References
- Aguerre , R. J. , Suarez , C. and Viollaz , P. E. 1989 . New BET type multilayer sorption isotherms. Part II: Modelling water sorption in foods . LWT – Food Science and Technology , 22 : 192 – 195 .
- Bastin , G. and Van Impe , J.F. 1995 . Nonlinear and adaptive control in biotechnology: A tutorial . European Journal of Control , 1 : 37 – 53 .
- Bornscheuer , U. T. 2005 . Enzymes in lipid modification , Weinheim , , Germany : Wiley-VCH .
- Brockman , H. L. , Momsen , W. E. and Tsujita , T. 1988 . Lipid–lipid complexes: Properties and effects on lipase binding to surfaces . Journal of the American Oil Chemist's Society , 65 : 891 – 896 .
- Ghosh , D. , Wawrzak , Z. , Pletnev , V. Z. , Li , N. , Kaiser , R. , Pangborn , W. … and Duax , W.L. 1995 . Structure of uncomplexed and linoleate-bound Candida cylindracea cholesterol esterase . Structure , 3 : 279 – 288 .
- Grochulski , P. , Li , Y. , Schrag , J. D. , Bouthillier , F. , Smith , P. , Harrison , D. … and Cygler , M. 1993 . Insights into interfacial activation from an open structure of Candida rugosa lipase . Journal of Biological Chemistry , 268 : 12843 – 12847 .
- Grochulski , P. , Li , Y. , Schrag , J. D. and Cygler , M. 1994 . Two conformational states of Candida rugosa lipase . Protein Science , 3 : 82 – 91 .
- Hasan , F. , Shah , A. A. and Hameed , A. 2006 . Industrial applications of microbial lipases . Enzyme Microbial Technology , 39 : 235 – 251 .
- Houston , J. B. and Kenworthy , K. E. 2000 . In vitro-in vivo scaling of CYP kinetic data not consistent with the classical Michaelis-Menten model . Drug Metabolism and Disposition , 28 : 246 – 254 .
- Iwasaki , Y. and Yamane , T. 2000 . Enzymatic synthesis of structured lipids . Journal of Molecular Catalysis B: Enzymatic , 10 : 129 – 140 .
- Kourist , R. , Brundiek , H. and Bornscheuer , U. T. 2010 . Protein engineering and discovery of lipases . European Journal of Lipid Science and Technology , 112 : 64 – 74 .
- Lomauro , C. J. , Bakshi , A. S. and Labuza , T. P. 1985 . Evaluation of food moisture sorption isotherm equations. Part I: Fruit, vegetable and meat products . LWT – Food Science and Technology , 18 : 111 – 117 .
- Lowry , O. H. , Rosebrough , N. J. , Farr , A. L. and Randall , R. J. 1951 . Protein measurement with the Folin phenol reagent . Journal of Biological Chemistry , 193 : 265 – 275 .
- Mancheño , J. M. , Pernas , M. A. , Martínez , M. J. , Ochoa , B. , Rúa , M. L. and Hermoso , J. A. 2003 . Structural insights into the lipase/esterase behavior in the Candida rugosa lipases family: Crystal structure of the lipase 2 isoenzyme at 1.97 Å resolution . Journal of Molecular Biology , 332 : 1059 – 1069 .
- Marangoni , A. G. 1994 . Enzyme kinetics of lipolysis revisited: The role of lipase interfacial binding . Biochemical and Biophysical Research Communications , 200 : 1321 – 1328 .
- Martinelle , M. , Holmquist , M. and Hult , K. 1995 . On the interfacial activation of Candida antarctica lipase A and B as compared with Humicola lanuginosa lipase . Biochimica et Biophysica Acta , 1258 : 272 – 276 .
- Meyer , P. 1994 . Bi-logistic growth . Technological Forecasting and Social Change , 47 : 89 – 102 .
- Pérez-Guerra , N. , Bernárdez , P. , Fuciños , C. , Rodríguez , I. , Alonso , E. , Torrado , A. and Pastrana , L. 2010 . Modelling the biphasic growth and product formation byEnterococcus faecium CECT 410 in realkalized fed-batch fermentations in whey . Journal of Biomedicine and Biotechnology , 2010 article ID 290286, 16 pages, doi:10.1155/2010/290286
- Pérez-Guerra , N. , Torrado-Agrasar , A. , López-Macías , C. , Fajardo-Bernárdez , P. and Pastrana-Castro , L. 2007 . Dynamic mathematical models to describe the growth and nisin production by Lactococcus lactis subsp. lactis CECT 539 in both batch and re-alkalized fed-batch cultures . Journal of Food Engineering , 82 : 103 – 113 .
- Pernas , M. A. , López , C. , Pastrana , L. and Rúa , M. L. 2000 . Purification and characterization of Lip2 and Lip3 isoenzymes from a Candida rugosa pilot-plant scale fed-batch fermentation . Journal of Biotechnology , 84 : 163 – 174 .
- Pernas , M. A. , López , C. , Rúa , M. L. and Hermoso , J. 2001 . Influence of the conformational flexibility on the kinetics and dimerisation process of two Candida rugosa lipase isoenzymes . FEBS Letters , 501 : 87 – 91 .
- Pernas , M. A. , Pastrana , L. , Fuciños , P. and Rúa , M. L. 2009 . Regulation of the interfacial activation within the Candida rugosa lipase family . Journal of Physical Organic Chemistry , 22 : 508 – 514 .
- Rúa , M. L. and Ballesteros , A. 1994 . Rapid purification of two lipase isoenzymes from Candida rugosa . Biotechnology Techniques , 8 : 21 – 26 .
- Rúa , M. L. , Díaz-Mauriño , T. , Fernández , V. M. , Otero , C. and Ballesteros , A. 1993 . Purification and characterization of two distinct lipases from Candida cylindracea . Biochimica et Biophysica Acta , 1156 : 181 – 189 .
- Rubin , B. 1994 . Grease pit chemistry exposed . Nature Structural & Molecular Biology , 1 : 568 – 572 .
- Saktaweewong , S. , Phinyocheep , P. , Ulmer , C. , Marie , E. , Durand , A. and Inprakhon , P. 2011 . Lipase activity in biphasic media: Why interfacial area is a significant parameter? . Journal of Molecular Catalysis B: Enzymatic , 70 : 8 – 16 .
- Sánchez , A. , Ferrer , P. , Serrano , A. , Pernas , M. A. , Valero , F. , Rúa , M. L. … and Solà , C. 1999 . Characterisation of thelipase and esterase multiple forms in a enzyme preparation from a Candida rugosa pilot plant scale fed-batch fermentation . Enzyme Microbial Technology , 25 : 214 – 223 .
- Schmid , R. D. and Verger , R. 1998 . Lipases: Interfacial enzymes with attractive applications . Angewandte Chemie International Edition , 37 : 1608 – 1633 .
- Stanescu , D. and Chen-Charpentier , B. M. 2009 . Random coefficient differential equation models for bacterial growth . Mathematical and Computer Modelling , 50 : 885 – 895 .
- Taylor , K. B. 2002 . “ Methods for model evaluation ” . In Enzyme kinetics and mechanisms , Edited by: Taylor , K.B. 14 – 24 . Dordrecht , , The Netherlands : Kluwer Academic Publishers .
- Verger , R. 1997 . “Interfacial activation” of lipases: Facts and artifacts . Trends in Biotechnology , 15 : 32 – 38 .
- Verger , R. and de Haas , G.H. 1976 . Interfacial enzyme kinetics of lipolysis . Annual Review of Biophysics and Bioengineering , 5 : 77 – 117 .
- Xu , X. 2000 . Production of specific-structured triacylglycerols by lipase-catalyzed reactions: A review . European Journal of Lipid Science and Technology , 102 : 287 – 303 .