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体外血红素对一种染料脱色过氧化物酶的配位作用——关键氨基酸、pH 值、缓冲液和甘油的相互作用。

In Vitro Heme Coordination of a Dye-Decolorizing Peroxidase-The Interplay of Key Amino Acids, pH, Buffer and Glycerol.

机构信息

BIMEF Laboratory, Department of Chemistry, University of Antwerp, 2610 Antwerp, Belgium.

Division of Biochemistry, Department of Chemistry, BOKU-University of Natural Resources and Life Sciences, 1190 Vienna, Austria.

出版信息

Int J Mol Sci. 2021 Sep 12;22(18):9849. doi: 10.3390/ijms22189849.

DOI:10.3390/ijms22189849
PMID:34576013
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8468270/
Abstract

Dye-decolorizing peroxidases (DyPs) have gained interest for their ability to oxidize anthraquinone-derived dyes and lignin model compounds. Spectroscopic techniques, such as electron paramagnetic resonance and optical absorption spectroscopy, provide main tools to study how the enzymatic function is linked to the heme-pocket architecture, provided the experimental conditions are carefully chosen. Here, these techniques are used to investigate the effect of active site perturbations on the structure of ferric P-class DyP from (KDyP) and three variants of the main distal residues (D143A, R232A and D143A/R232A). Arg-232 is found to be important for maintaining the heme distal architecture and essential to facilitate an alkaline transition. The latter is promoted in absence of Asp-143. Furthermore, the non-innocent effect of the buffer choice and addition of the cryoprotectant glycerol is shown. However, while unavoidable or indiscriminate experimental conditions are pitfalls, careful comparison of the effects of different exogenous molecules on the electronic structure and spin state of the heme iron contains information about the inherent flexibility of the heme pocket. The interplay between structural flexibility, key amino acids, pH, temperature, buffer and glycerol during in vitro spectroscopic studies is discussed with respect to the poor peroxidase activity of bacterial P-class DyPs.

摘要

染料脱色过氧化物酶(DyPs)因其能够氧化蒽醌衍生染料和木质素模型化合物而受到关注。光谱技术,如电子顺磁共振和光吸收光谱,为研究酶功能与血红素口袋结构的关系提供了主要工具,只要实验条件得到仔细选择。在这里,这些技术被用于研究活性位点扰动对(KDyP)的铁 P 类 DyP 和三个主要远端残基(D143A、R232A 和 D143A/R232A)变体的结构的影响。发现 Arg-232 对于维持血红素远端结构很重要,并且对于促进碱性转变是必要的。在没有 Asp-143 的情况下,后者会被促进。此外,还显示了缓冲剂选择和添加保护剂甘油的非无辜效应。然而,虽然不可避免或不加区分的实验条件是陷阱,但仔细比较不同外源分子对血红素铁的电子结构和自旋态的影响包含了关于血红素口袋固有灵活性的信息。在讨论细菌 P 类 DyPs 过氧化物酶活性差的问题时,讨论了结构灵活性、关键氨基酸、pH 值、温度、缓冲液和甘油在体外光谱研究中的相互作用。

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