Immobilizacja enzymów. Część 1: Metody konwencjonalne

Bryjdak, J.

Artykuł - szczegóły

Tytuł artykułu

Immobilizacja enzymów. Część 1: Metody konwencjonalne

Autorzy

Bryjdak J.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

Warianty tytułu

Enzymes immobilisation. Part 1: Conventional methods

Języki publikacji

Abstrakty

Attractive features of biological systems include versatility, substrate selectivity, regio-, chemo-, and enantioselectivity as well as catalysis at ambient temperatures and pressure. However, the challenge facing bioprocesses is cost competitiveness with existing chemical process assets. The current expansion of industrial biocatalysis can be attributed to recent progress in molecular biology, advanced instrumentation, and engineering. Novel catalyst formulation based on technology such as directed evolution and enzyme immobilisation, has resulted in improved types of highly active and stable biocatalysts. In industrial biotransformations the immobilisation of enzymes on/in support is often chosen to enhance the stability and to simplify the biocatalyst recovery. The main purpose of this paper is to present a general picture of the immobilization techniques that is organised according to the two categories of methods, i.e., conventional methods (Part 1) and immobilisation in membrane reactors (Part 2). The intention of the first part is outline the common procedures that span from binding on carrier materials to incorporation into in situ prepared matrix in which binding forces vary between weak adsorption and covalent binding. Although the development of suitable immobilisation protocol often follows empirical guidelines, some general rules to facilitate proper applications are also presented. Immobilisation of enzymes means a deliberate restriction of the mobility of the enzyme, which can also affect mobility of the solutes. Thus it is mandatory to have basic knowledge of the essential contribution of the chemical forces and the physicochemical interactions during heterogeneous catalysis that is also discussed. Finally, the technological developments in the field of immobilised biocatalysts are presented that show possibility of a wide and more economical exploitation of enzymes in industry, medicine, and in the monitoring devices like the biosensors.

Słowa kluczowe

immobilizacja enzymów metoda immobilizacji enzymów zastosowanie immobilizowanych enzymów

enzymes immobilisation

Wydawca

Polskie Towarzystwo Chemiczne

Czasopismo

Wiadomości Chemiczne

Rocznik

2004

Tom

[Z] 58, 9-10

Strony

691--746

Opis fizyczny

Bibliogr. 359 poz., rys., wykr.

Twórcy

autor

Bryjdak J.

Instytut Inżynierii Chemicznej, Politechnika Wrocławska, ul. Norwida 4/6, 50-373 Wrocław

Bibliografia

[1] T.E. Creighton (Ed.), Proteins. Structures and Molecular Properties, 2nd Edition, W.H. Freeman and Company, New York, 1993.
[2] E. Katchalski-Katzir, TIBTECH, 1993, 11, 471.
[3] S.S. Wong, L.-J.C. Wong, Enzyme Microb. Technol., 1992, 14, 866.
[4] A.J.J. Straathof, S. Panke, A. Schmid, Cum Opinion BioTechnol., 2002, 13, 548.
[5] J.M.S. Rocha, M.H. Gil, F.A.P. Garcia, J. BioTechnol, 1998, 66, 61.
[6] S.A. Costa, T. Tzanov, A.F. Caneiro, A. Paar, G.M. Gubitz, A. Cavaco-Paulo, Enzyme Microb. Technok, 2002, 30, 387.
[7] S.R. Weijers, K. vant Riet, Biotech. Adv., 1992, 10, 237.
[8] A. Shaw, R. Bott, Curr. Opinion Struct. Biol., 1996, 6, 546.
[9] C. Kuhlmeyer, J. Klein, Enzyme Microb. Technol., 2003, 32, 99.
[10] B. Lee, G. Vasmatzis, Curr. Opinion BioTechnol., 1997, 8,423.
[11] N. Lehmann, M. Wyss, Curr. Opinion BioTechnol., 2001, 12, 371.
[12] H. Zhao, K. Chockalingam, Z. Chen, Curr. Opinion BioTechnol., 2002, 13, 104.
[13] C. Vieille, J.G. Zeikus, TIBTECH, 1996, 14, 183.
[14] A.O. Triantafyllou, E. Wehtje, P. Adlercreutz, B. Mattiasson, BioTechnol. Bioeng., 1997, 54, 67.
[15] R.D. Schmid, Adv. Biochem. Eng., J 979, 12, 41
[16] T. Godfrey, S. West (Eds), Industrial Enzymology, 2nd Edition, Macmillan Press Ltd, London 1996.,
[17] A. Illanes, C. Altamirano, A. Aillapan, G. Tomascllo, M.E. Zuniga, Enzyme Microb. Technol., 1998, 23, 3.
[18] A.V. Kabanov, A.V. Levashov, K. Martinek, Ann. N. Y. Acad. Sci ., 1987, 501, 63.
[19] R.W. Lencki, R.J. Neufeld, Enzyme Microb. Technol., 1996, 19, 232.
[20] M.T. Ru, S.Y Hirokane, A.S. Lo, J.S. Dordrck, J.A. Reimer, D.S. Clark, J. Am. Chem. Soc., 2000, 22, 1565.
[21] J. R Henley, A. Sadana, BioTechnol. Bioeng., 1984, 26, 959.
[22] P. Lozano, T. de Diego, J.-P. Guegan, M. Vaultier, XL. Iborra, BioTechnol. Bioeng., 2001, 75, 563.
[23] M. Erbeldinger, A.J. Mesiano, A.J. Russel, BioTechnol. Progr., 2000, 16, 1129.
[24] R. Madeira Lau, F. van Rontwijk, K.R. Seddon, R.A. Sheldon, Org. Lett., 2002, 2, 4189.
[25] M.D. Busto, D.S. Owusu Apenten, D.S. Robinson, Z. Wu, R. Casey, R.K. Hughes, Food Chem., 1999, 65, 323.
[26] M. Fernandez, M.L. Villalonga, J. Caballero, A. Fragoso, R. Cao, R. Villalonga, BioTechnol. Bioeng., 2003, 83, 743.
[27] G. Ellenrieder, M. Daz, Biocatal. Biotrans., 1996, 14, 113.
[28] M. Persson, L Mladenoska, E. Wehtje, P. Adlercreutz, Enzyme Microb. Technol., 2002, 31, 833.
[29] F.J. Plou, A. Ballesteros, TIBTECH, 1999, 17, 304,
[30] M.A. Anderson, R. Hatti-Kaul, J. BioTechnol-, 1999, 72, 21.
[31] M. Terainoto, H. Nishibue, H. Ogawa, H. Kozono, K. Morita, H. Matsuyama, Coll. Surf. B: Biointcrf., 1996, 7,165.
[32] R.P. Baptista, J.M.S. Cabral, K. Melo, BioTechnol. Bioeng., 2000, 70, 699.
[33] K. Visuri, O. Pastinen, X. Wu, K. Makinen, M. Lei sola, BioTechnol. Bioeng. 1999, 64, 377.
[34] R.F. Taylor (Ed), Protein Immobilization. Fundamentals and Applications, Marcel Decker, Inc., New York 1991.
[35] G. Means, R.E. Feeney, J. Food Biochem., 1998, 22, 399.
[36] K. Khajeh, H. Naderi-Manesh, B. Ranjbar, A.A. Moosavi-Movahedt, M. Namat-Gorgani, Enzyme Microb. Technol., 2001, 28, 543.
[37] A.M. O’Brien, C. O’Fagain, P.F. Nielsen, K.G. Welindcr, BioTechnol. Bioeng,, 2001, 76, 277.
[38] Y.-H. Cheon, G.-J. Kim, H.-S. Kim, J. Mol. Catal. B: Enzymatic, 2000, II, 29.
[39] I. Vino, Karsakevich, M. Bekers, L Mol. Catal. B: Enzymatic, 2001, 11, 551.
[40] V.Y. Levitsky, A.A. Panova, V.V. Mozhaev, Fur. J. Biochem., 1994, 219, 231.
[41] M.V. Calvo, F.J. PIou, A. Ballesteros, BioTechnol. Biotrans., 1996, 13, 271
[42] ET. Baran, N. Ozer, V. Hasírci, J. Chromat., 2003, 794, 311.
[43] Z. Zhang, Z. He, M. He, J. Mol Catal. B: Enzymatic, 2001, 14, 85.
[44] A. Murphy, C.D. Fagaln, BioTechnol. Biocng., 1998, 58, 365.
[45] S.G. Cao, H. Yang, H. Dong, N.-X. Zhang, S.-R Han, S.-D. Liu, Z.-B. Liu, T.-S. Yang, Ann. N.Y. Acad. Sci., 1996, 799, 201.
[46] P. Wang, C.A. Woodward, E.N. Kaufman, BioTechnol. Bioeng., 1999, 64, 290.
[47] T. Sano, S. Vajda, G.O. Reznik, C.L. Smith, C.R. Cantor, Ann. N.Y. Acad. Sci., 1996, 799, 383.
[48] Y.F. Ma, J.K. Eglinton, D.E. Evans, S.J. Logue, P. Langridge, Biochemistry, 2000, 39, 13350.
[49] J.C. Williams, LP. Zcelen, G. Neubauer, G. Vriend, L Bachmann, P.A. Michels, A.M. Lambeir, R.K. Wierenga, Protein Eng., 1999, 12, 243.
[50] O. Turunen, K. Etuaho, F. Fcnel, J. Vchmaanpera, X. Wu, L Rouvinene, M. Leisola, J. BioTechnol. 2001, 88, 37.
[51] R. Jaenicke, J. BioTechnol., 2000, 79, 193.
[52] A.D. Griffiths, D.S. Tawfik, Curr. Opinion BioTechnol., 2000, 11, 338.
[53] L. Beier, A. Svedsen, C. Andersen, T.R Frandsen, T.V. Borchet, LR. Cherry, Protein Eng., 2000, 13, 509
[54] P. Soumillion, L Faster, Curr. Opinion BioTechnol., 2001, 12, 387.
[55] R.M. Daniel, Enzyme Microb. Techno 1., 1996, 19, 74,
[56] G. Carrea, G. Colombo, TIBTECH, 2000, 18, 401.
[57] A. Liese, K. Scelbach, C. Wandrey, (Eds), Industrial Biotrans formations, Vilcy-VCTl, Wein heim, 2000.
[58] S.A. Cetinus, H.N. Oztop, Enzyme Microb. Technol., 2000, 26, 497.
[59] I.F.J. Vankelecom, Chem. Rev., 2002, 102, 3779.
[60] L. Giomo, E. Drioli, TfBTECH, 2000, 18, 339.
[61] E. Klein, J. Membr. Sci., 2000, 179, I.
[62] E. Drioli. L. Giomo (Eds), Biocatalytic Membrane Reactors. Applications in BioTechnology and Pharmaceutical Industry, Taylor and Francis Ltd., London 1999.
[63] V. Gekas, Enzyme Microb. Technol., 1986, 8, 450.
[64] D.M.F. Prazeres, LM.S. Cabral, Enzyme Microb. Technol., 1994, 16, 738.
[65] G. Stephanopoulos (Ed.), BioTechnology, Vol. 3: Bioprocessing, VCH, Weinheim 1993.
[66] M.A. Longa, D. Combes, J. Chem. Tech. BioTechnol., 1999, 74, 25.
[67] R. Villalonga, M.L. Villalonga, L. Gomez, J, Mol. Catal. B: Enzymatic, 2000, 10, 483.
[68] J.-P. Lenders, R.R. Crichton, BioTechnol. Biocng. 1984, 26, 1343.
[69] J.J. Marshall, M.L. Rabinowitz, J, Biol. Chem., 1976, 251, 1081.
[70] K. Drautz, H. Waldmann (Eds), Enzyme Catalysis in Organic Synthesis. A Comprehensive Handbook, VCH, Weinheim 1995.
[71] P. Adlercreutz, R. Banos, E. Wehljc, Ann. N.Y. Acad. Set., 1996, 799, 197.
[72] I.Y. Galaev, B. Mattiasson, Enzyme Microb. Technol., 1993, 15, 354.
[73] B. Jeong, A. Gutowska, TIBTECH, 2002, 20, 305.
[74] I.Y. Galaev, B. Mattiasson, TIBTECH, 1999, 17, 335.
[75] S.-H. Chen, Y-IL Yen, C.-L. Wang, S.-L. Wang, Enzyme Microb. Technol., 2003, 33, 643.
[76] V. Arasaratnam, Í.Y Galaev, B. Mattiasson, Enzyme Microb. Technol., 2000, 27, 254.
[77] A. Kumar, M.R Gupia, J. Mol. Catal. В; Enzymatic, 1998, 5, 289.
[78] R. Rodriques, J.M.S. Cabral, M.A. Taipa, Enzyme Microb. Technol, 2002, 31, 133.
[79] C. Dinnella, G. Lanzerini, P. Ercolessi, Process Biochem., 1995, 30, 151.
[80} I. Roy, A. Gupta, S. K. К here, V.S. Bisaría, M.N. Gupta, AppL Microbiol. BioTechnol., 2003, 61, 309.
[81] A. Charusheela, L. Arvind, Enzyme Microb, Technol., 2002, 30, 19.
[82] Z. Ding, G. Chen, A.S. Hoffmann, Bioconj. Chem., 1996, 7, 121.
[83] L.-C. Pan, С-C. Chien, J. Biochem. Biophys. Meth., 2002, 55, 87.
[84] H. Uludag, B. Norrie, N. Kousinioris, T, Gao, BioTechnol. Bioeng., 2001, 75, 510.
[85] K. Hoshino, M. Taniguhi, T. Kitao, S. Morohashi, T. Sasakura, BioTechnol. Bioeng., 1998, 60, 568.
[86] A. Kondo, H. Fukude, Coll. Surf. A: Physiochem, Eng. Aspects, 1999, 153, 435.
[87] M. Shimazu, A. Mulchandani, VV. Chen, BioTechnol. Bioeng., 2002, 81, 74.
[88] M. Sardar, I. Roy, M.N, Gupta, Enzyme Microb. Technol., 2000, 27, 672.
[89] E. Katchalski-Katzir, D.M. Kraemer, J. Mol. Catal. B: Enzymatic, 2000, 10, 157.
[90] B. Katzbauer, M. Narodoslavsky, A. Moser, Bioproc, Engn., 1995, 12, 173.
[91] W. Harmeier, TIBTECH, 1985, 3, 149.
[92] L. Xiong, F.E. Rcgnier, J. Chromatogi'. A., 2001, 924, 165.
[93] I. Gill, A. Ballesteros, J. Am. Chem. Soc., 1998, 120, 8587.
[94] R. Obert, B.C. Dave, J. Am. Chem. Soc., 1999, 121, 12192.
[95] W. Marcon, F. Faida, A. Piozzi, J. Mol. Catal. B: Enzymatic, 2001, 15, 93.
[96] D.-K. Oh, H.-J. Kim, S.-A. Ryu, H.-J. Rho, P. Kim, BioTechnol. Lett., 200К 23, 1859.
[97] F.M. Andreopoulos, M.J. Roberts, M.D. Bentley, J.M. Harris, E.J. Bechman, A.J. Russell, BioTechnol. Bioeng., 1999, 65, 579.
[98] S.F. D’Souza, Curr. Sci., 1999, 77, 69.
[99] T. Antczak, J. Bugla, W. Szeja, E. Galas, BioTechnologia, 1999, 44, 172.
100] S. Glados, M. Maciejewski, Wiad. Chem., 1998, 52, 101.
[101] E. Hearn, R.J. Neufeld, Process Biochem., 2000, 35, 1253.
[102] M. Arroyo, I. de la Mata, С. Acebal, M. Pilar Castilíon, Appl. Microbiol. BioTechnol., 2003, 60, 507.
[103] K. Soni, D. Madannvar, Process Biochem., 2001, 36, 607.
[104] D. Maguin, S.Y.R Dumitriu, E. Choinet, BioTechnol. Progr., 2001, 17, 734.
[105] A.S. Cetinus, N.H. Oztop, Microb. Technol, 2003, 32, 889.
[106] N. Dura, M.A. Rosa, A. DłAnnibale, L. Gianfreda, Enzyme Microb. Technol., 2002, 31, 907.
[107] A. Welwardowa, P. Gemeiner, E. Michalkova, L. Welward, A. Jakubova, BioTechnol. Technique, 1993, 7, 809.
[108] A. Srinivasan, X. Wu, M.M. Lee, J.S. Dordick, BioTechnol. Bioeng., 2003, 81, 563.
[109] F.M. Plieva, K.A. Kochetkov, I. Singh, V.S. Parmar, Y.N. Belokon, V.I. Lozinsky, BioTechnol. Lett., 2000, 22, 511.
[110] A. Cirpan, S. Alkan, L. Toppare, Y. Hepuzer, Y. Yahci, Bioelcetroehem., 2003, 59, 29.
[111] A.K. Bajpai, S. Bhanu, Cell. Polym. Sci., Springer, 2003-10-13, 13 pages.
[112] A. Guiseppi-Elie, N.F. Sheppand, Jr., S. Brachim, D. Narinesingh, BioTechnol. Bioeng., 2001, 75, 475.
[113] C. Perols, B. PifTant, J. Scher, J.P. Ranvet, D. Poncelet, Enzyme Microb. Technol, 1997, 20, 57.
[114] J.-P. Chen, S.-H. Chiu, Enzyme Microb Technol, 2000, 26, 359.
[115] Dunn, J.M. Miller, B.C. Dave, J.S. Valentine, J.L Zink, Acta Mater., 1998, 46, 737.
[116] B. J.-P. Chen, Y.-N. Hwang, Enzyme Microb. Technol, 2003, 33, 513.
[117] A. Pierre, P. Buisson, J. Mol. Catal. B: Enzymatic, 2001, 11, 639.
[118] Y.-J. Han, JX Watson, G.D. Stucky, A. Butler, Mol. Catal. B: Enzymatic, 2002, 17, 1.
[119] L Gill, Chem. Mater., 2001, 13, 3404.
[120] K. Maruszewski, Fizykochemia molekuł zamkniętych iv zeolitach i zol-żelach, Bioblioteka Wiadomości Chemicznych, Wrocław 2000.
[121] Y. Wei, J. Xu, Q. Feng, H. Dong, M. Lin, Mat. Lett., 2000, 44, 6.
[122] L Gill, A. Ballesteros, TIBTECH, 2000, IS, 282.
[123] S. Furukava, T. Ono, H Ijima, K. Kawakani, J. Mol. Catal., B: Enzymatic, 2001, 15, 65.
[124] H. O’Neil, C.V. Angley, I Hemexy, B.R Evans, S. Dai, J. Woodward, BioTechnol. Lett., 2002, 24, 783.
[125] D.-J. van Unen, J.F.J. Engbersen, D.N. Reinhondt, BioTechnol. Bioeng., 2001, 75, 154.
[126] B. Li, H. Takahashi, BioTechnol. Lett., 2000, 22, 1953.
[127] H.H.P. Yiu, P.A. Wright, N.P. Bolting, J. Mol Catal. B: Enzymatic, 2001, 15, 81.
[128] J.-P. Chen, W-S. Lin, Enzyme Microb. Technol., 2003, 12, 801.
[129] J. Mansfeld, M. Forster, A. Schellenberger, H. Daulzberg, Enzyme Mictob. Tcchnol., 1991, 13, 240.
[130] J. Mansfeld, M. Forster, T. Hoffmann, A. Schellenberger, Enzyme Microb. Technol, 1995, 17, II.
[131] M.E. Bobreshova, G.B. Sukhorukov, E.A. Soburova, L.l. Elfimova, B.I. Sukhorukov, L.L Sharabchina, Biophysics, 1999, 44, 813.
[132] N.G. Balabushevitch, G.B. Sukhorukov, N.A. Moroz, D.V. Volodkin, N.I. Larionova, E. Donath, H. Mohwald, BioTechnol. Bioeng., 2001, 76, 207.
[133] T.G. Park, S. Cohen, R. Langer, Pharm. Res., 1992, 9, 37.
[134] F. Secundo, G. Carrea, G. Vecchio, F. Zambianchi, BioTechnol. Bioeng., 1999, 64, 624.
[135] V. Stefuca, P. Gemeiner, L. Kurillova, H. Dautzenberg, M. Polakovic, V. Bales, Appl. Biochem. Biotech., 1991, 30, 313.
[136] B.V. Kudryashova, A.К. Gladilin, A.V. Vakurov, F. Heitz, A.V. Levashov, V.V. Mozhaev, BioTechnol. Bioeng., 1997, 55, 267.
[137] J. Tramper, H.C. van der Plas, P. Linko, (Eds), Biocatalysts in Organic Synthesis, Elsevier, Amsterdam, 1995.
[138] T. Mori, S. Kishimoto, К. Ijiro, А. Коbayashi, Y. Okahata, BioTechnol. Bioeng., 2001, 76, 157.
[139] Y Okahata, T. Mori, TIBTECH, 1997, 15, 50.
[140] M.D. Trevan (Ed.), Immobilized Enzymes. An Introduction and Applications in BioTechnology, J. Wiley & Sons, Chichester 1980.
[141] A. Gole, M. Sastry, BioTechnol. Bioeng., 2001, 74, 172.
[142] A. Fishman, V. Cogan, J. Mol Catal. В: Enzymatic, 2003, 22, 193.
[143] A. Blondino, M. Macias, D. Cantero, Enzyme Microb. Technol, 2002, 31, 556.
[144] K. Mosbach (Ed.), Immobilized Enzymes and Cells, Methods in Enzymolog. vol. 137, Academic Press, San Diego 1988.
[145] M. Yoshimoto, S. Wang, K. Fukunaga, R. Kuboi, K. Nakao, BioTechnol. Bioeng., 2003, 81, 695.
[146] l.J. Castellanos, R. Crespo, K. Griebenow, J. Control Release, 2003, 88, 135.
[147] C.M.L. Carvalho, J.M.S. Cabral, Biochimia, 2000, 82, 1063.
[148] J. Rodakiewicz-Nowak, BioTechnologia, 2003, 63, 47.
[149] C.M.L. Carvalho, M.R. Aires-Barros, J.M.S. Cabral, Langmuir, 2000, 16, 3082.
[150] M. Kahlwet, G. Busse, В. Faulhaber, Langmuir, 1997, 13, 5249.
[151] S.C. Lin, J. Chem. Tech. BioTechnol., 1996, 66, 109.
[152] K. Paraszkiewicz, J. Długoński, BioTechnologia, 2003, 63, 82.
[153] D.M. Prazeres, F. Lemos, F.A.P. Garcia, J.M.S. Cabral. BioTechnol. Bioeng., 1993, 42, 759.
[154] H.M. van Sonsbeck, Beefthink, H.H., Tramper, J., Enzyme Microb. Technol, 1993, 15, 722.
[155] M. Karra-Chaabouni, S. Pulvin, A. Meziani, D. Thomas, D. Tourand, W. Kunz, BioTechnol. Bioeng., 2003, 81, 27.
[156] B. Deshrevel, J.-C. Vincent, C. Ripell, M. Thcllicr, BioTechnol. Bioeng., 2003, 81, 167.
[157] P. Pal, S. Datta, P. Bhattacharyan, Biochem. Eng. J., 2000, 5, 89.
[158] W. Tischer, F. Wedekind, Topics Cur. Chem., 1999, 200, 95.
[159] F.J. Plou, M.A. Cruces, M. Ferrer, G. Fuentes, E. Pastor, M. Barnabe, M. Christensen, F. Comelles, J.L. Parra, A. Ballesteros, J. BioTechnol., 2002, 96, 55.
[160] R.A. Messing, Adv. Biochem. Eng., 1978, 10, 51.
[161] S. Lim, K.-Y. Lee, Y.-B. Lee, K.-B. Song, BioTechnol. Lett., 2001, 23, 1335.
[162] F.N. Serralha, J.M. Lopes, M.R. Aires-Barros, D.M.F. Prazeres, J.M.S. Cabral, F. Lernos, F. Ramoa Ribeira, Enzyme Microb. Technol., 2002, 31, 29.
[163] F.N. Serralha, J.M. Lopes, F. Lemos, D.M.F. Prazeres, M.R. Aires-Bairos, J.M.S. Cabral, F. Ribeira, J. Mol. Catal. B: Enzymatic, 2001, 11, 713.
[164] G. Setharam, B.A. Saville, Enzyme Microb. Technol., 2002, 31, 747.
[165] M.L. Cum, A. Agostino, G. Leo, A. Mallardi, P. Corma, M. Della Monica, Mater. Sci. Eng. C., 2002, 22, 449.
[166] N., Das, A.M. Kayastha, J. Microb. BioTechnol., 1998, 14, 927.
[167] Q.Z. Zhou, X.D. Chen, X. Li, BioTechnol. Bioeng., 2002, 81, 127.
[168] A. Bastida, P. Sabuquillo, P. Armisen, R. Femadez-Lafiiente, J. Huguet, J.M. Guisan, BioTechnol. Bioeng., 1998, 58, 486.
[169] C. Carpio, P. Gonzales, J. Ruales, F. Batista-Viera, Food Chem., 2000, 68, 403.
[170] M.P. Schrender, A.T.A. Mooren, H.Y. Toschka, C.T. Verrips, F.M. Klis, TIBTECH, 1996, 14, I 15.
[171] L. Ding, B. Qu, React. Polym., 2001, 49, 67.
[172] W. Norde, C.E. Giacomelli, J. BioTechnol., 2000, 79, 259.
[173] H. Malmsten, A. Larsson, Coll. Surf. B: Biointerfaces, 2000, 18, 259.
[174] C. Mai, A. Majcherczyk, A. Huttermann, Microb. Technol., 2000, 27, 167.
[175] S.F. D’Souza, B.S. Kubal, J. Biochem. Biophys, Methods, 2002, 51, 151.
[176] J.M. Palomo, G. Fernandez-Lorente, C. Mateo, C. Ortiz, R. Fernandez-Lafuente, J.M. Guisan, Enzyme Microb. Technol., 2002, 31, 775.
[177] J.M. Palomo, G. Munoz, G. Fernandez-Lorente, C. Mateo, C. Ortiz, R. Fernandez-Lafuente, J.M. Guisan, J. Mol. Catal. B; Enzymatic, 2002, 19-20, 279.
[178] S. Akgol, Y. Kacar, S. Ozkara, H. Yavuz, A. Denizli, M.Y. Arica, J. Mol. Catal. B: Enzymatic, 2001, 15, 197.
[179] G. Fernandez-Lorente, M. Terreni, C. Mateo, A. Bastida, R. Fernandez-Lafuente, P. Dalmases, J. Huguet, J.M. Guisan, Enzyme Microb, Technol., 2001, 28, 389.
[180] C. Mateo, O. Abian, R. Fernandez-Lafuente, J.M. Guisan, BioTechnol. Bioeng., 2000, 68, 98.
[181] M. Kamori, T. Hori, Y. Yamashita, Y Noashima, J. Mol. Catal. B: Enzymatic, 2000, 9, 269.
[182] PJ. O’Connell, J. Vasley, BioTechnol. Bioeng., 2001, 74, 264.
[183] S.B. Lamb., D.C. Stuckey, Enzyme Microb. Technol., 2000, 26, 574.
[184] D. Ling, G. Wu, C. Wang, F. Wang, G. Song, Enzyme Microb. Technol., 2000, 27, 516.
[185] E. Santano, del Carmen M. Pinto, P. Macias, Enzyme Microb. Technol., 2003, 30, 639.
[186] H. Kawamoto, T. Oguma, H. Sekine, M. Kobayashi, Enzyme Microb. Technol., 2001, 28, 515.
[187] D. Steinerg R. Rozen, M. Bromshteym, B. Zaks, 1. Gedalia, G. Bachrach, Carbohyd Res., 2002, 331, 701.
[188] X. Zhou, B. Xue, S. Bai, Y Sun, Biochem. Eng. J., 2002, 11, 13.
[189] C. Mai, O. Millstein, A. Huttermann, J. BioTechnol., 2000, 79, 173.
[190] P. Mensah, G. Carta, BioTechnol. Bioeng., 1999, 66, 137.
[191] S. Harikrishna, S. Divakar, S.G. Prapulla, N.G. Karanth, J. BioTechnol., 2001, 87, 193.
[192] H. Kakahashi, B. Li, T. Sasaki, C. Miyazaki, T. Kajino, S. Inagaki, Microporous and Macroporous Materials, 2001, 44-45, 755.
[193] Y. Kaear, M.Y. Arica, Food Chem., 2001, 75, 325.
[194] J He, X- Li, D.G. Evans, X. Duan, C. Li, J. Mol. Catal. B: Enzymatic, 2000, 11, 45.
[195] L. Ren, J. He, D.G. Evans, X. Duan, R. Ma, J. Mol. Catal. B: Enzymatic, 2001, 16, 65.
[196] P. Irwin, J Bromllette, M. Germanii, К. Hicks, M. Kurantz, W. Damert, Enzyme Microb. Technol., 1999, 24, 675.
[197] A. Akova, G. Ustun, BioTechnol. Lett., 2000, 22, 355.
[198] L.-Q. Wu, T. Chen, K.K. Wallace, R. Vazquez-Duhalt, G.F, Payne, BioTechnol. Bioeng., 2001, 76, 325.
[199] W. Pu, Y. Li-rong, W. Jian-ping, BioTechnol. Lett., 2001, 23, 1429.
[200] C. Mateo, G. Fernandez-Lorente, E. Cortes, J.L, Garcia, R. Fernandez-Lafuente, J.M. Guisan, BioTechnol. Bioeng., 2001, 76, 269.
[201] R.J. Barros, E. Wehtje, P. Adlercreutz, BioTechnol. Bioeng., 1998, 59, 364.
[202] R. Afrin, T. Haruyama, Y. Yanagida, E. Kobatake, M. Aizawa, J. Mol. CataL B: Enzymatic, 2000, 9, 259.
[203] Ge. Y. Wang, H. Zhou, U. Tong, W. Li, J. BioTechnol., 1999, 67, 33.
[204] H. Yavuz, G. Bayromoglu, Y. Kacar, A. Denizli, M.Y. Arica, Biochem. Eng. J., 2002, 10, 1.
[205] A. Kondo, T. Urabe, K. Higashitani, J. Ferment. Bioeng., 1994, 77, 700.
[206] S.A. Costa, T. Tzanov, F. Carneiro, G.M. Gubitz, A. Cavaco-Paulo, BioTechnol. Lett., 2002, 24, 173.
[207] J.M. Guisan, P. Sabuquillo, R. Fernandez-Lafuente, G. Fernandez-Lorente, C. Mateo, P.J. Hailing, D. Kennedy, E. Miyata, D. Re, J. Mol Catal. B: Enzymatic, 2001, 11, 817.
[208] Q.Z.K. Zhou, X.D. Chen, Biochem. Eng. J., 2001, 9, 33.
[209] J. He, X. Li, D.G. Evans, X. Duan, C. Li, J. Mol. Catal. B: Enzymatic, 2000, 11, 45.
[210] A.T. Ruiz, A.J. Malave, C. Felby, K. Griebenow, BioTechnol. Lett., 2000, 22, 229.
[211] A.K. Bajpai, R. Sachdeva, Colloid Polym. Sci., 2002, 280, 892.
[212] M.R. Tarasevich, V.A. Bogdanovskaya, A.V. Kapustin, Electrochem. Comm., 2003, 5, 491.
[213] A. Reischwitz, K.-D. Reh, K. Buchholz, Enzyme Microb. Technol., 1995, 17, 457.
[214] A. Basso, L. De Martin, C. Ebert, L. Cardossi, P. Linda, V. Zlatov, J. Mol Catal. B: Enzymatic, 2001, 11, 851
[215] A. Basso, L. De Martin, C. Ebert, L. Cardossi, P. Linda, J Mol Catal. B: Enzymatic, 2000, 8, 245.
[216] A. Kilinc, S. Onal, A. Telefoncu, Process Biochem., 2002, 38, 641.
[217] Y.P. Yong, B. Al-Duri, J. Chem. Tech. BioTechnol., 1996, 65, 239.
[218] Y. Watanabe, Y. Miyawaki, S. Adachi, K. Nakanishi, R. Matsuno, BioChem. Eng. J., 2001, 8, 213.
[219] C.-H. Lee, K.L. Parkin, BioTechnol. Bioeng., 2001, 75, 219.
[220] I.V. Gorokhova, A.E. Ivanov, VP. Zubov, Russian J. Bioorg. Chem., 2002, 28, 38.
[221] S. Hosseinkhani, M. Ncmat-Gorgoni, Enzyme Microb. Technol., 2003, 33, 179.
[222] K.-H. Jang, K.-B. Song, B.-S. Park, C.H. Kim, B.H. Chung, R.W. Choue, K.S. Lee, C. Lee, LI.-H. Chun, S.-K. Rhee, Process Biochem., 2001, 37, 339.
[223] C.A.K. Sobral, M.O.R. Rodrigues, D.R. De Oliveira, F.F. De Moraes, M.G. Zanin, J. Ind. Phn. Mol. Rec. Chem., 2002, 44, 383.
[224] M. Saalemuddin, Adv. Biochem. Eng., 1999, 64, 203
[225] M.L. Carbajal, E.E. Smolko, M. Grosselli, Nucl. Instr. Meth. Phys. Res. B., 2003, 208, 416.
[226] L. Masta, A. Heyraud, J.-P. Joselcau, P.R. Coulet, J. BioTechnol., 2003, 101, 253.
[227] F.N. Serralha, J.M. Lopes, F. Lemos, D. Prazeres, M. Aires-Barros, J. Rocha, J. Cabral, R. Femando, React. Kin. Catal. Lett., 2000, 69, 217.
[228] F. Bellezza, A. Cipiciani, V. Costantino, J. Mol, Catal. B: Enzymatic, 2003, 26, 47.
[229] J. Turkova, J. Chromotogr. B, 1999, 722, II.
[230] J. Anzai, Y. Kobayashi, N. Nakamura, T. Hoshi, Sensors and Actuators В, 2000, 65, 94.
[231] P. Germeiner, P. Docolomansky, J. Nahalka, V. Stefuca, В. Danielsson, BioTechnol. Bioeng., 1996, 49, 26.
[232] H. Helmholz, S. Carteilieri, L. He, P. Thiesen, B. Niemeyer, J. Chromatogr., 2003, 1006, 127.
[233] Y. Kobayashi, J. Anzai, J. Electroanal. Chem., 2001, 507, 250.
[234] P. Peluso, D.S. Wilson, D. Do, H. Tran, M. Venkatasubbaiah, D. Quincy, В. Heidecker, K. Poindexter, N. Tolani, M. Phelan, K. Witte, L.S. Jung, P. Wagner, S. Nock, Anal. Biochem., 2003, 312, 113
[235] P. Lee, H.E. Swaisgood, Enzyme Microb. Technol, 1998, 22, 246.
[236] W.H. Shao, X.E. Zhang, H. Liu, Z.P. Zhang, A.E. Cass, Bioconj. Chem., 2000, 11, 822.
[237] J.J. Wang, H.E. Swaisgood, J.C.H. Shih, BioTechnol. Bioeng., 2003, 81, 421.
[238] W.H. Scouten, J.H.T. Luong, R.S. Brown, TIBTECH, 1995, 13, 178.
[239] A. Szewczuk, A. Rapak, Wiad. Chem., 1985, 39, 31.
[240] G. Józefaciuk, I. Miedziak, Wiad. Chem., 1984, 38, 163.
[241] N. Nakajima, Y Ikade, Bioconj. Chem., 1995, 6, 123.
[242] J. Tiller, P. Berlin, D. Klemm, BioTechnol. Appl. Biochem., 1999, 30, 155.
[243] A. Kenney, S. Fowell (Eds), Practical Protein Chromatography, Humana Press, Totowa 1992.
[244] E. Ruckenstein, W. Guo, J. Membr. Sci., 2001, 193, 131.
[245] G. Massolini, E. Calleri, E. De Lorenzi, M. Pregnolato, M. Terreni, G. Felix, C. Gandini, J. Chromatogr. A, 2001, 921, 147.
[246] H.-J. Hsieh, P.-С. Liu, W.-J. Liao, BioTechnol. Lett., 2000, 22, 1459.
[247] E.M. Lamas, R.M. Barros, V.M. Balcao, F.X. Malcata, Enzyme Microb. Technol, 2001, 28, 642.
[248] A. Hidalgo, L. Betancor, F. Lopez-Gallego, R. Moreno, J. Berenguer, R. Fernandez-Lafuente, J.M. Guisan, Enzyme Microb. Technol, 2003, 33, 278.
[249] M.Y. Arica, H. Yavuz, S. Patir, A. Denizli, Mol. Catal. B: Enzymatic, 2000, 11, 127.
[250] A. De Maio, M.M. El-Masry, P De Luca, V. Grano, S. Rossi, N. Pagliuka, F.S. Gaeta, M. Pataccio, D.G. Mita, J. Mol. Catal. B: Enzymatic, 2003, 21, 253.
[251] F.H. Isgrove, R.J.I-L Williams, G.W. Niven, A.T. Andrews, Enzyme Microb. Technol, 2001, 28, 225.
[252] A. Avramescu, S. Andrecscu, Т. Noguer, C. Bala, D. Andreesen, J.-L. Marty; Anal. Bioanal. Chem., 2002, 374, 25.
[253] S. Yabuku, F. Mizutani, S. Yukari, Y. Hirata, Sensors and Actuators В: Chemical, 2003, 91, 187.
[254] M. Ladero, M.T. Pérez, A. Santos, F. Garcio-Ochoa, BioTechnol. Bioeng., 2002, 81, 241.
[255] M.E. Halibi, J.C. Baratti, Enzyme Microb. Technol, 2001, 28, 296.
[256] E. Calleri, G. Massolini, F. Loiodice, G. Fracchilla, C. Temporini, G. Felix, P. Tortorella, G. Cacceialanzo, J. Chromatogr. A, 2002, 958, 131.
[257] V Chegel, Y. Shirshov, S. Avilov, M. Demchenko, M. Mustafaev, J. Biochem. Biophys. Meth., 2002, 50, 201.
[258] Т. Tzanov, S.A. Costa, G.M. Gubitz, A. Cavaco-Paulo, J, BioTechnol., 2002, 93, 87.
[259] N. Bachinski, A.S. Martins, V.M.F. Paschoalin, A.D. Panek, C.L.A. Paiva, BioTechnol. Bioeng., 1997, 54, 33.
[260] L.H. Lim, D.G. Macdonald, G.H. Hill, Biochem. Eng. J., 2003, 13, 53.
[261] G. Ginalska, A. Belcarz, Т. Wolski, BioTechnologia, 1999, 44, 226.
[262] T.-C. Hung, R. Giridhar, S.-H. Shao, W.-T Wu, J. Mol. Catal. B: Enzymatic, 2003, 26, 69.
[263] S. Rocchietti, A.S.V. Urrutia, M. Pregnolato, A. Taglíani, J.M. Guisan, R. Fernandez-Lafuente, M. Terreni, Enzyme Microb. Technol, 2002, 31, 88.
[264] V.M. Balcao, С. Mateo, R. Fernandez-Lafuente, F.X. Malcata, J.M. Guisan, Enzyme Microb. Technol., 2001, 28, 696.
[265] A. Illanes, L. Wison, G. Tomasello, Enzyme Microb. Technol., 2000, 27, 270.
[266] A. Illanes, L. Wison, G. Tomasello, J. Mol. Catal. B: Enzymatic, 2001, 11, 531.
[267] C.R. Carrara, E.J. Mammarella, A.C. Rubiolo, Chem. Eng. J., 2003, 92, 123.
[268] K.F. Fernandes, C.S. Lima, H. Pinho, C.H. Collins. Process Biochem., 2003, 38, 1379.
[269] C. Aguirre, M. Toledo, V. Medina, A. Illanes, Process Biochem., 2002, 38, 351.
[270] L. Jianguo, C. Wei, W. Shuai, C. Fan, Reet. Func. Polym., 2001, 48, 75.
[271] P. Padmini, K.K.S. Iyegar, A. Baradarajan, J. Chem. Tech. BioTechnol., 1995, 64, 31.
[272] A. Zaidi, J.L. Gainer, G. Carta, A. Mraní, T. Kadirí, Y. Belarbi, A. Mir, J. BioTechnol., 2002, 93, 209.
[273] A. Parmar, H. Kumar, S.S. Marwaha, J.F. Kennedy, BioTechnol. Adv., 2000, 18, 289.
[274] J.-W. Park, K. Park, H. Song, H. Shin, J. BioTechnol., 2002, 93, 203.
[275] R. Prodanovic, S. Jovanovic, Z. Kujcic, BioTechnol. Leit., 2001, 23, 1171.
[276] C.-H. Fan, C.-K. Lee, Biochem. Eng. J., 2001, 8, 157.
[277] S. Wang, M. Yoshimoto, K. Fukunaga, K. Nakao, BioTechnol. Bioeng., 2003, 83, 444.
[278] S.O. Wang, Q, Zhang, R. Wang, S.F. Yoon, J. Ahn, DJ. Yang, LZ. Tian, J.Q. Li, Q. Zhou, Electrochem. Comm. 2003, 5, 800.
[279] J.M. Palomo, G. Munoz, G Fernadez-Lorente, C. Mateo, M. Fuentes, J.M. Guisan, R. Femandez-Lafuente, J. Mol. Catal. B: Enzymatic, 2003, 21, 201.
[280] Guan, Y.H., Lilley, Т.Н., Brook, A.H., Enzyme Microb. Technol., 28 (2001) 218-224.
[281] Spiess, A., Schlothamer, R.-С., Hinrichs, J., Scheidet, B., Kasche, V., BioTechnol. Bioeng., 62 (1999) 267-277.
[282] J. Torres-Bacete, M. Arroyo, R. Torres-Guzman, I. Mata, M.P. Castilion, C. Acebal, BioTechnol. Lett., 2000, 22, 1011.
[283] M.J. Hernaiz, D.H.G. Crout, J. Mol. Catal. B: Enzymatic, 2000, 10, 403.
[284] M.J. Hernaiz, D.H.G. Crout, Enzyme Microb. Technol., 2000, 27, 26.
[285] M.E. Bruins, E.W. Van Hellemond, A.E.M. Janssen, R.M. Boom, BioTechnol. Bioeng., 2003, 81, 546.
[286] M.E. Bruins, A.J.H. Thevvessen, A.E.M. Janssen, R.M. Boom, J. Mol. Catal. B: Enzymatic, 2003, 21, 31.
[287] S.W. Park, Y.I. Kim, K.H. Cluing, S.W. Kim, Process Biochem., 2001, 37, 153.
[288] K. Ragnitz, C. Syldatk, M. Pietzsch, Enzyme Microb. Technol., 2001, 28, 713.
[289] M.Y. Lee, A. Srinivasan, B. Ku, J.S. Dordick, BioTechnol. Bioeng., 2003, 83, 20.
[290] F.M. Bautista, J.M. Campelo, A. Garcia, A. Jurado, D. Luna, J.M. Marinas, A.A. Romero, J. Mol. Catal. B: Enzymatic, 2001, 11, 567.
[291] G. Penzol, P. Armisen, R. Fernandez-Lafuenle, L. Rodcs, J.M. Guisan, BioTechnol. Bioeng., 1998, 60, 518.
[292] P.S. Sehanputri, C.G. Hill Jr., BioTechnol. Bioeng., 2003, 83, 608.
[293] B.C.C. Pessela, C. Mateo, M. Fuentes, A. Vian, J.L. Garcia, A.V. Carrascosa, J.M. Guisan, R. Fernandez-Lafuente, Enzyme Microb. Technol., 2003, 33, 199.
[294] F. Vaillant, A. Milian, P. Milian, M. Dornier, M. Decloux, M. Reyncs, Process Biochem., 2000, 35, 989.
[295] E. Palazzi, A. Convertí, Enzyme Microb. Technol., 2001, 28, 246.
[296] G. Hublik, F. Schinner, Enzyme Microb. Technol., 2000, 27, 330,
[297] L. Cao, L. van Langen, R.A. Sheldon, Opinion BioTechnol., 2003, 14, 387.
[298] R. Schoevaart, T. Kieboom, Carbohyd. Res., 2002, 337, 899.
[299] R. Schoevaart, T. Kieboom, Carbohyd. Res., 2001, 334, L
[300] W. Tischer, V. Kasche, TIBTECH, 1999, 17, 326.
[301] E.M, D’Urso, G. Fortier, Enzyme Microb. Tcchnoi., 1996, 18, 482.
[302] L. Cao, L. van Langen, R.A. van Rantwijk, R.A. Sheldon, J. Mol. Catal. B: Enzvmatic, 2001, 11, 665.
[303] L. Cao, R.A, van Rantwijk, R.A. Sheldon, Org. Lett., 2000, 2, 1361
[304] P. Lopez-Serrano, L. Cao, R.A. van Rantwijk, R.A. Sheldon, BioTechnol. Lett., 2002, 24, 1379.
[305] L. Cao, L. van Langen, M.H.A. Janssen, R.A. Sheldon, Eur. Pat. Appl, 1999, EP1088887A1
[306] A.L. Margolin, TIBTECH, 1996, 14, 223.
[307] D. Cortes, E. Wehtje, P. Adlercruetz, J. Mol Catal. B: Enzymatic, 2002, 11, 607.
[308] Y.-F. Wang, K. Yakovlevsky, N. Khalaf, B. Zhang, A.L. Margolin, Ann. N.Y. Acad. Sci., 1996, 799, 777.
[309] J.D. Vaghjiani, T.S. Lee, G.J. Lye, M.K. Turner, Biocatal. Biotrans., 2000, 18, 151.
[310] M. Leisola, J. Jokela, J. Finell, O. Pastinen, BioTechnol. Bioeng., 2001, 72, 501.
[311] J. Jokela, O. Pastinen, M. Leisola, Enzyme Microb. Technol., 2002, 31, 67.
[312] C. O’Fagain, Enzyme Microb. Technol, 2003, 33, 137.
[313] N.L. Clair, M.A. Novia, J. Am. Chem. Soc., 1992, 114, 7314.
[314] H. Noritomi, K. Koyama, S. Kato, K. Nagahama, BioTechnol. Technol., 1998, 12, 467.
[315] O. Pastinen, K. Visuri, M. Leisola, BioTechnol. Technol., 1998, 12, 557.
[316] O. Pastinen, J. Jokela, T. Eerikainen, T. Schwabe, M. Leisola, Enzyme Microb. Technol, 2000, 26, 550.
[317] M. Dois-Lafargue, R.-M. Willemot, P.F. Monsan, M. Remaud-Simeon, BioTechnol. Bioeng., 2001, 75, 276.
[318] A.R. DeGroot, R.J. Neufeld, Enzyme Microb. Technol., 2001, 29, 321.
[319] D.K. Boadi, R.J. Neufeld, Enzyme Microb. Technol, 2001, 28, 590.
[320] A. Tanriseven, S. Dogan, Process Biochem., 2001, 36, 1081.
[321] M. Schuleit, P.L. Luisi, BioTechnol. Bioeng., 2003, 72, 249.
[322] S. Kermasha, R. Gaffar, B. Bisakowski, Process Biochem., 2000, 35, 1103.
[323] J. van Roon, R. Beefthink, K. Schroen, H. Tramper, Curr. Opinion BioTechnol., 2002, 13, 398.
[324] M. Ladero, A. Santos, F. Garcia-Ochoa, BioTechnol. Bioeng., 2001, 72, 458.
[325] P. Wang, S. Dai, S.D. Waezsada, A.Y. Tsao, B.H. Davidson, BioTechnol. Bioeng., 2001, 74, 249.
[326] N. Munjal, S.K. Sawhney, Enzyme Microb. Technol., 2002, 30, 613.
[327] M. Ladero, A. Santos, F. Garcia-Ochoa, Enzyme Microb. Technol., 2000, 27, 583.
[328] V. Stefuca, A. Welwardova, P. Gemeiner, A. Jakubova, BioTechnol. Techn., 1994, 8, 497.
[329] G.-H. Xiu, L. Jiang, P. Li, BioTechnol- Bioeng., 2001, 74, 29.
[330] J.F. Celayeta, A.H. Silva, V.M. Balcao, F.X. Malcata, Bioproc. Biosys. Engn., 2001, 24, 143.
[331] R. Fernandez-Lafuente, V Rodriques, C. Mateo, G. Penzol, D. Hemandez-Justiz, G. Irazoqui, J. Mol Catal. B: Enzymatic, 1999, 7, 181.
[332] S.M. Thomas, R. DiCossimo, V. Nagarajan, TIBTECH, 2002, 20, 238.
[333] I. Karube, Y. Nomura, J. Mol. Catal. B: Enzymatic, 2000, 10, 177.
[334] C. Nistor, J. Emneus, Waste Management, 1999, 19, 147.
[335] P.D. Patel, Trends Anal Chem., 2002, 21, 96.
[336] K. Ramanathan, M. Rank, J. Svitel, A. Dzegev, B. Daniellson, TIBTECH, 1999, 17, 499.
[337] H. Jing, X.F. Li, D.G. Evans, X. Duan, C.Y. Li, J. Mol Catal. B: Enzymatic, 2000, 11, 45.
[338] H. Kise, A. Playakawa, Enzyme Microb, Technol, 1991, 13, 584.
[339] A.M. Azevedo, D.M.F. Prazeres, J.M.S. Cabral, L.P. Fonseca, J. Mol Catal. B: Enzymatic, 2001, 15, 147.
[340] J. Ogawa, S. Shimizu, Curr. Opinion BioTechnol., 2002, 13, 367.
[341] K.M. Kodier, C.H. Wong, Nature, 2001, 409, 232.
[342] A. Zaks, Curr. Opinion Chem. Biol, 2001, 5, 130.
[343] A.J.J. Straathof, S. Panke, A. Schmid, Curr. Opinion BioTechnol., 2002, 13, 367.
[344] M. Mahmoudian, BiocataL Biotransfonn., 2000, 18, 105.
[345] F.W. Scheller, U. Wollenberger, A. Warsinke, F. Lisdat, Curr. Opinion BioTechnol., 2001, 12, 35.
[346] E. Tothill, Соmр. Electr. Agr., 2001, 30, 205.
[347] FT. Gulce, 1. Ataman, A. Gulce, A. Yildiz, Enzyme Microb. Technol., 2002, 30, 41.
[348] M. Situmorang, J.J. Gooding, D.B. Hibbert, Anal. Chini. Acta, 1999, 394, 211.
[349] S. Suye, Y. Aramoto, M. Nakamura, I Tabata, M. Sakakibara, Enzyme Microb. Technol, 2002, 30, 139.
[350] J. Liu, J, Wang, BioTechnol. Appl, Biochem., 1999, 30, 177.
[351] S. Shipovskov, E. Ferapontova, T. Ruzgas, A. Levaskov, Biochim. Biophcs. Acta, 2003, 1620, 119.
[352] D. Ling, G. Wu, C. Wang, F. Wang, G. Song, Enzyme Microb. Technol, 2000, 27, 516.
[353] J.P. Chen, J.Y. Chen, J. Mol. Catal. B: Enzymatic, 1998, 5, 798.
[354] V.M. Balcao, С. Mateo, R. Fernandez- Lafuente, F.X. Malcata, J.M. Guisan, BioTechnol. Progr., 2001, 17, 537.
[355] V.M. Balcao, C. Mateo, R. Fernandez-Lafuente, F.X. Malcata, J.M. Guisan, Enzyme Microb. Technol, 2001, 28, 696.
[356] M. Vellard, Curr. Opinion BioTechnol., 2003, 14, 444.
[357] A.M. Klibanov. Curr. Opinion. BioTechnol., 2003, 14, 427.
[358] B. Avalle, A. Friboulet, D. Thomas, J Mol. Catal. B: Enzymatic, 2000, 10, 39.
[359] J.T. Yli-Kauholuoma, K.D. Janda, Ann. N.Y. Acad. Sci., 1996, 799, 26.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUS2-0006-0039