通过光谱手段探索细胞色素 c 的多功能性:对共振拉曼光谱的赞誉

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Reinhard Schweitzer-Stenner
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引用次数: 0

摘要

过去 50 年来,共振拉曼光谱已成为研究生物大分子发色团的重要工具。其中,血红素蛋白和金属复合物备受关注。这种兴趣源于共振拉曼光谱可以探测这些发色团的振动动态,而不受周围环境的直接干扰。不过,通过发色团与蛋白质之间的通键和通空相互作用所产生的间接影响也可以方便地进行探测和分析。这篇综述文章以 1 类细胞色素 c 为例说明了这一点,这是一种比较简单的血红素蛋白,通常被称为线粒体中的电子载体。文章展示了如何通过选择性激发共振拉曼活性模式,从拉曼光谱中的波段位置获取有关血红素铁的连接、氧化还原状态和自旋状态的信息。对强度和去极化比的研究成为分析血红素大环平面内和平面外变形的工具。文章进一步说明了共振拉曼光谱如何用于描述氧化细胞色素 c 的部分折叠状态。最后,文章介绍了共振拉曼光谱如何用于探索蛋白质与含膜的心磷脂等阴离子表面结合所导致的结构变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Probing the versatility of cytochrome c by spectroscopic means: A Laudatio on resonance Raman spectroscopy

Probing the versatility of cytochrome c by spectroscopic means: A Laudatio on resonance Raman spectroscopy

Over the last 50 years resonance Raman spectroscopy has become an invaluable tool for the exploration of chromophores in biological macromolecules. Among them, heme proteins and metal complexes have attracted considerable attention. This interest results from the fact that resonance Raman spectroscopy probes the vibrational dynamics of these chromophores without direct interference from the surrounding. However, the indirect influence via through-bond and through-space chromophore-protein interactions can be conveniently probed and analyzed. This review article illustrates this point by focusing on class 1 cytochrome c, a comparatively simple heme protein generally known as electron carrier in mitochondria. The article demonstrates how through selective excitation of resonance Raman active modes information about the ligation, the redox state and the spin state of the heme iron can be obtained from band positions in the Raman spectra. The investigation of intensities and depolarization ratios emerged as tools for the analysis of in-plane and out-of-plane deformations of the heme macrocycle. The article further shows how resonance Raman spectroscopy was used to characterize partially unfolded states of oxidized cytochrome c. Finally, it describes its use for exploring structural changes due to the protein's binding to anionic surfaces like cardiolipin containing membranes.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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