Center for Computational Natural Sciences and Bioinformatics, International Institute of Information Technology, Hyderabad 500 032, India.
J Mol Model. 2012 Jul;18(7):3181-97. doi: 10.1007/s00894-011-1326-7. Epub 2012 Jan 12.
Density functional B3LYP method was used to investigate the preference of intra- and inter-molecular cyclizations of linear tripeptides containing tetrahydrofuran amino acids. Two distinct model pathways were conceived for the cyclization reaction, and all possible transition states and intermediates were located. Analysis of the energetics indicate intermolecular cyclization being favored by both thermodynamic and kinetic control. Geometric and NBO analyses were performed to explain the trends obtained along both the reaction pathways. Conceptual density functional theory-based reactive indices also show that reaction pathways leading to intermolecular cyclization of the tripeptides are relatively more facile compared to intramolecular cyclization.
采用密度泛函 B3LYP 方法研究了含有四氢呋喃氨基酸的线性三肽的分子内和分子间环化的优势。为环化反应设想了两种不同的模型途径,并找到了所有可能的过渡态和中间体。能态分析表明,分子间环化受热力学和动力学控制的双重影响。进行了几何和 NBO 分析,以解释沿两条反应途径获得的趋势。基于概念密度泛函理论的反应性指数也表明,与分子内环化相比,导致三肽分子间环化的反应途径相对更容易。