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Conjugative plasmid-encoded toxin–antitoxin system PrpT/PrpA directly controls plasmid copy number

Songwei Ni, Baiyuan Li, Kaihao Tang, Jianyun Yao, Thomas K. Wood, Pengxia Wang, Xiaoxue Wang

2021Proceedings of the National Academy of Sciences42 citationsDOIOpen Access PDF

Abstract

operon from the plasmid does not result in plasmid segregational loss, but greatly increases plasmid copy number. Mechanistically, the antitoxin PrpA functions as a negative regulator of plasmid replication, by binding to the iterons in the plasmid origin that inhibits the binding of the replication initiator to the iterons. We also demonstrated that PrpA is produced at a higher level than PrpT to prevent the plasmid from overreplicating, while partial or complete degradation of labile PrpA derepresses plasmid replication. Importantly, the PrpT/PrpA TA system is conserved and is widespread on many conjugative plasmids. Altogether, we discovered a function of a plasmid-encoded TA system that provides new insights into the physiological significance of TA systems.

Topics & Concepts

PlasmidAntitoxinBiologyOperonGeneticsMicrobiologyToxinMolecular biologyGeneEscherichia coliVibrio bacteria research studiesAntibiotic Resistance in BacteriaAquaculture disease management and microbiota
Conjugative plasmid-encoded toxin–antitoxin system PrpT/PrpA directly controls plasmid copy number | Litcius