Journal of Food Technology
Year:
2018
Volume:
16
Issue:
2-6
Page No.
14 - 22
References
Bakar, N.F.A., 2010. Biodegradation study of Tapis crude oil and condensate Terengganu by selected bacteria. MSc. Thesis, University Kebangsaan Malaysia, Bangi, Malaysia.
Banat, I.M., 1993. The isolation of a thermophilic biosurfactant producing
Bacillus sp. Biotechnol. Lett., 15: 591-594.
CrossRef | Direct Link | Bodour, A.A. and R.M. Miller-Maier, 1998. Application of a modified drop-collapse technique for surfactant quantitation and screening of biosurfactant-producing microorganisms. J. Microbiol. Methods, 32: 273-280.
CrossRef | Direct Link | Bouchez, M., D. Blanchet and J.P. Vandecastelle, 1995. Degradation of polycyclic aromatic hydrocarbons by pure strains and by defined strain associations: Inhibition phenomena and cometabolism. Applied Microbiol. Biotechnol., 43: 156-164.
CrossRef | Direct Link | Cameotra, S.S. and R.S. Makkar, 2004. Recent applications of biosurfactants as biological and immunological molecules. Curr. Opin. Microbiol., 7: 262-266.
CrossRef | Carrillo, P.G., C. Mardaraz, S.I. Pitta-Alvarez and A.M. Giulietti, 1996. Isolation and selection of biosurfactant-producing bacteria. World J. Microbiol. Biotechnol., 12: 82-84.
Direct Link | Chen, C., S.C. Baker and R. Darton, 2007. The application of a high throughput analysis method for the screening of potential biosurfactants from natural sources. J. Microbiol. Method, 70: 503-510.
CrossRef | Chen, S.Y., W.B. Lu, Y.H. Wei, W.M. Chen and J.S. Chang, 2007. Improved production of biosurfactant with newly isolated
Pseudomonas aeruginosa S2. Biotechnol. Progr., 23: 661-666.
CrossRef | Direct Link | Cooper, D.G. and B.G. Goldenberg, 1987. Surface-active agents from two
Bacillus species. Applied Environ. Microbiol., 53: 224-229.
Direct Link | Gandhimathi, R., G.S. Kiran, T.A. Hema, J. Selvin, T.R. Raviji and S. Shanmughapriya, 2009. Production and characterization of lipopeptide biosurfactant by a sponge-associated marine actinomycetes
Nocardiopsis alba MSA10. Bioprocess Biosyst. Eng., 32: 825-835.
CrossRef | PubMed | Direct Link | Hamzah, A., A. Rabu, R.F.H.R. Azmy and N.A. Yussoff, 2010. Isolation and characterization of bacteria degrading Sumandak and South Angsi oils. Sains Malaysiana, 39: 161-168.
Direct Link | Jain, D.K., D.L. Collins-Thompson, H. Lee and J.T. Trevors, 1991. A drop-collapsing test for screening surfactant-producing microorganisms. J. Microbiol. Methods, 13: 271-279.
CrossRef | Direct Link | Kosaric, N., 1993. Biosurfactants: Production, Properties and Application. Marcel Dekker, New York, USA.,.
Lotfabad, T.B., M. Shourian, R. Roostaazad, A.R. Najafabadi, M.R. Adelzadeh and K.A. Noghabi, 2009. An efficient biosurfactant-producing bacterium
Pseudomonas aeruginosa MR01, isolated from oil excavation areas in South of Iran. Colloids Surf. B: Biointerfaces, 69: 183-193.
CrossRef | PubMed | Direct Link | Morikawa, M., Y. Hirata and T. Imanaka, 2000. A study on the structure-function relationship of lipopeptide biosurfactants. Biochim. Biophys. Acta BBA. Mol. Cell Biol. Lipids, 1488: 211-218.
CrossRef | PubMed | Direct Link | Mukred, A.M., A.A. Hamid, A. Hamzah and W.M. Wan Yusoff, 2008. Enhancement of biodegradation of crude petroleum-oil in contaminated water by the addition of nitrogen sources. Pak. J. Biol. Sci., 11: 2122-2127.
CrossRef | PubMed | Direct Link | Pacwa-Piociniczak, M., G.A. Piaza, Z. Piotrowska-Seget and S.S. Cameotra, 2011. Environmental applications of biosurfactants: Recent advances. Intl. J. Mol. Sci., 12: 633-654.
CrossRef | PubMed | Direct Link | Patil, J.P. and B.A. Chopade, 2001. Distribution and
in vitro antimicrobial susceptibility of Acinetobacter species on the skin of healthy humans. National Med. J. India, 14: 204-208.
PubMed | Pekdemir, T., M. Copur and K. Urum, 2005. Emulsification of crude oil-water systems using biosurfactants. Proc. Saf. Environ. Prot., 83: 38-46.
CrossRef | Direct Link | Plaza, G.A., I. Zjawiony and I.M. Banat, 2006. Use the different methods for detection of thermophillic biosurfactant-Producing bacteria from hydrocarbon-contaminated and bioremediated soils. J. Petrol. Sci. Eng., 50: 71-77.
CrossRef | Pornsunthorntawee, O., N. Arttaweeporn, S. Paisanjit, P. Somboonthanate and M. Abe
et al., 2008. Isolation and comparison of biosurfactants produced by
Bacillus subtilis PT2 and
Pseudomonas aeruginosa SP4 for microbial surfactant-enhanced oil recovery. Biochem. Eng. J., 42: 172-179.
CrossRef | Direct Link | Praveesh, B.V., A.R. Soniyamby, C. Mariappan, P. Kavithakumari and M. Palaniswamy
et al., 2011. Biosurfactant production by
Pseudomonas sp. from soil using whey as carbon source. N. Y. Sci. J., 4: 99-103.
Prieto, L.M., M. Michelon, J.F.M. Burkert, S.J. Kalil and C.A.V. Burkert, 2008. The production of rhamnolipid by a
Pseudomonas aeruginosa strain isolated from a Southern Coastal Zone in Brazil. Chemosphere, 71: 1781-1785.
CrossRef | PubMed | Direct Link | Rodrigues, L., I.M. Banat, J. Teixeira and R. Oliveira, 2006. Biosurfactants: Potential applications in medicine. J. Antimicrobial Chemotherapy, 57: 609-618.
CrossRef | Direct Link | Satpute, S.K., A.G. Banpurkar, P.K. Dhakephalkar, I.M. Banat and B.A. Chopade, 2010. Methods for investigating biosurfactants and bioemulsifiers: A review. Crit. Rev. Biotechnol., 30: 127-144.
CrossRef | Direct Link | Silva, S.N.R.L., C.B.B. Farias, R.D. Rufino, J.M. Luna and L.A. Sarubbo, 2010. Glycerol as substrate for the production of biosurfactant by
Pseudomonas aeruginosa UCP0992. Colloids Surf. B. Biointerfaces, 79: 174-183.
CrossRef | PubMed | Direct Link | Wei, Y.H., C.C. Lai and J.S. Chang, 2007. Using Taguchi experimental design methods to optimize trace element composition for enhanced surfactin production by
Bacillus subtilis ATCC 21332. Process Biochem., 42: 40-45.
CrossRef | Direct Link | Wei, Y.H., C.L. Cheng, C.C. Chien and H.M. Wan, 2008. Enhanced di-rhamnolipid production with an indigenous isolate
Pseudomonas aeruginosa J16. Process Biochem., 43: 769-774.
CrossRef | Williams, K.J., 2009. Biosurfactants for cosmetic application: Overcoming production challenges. MMG Basic Biotechnol., 5: 78-83.
Direct Link | Willumsen, P.A. and U. Karlson, 1996. Screening of bacteria, isolated from PAH-contaminated soils, for production of biosurfactants and bioemulsifiers. Biodegradation, 7: 415-423.
CrossRef | Direct Link | Wu, J.Y., K.L. Yeh, W.B. Lu, C.L. Lin and J.S. Chang, 2008. Rhamnolipid production with indigenous
Pseudomonas aeruginosa EM1 isolated from oil-contaminated site. Bioresour. Technol., 99: 1157-1164.
CrossRef | PubMed | Direct Link | Yin, H., J. Qiang, Y. Jia, J. Ye and H. Peng
et al., 2009. Characteristics of biosurfactant produced by
Pseudomonas aeruginosa S6 isolated from oil-containing wastewater. Process Biochem., 44: 302-308.
CrossRef | Direct Link | Youssef, N.H., K.E. Duncan, D.P. Nagle, K.N. Savage, R.M. Knapp and M.J. McInerney, 2004. Comparison of methods to detect biosurfactant production by diverse microorganisms. J. Microbiol. Methods, 56: 339-347.
CrossRef | Direct Link | Zajic, J.E. and B. Supplisson, 1972. Emulsification and degradation of Bunker C fuel oil by microorganisms. Biotechnol. Bioeng., 14: 331-334.
CrossRef | Direct Link | Zhang, G., Y. Wu, X. Qian and Q. Meng, 2005. Biodegradation of crude oil by
Pseudomonas aeruginosa in the presence of rhamnolipids. J. Zhejiang Univ. Sci. B, 6: 725-730.
CrossRef | PubMed |