植物色素光转换过程中的氢键和非共价电场效应

IF 2.8 2区 化学 Q3 CHEMISTRY, PHYSICAL
Anh Duc Nguyen, Norbert Michael, Luisa Sauthof, Johannes von Sass, Oanh Tu Hoang, Andrea Schmidt, Mariafrancesca La Greca, Ramona Schlesinger, Nediljko Budisa, Patrick Scheerer, Maria Andrea Mroginski, Anastasia Kraskov, Peter Hildebrandt
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引用次数: 0

摘要

要深刻理解蛋白质的结构和机理,需要专门的实验和理论工具来阐明蛋白质中的静电和氢键相互作用。在这项工作中,我们采用了一种方法来揭示多域蛋白质(即植物色素 Agp2)反应级联过程中的非共价和氢键电场变化。该方法利用了通常用作振动斯塔克效应报告基团的腈探针的光谱特性。这些探针通过特定位点的非典型氨基酸导入蛋白质,产生了四种腈基位置和方向不同的变体。所有替代物的结构和反应机理均保持不变。暗态(Pfr)的结构模型用于评估腈基标签处的总电场及其转换偶极矩。根据腈伸展带的相对强度,这些量可作为计算光诱导产物(Lumi-F、Meta-F 和 Pr)各自性质的内部标准。在大多数情况下,光谱分析揭示了两个亚态,其中一个腈处于氢键或疏水环境中。利用频率和强度,我们成功地从各个子态中提取出电场的非共价贡献。这项分析得出了 Agp2 光诱导反应级联过程中的非共价电场和氢键相关电场曲线。由于腈探针的位置和方向不同,这四种变体之间的电场曲线差异很大,我们结合 Pfr → Pr 反应级联过程中的分子事件对这些曲线进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrogen Bonding and Noncovalent Electric Field Effects in the Photoconversion of a Phytochrome.

A profound understanding of protein structure and mechanism requires dedicated experimental and theoretical tools to elucidate electrostatic and hydrogen bonding interactions in proteins. In this work, we employed an approach to disentangle noncovalent and hydrogen-bonding electric field changes during the reaction cascade of a multidomain protein, i.e., the phytochrome Agp2. The approach exploits the spectroscopic properties of nitrile probes commonly used as reporter groups of the vibrational Stark effect. These probes were introduced into the protein through site-specific incorporation of noncanonical amino acids resulting in four variants with different positions and orientations of the nitrile groups. All substitutions left structures and the reaction mechanism unchanged. Structural models of the dark states (Pfr) were used to evaluate the total electric field at the nitrile label and its transition dipole moment. These quantities served as an internal standard to calculate the respective properties of the photoinduced products (Lumi-F, Meta-F, and Pr) based on the relative intensities of the nitrile stretching bands. In most cases, the spectral analysis revealed two substates with a nitrile in a hydrogen-bonded or hydrophobic environment. Using frequencies and intensities, we managed to extract the noncovalent contribution of the electric field from the individual substates. This analysis resulted in profiles of the noncovalent and hydrogen-bond-related electric fields during the photoinduced reaction cascade of Agp2. These profiles, which vary significantly among the four variants due to the different positions and orientations of the nitrile probes, were discussed in the context of the molecular events along the Pfr → Pr reaction cascade.

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来源期刊
CiteScore
5.80
自引率
9.10%
发文量
965
审稿时长
1.6 months
期刊介绍: An essential criterion for acceptance of research articles in the journal is that they provide new physical insight. Please refer to the New Physical Insights virtual issue on what constitutes new physical insight. Manuscripts that are essentially reporting data or applications of data are, in general, not suitable for publication in JPC B.
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