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Microcins reveal natural mechanisms of bacterial manipulation to inform therapeutic development

Jennifer K. Parker, Bryan W. Davies

2022Microbiology45 citationsDOIOpen Access PDF

Abstract

, microcins display diversity in sequence, structure, target cell uptake, cytotoxic mechanism of action and target specificity. Collectively, these features describe some of the unique means nature has contrived for molecules to cross the 'impermeable' barrier of the Gram-negative bacterial outer membrane and inflict cytotoxic effects. Microcins appear to be widely dispersed among different species and in different environments, where they function in regulating microbial communities in diverse ways, including through competition. Growing evidence suggests that microcins may be adapted for therapeutic uses such as antimicrobial drugs, microbiome modulators or facilitators of peptide uptake into cells. Advancing our biological, ecological and biochemical understanding of the roles of microcins in bacterial interactions, and learning how to regulate and modify microcin activity, is essential to enable such therapeutic applications.

Topics & Concepts

BiologyFunction (biology)MicrobiomeAntimicrobialMechanism (biology)Computational biologyMechanism of actionAntimicrobial peptidesPeptideMicrobiologyCell biologyBioinformaticsGeneticsBiochemistryIn vitroEpistemologyPhilosophyAntimicrobial Peptides and ActivitiesProbiotics and Fermented FoodsGenomics and Phylogenetic Studies
Microcins reveal natural mechanisms of bacterial manipulation to inform therapeutic development | Litcius