Transcriptional reprogramming by bacteriophage T4: turning the host transcriptional machinery to the dark side.

Q1 Medicine

EcoSal Plus Pub Date : 2025-10-01 DOI:10.1128/ecosalplus.esp-0006-2025

Deborah M Hinton

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引用次数: 0

Abstract

Immediately after infection of Escherichia coli, bacteriophage T4 begins to reprogram the host's transcriptional machinery, first by chemical modification and then by producing factors that alter the specificity of RNA polymerase (RNAP). This leads to the temporal expression of three classes of T4 transcripts: early, middle, and late. For early transcription, the Alt protein, which is present in the phage head, is injected with the DNA and subsequently ADP-ribosylates RNAP, providing an advantage for T4 early promoters over host promoters. For middle and late transcription, T4 utilizes phage-encoded factors to either reconfigure or replace the primary specificity subunit, σ⁷⁰, of RNAP, respectively. In both cases, the phage relies on several processes to maximize the efficiency of these phage-created, alternative σ's. This review summarizes older biochemical, genetic, and structural work that elucidated many of the elegant mechanisms of this transcriptional takeover and focuses on the more recent cryo-EM structures of the complete transcription machines that allow us to visualize the processes.

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噬菌体T4的转录重编程：将宿主转录机制转向黑暗的一面。

在感染大肠杆菌后，T4噬菌体立即开始重新编程宿主的转录机制，首先通过化学修饰，然后通过产生改变RNA聚合酶（RNAP）特异性的因子。这导致三种T4转录本的时间表达：早期、中期和晚期。对于早期转录，存在于噬菌体头部的Alt蛋白被注入DNA，随后adp核糖基化RNAP，为T4早期启动子提供了比宿主启动子更有利的条件。在转录中后期，T4利用噬菌体编码因子分别重新配置或替换RNAP的主要特异性亚基σ70。在这两种情况下，噬菌体依赖于几个过程来最大化这些噬菌体产生的替代σ的效率。这篇综述总结了较早的生化、遗传和结构方面的工作，这些工作阐明了这种转录接管的许多优雅机制，并重点介绍了最近完整转录机器的冷冻电镜结构，使我们能够可视化这一过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EcoSal Plus Immunology and Microbiology-Microbiology

CiteScore

12.20

自引率

0.00%

发文量

期刊介绍： EcoSal Plus is the authoritative online review journal that publishes an ever-growing body of expert reviews covering virtually all aspects of E. coli, Salmonella, and other members of the family Enterobacteriaceae and their use as model microbes for biological explorations. This journal is intended primarily for the research community as a comprehensive and continuously updated archive of the entire corpus of knowledge about the enteric bacterial cell. Thoughtful reviews focus on physiology, metabolism, genetics, pathogenesis, ecology, genomics, systems biology, and history E. coli and its relatives. These provide the integrated background needed for most microbiology investigations and are essential reading for research scientists. Articles contain links to E. coli K12 genes on the EcoCyc database site and are available as downloadable PDF files. Images and tables are downloadable to PowerPoint files.