Kluyvera KB4 produced alkaline lipase in a medium containing oil as inducer. Optimum conditions for lipase production were determined in terms of composition of medium, pH, temperature and time of incubation. The highest lipase productivity was obtained from a medium with corn oil as carbon source and peptone as nitrogen source. Oils seem to be. an essential carbon source, since in a medium containing sorbitol without addition of oil the lipase production was very low, approximately only 14%. However, higher concentration of oil (2%) suppressed the lipase production. Production of lipase was greatly influenced by pH of the medium and incubation temperature. It was optimally active at pH 7.5 and 37 °C in medium containing peptone and corn oil 1 %, respectively. Under optimum condition (pH 7.5, at 37 °C), the highest lipase activity was obtained after 36 h of incubation.

Brockerhoff, H. and Jensen, R. G. 1974. Lipolytic enxymes. Academic Press, New York.

Chartrain, M., Marcin, C., Katz, L., Salmon, P., Brix, T., Buckland, B., and Greasham, R. 1993,. Enhahancement of lipase production during fed-batch cultivation of Pseudomonas aeruginosa MB 5001. J. Ferment. Bioeng., 76: 487-492.

Christakupoulos, P., Tzia, C., Kelos, D., and Macris, B. j. 1992. Production and characterisation of extracellular lipase from Calvatia gigantea. APpl. Microb. Biotech., 38: 194-197

Crueger, W. and Crueger, A. 1989. Biotechnology: A text-book of industrial microbiology. Sinauer Associates inc., Sunderland, M. A.

Gao, Y. and Breuil, C. 1995. Extracellular lipase prodcution bya sapwood-staining fungus, Ophiostoma piceae. World J. Microb. Biotech., 11: 638-642.

Hang, Y. D. ad Woodams, E. E. 1990. Lipase production by Geotrichumcandidum from sauerkraut brine. World. J. Microb. Biotech. 6: 418-421

Kawase, T., Hashimoto, T., Fujii., and Minagawa, M., 1985. J. Jpn. Oil Chem. Soc. (Yukagaku), 34: 22.

Kohno, M. Kugimiya, W., Hashimoto, Y., and Morita, Y. 1994. Purification and characterisation of an alkaline lipase from Pseudomonas fluorescens Ak 102. Biosci. Biotech. Bioichem 58: 1564-1568

Kokusho, Y., Machida, H., and Iwasaki, S. 1982. Production and properties of alkaline lipase from Alcaligenes sp. strain no. 679. Agric. Biol. Chem., 6: 1743-1750

Krieg, N. R., and Holt, J. G. 1984. Bergey's manual of Systematic bacteriology. Vol. I. Williams and Wilkins Baltimore, U. S. A.

Lazar, N. R., and Schorder, F. R. 1992. Degradation lipids by fungi. In Microbial degradation of natural products. Winkelmann, G. (Ed.). pp. 267-291. Weinheim. VCH.

Lesuisse, E., Schanck, K., and Colson, C. 1993. Purification and preliminary characterisation of the extracellular lipase of Bacillus subtilis 168, an extremely basic pH tolerant enzyme. Eur. J. Biochem., 216: 155-160.

Lin, S. F., Chiou, C. M., Yeh C. M., and Tsai, Y. C. 1996. Purifaction and and partial characterisation of an alkaline lipase from Pseudomonas pseudoalcaligenes F-111. Appl. Environ, Microb, 62: 1093-1095

Lowry, O. H, Rosebrough, N. J., Farr, A. L., and Randall., R. L., 1951. Protein measurement with folin phenol reagent. J. Biol. Chem. 193: 265-275

Ohnishi, K. Yoshida, Y. and Sekiguchi, J. 1994. Lipase production of Aspergillus oryzae. J. Ferment. Biong, 7: 490-495

Papaparaskevas, D., CHristakopoulos, P., Kekos, D., and Macris. B. J. 1992. Optimising production of extracellular lipase from Rhodotorual glutinis. Bitechnol. Lett, 14: 397-402

Peterson, G. L. 1977. A simplification of the protein assay method of Lowry et al. WHich is more generally applicable. Anal. Biochem., 83: 346-356

Rao, P. V., Jayaraman, K., and Lakshamanan, C. M. 1993. Production of lipase by Candida rugosa in solid state fermentation. 1: Determination of significant process variables. Proc. Biochem. 28: 385-389

Razak, C. N. A., Salleh, A. B., Basri, M., and Yunus, W. M. Z. 1995. Screening, isolation and characterisation of lipolytic microbes. Indonesian Food Nutr. Prog., 2: 9-11

Rumiyatin, V. S. P. and Indrati, R. 1998. isolasi bakteri penghasil enzim lipase alkali dari kulit. Agritech. (Accepted).

Samad, M. Y. A., Salleh, A. B., Razak, C. N. A., Ampon, K., Yunus W. M. Z. W. and Basri, M. 1990. A lipase from newly isolated thermiphylic Rhizopus rhizodiphormis. World J. Microb. Biotech., 6: 390-394

Savitha, J., anf Ratledge, C> 1992. An inducible, intracellular, alkalophilic lipase in Aspergillus flavipus grown in triaacyglycerols. WOrld. J. Microb. Biotech., 8: 129-131

Seitz, E. W. 1974. Industrial application of microbial lipases: a review. J. Am. Oil Chem. Soc. 51: 12-16

Xia, J., Chen, X., and Nnanna, I. A. 1996. Activity and stability of Penicillium cyclopium lipase in surfactant and detergent solutions, J. Am. Oil Chem. Soc., 73: 115-120

Yamane, T. 1987. Enzyme technology for the lipid industry: An engineering overview. J. Am. Oil Chem. Soc., 64: 1657-1662