铜绿假单胞菌延伸因子 Ts 的 C 末端螺旋调节 EF-Tu 动力学以调控核苷酸交换。

The C-terminal Helix of Pseudomonas aeruginosa Elongation Factor Ts Tunes EF-Tu Dynamics to Modulate Nucleotide Exchange.

作者信息

De Laurentiis Evelina Ines, Mercier Evan, 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. 2016 Oct 28;291(44):23136-23148. doi: 10.1074/jbc.M116.740381. Epub 2016 Sep 13.

DOI:10.1074/jbc.M116.740381

PMID:27624934

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5087732/

Abstract

Little is known about the conservation of critical kinetic parameters and the mechanistic strategies of elongation factor (EF) Ts-catalyzed nucleotide exchange in EF-Tu in bacteria and particularly in clinically relevant pathogens. EF-Tu from the clinically relevant pathogen Pseudomonas aeruginosa shares over 84% sequence identity with the corresponding elongation factor from Escherichia coli Interestingly, the functionally closely linked EF-Ts only shares 55% sequence identity. To identify any differences in the nucleotide binding properties, as well as in the EF-Ts-mediated nucleotide exchange reaction, we performed a comparative rapid kinetics and mutagenesis analysis of the nucleotide exchange mechanism for both the E. coli and P. aeruginosa systems, identifying helix 13 of EF-Ts as a previously unnoticed regulatory element in the nucleotide exchange mechanism with species-specific elements. Our findings support the base side-first entry of the nucleotide into the binding pocket of the EF-Tu·EF-Ts binary complex, followed by displacement of helix 13 and rapid binding of the phosphate side of the nucleotide, ultimately leading to the release of EF-Ts.

摘要

关于细菌中延伸因子（EF）Ts催化EF-Tu核苷酸交换的关键动力学参数的保守性以及机制策略，尤其是在临床相关病原体中的情况，人们了解甚少。临床相关病原体铜绿假单胞菌的EF-Tu与大肠杆菌相应的延伸因子具有超过84%的序列同一性。有趣的是，功能紧密相关的EF-Ts仅具有55%的序列同一性。为了确定核苷酸结合特性以及EF-Ts介导的核苷酸交换反应中的任何差异，我们对大肠杆菌和铜绿假单胞菌系统的核苷酸交换机制进行了比较快速动力学和诱变分析，确定EF-Ts的螺旋13是核苷酸交换机制中一个先前未被注意到的具有物种特异性元件的调节元件。我们的研究结果支持核苷酸以碱基侧先进入EF-Tu·EF-Ts二元复合物的结合口袋，随后螺旋13发生位移，核苷酸的磷酸侧快速结合，最终导致EF-Ts释放。

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