Malcata, F.X., Hill, C.G. and Amundson, C.H. (1993) Hydrolysis of Butteroil by Immobilized
Lipase Using a Hollow Fiber Reactor: Part V. Effects of pH. Biocatalysis, 7 , 177–219.
Malcata, F.X., Hill, C.G. and Amundson, C.H. (1991) Use of a Lipase Immobilized in a Membrane
Reactor to Hydrolyze the Glycerides of Butteroil. Biotechnol. Bioeng., 38 , 853–868.
Margolin, A.L. (1993) Enzymes in the Synthesis of Chiral Drugs. Enzyme Microb. Technol, 15,
266–280.
Matson, S.L. and Lopez, J.L. (1990) Multiphase Membrane Reactors for Enzymatic Resolution:
Diffusional Effects on Stereoselectivity. In: Frontiers in Bioprocessing. (Sikdar, S.K., Bier, M.
and Todd, P. eds.), CRC Press, Inc., Florida, pp. 391–403.
Matson, S.L. and Quinn, J.A. (1986) Membrane Reactors in Bioprocessing. Ann. N.Y. Acad. Sci.,
469, 152–165.
Matson, S.L. and Quinn, J.A. (1992) Membrane Reactors. In: Membrane Handbook. (Ho, W.S. and
Sirkar, K.K. eds.), van Nostrand Reinhold, New York, pp. 809–832.
Matsumae, H., Furui, M., Shibatani, T. and Tosa, T. (1994) Production of Optically Active 3-
Phenylglycidic Acid Ester by the Lipase from Serratia marcescens on a Hollow-Fiber
Membrane Reactor. J. Ferment. Bioeng., 78 , 59–63.
Mazzola, G. and Vecchio, G. (1980) Immobilization and Characterization of L-Asparaginase on
Hollow Fibers. Int. J. Artif. Org., 4 , 120–123.
Meireles, M., Aimar, P. and Sanchez, V. (1992) Les Techniques à Membranes: Micro et
Ultrafiltration. Le Technoscope de Biofutur, 111, cahier 52
Miyawaki, O. (1993) Affinity Chromatographic Reactors. In: Preparative and Production Scale
Chromatography. (Ganetsos, G. and Barker, P.E., eds.), Marcel Dekker, Inc., New York, pp.
607–615.
Miyawaki, O., Yano, T. and Nakamura, K. (1990) Dynamic Immobilization of Dissociable
Cofactors Through Enzyme-Coenzyme Affinity. Ann. NY Acad. Sci., 613 , 816–819.
Molinari, R., Drioli, E. and Barbieri, G. (1988) Membrane Reactor in Fatty Acid Production. J.
Memb. Sci., 36 , 525–534.
Morgado, M.A.P., Cabral, J.M.S. and Prazeres, D.M.F. (1996) Phospholipase A 2 -Catalysed
Hydrolysis of Lecithin in a Continuous Reversed Micellar Membrane Reactor. J. Am. Oil.
Chem. Soc., 73 , 337–348.
Mountzouris, K.C., Gilmour, S.C., Grandison, A.S. and Rastall, R.A. (1999) Modeling of
Oligodextran Production in an Ultrafiltration Stirred-Cell Membrane Reactor. Enzyme Microb.
Technol., 24, 75–85.
Nakajima, M., Nishizawa, K. and Nabetani, H. (1993) A Forced Flow Membrane Enzyme Reactor
for Sucrose Inversion Using Molasses. Bioprocess Eng., 9 , 31–35.
Nakajima, M., Shoji, T. and Nabetani, H. (1992) Protease Hydrolysis of Water Soluble Fish
Proteins Using a Free Enzyme Membrane Reactor. Process Biochem., 27 , 155–160.
Nakajima, M., Watanabe, A., Jimbo, N., Nishizawa, K. and Nakao, S. (1989) Forced-Flow
Bioreactor for Sucrose Inversion Using Ceramic Membrane Activated by Silanization.
Biotechnol. Bioeng., 33 , 853–868.
Nakano, H., Shinbata, T., Okumura, R., Sekiguchi, S., Fujishiro, M. and Yamane, T. (1999)
Efficient Coupled Transcription/Translation from PCR Template by a Hollow-Fiber Membrane
Bioreactor. Biotechnol. Bioeng., 64, 194–199.
Narendranathan, T.J. and Dunnill, P. (1982) The Effect of Shear on Globular Proteins During
Ultrafiltration: Studies on Alcohol Dehydrogenase. Biotechnol. Bioeng., 24, 2103–2107.
Nembri, F., Bossi, A., Ermakov, S. and Righetti, P.C. (1997) Isoelectrically Trapped Enzymatic
Bioreactors in a Multimembrane Cell Coupled to an Electric Field: Theoretical Modeling and
Experimental Validation with Urease. Biotechnol. Bioeng., 53 , 110–119.
Nidetzky, B., Fürlinger, M., Gollhofer, D., Scopes, R.K., Haltrich, D. and Kulbe, K.D. (1997)
Improved Operational Stability of Cell-Free Glucose-Fructose Oxidoreductase from
Zymomonas mobilis for the Efficient Synthesis of Sorbitol and Gluconic Acid in a Continuous
Ultrafiltration Membrane Reactor. Biotechnol. Bioeng., 53 , 623–629.
Multiphase bioreactor design 186