电子传递黄素蛋白中的一个多态性位点可调节动力学稳定性，热应激证明了这一点。

A polymorphic position in electron transfer flavoprotein modulates kinetic stability as evidenced by thermal stress.

作者信息

Henriques Bárbara J, Fisher Mark T, Bross Peter, Gomes Cláudio M

机构信息

Instituto Tecnologia Química e Biológica, Universidade Nova de Lisboa, Oeiras, Portugal.

出版信息

FEBS Lett. 2011 Feb 4;585(3):505-10. doi: 10.1016/j.febslet.2011.01.002. Epub 2011 Jan 8.

DOI:10.1016/j.febslet.2011.01.002

PMID:21219902

Abstract

The electron transfer flavoprotein (ETF) is a hub interacting with at least 11 mitochondrial flavoenzymes and linking them to the respiratory chain. Here we report the effect of the ETFα-T/I171 polymorphism on protein conformation and kinetic stability under thermal stress. Although variants have comparable thermodynamic stabilities, kinetically their behavior is rather distinct as ETFα-T171 displays increased susceptibility to cofactor flavin adenine dinucleotide (FAD) loss and enhanced kinetics of inactivation during thermal stress. Mimicking a fever episode yields substantial activity loss. However, the presence of substoichiometric concentrations of GroEL is sufficient to act as an effective buffer against long-term thermal denaturation. Our investigations are compatible with the notion that the ETFα-T171 variant displays an altered conformational landscape that results in reduced protein function under thermal stress.

摘要

电子传递黄素蛋白（ETF）是一个与至少11种线粒体黄素酶相互作用并将它们与呼吸链相连的枢纽。在此，我们报告ETFα-T/I171多态性对热应激下蛋白质构象和动力学稳定性的影响。尽管变体具有相当的热力学稳定性，但在动力学上它们的行为却截然不同，因为ETFα-T171在热应激期间对辅因子黄素腺嘌呤二核苷酸（FAD）损失的敏感性增加，并且失活动力学增强。模拟发热发作会导致大量活性丧失。然而，亚化学计量浓度的GroEL的存在足以作为抵抗长期热变性的有效缓冲剂。我们的研究与以下观点一致，即ETFα-T171变体表现出改变的构象格局，导致在热应激下蛋白质功能降低。

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A polymorphic position in electron transfer flavoprotein modulates kinetic stability as evidenced by thermal stress.电子传递黄素蛋白中的一个多态性位点可调节动力学稳定性，热应激证明了这一点。

FEBS Lett. 2011 Feb 4;585(3):505-10. doi: 10.1016/j.febslet.2011.01.002. Epub 2011 Jan 8.

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电子传递黄素蛋白中的一个多态性位点可调节动力学稳定性，热应激证明了这一点。

A polymorphic position in electron transfer flavoprotein modulates kinetic stability as evidenced by thermal stress.

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