TOAC标记肽的电子自旋共振：折叠转变与高频光谱学

Electron spin resonance of TOAC labeled peptides: folding transitions and high frequency spectroscopy.

作者信息

McNulty J C, Silapie J L, Carnevali M, Farrar C T, Griffin R G, Formaggio F, Crisma M, Toniolo C, Millhauser G L

机构信息

Department of Chemistry and Biochemistry University of California, Santa Cruz, CA 95064, USA.

出版信息

Biopolymers. 2000;55(6):479-85. doi: 10.1002/1097-0282(2000)55:6<479::AID-BIP1023>3.0.CO;2-F.

DOI:10.1002/1097-0282(2000)55:6<479::AID-BIP1023>3.0.CO;2-F

PMID:11304675

Abstract

The unnatural, conformationally constrained nitroxide amino acid TOAC (2,2,6,6-tetramethylpiperidine-1-oxyl-4-amino-4-carboxylic acid) stabilizes helical structure and provides a means for studying rigidly spin labeled peptides by electron spin resonance (ESR). Two new directions in TOAC research are described. The first investigates intermediates formed during alpha-helix unfolding. Double TOAC labeled alpha-helical peptides were unfolded at low temperature in aqueous solution with increasing concentrations of guanidine hydrochloride. Comparison of ESR spectra from two doubly labeled peptides suggests that 3(10)-helix emerges as an intermediate. The second research direction involves the use of high frequency ESR (140 GHz) at low temperature to assess dipolar couplings and, hence, distances between TOAC pairs in a series of 3(10)-helical peptides. Preliminary simulations suggest that high frequency ESR is able to extract correct distances between 6 and 11 A. In addition, the spectra appear to be very sensitive to the relative orientation of the TOAC labels.

摘要

非天然的、构象受限的氮氧自由基氨基酸TOAC（2,2,6,6 - 四甲基哌啶 - 1 - 氧基 - 4 - 氨基 - 4 - 羧酸）能稳定螺旋结构，并为通过电子自旋共振（ESR）研究刚性自旋标记肽提供了一种方法。本文描述了TOAC研究中的两个新方向。第一个方向研究α - 螺旋解折叠过程中形成的中间体。双TOAC标记的α - 螺旋肽在低温水溶液中随着盐酸胍浓度的增加而解折叠。来自两种双标记肽的ESR光谱比较表明，3(10) - 螺旋作为中间体出现。第二个研究方向涉及在低温下使用高频ESR（140 GHz）来评估偶极耦合，从而确定一系列3(10) - 螺旋肽中TOAC对之间的距离。初步模拟表明，高频ESR能够提取6至11埃之间的正确距离。此外，光谱似乎对TOAC标记的相对取向非常敏感。

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TOAC标记肽的电子自旋共振：折叠转变与高频光谱学

Electron spin resonance of TOAC labeled peptides: folding transitions and high frequency spectroscopy.

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