BACKGROUND: There is currently much interest in the use of natural biosurfactants and bioemulsifiers, mainly in the cosmetic, pharmaceutical and food industries. However, there are no studies on the optimization of the extraction conditions of cell-bound biosurfactants. In this work, a biosurfactant with emulsifier properties was extracted from Lactobacillus pentosus cells, under different extraction conditions, and characterized. RESULTS: During extraction, the most influential independent variable, concerning the emulsifying capacity of biosurfactant, was the operation time, followed by temperature and salt concentration. Biosurfactant from L. pentosus was evaluated by Fourier transform infrared spectroscopy and the composition of fatty acids was analyzed by gas chromatography-mass spectrometry. The hydrophobic chain of the biosurfactant from L. pentosus comprises 548 g kg(-1) linoelaidic acid (C18:2), 221 g kg(-1) oleic or elaidic acid (C18:1), 136 g kg(-1) palmitic acid (C16) and 95 g kg(-1) stearic acid (C18). In addition, emulsions of water and rosemary oil were stabilized with a biosurfactant produced by L. pentosus and compared with emulsions stabilized with polysorbate 20. CONCLUSION: The optimum extraction conditions of biosurfactant were achieved at 45 °C at 120 min and using 9 g kg(-1) of salt. In all the assays biosurfactant from L. pentosus yielded more stable emulsions and higher emulsion volumes than polysorbate 20.
BACKGROUND: There is currently much interest in the use of natural biosurfactants and bioemulsifiers, mainly in the cosmetic, pharmaceutical and food industries. However, there are no studies on the optimization of the extraction conditions of cell-bound biosurfactants. In this work, a biosurfactant with emulsifier properties was extracted from Lactobacillus pentosus cells, under different extraction conditions, and characterized. RESULTS: During extraction, the most influential independent variable, concerning the emulsifying capacity of biosurfactant, was the operation time, followed by temperature and salt concentration. Biosurfactant from L. pentosus was evaluated by Fourier transform infrared spectroscopy and the composition of fatty acids was analyzed by gas chromatography-mass spectrometry. The hydrophobic chain of the biosurfactant from L. pentosus comprises 548 g kg(-1) linoelaidic acid (C18:2), 221 g kg(-1) oleic or elaidic acid (C18:1), 136 g kg(-1) palmitic acid (C16) and 95 g kg(-1) stearic acid (C18). In addition, emulsions of water and rosemary oil were stabilized with a biosurfactant produced by L. pentosus and compared with emulsions stabilized with polysorbate 20. CONCLUSION: The optimum extraction conditions of biosurfactant were achieved at 45 °C at 120 min and using 9 g kg(-1) of salt. In all the assays biosurfactant from L. pentosus yielded more stable emulsions and higher emulsion volumes than polysorbate 20.
Authors: Cátia V Gil; Ana Teresa Rebocho; Asiyah Esmail; Chantal Sevrin; Christian Grandfils; Cristiana A V Torres; Maria A M Reis; Filomena Freitas Journal: Polymers (Basel) Date: 2022-05-20 Impact factor: 4.967
Authors: Surekha K Satpute; Nishigandha S Mone; Parijat Das; Ibrahim M Banat; Arun G Banpurkar Journal: BMC Microbiol Date: 2019-02-13 Impact factor: 3.605
Authors: Giulia Scalzini; Alejandro López-Prieto; Maria A Paissoni; Vasileios Englezos; Simone Giacosa; Luca Rolle; Vincenzo Gerbi; Susana Río Segade; Benita Pérez Cid; Ana B Moldes; Jose M Cruz Journal: Foods Date: 2020-11-26
Authors: Ana B Moldes; Lorena Rodríguez-López; Myriam Rincón-Fontán; Alejandro López-Prieto; Xanel Vecino; José M Cruz Journal: Int J Mol Sci Date: 2021-02-27 Impact factor: 5.923
Authors: Lorena Rodríguez-López; Alejandro López-Prieto; Miriam Lopez-Álvarez; Sara Pérez-Davila; Julia Serra; Pío González; José Manuel Cruz; Ana B Moldes Journal: ACS Omega Date: 2020-11-24