准确的质子亲和能和气相碱性值对于生物催化中重要的分子。
Accurate proton affinity and gas-phase basicity values for molecules important in biocatalysis.
机构信息
Department of Chemistry, University of Minnesota, 207 Pleasant Street SE, Minneapolis, Minnesota 55455-0431, USA.
出版信息
J Phys Chem B. 2010 Nov 4;114(43):13911-21. doi: 10.1021/jp107450n.
Abstract
Benchmark quantum calculations of proton affinities and gas-phase basicities of molecules relevant to biochemical processes, particularly acid/base catalysis, are presented and compared for a variety of multilevel and density functional quantum models. Included are nucleic acid bases in both keto and enol tautomeric forms, ribose in B-form and A-form sugar pucker conformations, amino acid side chains and backbone molecules, and various phosphates and phosphoranes, including thio substitutions. This work presents a high-level thermodynamic characterization of biologically relevant protonation states and provides a benchmark database for development of next-generation semiempirical and approximate density functional quantum models and parametrization of methods to predict pK(a) values and relative solvation energies.
摘要
基准量子计算质子亲和能和气相碱度的分子与生化过程有关,特别是酸/碱催化,提出并比较了各种多层次和密度泛函量子模型。包括在酮和烯醇互变异构形式的核酸碱基,核糖在 B 型和 A 型糖环构象,氨基酸侧链和骨架分子,和各种磷酸盐和膦,包括硫取代。这项工作提供了一个高水平的热力学特征生物相关的质子化状态,并提供了一个基准数据库为下一代半经验和近似密度泛函量子模型的发展和参数化的方法来预测 pK(a)值和相对溶剂化能。
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