4.2 Article

Deciphering the molecular diversity of related halophilic Bacillus sp. isolated from Sambhar Lake and the functional characterizations of surfactin

Journal

JOURNAL OF SURFACTANTS AND DETERGENTS
Volume 25, Issue 6, Pages 757-774

Publisher

WILEY
DOI: 10.1002/jsde.12611

Keywords

Bacillus; bioremediation; biosurfactant; nonribosomal peptide synthetase; Sambhar Lake; surfactin

Funding

  1. Manipal University Jaipur [EF/2019-20/QEO4-01]

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The Sambhar Salt Lake in Rajasthan, India provides a unique opportunity for studying halophilic microorganisms that produce surfactins with industrial applications. Through comparative genomics and chemotaxonomic research, the relationship between Bacillus species was explored. The presence of nonribosomal protein sequences (NRPS) confirmed the existence of surfactin-type lipopeptide biosurfactants. Structural investigation revealed similarities in the biosurfactants produced by Bacillus haynesii strain SAII and Bacillus swezeyi strain SEIII. The biosurfactants extracted from these microorganisms showed potential for bioremediation of contaminants, as shown by their high recovery rate of oil from contaminated sand.
The Sambhar Salt Lake in Rajasthan, India, offers a unique opportunity to explore halophilic surfactin-producing microorganisms with industrial application. The phylogenetic study, comparative genomics combined with chemotaxonomic research provided insight into the interspecies relativeness of Bacillus sp. Considering the nonribosomal protein sequences (NRPS), Bacillus haynesii strain SAII strain and Bacillus swezeyi strain SEIII showed a high degree of conservation. In silico studies of the isolated Bacillus sp. confirmed the presence of NRPS indicating the presence of surfactin-type lipopeptide biosurfactants. Structural investigation using Fourier transform infrared spectroscopy, liquid quadrupole triple quadrupole mass spectrometry, H-1 Nuclear mass resonance of the crude biosurfactant revealed further similarities among these two Bacillus species. Methyl esters of the crude biosurfactant indicated high likeliness among them and indicated the presence of pentadecanoic acid and tetradecanoic acid as the crucial fatty acids. Enhanced recovery of oil from contaminated sand using 100% crude biosurfactant ranged from 20% +/- 0.05 to 69.20% +/- 1.22. This opens the door to a bright future for understanding the molecular diversity of closely related halophilic Bacillus sp. and the potential use of the extracted biosurfactants for bioremediation of contaminants.

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