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溶液中 RNA 2'-O-转酯化反应模型的分子模拟。

Molecular simulations of RNA 2'-O-transesterification reaction models in solution.

机构信息

BioMaPS Institute and Department of Chemistry and Chemical Biology, Rutgers University, Piscataway, New Jersey 08854-8087, United States.

出版信息

J Phys Chem B. 2013 Jan 10;117(1):94-103. doi: 10.1021/jp3084277. Epub 2012 Dec 24.

DOI:10.1021/jp3084277
PMID:23214417
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3574632/
Abstract

We employ quantum mechanical/molecular mechanical umbrella sampling simulations to probe the free energy surfaces of a series of increasingly complex reaction models of RNA 2'-O-transesterification in aqueous solution under alkaline conditions. Such models are valuable for understanding the uncatalyzed processes underlying catalytic cleavage of the phosphodiester backbone of RNA, a reaction of fundamental importance in biology. The chemically reactive atoms are modeled by the AM1/d-PhoT quantum model for phosphoryl transfer, whereas the aqueous solvation environment is modeled with a molecular mechanics force field. Several simulation protocols were compared that used different ionic conditions and force field models. The results provide insight into how variation of the structural environment of the nucleophile and leaving group affects the free energy profile for the transesterification reaction. Results for a simple RNA backbone model are compared with recent experiments by Harris et al. on the specific base-catalyzed cleavage of a UpG dinucleotide. The calculated and measured free energies of activation match extremely well (ΔF(‡) = 19.9-20.8 vs 19.9 kcal/mol). Solvation is seen to play a crucial role and is characterized by a network of hydrogen bonds that envelopes the pentacoordinate dianionic phosphorane transition state and provides preferential stabilization relative to the reactant state.

摘要

我们采用量子力学/分子力学伞状抽样模拟方法,研究了在碱性条件下水溶液中 RNA 2'-O-转酯化反应的一系列越来越复杂的反应模型的自由能表面。这些模型对于理解 RNA 磷酸二酯骨架催化裂解的无催化过程非常有价值,而 RNA 磷酸二酯骨架的催化裂解反应在生物学中具有基本的重要性。通过 AM1/d-PhoT 量子模型对磷酰基转移进行化学反应原子建模,而通过分子力学力场对水溶剂化环境进行建模。比较了几种不同离子条件和力场模型的模拟方案。结果提供了有关亲核试剂和离去基团的结构环境变化如何影响转酯化反应的自由能分布的见解。将简单的 RNA 骨架模型的结果与 Harris 等人最近关于 UpG 二核苷酸的特定碱基催化裂解的实验进行了比较。计算和测量的活化自由能非常吻合(ΔF(‡) = 19.9-20.8 与 19.9 kcal/mol)。结果表明,溶剂化起着至关重要的作用,其特征是氢键网络,该网络包围了五配位二价磷叶立德过渡态,并提供了相对于反应物状态的优先稳定化。

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