The pseudo-beta I-turn. A new structural motif with a cis peptide bond in cyclic hexapeptides.

H Kessler, H Matter, G Gemmecker, H J Diehl, C Isernia, S Mronga
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Abstract

Synthesis and conformational analysis of three cyclic hexapeptides cyclo(-Gly1-Pro2-Phe3-Val4-Xaa5-Phe6), Xaa = Phe (I), D-Phe (II) and D-Pro (III), were carried out to examine the influence of proline on the formation of reverse turns and the dynamics of hydrophobic peptide regions. Assignment of all 1H and 13C resonances was achieved by homo- and heteronuclear 2D-NMR techniques (TOCSY, ROESY, HMQC, HMQC-TOCSY and HMBCS-270). The conformational analysis is based on interproton distances derived from ROESY spectra and homo- and heteronuclear coupling constants (E.COSY, HETLOC and HMBCS-270). For structural refinements restrained molecular dynamics (MD) simulations in vacuo and in DMSO were performed. Each peptide exhibits two conformations in DMSO solution due to cis-trans isomerism about the Gly-Pro peptide bond. Surprisingly the cis-Gly-Pro segment in the minor isomers is not involved in a beta VI-turn, but forms a turn structure with cis-Gly-Pro in the i and i + 1 positions. Although no stabilizing hydrogen bond is found in this turn, the phi- and psi-angles closely correspond to a beta I-turn [Pro2: phi(i + 1) -60 degrees, psi(i + 1) -30 degrees; Phe3: phi(i + 2) -100 degrees, psi(i + 2) -50 degrees]. Hence we call this structural element a pseudo-beta I-turn. As expected, in the dominating all-trans isomers proline occupies the i + 1 position of a standard beta I-turn. Therefore, cis-trans isomerization of the Gly1-Pro2 amide bond only induces a local conformational rearrangement, with minor structural changes in other parts of the molecule. However, the geometry of the other regions is affected by the chirality of the i + 1 amino acid for both isomers (beta I for Phe5, beta II' for D-Phe5 or D-Pro5).

伪i型转弯。环状六肽中具有顺肽键的新结构基序。
合成了环六肽cyclo(-Gly1-Pro2-Phe3-Val4-Xaa5-Phe6)、Xaa = Phe (I)、D-Phe (II)和D-Pro (III),并进行了构象分析,考察了脯氨酸对反旋形成和疏水肽区动力学的影响。所有1H和13C共振都是通过同核和异核2D-NMR技术(TOCSY, ROESY, HMQC, HMQC-TOCSY和HMBCS-270)完成的。构象分析是基于从ROESY谱和同核和异核耦合常数(e.c oasy, HETLOC和HMBCS-270)得出的质子间距离。为了改进结构,在真空和DMSO中进行了约束分子动力学(MD)模拟。由于Gly-Pro肽键的顺反异构作用,每个肽在DMSO溶液中表现出两种构象。令人惊讶的是,次要异构体中的顺式gly - pro片段不参与β VI-turn,而是与顺式gly - pro在i和i + 1位置形成一个turn结构。虽然在这个旋转中没有发现稳定的氢键,但phi-和psi-角与β i-旋转非常接近[Pro2: phi(i + 1) -60度,psi(i + 1) -30度;Phe3: phi(i + 2) -100度,psi(i + 2) -50度。因此我们称这种结构元素为伪I-turn。正如预期的那样,在占主导地位的全反式异构体中,脯氨酸占据了标准i -旋的i + 1位置。因此,Gly1-Pro2酰胺键的顺反异构化仅引起局部构象重排,而分子其他部分的结构变化较小。然而,其他区域的几何形状受到i + 1氨基酸的手性的影响,这两种异构体(β i为Phe5, β II'为D-Phe5或D-Pro5)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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