黄酮类蛋白的失黄和重建。

Marco H Hefti, Jacques Vervoort, Willem J H van Berkel
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引用次数: 120

摘要

黄蛋白是一种普遍存在的氧化还原蛋白,参与许多生物过程。在大多数黄素蛋白中,黄素辅因子是紧密但非共价结合的。黄素蛋白可逆解离成载脂蛋白和黄素假体对黄素蛋白的折叠、功能和机制有重要意义。用人工黄素代替天然辅因子已被证明对测定黄素蛋白活性位点的溶剂可及性、极性、反应立体化学和动力学行为特别有用。本文综述了黄酮类蛋白脱黄和重组研究的最新进展。讨论了几种复杂的色谱方法,以大规模地降低或重建黄素蛋白。在黄素蛋白的一个子集中,黄素辅因子以共价方式附着在多肽链上。来自核黄素缺陷表达系统和定点突变的研究表明,黄素化反应是一个翻译后的过程,而不是一个共翻译过程。这些遗传方法也提供了深入了解共价黄烷化的机制和这种非典型蛋白质修饰的基本原理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deflavination and reconstitution of flavoproteins.

Flavoproteins are ubiquitous redox proteins that are involved in many biological processes. In the majority of flavoproteins, the flavin cofactor is tightly but noncovalently bound. Reversible dissociation of flavoproteins into apoprotein and flavin prosthetic group yields valuable insights in flavoprotein folding, function and mechanism. Replacement of the natural cofactor with artificial flavins has proved to be especially useful for the determination of the solvent accessibility, polarity, reaction stereochemistry and dynamic behaviour of flavoprotein active sites. In this review we summarize the advances made in the field of flavoprotein deflavination and reconstitution. Several sophisticated chromatographic procedures to either deflavinate or reconstitute the flavoprotein on a large scale are discussed. In a subset of flavoproteins, the flavin cofactor is covalently attached to the polypeptide chain. Studies from riboflavin-deficient expression systems and site-directed mutagenesis suggest that the flavinylation reaction is a post-translational, rather than a cotranslational, process. These genetic approaches have also provided insight into the mechanism of covalent flavinylation and the rationale for this atypical protein modification.

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