Discrimination between glutaminyl-tRNA synthetase and seryl-tRNA synthetase involves nucleotides in the acceptor helix of tRNA.

机译：谷氨酰胺-tRNA合成酶和丝氨酰-tRNA合成酶之间的区别涉及tRNA的受体螺旋中的核苷酸。

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Analysis of the in vivo amber suppressor activity of mutants derived from two Escherichia coli serine tRNAs shows that substitution of 2 base pairs in the acceptor helix changes a serine suppressor tRNA to an efficient glutamine acceptor. Determination of the amino acid inserted in vivo into protein by this tRNA shows that these changes reduce the tRNA recognition by seryl-tRNA synthetase while increasing that of glutaminyl-tRNA synthetase. This implies that misaminoacylation in vivo is dependent on the competition by different synthetases for the tRNA. In addition, the "translational efficiency" of tRNA is an integral part in observing misaminoacylation in vivo.

机译：对源自两个大肠杆菌丝氨酸tRNA的突变体的体内琥珀抑制活性的分析表明，受体螺旋中2个碱基对的取代将丝氨酸抑制tRNA转变为有效的谷氨酰胺受体。通过该tRNA对体内插入蛋白质的氨基酸的测定表明，这些变化降低了丝氨酰-tRNA合成酶对tRNA的识别，同时增加了谷氨酰胺-tRNA合成酶的识别。这暗示着体内的误氨基酰化依赖于不同合成酶对tRNA的竞争。此外，tRNA的“翻译效率”是体内观察到的误氨酰化的组成部分。

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期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
M J Rogers; D Söll;
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年(卷),期 1988(85),18
年度 1988
页码 6627–6631
总页数 5
原文格式 PDF
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1. A base pair at the bottom of the anticodon stem is reciprocally preferred for discrimination of cognate tRNAs by Escherichia coli lysyl- and glutaminyl-tRNA synthetases [J] . Fukunaga J, Ohno S, Nishikawa K, Nucleic Acids Research . 2006,第10期

机译：相对地，反密码子茎底部的碱基对优选用于通过大肠杆菌的赖氨酰和谷氨酰胺基-tRNA合成酶来区分同源tRNA。
2. A base pair at the bottom of the anticodon stem is reciprocally preferred for discrimination of cognate tRNAs by Escherichia coli lysyl- and glutaminyl-tRNA synthetases [J] . Jun-ichi Fukunaga, Kazuya Nishikawa, Satoshi Ohno, Nucleic acids research . 2006,第10期

机译：相对地，反密码子茎底部的碱基对优选用于通过大肠杆菌的赖氨酰和谷氨酰胺基-tRNA合成酶来区分同源tRNA。
3. Mechanism of the difference in the binding affinity of E. coli tRNAGln to glutaminyl-tRNA synthetase caused by noninterface nucleotides in variable loop. [J] . Yamasaki S, Nakamura S, Terada T, Biophysical Journal . 2007,第1期

机译：可变环中非界面核苷酸引起的大肠杆菌tRNAGln对谷氨酰胺-tRNA合成酶结合亲和力差异的机制。
4. Unusual complex of mammalian translation elongation factor 1A with homologous seryl-tRNA synthetase [C] . 19th tRNA workshop tRNA 2002"" . 2002

机译：哺乳动物翻译延长因子1A与同源的丝氨酰tRNA合成酶的异常复合物
5. Translational Fidelity of a Eukaryotic Glutaminyl-tRNA Synthetase with an N-terminal Domain Appendage [D] . Rogers, Aaron Bethea. 2014

机译：具有N末端域附件的真核谷氨酰胺tRNA合成酶的翻译保真度
6. Idiosyncratic Helix-Turn-Helix Motif in Methanosarcina barkeri Seryl-tRNA Synthetase Has a Critical Architectural Role [O] . Silvija Bilokapic, Nives Ivic, Vlatka Godinic-Mikulcic, 2009

机译：巴氏甲烷菌的异质螺旋-螺旋-螺旋基序 Seryl-tRNA合成酶具有关键的结构角色
7. Discrimination between glutaminyl-tRNA synthetase and seryl-tRNA synthetase involves nucleotides in the acceptor helix of tRNA. [O] . Rogers, M J, Söll, D 1988

机译：谷氨酰胺-tRNA合成酶和丝氨酰-tRNA合成酶之间的区别涉及tRNA的受体螺旋中的核苷酸。

Discrimination between glutaminyl-tRNA synthetase and seryl-tRNA synthetase involves nucleotides in the acceptor helix of tRNA.

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