Shai Ran Sapir scite author profile

Bacterial pathogens often carry multiple prophages and other phage-derived elements within their genome, some of which can produce viral particles in response to stress. Listeria monocytogenes 10403S harbors two phage elements in its chromosome, both of which can trigger bacterial lysis under stress: an active prophage (ϕ10403S) that promotes the virulence of its host and can produce infective virions, and a locus encoding phage tail-like bacteriocins. Here, we show that the two phage elements are co-regulated, with the bacteriocin locus controlling the induction of the prophage and thus its activity as a virulence-associated molecular switch. More specifically, a metalloprotease encoded in the bacteriocin locus is upregulated in response to stress and acts as an anti-repressor for CI-like repressors encoded in each phage element. Our results provide molecular insight into the phenomenon of polylysogeny and its intricate adaptation to complex environments.

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A dual-function phage regulator controls the response of cohabiting phage elements via regulation of the bacterial SOS response

Azulay

Pasechnek

Stadnyuk

et al. 2022

Cell Reports

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A Dual-Function Phage Regulator Controls the Response of Cohabiting Phage Elements via Regulation of the SOS Response

Azulay¹,

Pasechnek²,

Stadnyuk³

et al. 2021

SSRN Journal

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Generation of Markerless Gene Deletion Mutants in Listeria monocytogenes Using a Mutated pheS for Counterselection

Sapir

Boichis

Herskovits

2022

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Shai Ran Sapir

Temperate bacteriophages as regulators of host behavior

Coordination of cohabiting phage elements supports bacteria–phage cooperation

A dual-function phage regulator controls the response of cohabiting phage elements via regulation of the bacterial SOS response

A Dual-Function Phage Regulator Controls the Response of Cohabiting Phage Elements via Regulation of the SOS Response

Generation of Markerless Gene Deletion Mutants in Listeria monocytogenes Using a Mutated pheS for Counterselection

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