Sam C Went scite author profile

Sam C Went

2Publications

54Citation Statements Received

80Citation Statements Given

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Durham University

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A widespread family of WYL-domain transcriptional regulators co-localises with diverse phage defence systems and islands

Picton¹,

Harling-Lee

Duffner³

et al. 2021

Preprint

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Bacteria are under constant assault by bacteriophages and other mobile genetic elements. As a result, bacteria have evolved a multitude of systems that protect from attack. Genes encoding bacterial defence mechanisms can be clustered into 'defence islands', providing a potentially synergistic level of protection against a wider range of assailants. However, there is a comparative paucity of information on how expression of these defence systems is controlled. Here, we functionally characterise a transcriptional regulator, BrxR, encoded within a recently described phage defence island from a multidrug resistant plasmid of the emerging pathogen Escherichia fergusonii. Using a combination of reporters and electrophoretic mobility shift assays, we discovered that BrxR acts as a repressor. We present the structure of BrxR to 2.15 Å, the first structure of this family of transcription factors, and pinpoint a likely binding site for ligands within the WYL-domain. Bioinformatic analyses demonstrated that BrxR homologues are widespread amongst bacteria. About half (48%) of identified BrxR homologues were co-localised with a diverse array of known phage defence systems, either alone or clustered into defence islands. BrxR is a novel regulator that reveals a common mechanism for controlling the expression of the bacterial phage defence arsenal.

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Toxin–antitoxin systems as mediators of phage defence and the implications for abortive infection

Kelly

Arrowsmith

Went

et al. 2023

Current Opinion in Microbiology

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Sam C Went

A widespread family of WYL-domain transcriptional regulators co-localises with diverse phage defence systems and islands

Toxin–antitoxin systems as mediators of phage defence and the implications for abortive infection

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