蛋白质模拟：巴那斯酶点突变体的吸收光谱

Protein simulations: the absorption spectrum of barnase point mutants.

作者信息

Somers Ken R F, Krüger Peter, Bucikiewicz Sylwia, De Maeyer Marc, Engelborghs Yves, Ceulemans Arnout

机构信息

Department of Chemistry, University of Leuven, B-3001 Leuven, Belgium.

出版信息

Protein Sci. 2004 Jul;13(7):1823-31. doi: 10.1110/ps.04652804.

DOI:10.1110/ps.04652804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2279920/

Abstract

The near-UV absorption spectra of barnase double-point mutants are calculated using a combination of molecular dynamics and ab initio techniques. The atoms of the fluorescent probes are placed in a cloud of point charges, generated by molecular dynamics simulations. Ab initio calculations (CASPT2) are performed on these systems. Three molecular dynamics packages are compared-Amber5.0, CHARMM-c27b1, and GROMOS96-using indole as the fluorescent probe. It was found that calculated absorption spectra reproduce experimental values very well, provided detailed charge cloud descriptions are included. These calculations further sustain the hypothesis that different tryptophan rotamers can be present in proteins. Molecular dynamics calculations of the double-point mutants also point to the structural effect of counter ions.

摘要

利用分子动力学和从头算技术相结合的方法计算了巴纳酶双点突变体的近紫外吸收光谱。荧光探针的原子被置于由分子动力学模拟产生的点电荷云中。对这些体系进行从头算（CASPT2）计算。使用吲哚作为荧光探针，比较了三个分子动力学程序包——Amber5.0、CHARMM - c27b1和GROMOS96。结果发现，只要包含详细的电荷云描述，计算得到的吸收光谱就能很好地重现实验值。这些计算进一步支持了蛋白质中可能存在不同色氨酸旋转异构体的假设。双点突变体的分子动力学计算也指出了抗衡离子的结构效应。

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