Literature DB >> 28802046

Replication-Transcription Conflicts Generate R-Loops that Orchestrate Bacterial Stress Survival and Pathogenesis.

Kevin S Lang1, Ashley N Hall2, Christopher N Merrikh1, Mark Ragheb2, Hannah Tabakh1, Alex J Pollock1, Joshua J Woodward1, Julia E Dreifus1, Houra Merrikh3.   

Abstract

Replication-transcription collisions shape genomes, influence evolution, and promote genetic diseases. Although unclear why, head-on transcription (lagging strand genes) is especially disruptive to replication and promotes genomic instability. Here, we find that head-on collisions promote R-loop formation in Bacillus subtilis. We show that pervasive R-loop formation at head-on collision regions completely blocks replication, elevates mutagenesis, and inhibits gene expression. Accordingly, the activity of the R-loop processing enzyme RNase HIII at collision regions is crucial for stress survival in B. subtilis, as many stress response genes are head-on to replication. Remarkably, without RNase HIII, the ability of the intracellular pathogen Listeria monocytogenes to infect and replicate in hosts is weakened significantly, most likely because many virulence genes are head-on to replication. We conclude that the detrimental effects of head-on collisions stem primarily from excessive R-loop formation and that the resolution of these structures is critical for bacterial stress survival and pathogenesis.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  DNA replication; Listeria; R-loops; RNase H; accelerated evolution; gene orientation; pathogenesis; replication restart; replication-transcription conflicts; stress response

Mesh:

Year:  2017        PMID: 28802046      PMCID: PMC5630229          DOI: 10.1016/j.cell.2017.07.044

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  67 in total

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Review 9.  When DNA Topology Turns Deadly - RNA Polymerases Dig in Their R-Loops to Stand Their Ground: New Positive and Negative (Super)Twists in the Replication-Transcription Conflict.

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10.  Genome-wide Map of R-Loop-Induced Damage Reveals How a Subset of R-Loops Contributes to Genomic Instability.

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