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Received May 19, 2013
Accepted January 14, 2014
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Immobilization of Candida antarctica lipase onto cellulose acetate-coated Fe2O3 nanoparticles for glycerolysis of olive oil
Department of Chemical Engineering, Sardar Vallabhbhai National Institute of Technology, Surat 395007, Gujarat, India
Korean Journal of Chemical Engineering, July 2014, 31(7), 1225-1232(8), 10.1007/s11814-014-0020-8
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Abstract
Candida antarctica lipase was covalently immobilized onto the surface of cellulose acetate-coated Fe2O3 nanoparticles. The characterizations of immobilized lipase were examined by Fourier transform infrared spectrophotometer (FTIR) and field emission gun-scanning electron microscopy (FEG-SEM). The immobilized lipase was assayed for production of monoglycerides (MG) and diglycerides (DG) by glycerolysis of olive oil in a solvent medium. The effect of various reaction conditions on the MG and DG production such as reaction time, temperature, the molar ratio of glycerol to oil and amount of immobilized lipase was investigated. The optimum condition for MG and DG production was found at 50 oC temperature and 0.025 g of lipase with the molar ratio of glycerol to oil 1.5 : 1 in 5 h of reaction time. The effect of substrate concentration on enzymatic activity of the free and immobilized lipase showed the best fits to the Lineweaver-Burk plots. The Km and Vmax values of immobilized lipase were found to be 25mM and 0.58mM/min, whereas that for free lipase was 52.63mM and 1.75mM/min, respectively. The activation and deactivation energy was found to decrease for immobilization of lipase on cellulose acetate-coated Fe2O3 nanoparticles.
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Majumder AB, Gupta MN, Bioresour. Technol., 101(8), 2877 (2010)
Yesiloglu Y, Process Biochem., 40, 2155 (2005)
Brem J, Turcu MC, Paizs C, Lundell K, Tosa M, Irimie F, Kanerva LT, Process Biochem., 47, 119 (2012)
Sabbani S, Hedenstrom E, Nordin O, J. Mol. Catal. B: Enzym., 42, 1 (2006)
Ghamgui H, Miled N, Karra-chaabouni M, Gargouri Y, Biochem. Eng. J., 37, 34 (2007)
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Guncheva M, Dimitrov M, Zhiryakova D, Process Biochem., 46, 2170 (2011)
Chen YZ, Ching CB, Xu R, Process Biochem., 44, 1245 (2009)
Wu Y, Wang YJ, Luo GS, Dai YY, Bioresour. Technol., 101(3), 841 (2010)
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Ranjbakhsh E, Bordbar AK, Abbasi M, Khosropour AR, Shams E, Chem. Eng. J., 179, 272 (2012)
Liu X, Lei L, Li Y, Zhu H, Cui Y, Hu H, Biochem. Eng. J., 56, 142 (2011)
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Lee DG, Ponvel KM, Kim M, Hwang S, Ahn IS, Lee CH, J. Mol. Catal. B: Enzym., 57, 62 (2009)
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Gonzalez C, Resa JM, Lanz J, J. Am. Oil Chem. Soc., 77, 985 (2000)
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Stellmach B, Bestimmungsmethoden enzyme, Chinese Light Industry Press, Chinese (1992)
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Kao FJ, Ekhorutomwen SA, Sawan SP, Biotechnol. Technol., 11, 849 (1997)
Chang MY, Juang RS, Enzyme Microb. Technol., 36(1), 75 (2005)
Zhou QZK, Chen XD, Biochem. Eng. J., 9, 33 (2001)
Borgo CA, Lazarin AM, Kholin YV, Landers R, Gushikem Y, J. Braz. Chem. Soc., 15, 50 (2004)
Foresti ML, Ferreira ML, Catal. Today, 107, 23 (2005)
Damstrup ML, Jensen T, Sparsø FV, Kiil SZ, Jensen AD, Xu X, J. Am. Oil Chem. Soc., 8, 559 (2005)
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Zhong N, Li L, Xu X, Cheong L, Li B, Hu S, Zhao X, J. Am. Oil Chem. Soc., 86, 783 (2009)
Valerio A, Kruger RL, Ninow J, Corazza FC, Oliveira DD, Oliveira JV, Corazza ML, J. Agric. Food Chem., 57, 8350 (2009)
McNeill GP, Yamane T, J. Am. Oil Chem. Soc., 68, 6 (1991)
Stevenson DE, Stanley RA, Furneaux RH, Biotechnol. Lett., 15, 1043 (1993)
Tuter M, Aksoy HA, Biotechnol. Lett., 22(1), 31 (2000)
Yamane T, Kang ST, Kawahara K, Koizumi Y, J. Am. Oil Chem. Soc., 71, 339 (1994)
Brady C, Metcalfe L, Slaboszewski D, Frank D, J. Am. Oil Chem. Soc., 65, 917 (1988)
Yang D, Rhee JS, Biotechnol. Lett., 13, 553 (1991)
Pawongrat R, Xu X, H-Kittikun A, Food Chem., 104, 251 (2007)
Xi FN, Wu JM, Jia ZS, Lin XF, Process Biochem., 40, 2833 (2005)
Gomes FM, Pereira EB, de Castro HF, Biomacromolecules, 5(1), 17 (2004)
Tumturk H, Karaca N, Demirel G, Sahin F, Int. J. Biol. Macromol., 40, 281 (2007)
Yang Y, Bai YX, Li YF, Lei L, Cui YJ, Xia YJ, Process Biochem., 43, 1179 (2008)
Kim H, Kwon HS, Ahn J, Lee CH, Ahn IS, Biocatal. Biotransform., 27, 246 (2009)
