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Kim, K.M., Lee, J.Y., Kim, C.K., and Kang, J.S. 2009. Isolation and characterization of surfac-
tin produced by
Bacillus polyfermenticus
KJS-2.
Archives of Pharmaceutical Research
32: 711-715.
Kinsinger, R.F., Kearns, D.B., Hale, M., and Fall, R. 2005. Genetic requirements for potas-
sium ion-dependent colony spreading in
Bacillus subtilis. Journal of Bacteriology
187:
8462-8469.
Kinsinger, R.F., Shirk, M.C., and Fall, R. 2003. Rapid surface motility in
Bacillus subtilis
is
dependent on extracellular surfactin and potassium ion.
Journal of Bacteriology
185:
5627-5631.
Kiran, G.S., Thomas, T.A., Selvin, J., Sabarathnam, B., and Lipton, A.P. 2010. Optimization and
characterization of a new lipopeptide biosurfactant produced by
marine Brevibacterium
aureum
MSA13 in solid state culture.
Bioresource Technology
101: 2389-2396.
Knoblich, A., Matsumoto, M., Ishiguro, R., Murata, K., Fujiyoshi, Y., Ishigami, Y., and
Osman, M. 1995. Electron cryo-microscopic studies on micellar shape and size of sur-
factin, an anionic lipopeptide.
Colloids and Surfaces B
5: 43-48.
Kuiper, I., Lagendijk, E.L., Pickford, R., Derrick, J.P., Lamers, G.E.M., Thomas-Oates,
J.E., Lugtenberg, B.J.J., and Blowemberg, G.V. 2004. Putisolvin I and I which
inhibit biofilm formation and break down existing biofilms.
Molecular Microbiology
51(1): 97-113.
Lang, S. and Wagner, F. 1987. Structure and properties of biosurfactants. In
Biosurfactants
and Biotechnology,
Kosaric, N., Cairns, W.L., and Gray, N.C.C. (eds.). Marcel Dekker,
New York, pp. 21-45.
Layman, P.L. 1985. Industrial surfactants set for strong growth.
Chemical and Engineering
News
63: 23-48.
Li, X., Li, A., Liu, C., Yang, J., Ma, F., Hou, N., Xu, Y., and Ren, N. 2012. Characterization
of the extracellular biodemulsifier of
Bacillus mojavensis
XH1 and the enhancement
of demulsifying efficiency by optimization of the production medium composition.
Process Biochemistry
47: 626-634.
Lima, T.M.S., Procopio, L.C., Brandao, F.D., Carvalho, A.M.X., Totola, M.R., and
Borges, A.C. 2011a. Biodegradability of bacterial surfactants.
Biodegradation
22:
585-592.
Lima, T.M.S., Procopio, L.C., Brandao, F.D., Carvalho, A.M.X., Totola, M.R., and Borges, A.C.
2011b. Simultaneous phenanthrene and cadmium removal from contaminated soil by a
ligand/biosurfactant solution.
Biodegradation
22: 1007-1015.
Lin, S.C. 1996. Biosurfactant: Recent advances.
Journal of Chemical Technology and
Biotechnology
63: 109-120.
Lin, S.C., Lin, K.C., Lo, C.C., and Lin, Y.M. 1998. Enhanced biosurfactant production by a
Bacillus licheniformis
mutant.
Enzyme and Microbial Technology
23: 267-273.
Liu, Q., Yang, H., Wang, J., Gong, G., Zhou, W., Fan, Y., Wang, L., Yao, J., and Yu, Z. 2006.
A mutant of
Bacillus subtilis
with high-producing surfactin by ion beam implantation.
Plasma Science and Technology
8: 491-496.
Liu, T., Montastruc, L., Gancel, F., Zhao, L., and Nikov, I. 2007. Integrated process for pro-
duction of surfactin. Part I: Adsorption rate of pure surfactin onto activated carbon.
Biochemical Engineering Journal
35: 333-340.
Liu, X., Ren, B., Chen, M., Wang, H., Kokare, C.R., Zhou, X., Wang, J. et al. 2010. Production
and characterization of a group of bioemulsifiers from the marine
Bacillus velezensis
strain H3.
Applied Microbiology and Biotechnology
87: 1881-1893.
Magetdana, R. and Ptak, M. 1992. Interfacial properties of surfactin.
Journal of Colloid and
Interface Science
153(1): 285-291.
Makkar, R.S. and Cameotra, S.S. 1997a. Biosurfactant production by a thermophilic
Bacillus
subtilis
strain.
Journal of Industrial Microbiology and Biotechnology
18: 37-42.
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