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Extensive Diversity in Escherichia coli Group 3 Capsules Is Driven by Recombination and Plasmid Transfer from Multiple Species

Yaoqin Hong, Jilong Qin, Xavier Bertran Forga, Makrina Totsika

2023Microbiology Spectrum11 citationsDOIOpen Access PDF

Abstract

Capsular polysaccharides protect pathogenic bacteria against environmental challenges, host immunity, and phage predations. The historical Escherichia coli K typing scheme, which relies on the hypervariable capsular polysaccharide, has identified around 80 different K forms that fall into four distinct groups. Taking advantage of the supposedly compact and genetically well-defined group 3 gene clusters, we analyzed published E. coli sequences to identify seven new gene clusters and revealed an unexpected capsular diversity. Genetic analysis revealed that group 3 gene clusters shared closely related serotype-specific region 2 and were diversified through recombination events and plasmid transfer between multiple Enterobacteriaceae species. Overall, capsular polysaccharides in E. coli are undergoing rigorous change. Given the pivotal role capsules play in phage interactions, this work highlighted the need to monitor the evolutionary dynamics of capsules in pathogenic E. coli for effective phage therapy.

Topics & Concepts

Escherichia coliPlasmidRecombinationDiversity (politics)GeneticsBiologyGroup (periodic table)EnterobacteriaceaeGene transferEvolutionary biologyEscherichia coli ProteinsMicrobiologyChemistryGeneSociologyAnthropologyOrganic chemistryAntibiotic Resistance in BacteriaEnterobacteriaceae and Cronobacter ResearchEscherichia coli research studies