球状蛋白中不同类氨基酸残基的温度依赖动力学转变。

Temperature-dependent dynamical transitions of different classes of amino acid residue in a globular protein.

机构信息

University of Tennessee/Oak Ridge National Laboratory Center for Molecular Biophysics, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, United States.

出版信息

J Am Chem Soc. 2012 Dec 5;134(48):19576-9. doi: 10.1021/ja3097898. Epub 2012 Nov 20.

DOI:10.1021/ja3097898

PMID:23140218

Abstract

The temperature dependences of the nanosecond dynamics of different chemical classes of amino acid residue have been analyzed by combining elastic incoherent neutron scattering experiments with molecular dynamics simulations on cytochrome P450cam. At T = 100-160 K, anharmonic motion in hydrophobic and aromatic residues is activated, whereas hydrophilic residue motions are suppressed because of hydrogen-bonding interactions. In contrast, at T = 180-220 K, water-activated jumps of hydrophilic side chains, which are strongly coupled to the relaxation rates of the hydrogen bonds they form with hydration water, become apparent. Thus, with increasing temperature, first the hydrophobic core awakens, followed by the hydrophilic surface.

摘要

通过将弹性非弹性中子散射实验与细胞色素 P450cam 的分子动力学模拟相结合，分析了不同化学类别的氨基酸残基的纳秒动力学对温度的依赖性。在 T = 100-160 K 时，疏水性和芳香族残基的非谐运动被激活，而由于氢键相互作用，亲水性残基的运动受到抑制。相比之下，在 T = 180-220 K 时，与它们与水合水形成的氢键的弛豫速率强烈耦合的亲水性侧链的水激活跳跃变得明显。因此，随着温度的升高，首先是疏水性核心被唤醒，然后是亲水性表面。

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球状蛋白中不同类氨基酸残基的温度依赖动力学转变。

Temperature-dependent dynamical transitions of different classes of amino acid residue in a globular protein.

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