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Biocatalysis and Biotransformation Volume 13, 1995 - Issue 1
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Original Article

Review Article Enzymes in Non-Conventional Phases

Antonio Ballesteros C.S.I.C. Instituo de Catalisis, Campus Universidad Autonoma, Madrid, 28049, Spain
,
Uwe Bornscheuer Institut für Technische Chemie der Universität Hannover, Callinstr. 3, 30167, Hannover, Germany
,
Andreas Capewell Institut für Technische Chemie der Universität Hannover, Callinstr. 3, 30167, Hannover, Germany
,
Didier Combes Institut National des Sciences Appliquées, Département de Génie Biochimique et Alimentaire, Complexe Scientifique de Rangueil, 31077, Toulouse, France
,
Jean-Stéphane Condoret Institut National des Sciences Appliquées, Département de Génie Biochimique et Alimentaire, Complexe Scientifique de Rangueil, 31077, Toulouse, France
,
Kerstin Koenig Gesellschaft für Biotechnologische Forschung mbH, Bereich Enzymtechnologie/Naturstoffchemie, Mascheroder Weg 1, 38124, Braunschweig, Germany
,
Fragiskos N. Kolisis Biosystems Technology Lab, Chemical Engineering Department, National Technical University of Athens, Greece
,
Alain Marty Institut National des Sciences Appliquées, Département de Génie Biochimique et Alimentaire, Complexe Scientifique de Rangueil, 31077, Toulouse, France
,
Ulrich Menge Gesellschaft für Biotechnologische Forschung mbH, Bereich Enzymtechnologie/Naturstoffchemie, Mascheroder Weg 1, 38124, Braunschweig, Germany
,
Thomas Scheper Institut für Biochemie, Abteilung Biotechnologie, Wilhelm-Klemmstr. 2, Westfälische Wilhelms-Universität, 48149, Münster, Germany
,
Haralambos Stamatis Institute of Biological Research and Biotechnology, National Hellenic Research Foundation, Greece
&
Aris Xenakis Institute of Biological Research and Biotechnology, National Hellenic Research Foundation, Greece
 show all
Pages 1-42 | Published online: 11 Jul 2009

References

  • Adlercreutz P., Mattiasson B. Aspects of biocatalyst stability in organic solvents. Biocatalysts 1987; 1: 99–108
  • Adshiri T., Akiya H., Chin L. C., Arai K., Fujimoto K. Lipase-catalyzed interesterification of triglyceride with supercritical carbon dioxide extraction. J. Chem. Eng. of Japan 1992; 25: 104–105
  • Antonini E., Carrea G., Cremonisi P. Enzyme catalysed reactions in water-organic solvent two-phase systems. Enzyme Microb. Technol. 1981; 3: 291–296
  • Arnold F. H. Engineering enzymes for non-aqueous solvents. TIBTECH 1990; 8: 244–249
  • Barenschee T., Scheper T., Schügerl K. An integrated process for the production and biotransformation of penicillin. J. Biotechnol. 1992, in press.
  • Behr J. P., Lehn J. M. Transport of amino acids through organic liquid membranes. J. Am. Chem. Soc. 1973; 95(18)6108–6110
  • Bello M., Thomas D., Legoy M. D. Interesterification and synthesis by Candida cylindrica lipase in microemulsions. Biochem. Biophys. Res. Commun. 1987; 146: 361–367
  • Blanch H. W. Fundamentals of Enzyme Catalysis in Organic Solvents. Structural and Catalytic Characteristics of Enzymes in Reverse Micelles. Biocatalysis in Non-Conventional Media., B. Macris, F. N. Kolisis, D. Kekos, Athens 19–30 Oct., 1992
  • Blanco R. M., Alvaro G., Guisán J. M. Enzyme reaction engineering: design of peptide synthesis by stabilized trypsin. Enzyme. Microb. Technol. 1991; 13: 573–583
  • Bourquelot E., Bridel M. Action of Emulsin on gentiopicrin in Alcohol. J. pharm. chim. 1911; 4: 385–390
  • Bru R., Sanchez-Ferrer A., Garcia-Carmona F. A theoretical study on the expression of enzymatic activity in reverse micelles. Biochem. J. 1989; 259: 355–361
  • Brunner G., Peter S. On the solubility of glycerides and fatty acids in compressed gases in the presence of an entrainer. Sep. Sci. Technol. 1982; 17: 199–214
  • Buchholz K. Characterisation of immobilized biocatalysts DECHEMA Monogr. 84. 1979
  • Buckland B. C., Dunnill P., Lilly M. D. The enzymatic transformation of water-insoluble reactants in nonaqueous solvents. Conversion of cholesterol to cholest-4-ene-3–one by a. Nocardia sp. Biotechnol. Bioeng. 1975; 17: 815–826
  • Cao S. G., Liu Z. B., Feng Y., Ma L., Ding Z. T., Cheng Y. H. Esterification and transesterification with immobilized lipase in organic solvents. Appl. Biochem. Biotechnol. 1992; 32: 1–6
  • Carrea G., Ottolina G., Riva S., Secundo F. Effect of reaction conditions on the activity and enantioselectivity of lipases in organic solvents. Biocatalysis in Non-Conventional Media, J. Tramper. Elsevier, Amsterdam 1992; 8: 111–120
  • Chang P. S., Rhee J. S. Characteristics of lipase-catalysed glycerolysis of triglyceride in AOT-Isooctane reversed micelles. Biocatalysis and Biotransformation 1990; 3: 343–355
  • Chang P. S., Rhee J. S., Kim J. J. Continuous glycerolysis of olive oil by Cromobacterium viscosum lipase immobilized on liposome in reversed micelles. Biotechnol. Bioeng. 1991; 38: 1159–1165
  • Chen C. S., Sih C. J. Enantioselektive Biokatalyse in organischen Solventien am Beispiel. Lipase-Angew. Chem. 1989; 101: 711–724
  • Chen K., Robinson A. C., Van-Dam M. E., Martinze P., Economou C., Arnold F. H. Enzyme engineering for nonaqueous solvents. II. Additive effects of mutations on the stability and activity of subtilisin E in polar organic media. Biotechnol. Prog. 1991; 7: 125–129
  • Chi Y. M., Nakamura K., Yano T. Enzymatic interesterification in supercritical carbon dioxide. Agric. Biol. Chem. 1988; 52: 1541–1550
  • Chrastil J. Solubility of solids and liquids in supercritical gases. J Phys. Chem. 1982; 86: 3016–3021
  • Chulalaksananukul W., Condoret J. S., Combes D. Kinetics of geranyl acetate synthesis by lipase-catalyzed transesterification in n-hexane. Enz. Microb. Technol. 1992; 14: 293–297
  • Chulalaksananukul W., Condoret J. S., Combes D. Geranyl acetate synthesis by lipase-catalyzed transesterification in supercritical carbon dioxide. Enz. Microb. Technol. 1993, in press.
  • Chulalaksananukul W., Condoret J. S., Delorme P., Willemot R. M. Kinetic study of esterification by immobilized lipase in n-hexane. FEBS Lett. 1990; 276(1,2)181–184
  • Danielsson I., Lindman B. The definition of microemulsion. Colloids Surf 1982; 3: 81–82
  • Doddema H. J., Janssens R. J.J., De Jong J. P.J., Van der Lugt J. P., Oostrom H. H.M. Enzymatic reactions in supercritical carbon dioxide and integrated product-recovery. 5th European Congress on Biotechnology, Christiansen, et al, Copenhagen 1990; 239–242
  • Dordick J. S. Enzyme catalysis in monophasic organic solvents. Enz. Microb. Technol. 1989; 11: 194–211
  • Dordick J. S. Non-aqueous enzymology. Curr. Opin. Biotechnol. 1991; 2: 401–407
  • Draxler J., Marr R. Emulsion liquid membranes, Part 1: Phenomenon and industrial application. Chem. Eng. Proc. 1986; 20: 319–329
  • Dumont T., Barth D., Corbier C., Branlant G., Perrut M. Enzymatic reaction kinetic: Comparison in an organic solvent and in supercritical carbon dioxide. Biotechnol. Bioeng. 1992; 40(2)329–333
  • Eckert C. High pressure kinetics in solution. Annu. Rev. Phys. Chem. 1972; 23: 239–244
  • Erickson J. C., Schyns P., Cooney C. L. Effect of pressure on an enzymatic reaction in a supercritical fluid. AIChE J. 1990; 36(2)299–301
  • Fernandez-Lafuente R., Rosell C. M., Guisán J. M. Enzyme reaction engineering: synthesis of antibiotics catalysed by stabilized penicillin G acylase in the presence of organic solvents. Enzyme Microb. Technol. 1991; 13: 898–905
  • Fletcher P. D.I., Freedman R. B., Robinson B. H., Rees G. D., Schomacker R. Lipase-catalysed ester synthesis in oil-continuous microemulsions. Biochim. Biophys. Acta 1987; 912: 278–282
  • Fletcher P. D.I., Robinson B. H., Freedman R. D., Oldfield C. Activity of lipase in water in oil microemulsions. J. Chem. Soc. Faraday Trans. 1985; 181: 2667–2679
  • Gais H. J., Hemmerle H. Asymmetrische Synthesen mit Enzymen. Chemie in unserer Zeit 1990; 24(5)239–248
  • Germain P., Makaren J. S., Crichton R. R. Thermal stabilization of a chemically oriented modified pullulanase. Biotechnol. Bioeng. 1988; 32: 249–254
  • Gianfreda L., Scarfi M. R. Enzyme stabilization: state of the art. Molec. Cell. Biochem. 1991; 100: 97–128
  • Görisch H., Schneider M. Stabilization of Soluble and Immobilized Horse Liver Alcohol Dehydrogenase by Adenosine 5-Monophosphate. Biotechnol. Bioeng. 1984; 26: 998–1002
  • Halling P. J. Water activity in biphasic reaction systems. Biocatalysis in Organic Media, C. Laane, J. Tramper, M. D. Lilly. Elsevier, Amsterdam 1987
  • Halling P. J. Solvent selection for biocatalysis in mainly organic solvent systems: predictions of effects on equilibrium position. Biotechnol. Bioeng. 1990; 35: 691–701
  • Halling P. J. Effect of water on equilibria catalysed by hydrolytic enzymes in biphasic reaction systems. Enzyme Microb. Technol. 1984; 6: 513–516
  • Hammond D. A., Karel M., Klibanov A. M., Krukonis V. J. Enzymatic reactions in supercritical gases. Appl. Biochem. Biotechnol. 1985; 11: 393–400
  • Han D., Rhee J. S. Characteristics of lipase-catalyzed hydrolysis of olive oil in AOT-isooctane reversed micelles. Biotechnol. Bioeng. 1986; 28: 1250–55
  • Han D., Kwon D. Y., Rhee J. S. Determination of lipase activity in AOT-Isooctane reversed micelles. Agric. Biol. Chem. 1987; 51: 615–618
  • Hartmeyer W. Immobilized biocatalysts Springer-Verlag. Berlin 1988
  • Hauertmann H. B., Degener W., Schügerl K. Electrostatic coalescence-reactor, process controll and important parameters. Sep. Sci. Techn. 1989; 24: 253–273
  • Hayes D. G., Gulari E. Esterification reactions of lipase in reverse micelles. Biotechnol. Bioeng. 1990; 35: 793–801
  • Hayes D. G., Gulari E. I-monoglyceride production from lipase-catalyzed esterification of glycerol and fatty acid in reverse micelles. Biotechnol. Bioeng. 1991; 38: 507–517
  • Hayes D. G., Gulari E. Formation of polyol-fatty acid esters by lipases in reversed micellar media. Biotechnol. Bioeng 1992; 40: 110–118
  • Hertzberg S., Kvittingen L., Anthonsen T., Skjak-Braek G. Alginate as immobilization matrix and stabilizing agent in a two-phase liquid system: Application in lipase-catalysed reactions. Enzyme Microb. Technol. 1992; 14: 42–47
  • Holla E. W. Synthesen mit Enzymen. Narch. Chem. Tech. Lab. 1992; 40(2)158–162
  • Holmberg K., Osterberg E. Enzymatic transesterification of a triglyceride in microemulsions. Progr. Colloid Polym. Sci. 1987; 74: 98–107
  • Holmberg K., Osterberg E. Enzymatic preparation of monoglycerides in microemulsions. J. Am. Oil Chem. Soc. 1988; 65: 1544–1548
  • Holmberg K., Osterberg E. Microemulsions as vehicles for lipase catalyzed reactions. Progr. Colloid Polym. Sci. 1990; 82: 181–189
  • Holmberg K., Lassen B., Stark M. B. Enzymatic glycerolysis of a triglyceride in aqueous and nonaqueous microemulsions. J. Am. Oil Chem. Soc. 1989; 66: 1796–1800
  • Iwai M., Tsujisaka Y. The purification and properties of three kinds of lipase from. Rhizopus delemar. Agr. Biol. Chem. 1974; 38: 1147–1241
  • Kamat S., Burrera J., Beckman E. J., Russell A. J. Biocatalysis synthesis of acrylates in organic solvents and supercritical fluids: I. Optimization of enzyme environment. Biotechnol. Bioeng. 1992; 40(1)158–166
  • Kasche V., Galinski B. Ionic strength and pH effects in the kinetically controlled synthesis of benzylpenicillin by nucleophilic deacylation of free and immobilized phenylacetyl-penicillin amidase with 6-aminopenicillanic acid. Biochem. Biophys. Res. Commun. 1982; 104: 1215–1719
  • Kasche V., Schlothauer R., Brunner G. Enzyme denaturation in supercritical carbon dioxide: stabilizing effect of disulfide bonds during the depressurization step. Biotechnol. Lett. 1988; 10: 569–574
  • Kawase M., Tanaka A. Improvement of Operational Stability of Yeast Lipase by Chemical Treatment. Biotechnol. Lett. 1988; 10: 393–396
  • Kawase M., Sonomoto K., Tanaka A. Effects of non-covalent interaction of dimethyl suberimidate on lipase stability. Agric. Biol. Chem. 1990; 54: 2609–7605
  • Khemlnitzky Y. L., Belova A. B., Levashov A. V., Mozhaev V. V. Relationship between surface hydrophilicity of a protein and its stability against denaturation by organic solvents. FEBS Lett. 1991; 284: 267–269
  • Khmelnitzky Y. L., Mozhaev V. V., Belova A. B., Sergeeva M. V., Martinek K. Denaturation capacity: a new quantitative criterion for selection of organic solvents as reaction media in biocatalysis. Eur. J. Biochem. 1991; 198: 31–41
  • Kim T., Chung K. Some characteristics of palm kernel olein hydrolysis by Rhizopus arrhizus lipase in reverse micelles of AOT in isooctane. and additive effects. Enzyme Microb. Technol. 1989; 11: 528–531
  • Klibanov A. M. Asymmetric transformations catalyzed by enzymes in organic solvents. Acc. Chem. Res. 1990; 23: 114–120
  • Klibanov A. M., Samokhin G. P., Martinek K., Berezin I. V. A new approach to preparative enzymatic synthesis. Biotechnol. Bioeng. 1977; 19: 1351–1361
  • Klibanov A. Enzymatic catalysis in anhydrous organic solvents. Trends Biochem. Sci. 1989; 14: 141–144
  • Koenig K., Nogoceke E., Menge U. Enzymes in supercritical carbon dioxide. Kurzfassungen, 11, Jahrestagung der Biotechnologen. Numberg Mai, 1993; 241.: 24–26
  • Kolisis F. N., Valis T. P., Xenakis A. Lipase catalyzed esterification of fatty acids in nonionic microemulsions. Ann. N Y. Acad. Sci. 1990; 613: 674–680
  • Koseki M., Tsuji K., Nakagawa Y., Kawamura M. Effects of gum arabic and pectin on the emulsification, the lipase reaction, and the plasma cholesterol level in rats. Agric. Biol. Chem. 1989; 53: 3127–3132
  • Krukonis V. J. Processing with supercritical fluids. Overview and applications. ACS Symp. Ser. (Supercrit. Fluid Extr. Chromatogr.). 1987, 26–43
  • Laane C., Boeren S., Vos K., Veeger C. Rules for Optimization of Biocatalysis in Organic Solvents. Biotechnol. Bioeng. 1987; 30: 81–87
  • Lang J., Zana R. Chemical relaxation methods In Surfactant Solutions. New Methods of Investigation, R. Zana. Marcel Dekker, New York 1987; Surfactant Science Series Vol. 22
  • Li N. N. U.S. Patent. 3410794, 1968
  • Li N. N., Mohan R. R., Brusca D. R. U.S. Patent. 3740315, 1973
  • Lianos P., Lang J., Sturm J., Zana R. Fluorescence probe study of oil-in-water microemulsions 3. Further investigations involving other surfactants and oil mixtures. J. Phys. Chem. 1984; 88: 819
  • Luisi P. L., Magid L. Solubilization of enzymes and nucleic acids in hydrocarbon micellar solutions. Crit. Rev. Biochem. 1986; 20: 409–474
  • Luisi P. L., Straub B. Reverse micelles Plenum Press, London 1984
  • Luisi P. L., Giomini M., Pileni M. P., Robinson B. H. Reverse micelles as hosts for proteins and small molecules. Biochim. Biophys. Acta 1988; 947: 209–246
  • Majumdar S., Guha A., Lee Y., Sirkar K. A two-dimensional analysis of membrane thickness in a hollow fiber contained liquid membrane permeator. J. Membr. Sci. 1989; 43: 259–276
  • Makryaleas K., Scheper T., Schügerl K., Kula M. R. Enzymatic production of L-amino acid with continuous coenzyme regeneration liquid membrane technique. Germ. Chem. Eng. 1985; 6: 345–350
  • Malakhova E. A., Kurganov B. I., Levashov A. V., Berezin I. V., Martinek K. A new approach to the study of enzymatic reactions with the participation of waterinsoluble substrates. Pancreatic lipase enclosed in inverted micelles of a surfaceactive substance in an organic solvent. Doklady Akad. Nauk. SSSR 1983; 270: 474–477
  • Marr R., Kopp A. Flussigmembran-Technik-Ubersicht über Phänomene, Transport- mechanismen und Modellbildungen. Chem.Ing.Techn. 1980; 52(5)399–410
  • Martinek K., Levashov A. V., Klyachko N. L., Pantin V. I., Berezin I. V. Catalysis by water-soluble enzymes entrapped into reversed micelles of surfactants in organic solvents. Biochim. Biophys. Acta 1981; 657: 277–294
  • Martinek K., Levashov A. V., Klyachko N., Khmelnitski Y. L., Berezin I. V. Micellar enzymology. Eur. J. Biochem. 1986; 155: 453–468
  • Martinez P., Arnold F. H. Surface charge substitutions increase the stability of a-lytic protease in organic solvents. J. Am. Chem. Soc. 1991; 113: 6336–6337
  • Martinez P., Van-Dam M. E., Robinson A. C., Chen K., Arnold F. H. Stabilization of subtilisin E in organic solvents by site-directed mutagenesis. Biotechnol. Bioeng. 1992; 39: 141–147
  • Marty A., Chulalaksananukul W., Condoret J. S., Willemot R. M., Durand G. Comparison of lipase-catalysed esterification in supercritical carbon dioxide and in n-hexane. Biotechnol. Lett. 1990; 12(1)11–16
  • Marty A., Chulalaksananukul W., Willemot R. M., Condoret J. S. Kinetics of lipase-catalyzed esterification in supercritical CO,. Biotechnol. Bioeng. 1992; 39(3)273–280
  • Marty A., Condoret J. S., Combes D. Fatty acid esterification in supercritical carbon dioxide. Biocatalysis in Non Conventional Media, Tramper, et al. Elsevier Science Publishers. 1992; Vol 8: 425–432
  • Matthiasson B. Cells and organelles (two volumes). CRC Press, Boca Raton 1983; F1
  • Mattiasson Bo. Bioconversions in aqueous two-phase systems: an alternative to conventional immobilization. Methods Enzymol. 1988; 137: 657–667
  • May S. W., Landgraff L. M. Cofactor recycling in liquid membrane-enzyme systems. Biochim. Biophys. Res. Commun. 1976; 68(3)786–792
  • May S. W., Li N. N. The immobilization of urease using liquid-surfactant membranes. Biochim. Biophy. Res. Commun. 1972; 47(5)1179–1185
  • Melzner D., Tilkowski J., Mohrmann A., Poppe W., Halwachs W., Schügerl K. Selective extraction of metals by liquid membrane technique. Hydrometallurgy 1984; 13: 105–123
  • Meyer E. R., Scheper T., Hitzmann B., Schugerl K. Immobilization of enzymes in liquid membranes for enantioselective hydrolysis. Biotechnol. Tech. 1988; 2(2)127–132
  • Miller D. A., Blanch H. W., Prausnitz J. M. Enzymatic interesterification of triglycerides in supercritical carbon dioxide. Ann. N. Y. Acad. Sci. 1990; 613: 534–537
  • Miller D. A., Blanch H. W., Prausnitz J. M. Enzyme-catalyzed interesterification of triglycerides in supercritical carbon dioxide. Ind. Eng Chem. Res. 1991; 30: 939–945
  • Mittal K. L., Bothorel P. Editors of Surfactants in Solution. Plenum Press, New York 1987; Vols. 4 to 6.
  • Mittal K. L., Lindman B. Editors of Surfactants in Solution. Plenum Press, New York 1983; Vols. 1 to 3
  • Mohan R. R., Li N. N. Reduction and separation of nitrate and nitrite by liquid membrane-encapsulated enzymes. Biotechnol. Bioenergy. 1974; 16: 513–523
  • Mohan R. R., Li N. N. Nitrate and nitrite reduction by liquid membrane-encapsulated whole cells. Biotechnol. Bioenergy. 1975; 17: 1137–1156
  • Morita S., Narita H., Matoba T., Kito M. Synthesis of triacylglycerol by lipase in of lipase phosphatidylcholine reverse micellar system. J. Am. Oil Chem. Soc. 1984; 61: 1571–1574
  • Nakamura K. Supercritical fluid bioreactor. Bioproducts and Bioprocesses, Fiechter, Okada, Tanner. Springer-Verlag, Berlin 1989; 257–265
  • Nakamura N., Chi Y. M., Yamada Y., Yano T. Lipase activity and stability in supercritical carbon dioxide. Chem. Eng. Common. 1986; 45: 207–212
  • Nakanishi K., Matsuno R. Kinetics of enzymatic synthesis of peptides in aqueous/organic biphasic systems. Thermolysin-catalyzed synthesis of N-(benzyloxycarbonyl)-L- phenylalanyl-L-phenylalanine. Eur. J. Biochem. 1986; 161: 533–540
  • Nicholson J. D., Clarke J. H.K. Surfactants in Solution, K. L. Mittal, B. Lindman. Plenum Press, New York 1984; Vol. 3: 1663
  • Otero C., Pastor E., Ballesteros A. Synthesis of monobutyrylglycerol by transesterification with soluble and immobilized lipases. Appl. Biochem. Biotechnol. 1990; 26: 35–44
  • Otero C., Ballesteros A., Guisán J. M. Immobilization/stabilization of lipase from. Candida rugosa Appl. Biochem. Biotechnol. 1988; 19: 163–175
  • Parvaresh F., Robert H., Thomas D., Legoy M. D. Gas phase transesterification reactions catalyzed by lipolytic enzymes. Biotechnol. Bioeng. 1992; 39: 467–473
  • Pasta P., Mazzola G., Carrea G., Riva S. Subtilisin-catalyzed transesterification in supercritical carbon dioxide. Biotechnol. Lett. 1989; 2(9)643–648
  • Pileni M. P. Editor of Structure and reactivity in reverse micelles Elsevier, Amsterdam 1989
  • Preitschopf W., Marr R. Enzyme immobilization in liquid surfactant membranes. DECHEMA-Biotechnology. Conferences. VCH-Verlagsgesellschaft, Weinheim 1990; 881–884
  • Prince L. M. Editor of Microemulsions: Theory and Practice Academic Press, New York 1977
  • Randolph T. W., Blanch H. W., Clark D. S. Biocatalysis in supercritical fluids Biocatal. Ind., J. S. Dordick, New York 1991; 219–237
  • Randolph T. W., Blanch H. W., Prausnitz J. M. Enzyme-catalyzed oxidation of cholesterol in supercritical carbon dioxide. AIChE J. 1988; 36(2)1354–1360
  • Randolph T. W., Blanch H. W., Prausnitz J. M., Wilke C. R. Enzymatic catalysis in a supercritical fluid. Biotechnol. Lett. 1985; 7(5)325–328
  • Reslow M., Adlerkreutz P., Mattiasson B. On the importance of the support material for bioorganic synthesis. Eur. J. Biochem. 1988; 172: 573–578
  • Sadana A., Raju R. R., Shahin E. A stability index for enzyme deactivations. J. Biotechnol. 1989; 12: 135–152
  • Scartazzini R., Luisi P. L. Reactivity of lipase in an optically transparent lecithin-gel matrix. Biocatalysis. 1990; 3: 377–380
  • Schapöhler S., Scheper T., Schügerl K. Enantioselective Enzymatic Synthesis of Prostaglandin-Synthos in multiphase reaction-media. In Frontiers in Bioprocessing 2, P. Todd, K. Sikdar, M. Bier, Washington 1992; 50–62
  • Scheper T. Enzyme emulsion in liquid surfactant membrane emulsions. Adv. Drug. Del. Rev. 1990; 4: 209–231
  • Scheper T., Halwachs W., Schügerl K. Production of L-amino acid by continuous enzymatic hydrolysis of DL-amino acid methyl ester by the liquid membrane technique. Chem. Eng. J. 1984; 29: B31–B37
  • Scheper T., Likidis Z., Makryaleas K., Nowottny C., Schugerl K. Three different examples of enzymatic bioconversion in liquid membrane ractors. Enzyme Microb, Technol. 1987a; 9: 625–631
  • Scheper T., Makryaleas K., Nowottny C., Likidis Z., Tsikas D., Schügerl K. Liquid surfactant membrane emulsions - a new technique for enzyme immobilization. Ann. NY Acad. Sci. 1987b; 501: 165–170
  • Schmidli R. K., Luisi P. L. Lipase-catalyzed reactions in reverse micelles formed by soybean lecithin. Biocatalysis and Biotransformation 1990; 3: 367–376
  • Schneider L. V. 5 A three-dimensional solubility parameter approach to nonaqueous enzymology. Biotechnol. Bioeng. 1991; 37: 627–638
  • Sengupta A., Basu R., Sirkar K. K. Separation of solutes from aqueous solutions by contained liquid membranes. AIChE Journal 1988; 34(10)pp. 1698–1708
  • Shaw J. F., Wang D. L., Wang Y. J. Lipase-catalysed ethanolysis and isopropanolysis of triglycerides with long-chain fatty acids. Enzyme Microb. Technol. 1991; 13: 544–546
  • Shrier A. L. Liquid membranes in enzyme research. Biotechnol, Bioenerg. Symp. 1973; No. 3: 323–326
  • Smith R. E., Luisi P. L. Micellar stabilization of biopolymers in hydrocarbon solvents. III Empiric definition of acidity scale in reverse micelles. Helv. Chim. Acta 1982; 63: 2302–2311
  • Soderman O., Lindman B., Stilbs P. Specialistic Periodical Reports. In Nuclear Magnetic Resonance, G. A. Webb. Royal Society of Chemistry, London 1983; Vol. 12: 350
  • Stamatis H., Xenakis A., Menge U., Kolisis F. N. Kinetic study of lipase catalyzed esterification reactions in w/o microemulsions. Biotechnol. Bioeng. 1993b; 42: 103–110
  • Stamatis H., Xenakis A., Provelegiou M., Kolisis F. N. Comparative studies on the selectivity of lipasesz in microemulsions for esterification reactions. The role of enzyme locaization. Biotechnol. Bioeng. 1993a; 42: 931–937
  • Stamatis H., Xenakis A., Sztajer S., Menge U., Kolisis F. N. Studies on the specificity of penicillium simplicissimum lipase catalyzed esterification reactions in microemulsions. Biocatalysis in Non-Conventional Media. Progress in Biotechnology., J. Tramper, et al. Elsevier Science Publishers. 1992; Vol. 8: 733–738
  • Sugihara A., Shimada Y., Tominaga Y. Enhanced Stability of a Microbial lipase Immobilized to a novel Synthetic Amine Polymer. Agric. Biol. Chem. 1988; 52: 1589–1590
  • Taniguchi M., Kamihara M., Kobayashi T. Effect of treatment with supercritical carbon dioxide on enzymatic activity. Agric. Biol. Chem. 1987; 51: 593–594
  • Terry R., Li N. N., Ho W. S. Extraction of phenolic compounds and organic acids by liquid membranes. J. Membr. Sci. 1982; 10: 305–323
  • The HLB System. ICI America, Wilmington, DE 1980
  • Thien M. P., Hatton T. A., Wang D. I.C. (1986) Separation of amino acids from fermentation broth using liquid emulsion membranes. Proceedings of the International Solvent Extraction Conference. Sept. 11–16, 1985. Munchen/Dechema, Frankfurt/Main, Vol. III: 685–693
  • Thomas D. Enzyme catalysis in gaseous media. Biocatalysis in Non-Conventional Media, B. Macris, F. N. Kolisis, D. Kekos, Athens 19–30 Oct., 1992
  • Toscano G., Pirozzi D., Greco G., Jr. Enzyme stability in the presence of organic solvents. Biotechnol. Lett. 1990; 12: 821–824
  • Tsai S. W., Chiang C. L. Kinetics, mechanism, and time course analysis of lipase-catalyzed hydrolysis of high concentration olive oil in AOT-isoocatne reversed micelles. Biotechnol. Bioeng. 1991; 38: 206–211
  • Valis T. P., Xenakis A., Kolisis F. N. Comparative studies of lipase from R. delemar in various microemulsion systems. Biocatalysis and Biotransformation 1992; 6: 267–279
  • Van Eijs A. M.M., De Jong J. P.J., Doddema H. J., Lindeboom D. R. Enzymatic transesterification in supercritical carbon dioxide. Proceedings of the International Symposium on Supercritical Fluids (Nice, France), M. Perrut. 1988a; 933–942
  • Van Eijs A. M.M., De Jong J. P.J., Oostrom H. H.M., Doddema H. J., Visser M. A., Stoop R. Enzymatic Synthesis of Nonylacetate and Isoamylacetate in Supercritical Carbon Dioxide and Organic Solvents. Proceedings 2nd Netherlands Biotechnology Congress 1988, H. Breteler, et al. Netherlands Biotechnological Society., Amsterdam 1988; b
  • Vazquez-Duhalt R., Fedora P. M., Westlake D. W.S. Role of enzyme hydrophobicity in biocatalysis in organic solvents. Enzyme Microb. Technol. 1992; 14: 837–841
  • Vökel W., Bosse J., Poppe W., Halwachs W., Schugerl K. Development and design of a liquid membrane enzyme reactor for the detoxification of blood. Chem. Eng. Commun. 1984; 30: 55–66
  • Walde P., Peng Q., Fadnavis N. W., Battistel E., Luisi P. L. Structure and activity of trypsin in reverse micelles. Eur. J. Biochem. 1988; 173: 401–409
  • Wehtje E., Adlercreutz P., Mattiasson B. Stabilization of adsorbed enzymes used as biocatalysis in organic solvents. Progress in Biotechnology 8, Biocatalysis in Non-Conventional Media, J. Tramper, et al. Elvesier, Amsterdam 1992; 377–382
  • Wichmann R., Wandrey C., Bückmann A. A., Kula M. R. Continuous enzymatic transformation in an enzyme membrane reactor with simultaneous NAD(H) regeneration. Biotechnol. Bioenerg. 1981; 23: 2189–2802
  • Wong J. M., Johnston K. P. Solubilization of biomolecules in carbon dioxide based supercritical fluids. Biotechnol. Progress. 1986; 2: 29–38
  • Xenakis A., Cazianis C. T., Malliaris A. Study of the transition between different structures of some non-ionic microemulsion systems. Coloids Surf 1992; 62: 315–319
  • Xenakis A., Valis T. P., Kolisis F. N. Use of microemulsion systems as media for heterogeneous enzymic catalysis. Progr. Colloid Polym. Sci. 1989; 79: 88–93
  • Xenakis A., Valis T. P., Kolisis F. N. Microemulsions as a tool for enzymatic studies. The case of lipase. Progr. Colloid Polym. Sci. 1991; 84: 508–511
  • Yang D., Rhee J. S. Stability of the lipase immobilized on DEAE-sephadex for continuous lipid hydrolysis in organic solvents. Biotechnol. Lett. 1991; 13: 553–558
  • Zaks A. Enzymes in Organic Solvents Biocatal. Ind., J. S. Dordick, New York 1991; 161–180
  • Zaks A., Klibanov A. Enzymatic catalysis in organic media at 100°C. Science 1984; 224: 1249–1251
  • Zara R. Editor of Surfactant Solutions. New Methods of Investigation Surfactant Science Series. Marcel Dekker, New York 1987; Vol. 22
  • Zulauf M., Eicke H. F. Inverted micelles and microemulsions in the ternary system H2O/Aerosol OT/isooctane as studied by photon correlation spectroscopy. J. Phys. Chem. 1979; 83: 480–486

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