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丙氨酸转运RNA特异性识别转运信使RNA；在进入核糖体之前是一种功能复合物？

Transfer RNA(Ala) recognizes transfer-messenger RNA with specificity; a functional complex prior to entering the ribosome?

作者信息

Gillet R, Felden B

机构信息

Laboratoire de Biochimie Pharmaceutique, Faculté de Pharmacie, Université de Rennes I, UPRES Jeune Equipe 2311, IFR 97, 2 avenue du Pr Léon Bernard, 35043 Rennes, France.

出版信息

EMBO J. 2001 Jun 1;20(11):2966-76. doi: 10.1093/emboj/20.11.2966.

DOI:10.1093/emboj/20.11.2966

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC125487/

Abstract

tmRNA (SsrA or 10Sa RNA) functions as both a transfer RNA and a messenger RNA, rescues stalled ribosomes and clears the cell of incomplete polypeptides. We report that native Escherichia coli tmRNA interacts specifically with native or synthetic E.coli tRNA alanine (tRNA(Ala)) in vitro, alanine being the first codon of the tmRNA internal open reading frame. Aminoacylatable RNA microhelices also bind tmRNA. Complex formation was monitored by gel retardation assays combined with structural probes. Nucleotides from the acceptor stem of tRNA(Ala) are essential for complex formation with tmRNA. tRNA(Ala) isoacceptors recognize tmRNA with different affinities, with an important contribution from tRNA(Ala) post-transcriptional modifications. The most abundant tRNA(Ala) isoacceptor in vivo binds tmRNA with the highest affinity. A complex between tRNA(Ala) and tmRNA might involve up to 140 tmRNA molecules out of 500 present per E.coli cell. Our data suggest that tmRNA interacts with the tRNA that decodes the resume codon prior to entering the ribosome. Biological implications of promoting specific complexes between tmRNA and aminoacylatable RNAs are discussed, with emphasis on primitive versions of the translation apparatus.

摘要

转运信使核糖核酸（tmRNA，即SsrA或10Sa RNA）兼具转运核糖核酸和信使核糖核酸的功能，能拯救停滞的核糖体并清除细胞内未完成的多肽。我们报告称，天然大肠杆菌tmRNA在体外与天然或合成的大肠杆菌丙氨酸转运核糖核酸（tRNA Ala）特异性相互作用，丙氨酸是tmRNA内部开放阅读框的第一个密码子。可氨酰化的RNA微螺旋也能结合tmRNA。通过凝胶阻滞分析结合结构探针监测复合物的形成。tRNA Ala接受茎的核苷酸对于与tmRNA形成复合物至关重要。tRNA Ala同功受体以不同亲和力识别tmRNA，tRNA Ala转录后修饰起重要作用。体内最丰富的tRNA Ala同功受体与tmRNA结合亲和力最高。tRNA Ala与tmRNA之间的复合物可能涉及每个大肠杆菌细胞中500个tmRNA分子中的多达140个。我们的数据表明，tmRNA在进入核糖体之前与解码恢复密码子的tRNA相互作用。讨论了促进tmRNA与可氨酰化RNA之间特异性复合物形成的生物学意义，重点是翻译装置的原始版本。