1, 2) were used to guide site-directed mutagenesis/affinity labeling experiments (3-5). In the present study we report on the use of limited molecular dynamics (MD) investigations of the same bR/affinity label system. We show here that the chiral center introduced when 4-bromo-all-trans retinal is synthesized produces variable impact on potential crosslinking. Our MD analysis suggests the following ranking of binding site mutants in order of reactivity: R118C > S118C >> S121C > R141C >> S141C >>> R121C, R138C, S138C. Chirality appears to have limited effect for the M118C mutants but shows more dramatic impact for the T121C and S141C mutants. These results are in excellent agreement with the experimental observations and offer encouragement that MD can be a useful component of experimental design with considerable predictive power.

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细菌视紫红质半胱氨酸突变体与4-溴视网膜交联的反应性分类。

细菌视紫红质(bR)的结构已被大量的实验方法所探索。在早期的工作中，从1BRD Brookhaven结构(1,2)测量的距离约束被用来指导位点定向诱变/亲和标记实验(3-5)。在本研究中，我们报告了使用有限分子动力学(MD)研究相同的bR/亲和标记系统。我们在这里表明，当合成4-溴-全反式视网膜时引入的手性中心对潜在交联产生可变的影响。我们的MD分析显示，结合位点突变体的反应性排序如下:R118C > S118C >> S121C > R141C >> S141C >> R121C, R138C, S138C。手性似乎对M118C突变体的影响有限，但对T121C和S141C突变体的影响更大。这些结果与实验观察结果非常一致，并鼓励MD可以成为具有相当预测能力的实验设计的有用组成部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biochemistry and molecular biology international

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