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Characterization of benzoxaborole-based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl-tRNA synthetase editing cap

机译：基于苯并硼醛的抗真菌抗性突变的表征表明编辑取决于白胶-TRNA合成酶编辑帽的静电稳定

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The broad-spectrum benzoxaborole antifungal AN2690 blocks protein synthesis by inhibiting leucyl-tRNA synthetase (LeuRS) via a novel oxaborole tRNA trapping mechanism in the editing site. Herein, one set of resistance mutations is at Asp487 outside the LeuRS hydrolytic editing pocket, in a region of unknown function. It is located within a eukaryote/archaea specific insert I4, which forms part of a cap over a benzoxaborole-AMP that is bound in the LeuRS CP1 domain editing active site. Mutational and biochemical analysis at Asp487 identified a salt bridge between Asp487 and Arg316 in the hinge region of the I4 cap of yeast LeuRS that is critical for tRNA deacylation. We hypothesize that this electrostatic interaction stabilizes the cap during binding of the editing substrate for hydrolysis.

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期刊名称 other
作者
Jaya Sarkar; Weimin Mao; Tommie L. Lincecum Jr.; M.R.K. Alley; Susan A. Martinis;
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年(卷),期 -1(585),19
年度 -1
页码 2986–2991
总页数 15
原文格式 PDF
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关键词
AN2690 drug resistance fidelity translation antibiotic;

机译：AN2690;耐药性;保真度;翻译;抗生素;

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专利

1. Characterization of benzoxaborole-based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl-tRNA synthetase editing cap. [J] . Sarkar J, Mao W, Lincecum TL Jr, FEBS letters. . 2011,第19期

机译：基于苯并氧杂硼酸的抗真菌抗性突变的特征表明，编辑取决于亮氨酰tRNA合成酶编辑帽的静电稳定性。
2. Characterization of benzoxaborole‐based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl‐tRNA synthetase editing cap [J] . FEBS Letters . 2011,第19期

机译：基于苯并氧杂硼烷的抗真菌抗性突变的表征表明，编辑取决于亮氨酰tRNA合成酶编辑帽的静电稳定性
3. Crystal structures of the human and fungal cytosolic Leucyl-tRNA synthetase editing domains: A structural basis for the rational design of antifungal benzoxaboroles. [J] . Seiradake E, Mao W, Hernandez V Journal of Molecular Biology . 2009,第2期

机译：人类和真菌的胞质亮氨酰-tRNA合成酶编辑域的晶体结构：合理设计抗真菌苯并氧杂硼酸的结构基础。
4. The Class Ⅱ E. coli tRNAleu Variable Loop Plays a Role in Leucyl-tRNA Synthetase Amino Acid Editing [C] . 19th tRNA workshop tRNA 2002"" . 2002

机译：Ⅱ类大肠杆菌tRNAleu可变环在亮氨酰tRNA合成酶氨基酸编辑中发挥作用
5. Characterization of leucyl-tRNA synthetase from Escherichia coli and Saccharomyces cerevisiae in aminoacylation, amino acid editing, and protein-dependent RNA splicing. [D] . Hsu, Jennifer Ling. 2006

机译：大肠杆菌和酿酒酵母中的亮氨酰-tRNA合成酶在氨基酰化，氨基酸编辑和蛋白质依赖性RNA剪接中的表征。
6. Self-protective responses to norvaline-induced stress in a leucyl-tRNA synthetase editing-deficient yeast strain [O] . Quan-Quan Ji, Zhi-Peng Fang, Qing Ye, 2017

机译：亮氨酸-tRNA合成酶编辑缺陷型酵母菌株中对缬氨酸诱导的应激的自我保护反应
7. Characterization of benzoxaborole-based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl-tRNA synthetase editing cap [O] . Sarkar Jaya, Mao Weimin, Lincecum Tommie L., 2011

机译：基于苯并氧杂硼酸的抗真菌抗性突变的表征表明，编辑取决于亮氨酰tRNA合成酶编辑帽的静电稳定性

Characterization of benzoxaborole-based antifungal resistance mutations demonstrates that editing depends on electrostatic stabilization of the leucyl-tRNA synthetase editing cap

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