EF 手型蛋白中的溶剂化能与构象变化。

Solvation energetics and conformational change in EF-hand proteins.

作者信息

Ababou A, Desjarlais J R

机构信息

Department of Chemistry, Pennsylvania State University, University Park, Pennsylvania 16802, USA.

出版信息

Protein Sci. 2001 Feb;10(2):301-12. doi: 10.1110/ps.33601.

DOI:10.1110/ps.33601

PMID:11266616

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2373930/

Abstract

Calmodulin and other members of the EF-hand protein family are known to undergo major changes in conformation upon binding Ca(2+). However, some EF-hand proteins, such as calbindin D9k, bind Ca(2+) without a significant change in conformation. Here, we show the importance of a precise balance of solvation energetics to conformational change, using mutational analysis of partially buried polar groups in the N-terminal domain of calmodulin (N-cam). Several variants were characterized using fluorescence, circular dichroism, and NMR spectroscopy. Strikingly, the replacement of polar side chains glutamine and lysine at positions 41 and 75 with nonpolar side chains leads to dramatic enhancement of the stability of the Ca(2+)-free state, a corresponding decrease in Ca(2+)-binding affinity, and an apparent loss of ability to change conformation to the open form. The results suggest a paradigm for conformational change in which energetic strain is accumulated in one state in order to modulate the energetics of change to the alternative state.

摘要

已知钙调蛋白及EF手型蛋白家族的其他成员在结合Ca(2+)后会发生构象的重大变化。然而，一些EF手型蛋白，如钙结合蛋白D9k，结合Ca(2+)时构象并无显著变化。在此，我们通过对钙调蛋白N端结构域（N-cam）中部分埋藏的极性基团进行突变分析，展示了溶剂化能量精确平衡对构象变化的重要性。使用荧光、圆二色性和核磁共振光谱对几种变体进行了表征。引人注目的是，用非极性侧链取代41位和75位的极性侧链谷氨酰胺和赖氨酸，会导致无Ca(2+)状态稳定性显著增强，Ca(2+)结合亲和力相应降低，以及向开放形式转变构象的能力明显丧失。结果提示了一种构象变化模式，即能量应变在一种状态下积累，以调节向另一种状态变化的能量。

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