大肠杆菌毒素-抗毒素复合物 DinJ-YafQ 的结构与功能表征。

Structural and functional characterization of Escherichia coli toxin-antitoxin complex DinJ-YafQ.

机构信息

From the School of Life Sciences, University of Science and Technology of China, Hefei, Anhui Province 230027, China, the Multidiscipline Research Center, Institute of High Energy Physics of the Chinese Academy of Sciences, 19B Yuequan Road, Beijing 100049, China, and.

the Multidiscipline Research Center, Institute of High Energy Physics of the Chinese Academy of Sciences, 19B Yuequan Road, Beijing 100049, China, and.

出版信息

J Biol Chem. 2014 Jul 25;289(30):21191-202. doi: 10.1074/jbc.M114.559773. Epub 2014 Jun 12.

DOI:10.1074/jbc.M114.559773

PMID:24923448

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4110321/

Abstract

Toxin YafQ functions as a ribonuclease in the dinJ-yafQ toxin-antitoxin system of Escherichia coli. Antitoxin DinJ neutralizes YafQ-mediated toxicity by forming a stable protein complex. Here, crystal structures of the (DinJ)2-(YafQ)2 complex and the isolated YafQ toxin have been determined. The structure of the heterotetrameric complex (DinJ)2-(YafQ)2 revealed that the N-terminal region of DinJ folds into a ribbon-helix-helix motif and dimerizes for DNA recognition, and the C-terminal portion of each DinJ exclusively wraps around a YafQ molecule. Upon incorporation into the heterotetrameric complex, a conformational change of YafQ in close proximity to the catalytic site of the typical microbial ribonuclease fold was observed and validated. Mutagenesis experiments revealed that a DinJ mutant restored YafQ RNase activity in a tetramer complex in vitro but not in vivo. An electrophoretic mobility shift assay showed that one of the palindromic sequences present in the upstream intergenic region of DinJ served as a binding sequences for both the DinJ-YafQ complex and the antitoxin DinJ alone. Based on structure-guided and site-directed mutagenesis of DinJ-YafQ, we showed that two pairs of amino acids in DinJ were important for DNA binding; the R8A and K16A substitutions and the S31A and R35A substitutions in DinJ abolished the DNA binding ability of the DinJ-YafQ complex.

摘要

毒素 YafQ 在大肠杆菌的 dinJ-yafQ 毒素-抗毒素系统中充当核糖核酸酶。抗毒素 DinJ 通过形成稳定的蛋白质复合物来中和 YafQ 介导的毒性。在这里，已经确定了（DinJ）2-（YafQ）2 复合物和分离的 YafQ 毒素的晶体结构。异四聚体复合物（DinJ）2-（YafQ）2 的结构表明，DinJ 的 N 端区域折叠成一个带状-螺旋-螺旋基序，并二聚化以识别 DNA，并且每个 DinJ 的 C 端部分专门包裹在 YafQ 分子周围。在掺入异四聚体复合物后，观察到靠近典型微生物核糖核酸酶折叠催化位点的 YafQ 构象变化，并进行了验证。突变实验表明，DinJ 突变体在体外四聚体复合物中恢复了 YafQ RNase 活性，但在体内不行。电泳迁移率变动分析表明，DinJ 上游基因间区存在的一个回文序列作为 DinJ-YafQ 复合物和单独的抗毒素 DinJ 的结合序列。基于结构指导和 DinJ-YafQ 的定点突变，我们表明 DinJ 中的两对氨基酸对于 DNA 结合很重要；DinJ 中的 R8A 和 K16A 取代以及 S31A 和 R35A 取代消除了 DinJ-YafQ 复合物的 DNA 结合能力。

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