TY - JOUR
T1 - Characterization of a unique repression system present in arbitrium phages of the SPbeta family
AU - Brady, Aisling
AU - Cabello-Yeves, Elena
AU - Gallego del Sol, Francisca
AU - Chmielowska, Cora
AU - Mancheño-Bonillo, Javier
AU - Zamora-Caballero, Sara
AU - Omer, Shira Bendori
AU - Torres-Puente, Manuela
AU - Eldar, Avigdor
AU - Quiles-Puchalt, Nuria
AU - Marina, Alberto
AU - Penadés, José R.
N1 - Publisher Copyright:
© 2023 The Author(s)
PY - 2023/12/13
Y1 - 2023/12/13
N2 - Arbitrium-coding phages use peptides to communicate and coordinate the decision between lysis and lysogeny. However, the mechanism by which these phages establish lysogeny remains unknown. Here, focusing on the SPbeta phage family's model phages phi3T and SPβ, we report that a six-gene operon called the “SPbeta phages repressor operon” (sro) expresses not one but two master repressors, SroE and SroF, the latter of which folds like a classical phage integrase. To promote lysogeny, these repressors bind to multiple sites in the phage genome. SroD serves as an auxiliary repressor that, with SroEF, forms the repression module necessary for lysogeny establishment and maintenance. Additionally, the proteins SroABC within the operon are proposed to constitute the transducer module, connecting the arbitrium communication system to the activity of the repression module. Overall, this research sheds light on the intricate and specialized repression system employed by arbitrium SPβ-like phages in making lysis-lysogeny decisions.
AB - Arbitrium-coding phages use peptides to communicate and coordinate the decision between lysis and lysogeny. However, the mechanism by which these phages establish lysogeny remains unknown. Here, focusing on the SPbeta phage family's model phages phi3T and SPβ, we report that a six-gene operon called the “SPbeta phages repressor operon” (sro) expresses not one but two master repressors, SroE and SroF, the latter of which folds like a classical phage integrase. To promote lysogeny, these repressors bind to multiple sites in the phage genome. SroD serves as an auxiliary repressor that, with SroEF, forms the repression module necessary for lysogeny establishment and maintenance. Additionally, the proteins SroABC within the operon are proposed to constitute the transducer module, connecting the arbitrium communication system to the activity of the repression module. Overall, this research sheds light on the intricate and specialized repression system employed by arbitrium SPβ-like phages in making lysis-lysogeny decisions.
KW - MazEF
KW - SOS response
KW - arbitrium
KW - communication
KW - lysis
KW - lysogeny
KW - quorum sensing
KW - repressor
KW - toxin-antitoxin
UR - http://www.scopus.com/inward/record.url?scp=85179474860&partnerID=8YFLogxK
U2 - 10.1016/j.chom.2023.11.003
DO - 10.1016/j.chom.2023.11.003
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C2 - 38035880
AN - SCOPUS:85179474860
SN - 1931-3128
VL - 31
SP - 2023-2037.e8
JO - Cell Host and Microbe
JF - Cell Host and Microbe
IS - 12
ER -