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Chromosomal organization of biosynthetic gene clusters, including those of nine novel species, suggests plasticity of myxobacterial specialized metabolism

Andrew Ahearne, Kayleigh E. Phillips, Thomas Knehans, Miranda Hoing, Scot E. Dowd, D. Cole Stevens

2023Frontiers in Microbiology13 citationsDOIOpen Access PDF

Abstract

Introduction: Natural products discovered from bacteria provide critically needed therapeutic leads for drug discovery, and myxobacteria are an established source for metabolites with unique chemical scaffolds and biological activities. Myxobacterial genomes accommodate an exceptional number and variety of biosynthetic gene clusters (BGCs) which encode for features involved in specialized metabolism. Methods: In this study, we describe the collection, sequencing, and genome mining of 20 myxobacteria isolated from rhizospheric soil samples collected in North America. Results: . Growth profiles, biochemical assays, and descriptions were provided for all proposed novel species. We assess the BGC content of all isolates and observe differences between Myxococcia and Polyangiia clusters. Discussion: Continued discovery and sequencing of novel myxobacteria from the environment provide BGCs for the genome mining pipeline. Utilizing complete or near-complete genome sequences, we compare the chromosomal organization of BGCs of related myxobacteria from various genera and suggest that the spatial proximity of hybrid, modular clusters contributes to the metabolic adaptability of myxobacteria.

Topics & Concepts

MyxobacteriaBiologyGenomeGeneComputational biologyGene clusterGeneticsBacteriaEvolutionary biologyMicrobial Natural Products and BiosynthesisSlime Mold and Myxomycetes ResearchMicrobial Community Ecology and Physiology