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组氨酸114对普遍保守的ATP酶YchF的ATP水解至关重要。

Histidine 114 Is Critical for ATP Hydrolysis by the Universally Conserved ATPase YchF.

作者信息

Rosler Kirsten S, Mercier Evan, Andrews Ian C, Wieden Hans-Joachim

机构信息

From the Department of Chemistry and Biochemistry, Alberta RNA Research and Training Institute, University of Lethbridge, Lethbridge, Alberta T1K 3M4, Canada.

From the Department of Chemistry and Biochemistry, Alberta RNA Research and Training Institute, University of Lethbridge, Lethbridge, Alberta T1K 3M4, Canada

出版信息

J Biol Chem. 2015 Jul 24;290(30):18650-61. doi: 10.1074/jbc.M114.598227. Epub 2015 May 27.

DOI:10.1074/jbc.M114.598227
PMID:26018081
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4513122/
Abstract

GTPases perform a wide range of functions, ranging from protein synthesis to cell signaling. Of all known GTPases, only eight are conserved across all three domains of life. YchF is one of these eight universally conserved GTPases; however, its cellular function and enzymatic properties are poorly understood. YchF differs from the classical GTPases in that it has a higher affinity for ATP than for GTP and is a functional ATPase. As a hydrophobic amino acid-substituted ATPase, YchF does not possess the canonical catalytic Gln required for nucleotide hydrolysis. To elucidate the catalytic mechanism of ATP hydrolysis by YchF, we have taken a two-pronged approach combining classical biochemical and in silico techniques. The use of molecular dynamics simulations allowed us to complement our biochemical findings with information about the structural dynamics of YchF. We have thereby identified the highly conserved His-114 as critical for the ATPase activity of YchF from Escherichia coli. His-114 is located in a flexible loop of the G-domain, which undergoes nucleotide-dependent conformational changes. The use of a catalytic His is also observed in the hydrophobic amino acid-substituted GTPase RbgA and is an identifier of the translational GTPase family.

摘要

GTP酶发挥着广泛的功能,从蛋白质合成到细胞信号传导。在所有已知的GTP酶中,只有八种在生命的所有三个域中都是保守的。YchF是这八种普遍保守的GTP酶之一;然而,其细胞功能和酶学性质却知之甚少。YchF与经典GTP酶的不同之处在于,它对ATP的亲和力高于对GTP的亲和力,并且是一种功能性ATP酶。作为一种疏水性氨基酸取代的ATP酶,YchF不具备核苷酸水解所需的典型催化性谷氨酰胺。为了阐明YchF水解ATP的催化机制,我们采用了一种双管齐下的方法,将经典生物化学技术和计算机技术相结合。分子动力学模拟的使用使我们能够用YchF结构动力学的信息来补充我们的生物化学研究结果。我们由此确定,高度保守的His-114对大肠杆菌YchF的ATP酶活性至关重要。His-114位于G结构域的一个柔性环中,该环会发生核苷酸依赖性构象变化。在疏水性氨基酸取代的GTP酶RbgA中也观察到催化性组氨酸的使用,它是翻译GTP酶家族的一个标识符。

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