分析蛋白 C-H 键对 OH 自由基氢原子攫取的反应活性。

Analysis of the reactivities of protein C-H bonds to H atom abstraction by OH radical.

机构信息

Department of Chemistry & Biochemistry, Utah State University, Logan, Utah 84322, United States.

出版信息

J Am Chem Soc. 2010 Nov 24;132(46):16450-9. doi: 10.1021/ja105204v. Epub 2010 Nov 3.

Abstract

Ab initio and density functional theory calculations are used to monitor the process wherein a OH· radical is allowed to approach the various CH groups of a Leu dipeptide, with its CH(2)CH(CH(3))(2) side chain. After forming an encounter complex, the OH· abstracts the pertinent H atom, and the resulting HOH is then dissociated from the complex. The energy barriers for H· abstraction from the β, γ, and δ CH groups are all less than 8 kcal/mol, but a significantly higher barrier is computed for the C(α)H removal. This higher barrier is the result of the strong H-bonds formed in the encounter complex between the OH· and the NH and C═O groups of the peptide units that surround the C(α) atom. This low-energy complex represents a kinetic trap which raises the energy needed to surmount the ensuing H· transfer barrier.

摘要

运用从头算和密度泛函理论计算来监测 OH·自由基与亮氨酸二肽的各种 CH 基团（其 CH(2)CH(CH(3))(2)侧链）相互作用的过程。形成遭遇复合物后，OH·会夺取相关的 H 原子，生成的 HOH 随后从复合物中解离。从β、γ和δ CH 基团夺取 H·的能垒都小于 8 kcal/mol，但从 C(α)H 夺取 H·的能垒要高得多。造成这种更高能垒的原因是，在 OH·与围绕 C(α)原子的肽单元的 NH 和 C═O 基团之间形成的强氢键，在遭遇复合物中。这种低能复合物代表了一种动力学陷阱，增加了克服后续 H·转移障碍所需的能量。

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分析蛋白 C-H 键对 OH 自由基氢原子攫取的反应活性。

Analysis of the reactivities of protein C-H bonds to H atom abstraction by OH radical.

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