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表征和控制亲环素A的内在动力学。

Characterizing and controlling the inherent dynamics of cyclophilin-A.

作者信息

Schlegel Jennifer, Armstrong Geoffrey S, Redzic Jasmina S, Zhang Fengli, Eisenmesser Elan Zohar

机构信息

Department of Biochemistry and Molecular Genetics, School of Medicine, University of Colorado Denver, Aurora, Colorado 80045, USA.

出版信息

Protein Sci. 2009 Apr;18(4):811-24. doi: 10.1002/pro.89.

DOI:10.1002/pro.89
PMID:19319933
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2762593/
Abstract

With the recent advances in NMR relaxation techniques, protein motions on functionally important timescales can be studied at atomic resolution. Here, we have used NMR-based relaxation experiments at several temperatures and both 600 and 900 MHz to characterize the inherent dynamics of the enzyme cyclophilin-A (CypA). We have discovered multiple chemical exchange processes within the enzyme that form a "dynamic continuum" that spans 20-30 A comprising active site residues and residues proximal to the active site. By combining mutagenesis with these NMR relaxation techniques, a simple method of counting the dynamically sampled conformations has been developed. Surprisingly, a combination of point mutations has allowed for the specific regulation of many of the exchange processes that occur within CypA, suggesting that the dynamics of an enzyme may be engineered.

摘要

随着核磁共振弛豫技术的最新进展,可以在原子分辨率下研究功能重要时间尺度上的蛋白质运动。在此,我们在多个温度以及600兆赫和900兆赫频率下使用基于核磁共振的弛豫实验来表征亲环素A(CypA)酶的固有动力学。我们发现该酶内部存在多个化学交换过程,这些过程形成了一个“动态连续体”,其范围跨越20 - 30埃,包括活性位点残基和活性位点附近的残基。通过将诱变与这些核磁共振弛豫技术相结合,开发出了一种简单的计算动态采样构象的方法。令人惊讶的是,点突变的组合能够对CypA内部发生的许多交换过程进行特异性调控,这表明酶的动力学可能是可以设计的。

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