RpbL12通过在大肠杆菌70S核糖体的a位点正确定位进入的氨基酰基trna来辅助催化。

Q3 Biochemistry, Genetics and Molecular Biology
Open Biochemistry Journal Pub Date : 2018-07-31 eCollection Date: 2018-01-01 DOI:10.2174/1874091X01812010113
Jean-Bernard Créchet, Fulbert K Agbo'Saga, Soria Baouz, Codjo Hountondj
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引用次数: 4

摘要

我们最近证明了大肠杆菌RpbL12的62GANK65基序的Lys-65被tRNA类似物亲和标记,导致活性丧失。材料和方法:在本报告中,我们发现除了K65R或K65H bL12突变体外,在Lys-65位置发生的突变导致突变体核糖体活性受损,这表明rpbl12催化或促进反应的唯一要求是Lys-65侧链的正电荷。我们还证明Lys-65在嘌呤霉素的肽基转移酶反应中没有任何作用,而是帮助进入的氨基trna与核糖体a位点结合。结果与讨论:Lys-65的质子化带正电荷的εNH3+形式可能通过与磷酸基团的离子键参与aa-tRNA的结合,以确保其α-氨基对肽基trna羰基的亲核攻击所需的准确定位。结论:该α-NH2基团可能是由Lys-65的未质子化的εNH2形式产生的,该形式能够从aa-tRNA的α-NH3+基团中抽离一个质子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

RpbL12 Assists Catalysis by Correctly Positioning the Incoming Aminoacyl-tRNA in the A-Site of <i>E. coli</i> 70S Ribosomes.

RpbL12 Assists Catalysis by Correctly Positioning the Incoming Aminoacyl-tRNA in the A-Site of <i>E. coli</i> 70S Ribosomes.

RpbL12 Assists Catalysis by Correctly Positioning the Incoming Aminoacyl-tRNA in the A-Site of <i>E. coli</i> 70S Ribosomes.

RpbL12 Assists Catalysis by Correctly Positioning the Incoming Aminoacyl-tRNA in the A-Site of E. coli 70S Ribosomes.

Introduction: We have recently demonstrated that Lys-65 of the 62GANK65 motif of E. coli RpbL12 was affinity labeled with a tRNA analogue, resulting in the loss of activity.

Materials and methods: In this report, we show that mutations operated at the position of Lys-65 led to an impairment in the activity of the mutant ribosomes, except the K65R or K65H bL12 mutants, suggesting that the only requirement of the reaction catalyzed or facilitated by RpbL12is the positive charge of the side chain of Lys-65. We also demonstrate that Lys-65 did not play any role in the peptidyl transferase reaction with respect to puromycin, but rather assisted the binding of the incoming aminoacyl-tRNA to the ribosomal A-site.

Results & discussions: The protonated, positively charged εNH3+ form of Lys-65 is likely to participate to the binding of aa-tRNA through ionic bonds with phosphate groups, in order to insure the accurate positioning required for the nucleophilic attack of its α-amino group on the carbonyl carbone of peptidyl-tRNA.

Conclusion: This α-NH2 group is likely to be generated by the unprotonated εNH2 form of Lys-65 which is capable of withdrawing a proton from the α-NH3+ group of aa-tRNA.

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来源期刊
Open Biochemistry Journal
Open Biochemistry Journal Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
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1.50
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