同源III型纤连蛋白结构域环交换突变体中的构象动力学

Conformational dynamics in loop swap mutants of homologous fibronectin type III domains.

作者信息

Siggers Keri, Soto Cinque, Palmer Arthur G

机构信息

Department of Biochemistry and Molecular Biophysics, Columbia University, New York, New York 10032, USA.

出版信息

Biophys J. 2007 Oct 1;93(7):2447-56. doi: 10.1529/biophysj.106.100578. Epub 2007 May 25.

DOI:10.1529/biophysj.106.100578

PMID:17526562

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1965443/

Abstract

Fibronectin type III (FN-III) domains are autonomously folded modules found in a variety of multidomain proteins. The 10th FN-III domain from fibronectin (fnFN10) and the 3rd FN-III domain from tenascin-C (tnFN3) have 27% sequence identity and the same overall fold; however, the CC' loop has a different pattern of backbone hydrogen bonds and the FG loop is longer in fnFN10 compared to tnFN3. To examine the influence of length, sequence, and context in determining dynamical properties of loops, CC' and FG loops were swapped between fnFN10 and tnFN3 to generate four mutant proteins and backbone conformational dynamics on ps-ns and mus-ms timescales were characterized by solution (15)N-NMR spin relaxation spectroscopy. The grafted loops do not strongly perturb the properties of the protein scaffold; however, specific effects of the mutations are observed for amino acids that are proximal in space to the sites of mutation. The amino acid sequence primarily dictates conformational dynamics when the wild-type and grafted loop have the same length, but both sequence and context contribute to conformational dynamics when the loop lengths differ. The results suggest that changes in conformational dynamics of mutant proteins must be considered in both theoretical studies and protein design efforts.

摘要

III型纤连蛋白（FN-III）结构域是在多种多结构域蛋白中发现的自主折叠模块。纤连蛋白的第10个FN-III结构域（fnFN10）和腱生蛋白-C的第3个FN-III结构域（tnFN3）具有27%的序列同一性和相同的整体折叠结构；然而，CC'环具有不同的主链氢键模式，并且与tnFN3相比，fnFN10中的FG环比tnFN3中的FG环更长。为了研究长度、序列和上下文对环动态特性的影响，在fnFN10和tnFN3之间交换了CC'环和FG环，以生成四种突变蛋白，并通过溶液（15）N-NMR自旋弛豫光谱表征了皮秒-纳秒和微秒-毫秒时间尺度上的主链构象动力学。嫁接的环不会强烈干扰蛋白质支架的特性；然而，在空间上靠近突变位点的氨基酸会观察到突变的特定效应。当野生型环和嫁接环长度相同时，氨基酸序列主要决定构象动力学，但当环长度不同时，序列和上下文都会影响构象动力学。结果表明，在理论研究和蛋白质设计工作中都必须考虑突变蛋白构象动力学的变化。

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