Litcius/Paper detail

Antibacterial microcins are ubiquitous and functionally diverse across bacterial communities

Jennifer K. Parker, Aaron L. Feller, Richard Gu, Simon Sanchez-Paiva, Bethany C. Perez, Angela C. O’Donnell, Wendi Deng, Rita M Ousterhout, Sun‐Young Kim, Claus O. Wilke, Bryan W. Davies

2025Nature Communications8 citationsDOIOpen Access PDF

Abstract

Bacteria produce antibacterials that drive competition and regulate community composition. While diverse examples have been found, few families of antibacterial agents appear to be widespread across phylogenetically divergent bacteria. Here, we show that what appeared to be a limited, niche class of Gram-negative bacteriocins, called class II microcins, is in fact a highly abundant, sequence- and function-diverse class of secreted bacteriocins. Based on systematic investigations in the Enterobacteriaceae and gut microbiomes, we demonstrate that class II microcins encompass diverse sequence space, bacterial strains of origin, spectra of activity, and mechanisms of action. Importantly, we show microcins discovered here are active against pathogenic E. coli during mouse gut colonization, supporting important roles for these unrecognized antibacterials in vivo. Our study reveals the overlooked abundance and diversity of microcins found dispersed throughout Bacteria and opens opportunities to uncover and exploit mechanisms of competition to modulate microbial communities. Bacteria produce antibacterials to aid competition in complex communities. Here, the authors show that class II microcins, an understudied group of secreted antibacterials, are abundant, with diverse sequences and antibacterial characteristics.

Topics & Concepts

Data scienceComputational biologyBiologyComputer scienceMicrobial Natural Products and BiosynthesisGenomics and Phylogenetic StudiesBacterial biofilms and quorum sensing
Antibacterial microcins are ubiquitous and functionally diverse across bacterial communities | Litcius