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通过核磁共振剩余偶极耦合探究核糖核酸酶S肽中的结构与无序状态。

Structure and disorder in the ribonuclease S-peptide probed by NMR residual dipolar couplings.

作者信息

Alexandrescu Andrei T, Kammerer Richard A

机构信息

Department of Molecular and Cell Biology, University of Connecticut, Storrs, CT 06269-3125, USA.

出版信息

Protein Sci. 2003 Oct;12(10):2132-40. doi: 10.1110/ps.03164403.

DOI:10.1110/ps.03164403
PMID:14500871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2366913/
Abstract

NMR residual dipolar couplings for the S-peptide of ribonuclease A aligned in C8E5/n-octanol liquid crystals are consistent with the presence of a native-like alpha-helix structure undergoing dynamic fraying. Residues 3-13, which correspond to the first alpha-helix of ribonuclease A, show couplings that become more negative at low temperature and in the presence of salt, conditions which stabilize alpha-helical structure in the S-peptide. By contrast, dipolar couplings from the N and C termini of the peptide are close to zero and remain nearly invariant with changes in solution conditions. Torsion angle dynamics simulations using a gradient of dihedral restraint bounds that increase from the center to the ends of the peptide reproduce the experimentally observed sequence dependence of dipolar couplings. The magnitudes of residual dipolar couplings depend on the anisotropy of the solute. Native proteins often achieve nearly spherical shapes due to the hydrophobic effect. Embryonic partially folded structures such as the S-peptide alpha-helix have an intrinsically greater potential for anisotropy that can result in sizable residual dipolar couplings in the absence of long-range structure.

摘要

核糖核酸酶A的S肽在C8E5/正辛醇液晶中排列时的核磁共振剩余偶极耦合,与存在经历动态磨损的类似天然α螺旋结构一致。对应于核糖核酸酶A第一个α螺旋的3-13位残基显示出在低温和有盐存在时偶合变得更负,这些条件会稳定S肽中的α螺旋结构。相比之下,肽的N端和C端的偶极耦合接近零,并且随着溶液条件的变化几乎保持不变。使用从肽的中心到末端增加的二面角约束边界梯度进行的扭转角动力学模拟,再现了实验观察到的偶极耦合的序列依赖性。剩余偶极耦合的大小取决于溶质的各向异性。由于疏水作用,天然蛋白质通常具有近乎球形的形状。诸如S肽α螺旋之类的胚胎部分折叠结构具有内在更大的各向异性潜力,这在没有长程结构的情况下可能导致相当大的剩余偶极耦合。

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