THE UTILIZATION OF THERMOPHILIC PROTEASE WHICH LIFE IN HOT SPRING CANGAR BATU MALANG
Rudiana Agustini(1*)
(1) Department of Chemistry, Faculty of Mathematics and Natural Sciences, State University of Surabaya, Surabaya
(*) Corresponding Author
Abstract
Thermophile protease has economic value, because this enzyme is useful on all kind of industry that used high temperature on it production process. The thermophile has been isolated from hot water spring at Cangar Batu Malang called CG-10 isolate. The characteristic of CG-10 are; bolt colony has a brown-white colour, rod form cels with size 6-14 µm and Gram positive. Identification with 16S-rRNA gene of their isolate shows 98.305% similarity with B. caldoxylolyticus. The protease characteristic of CG-10 isolate, fractionated by ammonium sulfate 35% (w/v), centrifuged by 4000 rpm of speed for 15 minute, (1) has optimum temperature of 80oC; (2) has optimum pH 8, (3) can survive until 60 minutes of incubation time at temperature 80oC , (4) the molecule weight of: 60-76 kDa with pH1 value between 7.5 - 8.20, (5) this protease is alkaline serine protease, and (6)Vmaks value 0.622 unit menit -1 and KM 9.8 µmol/L, so this CG-10 isolate protease can be use in detergent industry.
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[1] Wiseman, A., 1985, Handbook of Enzyme Biotechnology, 2nd edition, John Wiley & Sons, New York.
[2] Edward, C., 1990, Microbiology of Extreme Environments, Open University Press, London.
[3] Tmamakashi, M., Yamagishi, A., and Oshima, T., 1995, J. Molec. Microbiol. 16 (5), 1031 – 1036.
[4] Brock, TD., Madigan, MT., Martinko, JM., and Parker, J., 1994, Biology of Microorganism. 7th.ed. Prentice-Hall International, London.
[5] Madigan, MT. and Marrs, BL., 1997, Sci. Am., 4.
[6] Nisa, 2001, Pemurnian dan Karakterisasi Protease Ekstraseluler dari Isolat Bakteri Termofilik GP-04. Makalah Seminar Program Pasca Sarjana IPB.
[7] Dirnawan, H., 1999, Isolasi Bakteri Termofil Penghasil Enzim Hidrolitik Ekstraseluler Dari Sumber Air Panas Gunung Pancar, Skripsi Jurusan Biologi FMIPA, Institut Pertanian Bogor.
[8] Govordhan, CP. and Margolin, AL., 1996. J. Biochem. & Indus. Feature.
[9] Bergmeyer, H.U. and Grassl, G., 1983, Methods of Enzymatic Analysis. Vol. 2, Verlag Chemie, Weinheim.
[10] Bollag, D.M. and Edelstein, S.J., 1991, Protein Methods, Wiley-Liss, Inc., New York
[11] Agustini, R. 2003, Karakterisasi Dan Imobilisasi Mikroorganisme Thermofilik Yang Hidup Di Sumber Air Panas Cangar Malang, Disertasi, Universitas Airlangga, Surabaya.
[12] Stryer, L., 1988, Biochemistry, 3rd Ed., W.H. Freeman and Company, New York.
[13] Xin Yu, T., 1996, Purificatian and Properties of Protease From a Haloalkaliphilic Bacterium. Thailand.
[14] Poedjiadi, A., 1994, Dasar-dasar Biokimia, Penerbit Universitas Indonesia Press, Jakarta.
[15] Lehninger, AL., 1990. Dasar-dasar Biokimia, (terjemahan Thenawidjaja, M.), Penerbit Erlangga, Jakarta.
[16] Hames, B.D., Hooper, N.M., and Houghton, J.D., 1997, Biochemistry, Bios Scientific Publisher, Singapore.
[17] Xin Yu, T., 1996, Purificatian and Properties of Protease From a Haloalkaliphilic Bacterium. Thailand.
[18] Noorzaliha A.R., Razak, C.N., Ampon, K., Basri, M., Yunus, Z.W., and Salleh, A.B., 1994, Appl. Microbiol. & Biotech. 40, 822 – 827.
[19] Sinchaikul, S., Sritanau, Domchai, H., and Phutrakul, S., 1998, Production and Characterization of Extracellular Protease Produced by a Thermophilic Bacterium Strain TLS 33. Departemen of Chemistry, Bangkok.
DOI: https://doi.org/10.22146/ijc.21762
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