Abstract
Rumen inhabiting Bacillus species possesses a high genetic potential for plant biomass hydrolysis and conversion to value-added products. In view of the same, five camel rumen-derived Bacillus strains, namely B. subtilis CRN 1, B. velezensis CRN 2, B. subtilis CRN 7, B. subtilis CRN 11, and B. velezensis CRN 23 were initially assayed for diverse hydrolytic activities, followed by genome mining to unravel the potential applications. CRN 1 and CRN 7 showed the highest endoglucanase activity with 0.4 U/ml, while CRN 23 showed high β-xylosidase activity of 0.36 U/ml. The comprehensive genomic insights of strains resolve taxonomic identity, clusters of an orthologous gene, pan-genome dynamics, and metabolic features. Annotation of Carbohydrate active enzymes (CAZymes) reveals the presence of diverse glycoside hydrolases (GH) GH1, GH5, GH43, and GH30, which are solely responsible for the effective breakdown of complex bonds in plant polysaccharides. Further, protein modeling and ligand docking of annotated endoglucanases showed an affinity for cellotrioside, cellobioside, and β-glucoside. The finding indicates the flexibility of Bacillus-derived endoglucanase activity on diverse cellulosic substrates. The presence of the butyrate synthesis gene in the CRN 1 strain depicts its key role in the production of important short-chain fatty acids essential for healthy rumen development. Similarly, antimicrobial peptides such as bacilysin and non-ribosomal peptides (NRPS) synthesized by the Bacillus strains were also annotated in the genome. The findings clearly define the role of Bacillus sp. inside the camel rumen and its potential application in various plant biomass utilizing industry and animal health research sectors.
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