Browse > Article
http://dx.doi.org/10.4014/kjmb.1205.05010

The Isolation and Culture Characterization of a Lipolytic Enzyme Producing Strain from Meju  

Yun, Hye-Ju (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Lee, You-Jung (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Yeo, Soo-Hwan (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Choi, Hye-Sun (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Park, Hye-Young (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Park, Heui-Dong (Department of Food Science & Technology, Agro Biotechnology Education Center, Kyungpook National University)
Baek, Seong-Yeol (Fermentation & Food Processing Division, Department of Agro-food Resource, NAAS, RDA)
Publication Information
Microbiology and Biotechnology Letters / v.40, no.2, 2012 , pp. 98-103 More about this Journal
Abstract
For screening of useful enzymes producing microorganisms from Meju, we isolated high lipase producing strains and their lipolytic enzyme activities were then tested. The lipolytic enzyme activities of isolated microorganisms were therefore tested on the Y124 strain. The gene sequence analysis of ITS from Y124 strain revealed Yarrowia lipolytica. Lipase production by the Y124 strain was studied in media containing various carbon sources. The Y124 strain drastically increased lipolytic enzyme activity in YPO media containing olive oil, as well as in YPDO media containing both olive oil and glucose. Maximal lipase production was achieved in YPD (yeast extract-peptone-D-glucose) media containing 0.7% olive oil when cultured at $30^{\circ}C$ for 8 hrs. The lipase produced from the Y124 strain showed the highest activity in p-NPO (p-nitrophenyl octanoate ($C_8$)), amongst the various p-nitrophenyl esters.
Keywords
Yarrowia lipolytica; 16S rDNA; lipase activity; carbon source;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Beopoulos, A., J. Cescut, R. Haddouche, J. L. Uribelarrea, C. Molina-Jouve, and J. M. Nicaud. 2009. Yarrowia lipolytica as a model for bio-oil production. Prog. Lipid Res. 48: 375-387.   DOI
2 Choi, C. S., S. Y. Lee, and J. H. Lee. 2009. Characterization of lipase produced from the microorganisms isolated from mud-flat. Korean J. Food & Nutr. 22: 14-19.
3 Desnuelle, P. 1972. The Lipases, In P. D. Boyer ed., pp. 575-616, Academic Press, New York and London.
4 Fickers, P., J. M. Nicaud, C. Gaillardin, J. Destain, and P. Thonart. 2004. Carbon and nitrogen sources modulate lipase production in the yeast Yarrowia lipolytica. J. Appl. Microbiol. 96: 742-749.   DOI
5 Guptaa, R., N. Gupta and P. Rathi. 2004. Bacterial lipases: an overview of production, purification and biochemical properties. Appl. Microbiol. Biotechnol. 64: 763-781.   DOI
6 Jaeger, K. E. and T. Eggert. 2002. Lipase for biotechnology. Curr. Opin. Biotechnol. 13: 390-397.   DOI
7 Jaeger, K. E., B. W. Kijkstra, and M. T. Reetz. 1999. Bacterial biocatalysts: molecular biology, three-dimensional structures, and biotechnological applications of lipase. Annu. Rev. Microbiol. 53: 315-351.   DOI
8 Jo, J. W., S. H. Hur, Y. S. Han, and J. Y. Kim. 2009. Isolation of lipase producing Bacillus subtilis and some characteristics of the enzyme. J. Appl. Biol. Chem. 52: 151-156.   DOI
9 Kim, H. K., Y. J. Jung, W. C. Choi, H. S. Ryu, T. K. Oh, and J. K. Lee. 2004. Sequence-based approach to finding functional lipases from microbial genome databases. FEMS Microbiol. Lett. 235: 349-355.   DOI
10 Lee, H. K., M. J. Ahn, S. H. Kwak, W. H. Song, and B. C. Jeong. 2003. Purification and characterization of cold active lipase from psychrotrophic Aeromonas sp. LPB 4. J. Microbiol. 41: 22-27.
11 Lee, J. M., R. S. Kim, B. O. Kim, Y. D. Park, and I. N. Jin. 1993. Isolation of a pseudomonas aerusinosa stain producing an extracellular alkaline lipase catabolitely regulated by glucose, and purification of the lipase. Kor. J. Appl. Microbiol. Biotechnol. 21: 161-168.
12 Lin, S. F., C. M. Chiou, C. M. Yeh, and Y. C. Tsai. 1996. Purification and partial characterization of an alkaline lipase from Pseudomonas pseudoalcaligenes F-lll. Appl. Environ. Microbiol. 62: 1093-1095.
13 Najjar, A., S. Robert, C. Guerin, M. Violet-Asther, and F. Carriere. 2011. Quantitative study of lipase secretion, extracellular lipolysis, and lipid storage in the yeast Yarrowia lipolytica grown in the presence of olive oil: analogies with lipolysis in humans. Appl. Microbiol. Biotechnol. 89: 1947-1962.   DOI
14 Park, M. H., H. J. Ryu, and K. K. Oh. 2004. Isolation of lipase producing yeast and optimization of cultivation condition. Korean J. Biotechnol. Bioeng. 19: 148-153.
15 Reetz, M. T. 2002. Lipases as practical biocatalysts. Curr. Opin. Biotechnol. 6: 145-150.
16 Suzuki, T., T. Nakayama, D.W. Choo, Y. Hirano, T. Kurihara, T. Nishino, and N. Esaki. 2003. Cloning, heterologous expression, renaturation, and characterization of a cold-adapted esterase with unique primary structure from a psychrotroph Pseudomonas sp. strain B11-1. Protein Expr. Purify. 30: 171-178.   DOI
17 Ryu, H. S., H. K. Kim, W. C. Choi, M. H. Kim, S. Y. Park, N. S. Han, T. K. Oh, and J. K. Lee. 2006. New cold-adapted lipase from Photobacterium lipolyticum sp. nov. that is closely related to filamentous fungal lipases. Appl. Microbiol. Biotechnol. 70: 321-326.   DOI
18 Saitou, N. and M. Nei. 1987. The neighbor joining-methods: a new method for reconstructig phylogenetic trees. Mol. Biol. Evol. 4: 406-425.
19 Schmidt-Dannert, C. 1999. Recombinant microbial lipase for biotechnological applications. Bioorg. Med. Chem. 7: 2123-2130   DOI