Optimization of extracellular lipase production by Geotrichum sp. using factorial design

Bioresource Technology

Volumn 91, Issue 1, 2004, Pages 77-84

  Burkert, J F M ^a   Maugeri, F ^a   Rodrigues, M I ^a  

^a UNIVERSITY OF CAMPINAS   (Brazil)

Author keywords

Factorial design; Geotrichum sp.; Lipase production; Optimization; Surface response analysis

Indexed keywords

ENZYMES; NITROGEN; OPTIMIZATION; SURFACE PHENOMENA;

ENZYME PRODUCTION;

BIOTECHNOLOGY;

AMMONIUM NITRATE; CARBON; GLUCOSE; NITROGEN; OLIVE OIL; SOYBEAN OIL; TRIACYLGLYCEROL LIPASE;

BIOTECHNOLOGY; ENZYME;

ARTICLE; CALCULATION; CONCENTRATION (PARAMETERS); CORN; CULTURE MEDIUM; ENZYME ACTIVITY; ENZYME SYNTHESIS; EXPERIMENTAL DESIGN; EXTRACELLULAR SPACE; GEOTRICHUM; LIQUID; NONHUMAN; NUTRIENT CONCENTRATION; PRIORITY JOURNAL; RESPONSE SURFACE METHOD; TEMPERATURE;

GEOTRICHUM; ZEA MAYS;

EID: 0242289262     PISSN: 09608524     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0960-8524(03)00152-4     Document Type: Article

References (26)

1. Bertolini M.C., Laramee L., Thomas D.Y., Cygler M., Schrag J.D., Vernet T. Polymorphism in the lipase genes of Geotrichum candidum strains. Europ. J. Biochem. 219:1994;119-125.
2. Carvalho C.M.L., Serralheiro M.L.M., Cabral J.M.S., Aires-Barros M.R. Application of factorial design to the study of transesterification reactions using cutinase in AOT-reversed micelles. Enzy. Microb. Technol. 21:1997;117-123.
3. Cruz P.M., Christen P., Farres A. Medium optimization by fractional factorial design for lipase production by Rizopus delemar. J. Ferm. Bioeng. 76:1993;94-97.
4. Elibol M., Ozer D. Influence of oxygen transfer on lipase production by Rizopus arrhizus. Proc. Biochem. 36:2000;325-329.
5. Freire D.M., Teles E.M.F., Bon E.P.S., Lippel Sant'anna G. Lipase production by Penicillium restrictum in a bench-scale fermenter. Appl. Biochem. Biothec. 63-65:1997;409-421.
6. Haaland P.D. Experimental design in biotechnology. 1989;Marcel Dekker inc, New York.
7. Hatzinikolaou D.G., Macris J.B., Christakopoulos P., Kekos D., Kolisis F.N., Fountoukidis G. Production and partial characterization of lipase from Aspergillus niger. Biothecn. Lett. 18:1996;547-552.
8. Jacobsen T., Poulsen O.M. Comparison of lipases from different strains of the fungus Geotrichum candidum. Biochim. Biphys. Acta Lipids and Lipid Metabolism. 1257:1995;96-102.
9. Kalil S.J., Maugeri F., Rodrigues M.I. Response surface analysis and simulation as a tool for bioprocess design and optimization. Proc. Biochem. 35:2000;539-550.
10. Kamimura E.S., Medieta O., Rodrigues M.I., Maugeri F. Studies on lipase-affinity adsorption using response-surface analysis. Biotechnol. Appl. Biochem. 33:2001;153-159.
11. Kamini N.R., Fujii T., Kurosu T., Iefuji H. Production, purification and characterization of an extracellular lipase from yeast, Cryptococcus sp. S-2. Proc. Biochem. 36:2000;317-324.
12. Khuri A.I., Cornell J.A. Response surface design and analyses. 1987;Marcel Dekker Inc, New York.
13. Kui T., Xu X., He C., Li L. Lipase-catalysed modification of lard to produce human milk fat substitutes. Food Cap Chem. 80:2003;473-481.
14. Macêdo G.A., Park Y.K., Pastore G.M. Partial purification and characterization of an extracellular lipase from a newly isolated strain of Geotrichum sp. J. Brazil. Soc. Microbiol. 28:1997;90-95.
15. Nagao T., Shimada Y., Sugihara A., Tominaga Y. Expression of lipase cDNA from Fusarium heterosporum by Saccharomyces cerevisae: high-level production and purification. J. Ferment. Bioeng. 81:1996;488-492.
16. Nagayama K., Yamasaki N., Imai M. Fatty acid esterification catalyzed by Candida rugosa lipase in lecithin microemulsion-based organogels. Biochem. Eng. J. 12:2002;231-236.
17. Nini L., Sarda L., Coumeau L.C., Boitard E., Dubes J.P., Chahinian H. Lipase catalysed hydrolysis of short-chain substrates in solution and in emulsion: a kinetic study. Biochim. Biphys. Acta Molecular and Cell Biology. 1534:2001;34-44.
18. Phillips A., Pretorius G.H.J., Hester G., Rensburg V. Molecular characterization of a Galactomyces geotrichum lipase, another member of the cholinesterase/lipase family. Biochim. Biphys. Acta Protein Struct. Molecular. 1252:1995;305-311.
19. Piao J., Kobayashi T., Adachi S., Nakanishi K., Matsuno R. Synthesis of mono- and dioleoyl erythritols through immobilized-lipase-catalyzed condensation of erythritol and oleic acid in acetone. Biochem. Eng. J. 14:2003;79-84.
20. Pokorny D., Cinerman A., Steiner W. Aspergillus niger lipases: induction, isolation and characterization of two lipases from MZKI A116 strain. J. Molec. Cataly. B: Enzymatic. 2:1997;215-222.
21. Rao P.V., Jayaraman K., Lakshmanan C.M. Production of lipase by Candida rugosa in solid state fermentation 2: Medium optimization and effect of aeration. Proces. Biochem. 28:1993;391-395.
22. Raku T., Kitagawa M., Shimakawa H., Tokiwa Y. Enzymatic synthesis of threalose esters having lipophilicity. J. Biotechnol. 100:2003;203-208.
23. Saxena R.K., Ghosh P.K., Gupta R., Davdison W.S., Bradoo S., Gulati R. Microbial lipases: potential biocatalysts for the future industry. Curr. Sci. 77:1999;101-115.
24. Shintre M.S., Ghadge R.S., Sawant S.B. Lipolase catalyzed synthesis of benzyl esters of fatty acids. Biochem. Eng. J. 12:2002;131-141.
25. Vanot G., Deyris V., Guilhem M.C., Phan Tan Luu R., Comeau L.C. Optimal design for the maximization of Penicillium cyclopium lipase production. Appl. Microbiol. Biotechnol. 57:2001;342-345.
26. Warwel S., Borgdorf R. Substrate selectivity of lipases in the esterification of cis-trans-isomers and positional isomers conjugated linoleic acid (CLA). Biotechnol. Lett. 22:2000;1151-1155.