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Bacterial Competition Systems Share a Domain Required for Inner Membrane Transport of the Bacteriocin Pyocin G from Pseudomonas aeruginosa

Iva Atanasković, Connor Sharp, Cara Press, Renata Kaminska, Colin Kleanthous

2022mBio14 citationsDOIOpen Access PDF

Abstract

Nuclease bacteriocins are potential antimicrobials for the treatment of antibiotic-resistant bacterial infections. While the mechanism of outer membrane translocation is beginning to be understood, the mechanism of inner membrane transport is not known. This study uses PyoG as a model nuclease bacteriocin and defines a conserved domain that is essential for inner membrane translocation and is widespread in other bacterial competition systems. Additionally, the presented data link two membrane proteins, FtsH and TonB1, with inner membrane translocation of PyoG. These findings point to the general importance of this domain to the cellular uptake mechanisms of nucleases delivered by otherwise diverse and distinct bacterial competition systems. The work is also of importance for the design of new protein antibiotics.

Topics & Concepts

ColicinBacteriocinNucleaseInner membraneBiologyCell biologyType VI secretion systemSecretionBacterial outer membranePseudomonas aeruginosaCytoplasmCytosolBiochemistryBacteriaChemistryMembraneEscherichia coliVirulencePlasmidDNAGeneticsGeneEnzymeVibrio bacteria research studiesYersinia bacterium, plague, ectoparasites researchBacterial Genetics and Biotechnology
Bacterial Competition Systems Share a Domain Required for Inner Membrane Transport of the Bacteriocin Pyocin G from Pseudomonas aeruginosa | Litcius