Bacillus subtilis  is  a Gram-positive and endospore producing bacterium. Limited studies have shown that lipopeptides produced by  B. subtilis  can be inhibitory to phytopathogens.   Sclerotinia sclerotiorum  is a plant pathogenic fungus  which causes  various diseases like cotton rot, watery soft rot, stem rot, crown rot and blossom blight in vegetable crops. The objective of the study was to isolate lipopeptides from  B. subtilis  and study their inhibitory potential against  S. sclerotiorum. So, the B. subtilis  isolates  were extracted from the collected soils of Western Ghats of India. They were initially characterized through morphological parameters followed by PCR amplification of the 16S rDNA gene and confirmation through BLAST algorithm in NCBI database. The lipopeptides produced by these isolates were tested against  S. sclerotiorum. B. subtilis  strains were effective against  S. sclerotiorum and exhibited 18.33 to 29.5 % inhibition under dual culture bio-assay. The antagonistic activity of lipopeptides extracted from  B. subtilis  strains showed 21.56 to 88.89 % inhibition of  S. sclerotiorum  in the lowest to highest concentration of lipopeptide tested and was found to be significantly higher than the control. The present study has shown that  B. subtilis  strains vary in the production of lipopeptides and some of them could produce lipopeptides that are highly inhibitory to S. sclerotiorum. B. subtilis  strain NBAIR BSWG1 showed the highest inhibition for S. sclerotiorum. Lipopeptide based poison food technique and the dual culture bioassay results showed that B. subtilis  strain NBAIR BSWG1 has immense potential for use in the biological control of  S. sclerotiorum. Further studies are being carried out in formulating the lipopeptides for field application.

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