TB.C2.1819.02 38 DAFTAR PUSTAKA Afolabi, O.A.; Ologunde, M.O.; Anderson, W.A.; Read, J.S.; Dacosta, M.D.; Epps, F.A.; Ayorinde, F.O., “The use of lipase (acetone powder) from Vernonia galamensis in the fatty acid analysis of seed oils”, Journal of Chemical Technology and Biotechnology 51 (1991), 41-46. Aizono, Y.; Funatsu, M.; Sugano, M., “Enzymatic Properties of Rice Bran Lipase”, Agricultural and Biological Chemistry 37 (1973), 2031-2036. Aoki, S.; Kimura, E., “Zinc Hydrolases”, Comprehensive Coordination Chemistry II 8 (2003), 601-640. Armstrong, H.E.; Gosney, H.W., “Studies on enzyme action. Xxi.—lipase (III)”, Proceedings of the Royal Society of London, Series B. Containing Papers of a Biological Character 86 591 (1913), 586-600. Asakura, T.; Adachi, K.; Schwartz, E., “Stabilizing Effect of Various Organic Solvents on Protein”, The Journal of Biological Chemistry 253 (1978), 6423-6425. Avelar, M.H.M.; Cassimiro, D.M.J.; Santos, K.C.; Domingues, R.C.C.; de Castro, H.F.; Mendes, A.A., “Hydrolysis of vegetable oils catalyzed by lipase extract powder from dormant castor bean seeds”, Industrial Crops and Products 44 (2013), 452- 458. Badgujar, K.C.; Bhanage, B.M., “Application of lipase immobilized on the biocompatible ternary blend polymer matrix for synthesis of citronellyl acetate in non-aqueous media: Kinetic modelling study”, Enzyme and Microbial Technology 57 (2014), 16-25. Barabanov V.P.; Tsentovskii V.M.; Tretyakova A.Y. “Physikalisch-chemische Analyse binärer Systeme Dimethylformamid-Alkohole”, Viniti (1975) 1-10. Barnebey, H.L.; Brown, A.C., “Continuous Fat Splitting Plants Using the Colgate-Emery Process”, Journal of the American Oil Chemists’ Society 25 (1948), 95-99. Barros, M.; Fleuri, L.F.; Macedo, G.A., “Seed lipases: sources, applications and properties – a review”, Brazilian Journal of Chemical Engineering 27 (2010), 15- 29. Bhardwaj, K.; Raju, A.; Rajasekharan, R., “Identification, purification, and characterization of a thermally stable lipase from rice bran. A new member of (phospho) lipase family”, Plant Physiology 127 (2001), 1728-1738. Bilodeau, L.; Grotte, D.A.; Preese, L.M.; Apple, F.S., “Glycerol Interference in Serum Lipase Assay Falsely Indicates Pancreas Injury”, Gastroenterology 103 (1992), 1066-1067. Biundo, A.; Steinkellner, G.; Gruber, K.; Spreitzhofer, T.; Ribitsch D.; Guebitz, G.M., “Engineering of the zinc-binding domain of an esterase from Clostridium botulinum towards increased activity on polyesters”, Catalysis Science & Technology 7 (2017), 1440-1447. Carrière, F.; Verger, R.; Lookene, A.; Olivecrona, G., “Lipase structures at the interface between chemistry and biochemistry”, di dalam Jolles, P. dan Jörnvall, H. (ed), “Interface between Chemistry and Biochemistry”, Birkhäuser Verl ag, Basel, 1995. TB.C2.1819.02 39 Choi, W.-C.; Kim, M.-H.; Ro, H.-S.; Ryu, S.-R.; Oh, T.-K.; Lee, J.-K., “Zinc in lipase L1 from Geobacillus stearothermophilus L1 and structural implications on thermal stability”, FEBS Letters 579 (2005), 3461-3466. Ejedegba, B.O.; Onyeneke, E.C.; Oviasogie, P.O., “Characteristics of lipase isolated from coconut (Cocos nucifera linn) seed under different nutrient treatments”, African Journal of Biotechnology 6 (2007), 723-727. Engineering ToolBox, (2008), Die lectric Constants of Liquids, https://www.engineeringtoolbox.com/liquid-dielectric-constants-d_1263.html, diakses pada 1 Mei 2020. Gandhi, N.N., “Applications of Lipase”, Journal of the American Oil Chemists' Society 74 (1997), 621-634. Giudicelli, H.; Boyer, J., “Effects of glycerol on human adipose tissue triglyceride lipase activity”, Journal of Lipid Research 14 (1973), 592-595. Guerrand, D., “Lipases industrial applications: focus on food and agroindustries”, OCL Oilseeds & fats Crops and Lipids 24 (2017) 1-7. Gunstone, F.D., “Vegetable Oils in Food Technology – Composition, Properties and Uses”, 2 nd Ed., John Wiley & Sons, New York, 2011. Haley, D.E.; Lyman, J.F., “Castor bean lipase, its preparation and some of its properties”, Journal of the American Chemical Society 43 (1921), 2664-2670. Hellyer, S.A.; Chandler, I.C.; Bosley, J.A., “Can the fatty acid selectivity of plant lipases be predicted from the composition of the seed triglyceride?”, Biochimica et Biophysica Acta 1440 (1999), 215-224. Hernandez, N.; Rodriguez, M.E.; Gonzales, F.; Lopez-Munguia, A., “Enzymatic Treatment of Rice Bran to Improve Processing”, Journal of the American Oil Chemists' Society 77 (2000), 177-180. Hernick, M.; Fierke, C.A., “Zinc hydrolases: the mechanisms of zinc-dependent deacetylases”, Archives of Biochemistry and Biophysics 433: 71 – 84 (2005). Houen, G., “The Solubility of Protein in Organic Solvents”, Acta Chemica Scandinavia 50 (1996), 68-70. Irawanti, R.; Aliya, N., “Pembuatan 'Serbuk Aseton' Lipase Biji-Biji Minyak Indonesia Serta Uji Aktivitasnya”, Tugas Akhir, Institut Teknologi Bandung, Bandung, 2016. Istyami, A.N; Soerawidjaja, T.H.; Prakoso, T.; Kresnowati, M.T.A.P. “Effect of Solvents on Lipolytic Activity of Rice Bran Extract Powder”, International Seminar on Chemical Engineering in conjunction with Seminar Soehadi Reksowardojo (2016), Bandung-Indonesia. Istyami, A.N; Soerawidjaja, T.H.; Prakoso, T.; Kresnowati, M.T.A.P. “Performance of Various Organic Solvents as Reaction Media in Plant Oil Lipolysis with Plant Lipase”, Reaktor 18 (2018) 71-75. Jachmanian, I.; Mukherjee, K.D., “Esterification and interesterification reactions catalyzed by acetone powder from germinating rapeseed”, Journal of the American Oil Chemists’ Society 73 (1996), 1527-1532. Jegannathan, K.R.; Abang, S.; Poncelet, D.; Chan, E.S.; Ravindra, P., “Production of Biodiesel Using Immobilized Lipase—A Critical Review”, Critical Reviews in Biotechnology 28 (2008), 253-264. Jeong, S.-T.; Kim, H.-K.; Kim, S.-J.; Chi, S.-W.; Pan, J.-G.; Oh T.-K.; Ryu, S.-E., “Novel Zinc-binding Center and a Temperature Switch in the Bacillus stearothermophilus L1 Lipase”, The Journal of Biological Chemistry 277 (2002), 17041-17047. TB.C2.1819.02 40 Kim, K.H.; Kwon, D.Y.; Rhee, J.S., “Effects of Organic Solvents on Lipase for Fat Splitting”, Lipids 19 (1984), 975-977. Kittipongpittaya, K.; Panya, A.; McClements, D.J.; Decker, E.A., “Impact of free fatty acids and phospholipids on reverse micelles formation and lipid oxidation in bulk oil”, Journal of the American Oil Chemists’ Society 91 (2014), 453-462. Kjellin, M.; Johansson, I., “Surfactants from Renewable Resources”, 1st Ed., John Wiley & Sons, Chichester U.K., 2010. Klibanov, A.M., “Enzymatic catalysis in anhydrous organic solvents”, Trends in Biochemical Sciences 14 (1989), 141-144. Knubovets, T.; Osterhout, J. J.; Connolly, P. J.; Klibanov, A. M., “Structure, thermostability, and conformational flexibility of hen egg-white lysozyme dissolved in glycerol”, Proceedings of the National Academy of Sciences of the United States of America 96 (1999), 1262–1267. Kubičková, I.; Snåre, M.; Eränen, K.; Mäki-Arvela, P.; Murzin, D.Y., “Hydrocarbons for Diesel Fuel via Decarboxylation of Vegetable Oils”, Catalysis Today 106 (2005), 197-200. Lascaray, L., “Industrial Fat Splitting”, Journal of the American Oil Chemists Society 29 (1952), 362-366.