1. Biosurfactant production by AL 1.1, a Bacillus licheniformis strain isolated from Antarctica: production, chemical characterization and properties
- Author
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Ana Marqués, Jonathan Coronel-León, Ariadna Grau-Campistany, Francesc Rabanal, Guillermo de Grau, Maribel Farfán, and Àngels Manresa
- Subjects
chemistry.chemical_classification ,Chromatography ,biology ,Leucines ,biology.organism_classification ,Applied Microbiology and Biotechnology ,Amino acid ,chemistry ,Biochemistry ,Valine ,Critical micelle concentration ,Moiety ,Bacillus licheniformis ,Isoleucine ,Leucine - Abstract
Biosurfactants are of great interest due to the demand for natural products with low toxicity. Nevertheless, their production is not competitive when cost is a limiting factor. Strain AL 1.1, isolated on Deception Island (Antarctica), identified as Bacillus licheniformis, produced lipopeptides when grown using a variety of carbohydrates. Biosurfactant production, but not growth, was optimal at 30 °C. The culture conditions and medium composition dictated biosurfactant production. Basic optimization of culture and extraction parameters gave a production yiels of 860 mg/L purified extract in 24 h. The purified biosurfactant yielded a mixture of lipopeptide homologues, with molecular weights between 1006 and 1034. The peptide moiety consists of glutamine as the N-terminal amino acid, two leucines, valine, aspartic, leucine and isoleucine as the C-terminal amino acid. The lipid moiety contains a mixture of β-hydroxy fatty acids ranging in size from C14 to C16. These results indicate a similarity with lichenysin groups A, D or G. The organic extract reduced surface tension to 28.5 mN/m and achieved a critical micelle concentration of 15 mg/L. This highly effective and efficient behavior characterized the product as a powerful surfactant. Its stability under a wide pH range, high temperatures and variable concentrations of salt, as well as its emulsifying properties, suggest potential application in cosmetic industrial processes.
- Published
- 2015
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