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ρ因子依赖性转录终止:问题多于答案。

Rho-dependent transcription termination: more questions than answers.

作者信息

Banerjee Sharmistha, Chalissery Jisha, Bandey Irfan, Sen Ranjan

机构信息

Laboratory of Transcription Biology, Center for DNA Fingerprinting and Diagnostics, ECIL Road, Nacharam, Hyderabad-500076, India.

出版信息

J Microbiol. 2006 Feb;44(1):11-22.

PMID:16554712
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1838574/
Abstract

Escherichia coli protein Rho is required for the factor-dependent transcription termination by an RNA polymerase and is essential for the viability of the cell. It is a homohexameric protein that recognizes and binds preferably to C-rich sites in the transcribed RNA. Once bound to RNA, it utilizes RNA-dependent ATPase activity and subsequently ATPase-dependent helicase activity to unwind RNA-DNA hybrids and release RNA from a transcribing elongation complex. Studies over the past few decades have highlighted Rho as a molecule and have revealed much of its mechanistic properties. The recently solved crystal structure could explain many of its physiological functions in terms of its structure. Despite all these efforts, many of the fundamental questions pertaining to Rho recognition sites, differential ATPase activity in response to different RNAs, translocation of Rho along the nascent transcript, interactions with elongation complex and finally unwinding and release of RNA remain obscure. In the present review we have attempted to summarize "the knowns" and "the unknowns" of the Rho protein revealed by the recent developments in this field. An attempt has also been made to understand the physiology of Rho in the light of its phylogeny.

摘要

大肠杆菌蛋白Rho是RNA聚合酶依赖因子的转录终止所必需的,并且对细胞的生存能力至关重要。它是一种同六聚体蛋白,优先识别并结合转录RNA中的富含C的位点。一旦与RNA结合,它利用RNA依赖的ATP酶活性,随后利用ATP酶依赖的解旋酶活性来解开RNA-DNA杂交体,并从转录延伸复合物中释放RNA。过去几十年的研究突出了Rho作为一种分子,并揭示了其许多机制特性。最近解析的晶体结构可以根据其结构解释其许多生理功能。尽管做出了所有这些努力,但许多与Rho识别位点、对不同RNA的差异ATP酶活性、Rho沿新生转录本的易位、与延伸复合物的相互作用以及最终RNA的解旋和释放有关的基本问题仍然不清楚。在本综述中,我们试图总结该领域最新进展所揭示的Rho蛋白的“已知”和“未知”。我们还试图根据Rho的系统发育来理解其生理学。

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