Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.05.238063v1?rss=1 Authors: Kiesewalter, H. T., Lozano Andrade, C. N., Wibowo, M., Lenz Strube, M., Maroti, G., Snyder, D., Jorgensen, T. S., Larsen, T. O., Cooper, V. S., Weber, T., Kovacs, A. T. Abstract: Bacillus subtilis produces a wide range of secondary metabolites providing diverse plant-growth-promoting and biocontrol abilities. These secondary metabolites include non-ribosomal peptides (NRPs) with strong antimicrobial properties, causing either cell lysis, pore formation in fungal membranes, inhibition of certain enzymes, or bacterial protein synthesis. However, the natural products of B. subtilis are mostly studied either in laboratory strains or in individual isolates and therefore, a comparative overview of B. subtilis secondary metabolites is missing. In this study, we have isolated 23 B. subtilis strains from eleven sampling sites, compared the fungal inhibition profiles of wild types and their NRPs mutants, followed the production of targeted lipopeptides, and determined the complete genomes of 13 soil isolates. We discovered that non-ribosomal peptide production varied among B. subtilis strains co-isolated from the same soil samples. In vitro antagonism assays revealed that biocontrol properties depend on the targeted plant pathogenic fungus and the tested B. subtilis isolate. While plipastatin alone is sufficient to inhibit Fusarium sp., a combination of plipastatin and surfactin is required to hinder the growth of Botrytis cinerea. Detailed genomic analysis revealed that altered NRP production profiles in certain isolates is due to missing core genes, nonsense mutation, or potentially altered gene regulation. Our study combines microbiological antagonism assays with chemical NRPs detection and biosynthetic gene cluster predictions in diverse B. subtilis soil isolates to provide a broader overview of the secondary metabolite chemodiversity of B. subtilis. Copy rights belong to original authors. Visit the link for more info