核糖体循环因子可独立于延伸因子G的核糖体转位酶活性来拆解终止后的核糖体复合物。

Ribosome recycling factor disassembles the post-termination ribosomal complex independent of the ribosomal translocase activity of elongation factor G.

作者信息

Fujiwara Toshinobu, Ito Koichi, Yamami Tohru, Nakamura Yoshikazu

机构信息

Department of Basic Medical Sciences, Institute of Medical Science, University of Tokyo, 4-6-1 Shirokanedai, Minato-ku, Tokyo 108-8639, Japan.

出版信息

Mol Microbiol. 2004 Jul;53(2):517-28. doi: 10.1111/j.1365-2958.2004.04156.x.

DOI:10.1111/j.1365-2958.2004.04156.x

PMID:15228531

Abstract

Ribosome recycling factor (RRF) disassembles post-termination ribosomal complexes in concert with elongation factor EF-G freeing the ribosome for a new round of polypeptide synthesis. How RRF interacts with EF-G and disassembles post-termination ribosomes is unknown. RRF is structurally similar to tRNA and is therefore thought to bind to the ribosomal A site and be translocated by EF-G during ribosome disassembly as a mimic of tRNA. However, EF-G variants that remain active in GTP hydrolysis but are defective in tRNA translocation fully activate RRF function in vivo and in vitro. Furthermore, RRF and the GTP form of EF-G do not co-occupy the terminating ribosome in vitro; RRF is ejected by EF-G from the preformed complex. These findings suggest that RRF is not a functional mimic of tRNA and disassembles the post-termination ribosomal complex independently of the translocation activity of EF-G.

摘要

核糖体循环因子（RRF）与延伸因子EF-G协同作用，拆解终止后的核糖体复合物，使核糖体得以释放，开启新一轮的多肽合成。RRF如何与EF-G相互作用并拆解终止后的核糖体尚不清楚。RRF在结构上与tRNA相似，因此被认为在核糖体拆解过程中，它会结合到核糖体A位点，并像tRNA一样被EF-G转运。然而，那些在GTP水解中仍具活性，但在tRNA转运方面存在缺陷的EF-G变体，在体内和体外均能完全激活RRF的功能。此外，RRF和GTP形式的EF-G在体外不会同时占据终止状态的核糖体；RRF会被EF-G从预先形成的复合物中排出。这些发现表明，RRF并非tRNA的功能模拟物，它独立于EF-G的转运活性拆解终止后的核糖体复合物。

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核糖体循环因子可独立于延伸因子G的核糖体转位酶活性来拆解终止后的核糖体复合物。

Ribosome recycling factor disassembles the post-termination ribosomal complex independent of the ribosomal translocase activity of elongation factor G.

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