α-Hydrogen Abstraction by •OH and •SH Radicals from Amino Acids and Their Peptide Derivatives

氢原子萃取 激进的 化学 取代基 热化学 计算化学 加法函数 密度泛函理论 抽象 基准集 计算机科学 组合化学 数学 立体化学 有机化学 物理化学 数学分析 哲学 认识论
作者
Bun Chan,Amir Karton,Christopher J. Easton,Leo Radom
出处
期刊:Journal of Chemical Theory and Computation [American Chemical Society]
卷期号:12 (4): 1606-1613 被引量:15
标识
DOI:10.1021/acs.jctc.6b00007
摘要

We have used computational quantum chemistry to investigate the thermochemistry of α-hydrogen abstraction from the full set of amino acids normally found in proteins, as well as their peptide forms, by •OH and •SH radicals. These reactions, with their reasonable complexity in the electronic structure (at the α-carbon), are chosen as a consistent set of models for conducting a fairly robust assessment of theoretical procedures. Our benchmarking investigation shows that, in general, the performance for the various classes of theoretical methods improves in the order nonhybrid DFT → hybrid DFT → double-hybrid DFT → composite procedures. More specifically, we find that the DSD-PBE-P86 double-hybrid DFT procedure yields the best agreement with our high-level W1X-2 vibrationless barriers and reaction energies for this particular set of systems. A significant observation is that, when one considers relative instead of absolute values for the vibrationless barriers and reaction energies, even nonhybrid DFT procedures perform fairly well. To exploit this feature in a cost-effective manner, we have examined a number of multilayer schemes for the calculation of reaction energies and barriers for the abstraction reactions. We find that accurate values can be obtained when a "core" of glycine plus the abstracting radical is treated by DSD-PBE-P86, and the substituent effects are evaluated with M06-2X. Inspection of the set of calculated thermochemical data shows that the correlation between the free energy barriers and reaction free energies is strongest when the reactions are either endergonic or nearly thermoneutral.
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