Диссертация (1091621), страница 20
Текст из файла (страница 20)
185-191.Shao Z. Trehalolipids in Biosurfactants in Microbiology monographs 20 / SoberonChavez G. (ed.). – Springer-Verlag Berlin. – 2011. – P. 121-140.Kanga S.A., Page C.A., Mills M.A. Autenrieth R. L., Solubilization of Naphthaleneand Methyl-Substituted Naphthalenes from Crude Oil Using Biosurfactants //Environmental Science & Technology. – 1997. – V.31. – №.2. – P. 556-561.Singh A., Van Hamme J.D. and Ward O.P. Surfactants in microbiology andbiotechnology: Part 2. Application aspects // Biotechnol Adv.
– 2007. – V.25. – №.1.– P. 99-121.Rodrigues L., Banat I.M., Teixeira J., Oliveira R. Biosurfactants: potentialapplications in medicine // J Antimicrob Chemother. – 2006. – V.57. – №.4. – P. 60918.Isoda H. Succinoyl trehalose lipid induced differentiation of human monocytoidleukemic cell line U937 into monocyte-macrophages // Cytotechnology.
– 1996. –V19. – P. 10.Chang J.S., Radosevich M., Jin Y., Cha D.K. Enhancement of phenanthrenesolubilization and biodegradation by trehalose lipid biosurfactants // Environ ToxicolChem. – 2004. – V .3. – №.12. – P. 2816-22.Cameotra S.S. and Makkar R.S. Biosurfactant-enhanced bioremediation ofhydrophobic pollutants // Pure and Applied Chemistry. – 2010. – V.82. – №.1.
– P. 97– 116.Manickam N., Bajaj A., Saini H.S., Shanker R. Surfactant mediated enhancedbiodegradation of hexachlorocyclohexane (HCH) isomers by Sphingomonas sp. NM05// Biodegradation. – 2012. – V.23. – №.5. – P. 673-682.123130.131.132.133.134.135.136.137.138.139.140.141.142.143.144.145.146.Oberbremer A., Müller-Hurtig R., and Wagner F. Effect of the addition of microbialsurfactants on hydrocarbon degradation in a soil population in a stirred reactor //Applied Microbiology and Biotechnology.
– 1990. – V.32. – №.4. – P. 485-489.Munstermann B., Poremba K., Lang S., and Wagner F. Studies on environmentalcompatibility: Influence of (bio)surfactants on marine microbial and enzymaticsystems // In Proceedings of the International Symposium on Soil DecontaminationUsing Biological Processes. – 1992. – V.6.
– №.9. – P. 6.Biosurfactants. Advances in experiamental medicine and biology / Sen R. (ed). –Springer Science. New York. – 2010. – 361pCooper D.G. and Goldenberg B.G. Surface-active agents from two Bacillus species //Appl Environ Microbiol. – 1987. – V.53. – №.2. – P. 7.Willumsen P.A. and Karlson U. Screening of bacteria, isolated from PAHcontaminated soils, for production of biosurfactants and bioemulsifiers //Biodegradation. – 1996.
– V. 7. – №.5. – P. 415-423.van der Vegt W. et al. Assessment of bacterial biosurfactant production throughaxisymmetric drop shape analysis by profile // Applied Microbiology andBiotechnology. – 1991. – V.35. – №.6. – P. 766-770.Rotenberg Y., Boruvka L. and Neumann A.W.
Determination of surface tension andcontact angle from the shapes of axisymmetric fluid interfaces // Journal of Colloidand Interface Science . – 1983. – V.93. – №.1. – P. 169-183.Tadros T.F. Adsorption of Surfactants at the Air/Liquid and Liquid/Liquid Interfaces,in Applied Surfactants. – Wiley-VCH Verlag GmbH & Co. KGaA. – 2005. – P. 73-84.Chen C.Y., Baker S.C., and Darton R.C. The application of a high throughput analysismethod for the screening of potential biosurfactants from natural sources // JMicrobiol Methods. – 2007.
– V.70. – №.3. – P. 503-10.Jain D.K., Collins-Thompson D.L., Lee H., Trevors J.T. A drop-collapsing test forscreening surfactant-producing microorganisms // Journal of MicrobiologicalMethods. – 1991. – V.13. – №.4. – P. 271-279.Persson A. and Molin G. Capacity for biosurfactant production of environmentalPseudomonas and Vibrionaceae growing on carbohydrates // Applied Microbiologyand Biotechnology. – 1987. – V.26. – №.5. – P.
439-442.Bodour A.A. and Miller-Maier R.M. Application of a modified drop-collapsetechnique for surfactant quantitation and screening of biosurfactant-producingmicroorganisms // Journal of Microbiological Methods. – 1998. – V32. – №.3. – P.273-280.Maczek J., Junne S., Götz P. Examining biosurfactant producing bacteria - an examplefor an automated search for natural compounds, in Application Note CyBio AG. –2007.Płaza G.A., Zjawiony I., Banat I.M.
Use of different methods for detection ofthermophilic biosurfactant-producing bacteria from hydrocarbon-contaminated andbioremediated soils // Journal of Petroleum Science and Engineering. – 2006. – V.50.– №.1. – P. 71-77.Tugrul T. and Cansunar E. Detecting Surfactant-producing Microorganisms by theDrop-collapse Test // World Journal of Microbiology and Biotechnology. – 2005. –V.21.
– №. 6. – P. 851-853.Vaux D., Cottingham M. Method and apparatus for measuring surface configuration,patent number WO 2007/039729 A1. – 2001Morikawa M., Hirata Y., Imanaka T. A study on the structure-function relationship oflipopeptide biosurfactants // Biochim Biophys Acta. – 2000. – V.1488. – №.3. – P.211-8.124147.148.149.150.151.152.153.154.155.156.157.158.159.160.161.162.163.Fracchia L., C.M., Martinotti M.G., Banat I.M. Biosurfactants and bioemulsifiersbiomedical and related applications: Present status and future potentials // BiomedicalScience, Engineering and Technology.
– 2012. – P. 48.Youssef N.H., Duncan K.E., Nagle D.P., Savage K. N., Knapp R.M., McInerney M. J.Comparison of methods to detect biosurfactant production by diverse microorganisms// J Microbiol Methods. – 2004. – V.56. – №.3. – P. 339-47.Rosenberg M. Bacterial adherence to polystyrene: a replica method of screening forbacterial hydrophobicity // Applied and Environmental Microbiology. – 1981. – V.42,- №.2. – P. 375-377.Pruthi V. and Cameotra S.S. Rapid identification of biosurfactant-producing bacterialstrains using a cell surface hydrophobicity technique // Biotechnology Techniques.
–1997. – V.11. – №.9. – P. 671-674.Bryant F.O. Improved Method for the Isolation of Biosurfactant Glycolipids fromRhodococcus sp. Strain H13A // Appl Environ Microbiol. – 1990. – V.56. – №.5. – P.1494-6.Hodge J.E. and Hofreiter B.T. Determination of reducing sugars and carbohydrates.In: Methods in Carbohydrate Chemistry, Whistler R.L.
and Wolfrom, M.L. (ed). –Academic Press. New York, - 1962. – P. 380-394.Dubois M., Gilles K.A., Hamilton J.K., Rebers P.A., Smith F. Colorimetric method fordetermnation of sugers and related substances // Anal Chem. – 1956. – V.28. – №.3. –P. 350-356.Kai M., Fujita Y., Maeda Y., Nakata N., Izumi S., Yano I.,Makino M. Identification oftrehalose dimycolate (cord factor) in Mycobacterium leprae // FEBS Lett.
– 2007. –V.581. – №.18. – P . 3345-50.Kugler J. H., Muhle-Goll C., Kuhl B., Kraft A., Heinzler R. Trehalose lipidbiosurfactants produced by the actinomycetes Tsukamurella spumae and T.pseudospumae // Appl Microbiol Biotechnol. – 2014. – V.98. – №.21. – P. 8905-15.Филонов А.Е., Шкидченко А.Н., Боронин А.М. Биопрепарат для очистки почвот загрязнений нефтью и нефтепродуктами, способ его получения иприменения // Патент 2378060 РФ, Опубл. 10.01.2009, Бюл. №1Evans C.G.T., Herbert D. The continiuous cultivation of microorganisms.2.Construction of a Chemostat // Methods in Microbiology.
– 1970. – V.2. – P. 277324.Carhart G., Hegeman G. Improved method of selection for mutants of Pseudomonasputida // Appl. Microbiol. – 1975. – V30. – P. 1046Rosenberg M. Bacterial adherence to hydrocarbons: a useful technique for studyingcell surface hydrophobicity // FEMS Microbiology. – 1984. – V.22. – P. 289-295.Satpute S. K., Banpurkar A.G., Dhakephalkar P.K., Banat I.M., Chopade B.A.Methods for investigating biosurfactants and bioemulsifiers: a review // Crit RevBiotechnol. – 2010. – V.30.
– №.2. – P. 127-44.Reynolds E.S. The use of lead citrate at high pH as an electron-opaque stain inelectron microscopy // J Cell Biol. – 1963. – V.17. – P. 208-12.Bligh E.G. and Dyer W.J. A rapid method of total lipid extraction and purification //Canadian Journal of Biochemistry and Physiology. – 1959. – V.37. – №.8. – P.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
