线粒体无机焦磷酸酶hPPA2的构象动力学及其致病突变引起的变化。

IF 3.9 3区 生物学 Q1 BIOLOGY Life-Basel Pub Date : 2025-01-15 DOI:10.3390/life15010100
Ekaterina Bezpalaya, Svetlana Kurilova, Nataliya Vorobyeva, Elena Rodina
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引用次数: 0

摘要

无机焦磷酸酶是一种普遍存在的酶,其活性是许多生物合成反应所必需的。PPases的催化功能依赖于某些构象的变化,这些构象的变化先前已经根据各种配合物的晶体结构的比较进行了表征。目前的工作描述了人类线粒体热磷酸酶hPPA2结构模型的构象动力学,使用分子动力学模拟,全原子主成分分析和粗粒度正态分析。除了野生型酶外,hPPA2的四种突变变体也被表征为与导致严重线粒体功能障碍和心脏病变的自然致病变体相对应。结果,我们确定了全局类型的柔性运动,似乎是由其他二聚体pases共享。这种运动是根据蛋白质的变构行为来讨论的。对观察到的构象动力学分析表明,在活性位点形成了阴离子配体的结合位点,可能与酶催化有关。通过比较野生型和突变型PPases的动态变化,我们提出突变导致hPPA2功能缺失的可能分子机制。这项工作的结果可以更深入地了解PPase功能的结构基础以及致病突变对蛋白质结构和功能的可能影响。
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Conformational Dynamics of Mitochondrial Inorganic Pyrophosphatase hPPA2 and Its Changes Caused by Pathogenic Mutations.

Inorganic pyrophosphatases, or PPases, are ubiquitous enzymes whose activity is necessary for a large number of biosynthetic reactions. The catalytic function of PPases is dependent on certain conformational changes that have been previously characterized based on the comparison of the crystal structures of various complexes. The current work describes the conformational dynamics of a structural model of human mitochondrial pyrophosphatase hPPA2 using molecular dynamics simulation, all-atom principal component analysis, and coarse-grained normal mode analysis. In addition to the wild-type enzyme, four mutant variants of hPPA2 were characterized that correspond to the natural pathogenic variants causing severe mitochondrial dysfunction and cardio pathologies. As a result, we identified the global type of flexible motion that seems to be shared by other dimeric PPases. This motion is discussed in terms of the allosteric behavior of the protein. Analysis of the observed conformational dynamics revealed the formation of a binding site for anionic ligands in the active site that could be relevant to enzyme catalysis. Based on the comparison of the wild-type and mutant PPases dynamics, we suggest the possible molecular mechanisms of the functional incompetence of hPPA2 caused by mutations. The results of this work allow for deeper insight into the structural basis of PPase function and the possible effects of pathogenic mutations on the protein structure and function.

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来源期刊
Life-Basel
Life-Basel Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology
CiteScore
4.30
自引率
6.20%
发文量
1798
审稿时长
11 weeks
期刊介绍: Life (ISSN 2075-1729) is an international, peer-reviewed open access journal of scientific studies related to fundamental themes in Life Sciences, especially those concerned with the origins of life and evolution of biosystems. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers.
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