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α/ε-杂合肽的理论与实验研究:基于含交替(S)-C-连接碳-ε-氨基酸[(S)-ε-Caa((x))]和L-丙氨酸的肽设计14/12螺旋。

Theoretical and experimental studies on alpha/epsilon-hybrid peptides: design of a 14/12-helix from peptides with alternating (S)-C-linked carbo-epsilon-amino acid [(S)-epsilon-Caa((x))] and L-ala.

作者信息

Sharma Gangavaram V M, Babu Bommagani Shoban, Chatterjee Deepak, Ramakrishna Kallaganti V S, Kunwar Ajit C, Schramm Peter, Hofmann Hans-Jörg

机构信息

Organic Chemistry Division III, Indian Institute of Chemical Technology (CSIR), Hyderabad 500 607, India.

出版信息

J Org Chem. 2009 Sep 4;74(17):6703-13. doi: 10.1021/jo901277a.

DOI:10.1021/jo901277a
PMID:19663475
Abstract

An (S)-C-linked carbo-epsilon-amino acid [(S)-epsilon-Caa((x))] was prepared from the known (S)-delta-Caa. This monomer was utilized together with l-Ala to give novel alpha/epsilon-hybrid peptides in 1:1 alternation. Conformational analysis on penta- and hexapeptides by NMR (in CDCl(3)), CD, and MD studies led to the identification of robust 14/12-mixed helices. This is in agreement with the data from a theoretical conformational analysis on the basis of ab initio MO theory providing a complete overview on all formally possible hydrogen-bonded helix patterns of alpha/epsilon-hybrid peptides with 1:1 backbone alternation. The "new motif" of a mixed 14/12-helix was predicted as most stable in vacuum. Obviously, the formation of ordered secondary structures is also possible in peptide foldamers with amino acid constituents of considerable backbone lengths. Thus, alpha/epsilon-hybrid peptides expand the domain of foldamers and allow the introduction of desired functionalities via the alpha-amino acid constituents.

摘要

由已知的(S)-δ-碳氨基酸制备了一种(S)-C-连接的碳-ε-氨基酸[(S)-ε-Caa((x))]。该单体与L-丙氨酸一起用于以1:1交替的方式得到新型的α/ε-杂合肽。通过核磁共振(在CDCl₃中)、圆二色光谱和分子动力学研究对五肽和六肽进行构象分析,从而鉴定出稳定的14/12混合螺旋。这与基于从头算分子轨道理论的理论构象分析数据一致,该理论对具有1:1主链交替的α/ε-杂合肽的所有形式上可能的氢键螺旋模式提供了完整的概述。混合的14/12螺旋的“新基序”在真空中被预测为最稳定。显然,在具有相当主链长度的氨基酸组成的肽折叠体中也可能形成有序的二级结构。因此,α/ε-杂合肽扩展了折叠体的领域,并允许通过α-氨基酸组成引入所需的功能。

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