Large-scale movement of functional domains facilitates aminoacylation by human mitochondrial phenylalanyl-tRNA synthetase

Srujana S. Yadavalli; Liron Klipcan; Alexey Zozulya

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Large-scale movement of functional domains facilitates aminoacylation by human mitochondrial phenylalanyl-tRNA synthetase

机译：功能域的大规模移动促进了人类线粒体苯丙氨酰-tRNA合成酶的氨酰化作用

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Structural studies suggest rearrangement of the RNA-binding and catalytic domains of human mitochondrial PheRS (mtPheRS) is required for aminoacylation. Crosslinking the catalytic and RNA-binding domains resulted in a "closed" form of mtPheRS that still catalyzed ATP-dependent Phe activation, but was no longer able to transfer Phe to tRNA and complete the aminoacylation reaction. SAXS experiments indicated the presence of both the closed and open forms of mtPheRS in solution. Together, these results indicate that conformational flexibility of the two functional modules in mtPheRS is essential for its phenylalanylation activity. This is consistent with the evolution of the aminoacyl-tRNA synthetases as modular enzymes consisting of separate domains that display independent activities.

机译：结构研究表明，氨基酰化需要对人类线粒体PheRS（mtPheRS）的RNA结合和催化域进行重排。交联催化结构域和RNA结合结构域导致mtPheRS的“封闭”形式仍然催化ATP依赖的Phe活化，但不再能够将Phe转移至tRNA并完成氨基酰化反应。 SAXS实验表明溶液中存在封闭形式和开放形式的mtPheRS。总之，这些结果表明，mtPheRS中两个功能模块的构象柔性对其苯丙氨酰化活性至关重要。这与氨酰基-tRNA合成酶作为由展示独立活性的独立结构域组成的模块酶的进化是一致的。

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《FEBS letters.》 |2009年第19期|共5页
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Srujana S. Yadavalli; Liron Klipcan; Alexey Zozulya;
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1. Large-scale movement of functional domains facilitates aminoacylation by human mitochondrial phenylalanyl-tRNA synthetase [J] . Srujana S. Yadavalli, Liron Klipcan, Alexey Zozulya FEBS letters. . 2009,第19期

机译：功能域的大规模移动促进了人类线粒体苯丙氨酰-tRNA合成酶的氨酰化作用
2. A peculiarity of the reaction of tRNA aminoacylation catalyzed by phenylalanyl-tRNA synthetase from the extreme thermophile Thermus thermophilus [J] . Victor G. Stepanov, Nina A. Moor, Valentina N. Ankilova, Biochimica et Biophysica Acta. Protein Structure and Molecular Enzymology . 1998,第0期

机译：特嗜嗜热菌Thermus thermophilus苯丙氨酰-tRNA合成酶催化的tRNA氨酰化反应的独特性
3. CONSERVATION IN EVOLUTION FOR A SMALL MONOMERIC PHENYLALANYL-TRNA SYNTHETASE OF THE TRNA(PHE) RECOGNITION NUCLEOTIDES AND INITIAL AMINOACYLATION SITE [J] . Aphasizhev R, Senger B, Rengers JU, Biochemistry . 1996,第1期

机译：TRNA（PHE）识别核苷酸和初始酰胺基化位点的小单体苯甲酰-TRNA合成酶的进化保守性
4. FUNCTIONAL ELECTRICAL STIMULATION FOR EQUILIBRIUM-POINT CONTROL OF HUMAN ANKLE MOVEMENT: FREQUENCY DOMAIN SYSTEM IDENTIFICATION OF HUMAN ANKLE DYNAMICS [C] . Yuto Yamashita, Kazuya Maegaki, Kazuhiro Matsui, ASME annual dynamic systems and control conference . 2014

机译：人体脚踝运动平衡点控制的功能电刺激：人体脚踝动力学的频域系统识别
5. Functional Analysis of Miro GTPase Domains in the Mitochondrial Motor Adaptor Complex [D] . Davis, Kayla Janae. 2021

机译：线粒体电动机适配器复合物中Miro GTP酶结构域的功能分析
6. Conformational activation of the yeast phenylalanyl-tRNA synthetase catalytic site induced by tRNAPhe interaction: triggering of adenosine or CpCpA trinucleoside diphosphate aminoacylation upon binding of tRNAPhe lacking these residues. [O] . M Renaud, H Bacha, P Remy, 1981

机译：由tRNAPhe相互作用诱导的酵母苯丙氨酰-tRNA合成酶催化位点的构象活化：缺少这些残基的tRNAPhe结合后触发腺苷或CpCpA三核苷二磷酸氨基酰化。
7. Large-scale movement of functional domains facilitates aminoacylation by human mitochondrial phenylalanyl-tRNA synthetase [O] . Yadavalli S. S., Klipcan L., Zozulya A., 2009

机译：功能域的大规模移动促进了人类线粒体苯丙氨酰-tRNA合成酶的氨酰化作用

Large-scale movement of functional domains facilitates aminoacylation by human mitochondrial phenylalanyl-tRNA synthetase

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