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Payment must be Editorial Production, John Wiley Claims for undelivered copies will be accepted Merilee Croft Olson r eceived { Please enclose a copy of the mailing label *) This paper meets the requirement of ANSI/NISO Z39.48-1992 (Permanence of supplied when losses have been sustained in transit and where Paper) Biotechnology and Bioengineering Author Index to Volume 73 Adlercreutz, P. See Hansson, T., 203 Beun, J.J. See Dircks, K., 85 Ferrier, J.G. See Vlassides, S., 55 Afoke, A. See Underwood, S., 295 Bjornsson, L. Figueroa, B., Jr. Akesson, M. —; Hérnsten, E.G.; Mattiasson, B.: ; Sauerwald, T.M.; Mastrangelo, A.J.; ; Hagander, P.; Axelsson, J.P.,: Avoiding Utilization of a Palladium—Metal Oxide Hardwick, J.M.; Betenbaugh, M.J.: Acetate Accumulation in Escherichia Semiconductor (Pd-MOS) Sensor for Comparison of Bcl-2 to a Bcl-2 coli Cultures Using Feedback Control of On-Line Monitoring of Dissolved Deletion Mutant for Mammalian Cells Hydrogen in Anaerobic Digestion, 35 Exposed to Culture Insults, 211 Altenbuchner, J. See Wilms, B., 95 Blackwell, J.E. See Dickerson, J.B., 500 Foster, N. See Thiering, R., | Amanullah, A. Block, D.E. See Vlassides, S., 55 Freedman, R.B. See Baker, K.N., 188 ; McFarlane, C.M.; Emery, A.N.; Nienow, Bolivar, F. See Baez, J.L., 530 Freitag, R. See Giovannini, R., 522 A.W.: Scale-Down Model to Simulate Bonner, G. See Tiller. J.C., 246 Spatial pH Variations in Large-Scale Bosma, R. See Schroén, C.G.P.H., 171 Ganzeveld, K.J. See Baldascini, H., 44 Bioreactors, 390 Brown, R.A. See Underwood Gao, T. See Uludag, H., 510 Ampleman, G. See Rho, D., 271 Biintemeyer, H. See Iding, Gaskin, D.J.H. Arcos, J.A. ; Romojaro, A.; Turner, N.A.; Jenkins, J.: ; Hill, C.G., Jr.; Otero, C.: Kinetics of the Carrea, G. See Secundo, F.., Vulfson, E.N.: Alteration of Lipase Lipase-Catalyzed Synthesis of Glucose Chang, H.N. See Kwon, S., Chain Length Specificity in the Esters in Acetone, 104 Chang, Y.K. See Kwon, S., Hydrolysis of Esters by Random Asano, Y. See Xu, J.-H., 493 Chou, C.P. See Lin, W.-J., Mutagenesis, 433 Axelsson, J.P. See Akesson, M., 223 Chou, W.-C. See Liao, K.-W.., Giovannini, R. Clark, D.S. See Hsu, W.-T ; Freitag, R.: Isolation of a Recombinant Baez, J.L. ; See Kim, Y.-D., 331 Antibody from Cell Culture ; Bolivar, F.; Gosset, G.: Determination Correll, M.J. Supernatant: Continuous Annular Versus of 3-Deoxy-D-Arabino-Heptulosonate ; Weathers, P.J.: One-Step Batch and Expanded-Bed 7-Phosphate Productivity and Yield Acclimatization of Plantlets Using a Chromatography, 522 from Glucose in Escherichia coli Mist Reactor, 253 Goetz, D.J. See Dickerson, J.B.. Devoid of the Glucose Cross, J.D. See Zhao, J.-S., 306 Gomez, R. See Bashir, R., 324 Phosphotransferase Transport System, Cui, D.-F. See Wang, Y., 74 Gonzalez-Gil, G. 530 ; Seghezzo, L.; Lettinga, G.; Baggio, M. See Elvassore, N., 449 de Vos, W.M. See Hansson, T., 203 Kleerebezem, R.: Kinetics and Baker, K.N. de Vroom, E. See Youshko, M.I., 426 Mass-Transter Phenomena in Anaerobic ; Rendall, M.H.; Hills, A.E.; Hoare, M.; Deutschmann, S.M. See Iding, K., 442 Granular Sludge, 125 Freedman, R.B.; James, D.C.: Metabolic Dickerson, J.B. Gorgens, J.F. Control of Recombinant Protein —: Blackwell, J.E.; Ou, J.J.; Patil, V.R.S.; ; van Zyl, W.H.; Knoetze, J.H.: N-Glycan Processing in NSO and CHO Goetz, D.J.: Limited Adhesion of Hahn-Higerdal, B.: The Metabolic Cells, 188 Biodegradable Microspheres to E- and Burden of the PGK/ and ADH2 Baldascini, H. P-Selectin Under Flow, 500 Promoter Systems for Heterologous ; Ganzeveld, K.J.; Janssen, D.B.: Dickson, A.J. See Barnes, L.M., 261 Xylanase Production by Saccharomyces Beenackers, A.A.C.M.: Effect of Mass Dircks, K. cerevisiae in Defined Medium, 238 Transfer Limitations on the Enzymatic —: Beun, J.J.: van Loosdrecht, M.; Heijnen, Gosset, G. See Baez, J.L., 530 Kinetic Resolution of Epoxides in a J.J., Henze, M.: Glycogen Metabolism Greenberg, A.W. Two-Liquid-Phase System, 44 in Aerobic Mixed Cultures, 85 : Hammer, D.A.: Cell Separation Barnes, L.M. Discher, B.M. See Lee, J.C-M., 135 Mediated by Differential Rolling ; Bentley, C.M.; Dickson, A.J. Discher, D.E. See Lee, J.C-M., | 35 \dhesion, 111 Characterization of the Stability of Doran, P.M. See Sharp, J.M., 338 Greer, C.W. See Tartakovsky, B., 476 Recombinant Protein Production in the Dunnill, P. See Underwood, S., 295 Gudermann, F. See Iding. K., 442 GS-NSO Expression System, 261 Guiot, S.R. See Tartakovsky, B., 476 Bashir, R. Elvassore, N. ; Gomez, R.; Sarikaya, A.; Ladisch, M.R.; : Baggio, M.; Pallado, P.; Bertucco, A. Hagander, P. See Akesson, M., 223 Sturgis, J.; Robinson, J.P.: Adsorption Production of Different Morphologies of Hage, A. of Avidin on Microfabricated Surfaces Biocompatible Polymeric Materials by : Schoemaker, H.E.; Wever, R.; Zennaro, for Protein Biochip Applications, 324 Supercritical CO, Antisolvent E.; Heipieper, H.J.: Determination of the Baskaran, H. See Tilles, A.W., 379 Techniques, 449 Poxicity of Several Aromatic Bates, F.S. See Lee, J.C-M., 135 Emery, A.N. See Amanullah, A., 390 Carbonylic Compounds and Their Beaumier, D. See Tartakovsky, B., 476 Enfors, S.-O. See Lin, H.Y., 347 Reduced Derivatives on Phanerochaete Beeftink, H.H. See Schroén, C.G.P.H., 171 chrysosporium Using a Pseudomonas Beenackers, A.A.C.M. See Baldascini, H.., Feng, Y.-M. See Wang, Y., 74 putida Test System, 69 44 Fernandes, S. Hahn-Hagerdal, B. See Gorgens, J.F., 238 Bentley, C.M. See Barnes, L.M., 261 ; Johansson, G.; Hatti-Kaul, R.: Hammer, D.A. See Greenberg, A.W., 111 Bermudez, H. See Lee, J.C-M., 135 Purification of Recombinant Cutinase by Hansson, T. Bertucco, A. See Elvassore, N., 449 Extraction in an Aqueous Two-Phase : Kaper, T.; van der Oost, J.; de Vos, Betenbaugh, M.J. See Figueroa, B., Jr., System Facilitated by a Fatty Acid W.M.; Adlercreutz, P.: Improved 211 Substrate, 465 Oligosaccharide Synthesis by Protein Biotechnology and Bioengineering, Vol. 73, Pp. 539-541 (2001) Engineering of B-Glucosidase CelB D.E.: Preparation, Stability, and In Vitro Nielsen, J. See Ostergaard, S., 412 from Hyperthermophilic Pyrococcus Performance of Vesicles Made with Nienow, A.W. See Amanullah, A., 390 furiosus, 203 Diblock Copolymers, 135 Nierstrasz, V.A. See Schroén, C.G.P.H., Hardwick, J.M. See Figueroa, B., Jr., 211 Lee, W.G. See Kwon, S., 25 171 Hatti-Kaul, R. See Fernandes, S., 465 Legoy, M.D. See Maugard, T., 164 Norrie, B. See Uludag, H., 510 Hauck, A. See Wilms, B., 95 Lehmann, J. See Iding, K., 442 Hawari, J. See Rho, D., 271 Lettinga, G. See Gonzalez-Gil, G., 125 Oikawa, T. Heijnen, J.J. See Dircks, K., 85 Liang, Z.-H. See Wang, Y., 74 ; Mukoyama, S.; Soda, K.: Heipieper, H.J. See Hage, A., 69 Liao, K.-W. Cherno-Enzymatic p-Enantiomerization Henze, M. See Dircks, K., 85 ; Chou, W.-C.; Lo, Y.-C.; Roffler, S.R.: of pi-Lactate, 80 Hill, C.G., Jr. See Arcos, J.A., 104 Design of Transgenes for Efficient Okochi, M. See Matsunaga, T., 400 Hills, A.E. See Baker, K.N., 188 Expression of Active Chimeric Proteins Olsson, L. See Ostergaard, S., 412 Hoare, M. See Baker, K.N., 188 on Mammalian Cells, 313 Ostergaard, S. Hodgson, J. See Rho. D., 271 Liese, A. See Shin, J.-S., 179 —; Olsson, L.; Nielsen, J.: In Vivo Hofland, G. See Thiering, R., | Lin, H.Y. Dynamics of Galactose Metabolism in Hoogschagen, M.J. See Schroén, C.G.P.H.. —; Mathiszik, B.; Xu, B.; Enfors, S.-O.; Saccharomyces cerevisiae: Metabolic 171 Neubauer, P.: Determination of the Fluxes and Metabolite Levels, 412 Hornsten, E.G. See Bjérnsson, L., 35 Maximum Specific Uptake Capacities Otero, C. See Arcos, J.A., 104 Hsu, W.-T. for Glucose and Oxygen in Ou, J.J. See Dickerson, J.B., 500 ; Clark, D.S.: Variations in the Glucose-Limited Fed-Batch Cultivations Enantioselectivity of Salt-Activated of Escherichia coli, 347 Pallado, P. See Elvassore, N., 449 Subtilisin Induced by Lyophilization, Lin, W.-J. Pan, L.-C. See Tiller, J.C., 246 231 —; Huang, S.-W.; Chou, C.P.: Park, C.B. See Kim, Y.-D., 331 Huang, S.-W. See Lin, W.-J., 484 DegP-Coexpression Minimizes Park, JjJ.M. See Woo, S.H., 12 Huck, P. See Zhao, J.-S., 306 Inclusion-Body Formation upon Patil, V.R.S. See Dickerson, J.B., 500 Overproduction of Recombinant Iding, K. Penicillin Acylase in Escherichia coli, Rashid, M.M. See Mysliwiec, M.J., 282 ; Biintemeyer, H.; Gudermann, F.; 484 Rendall, M.H. See Baker, K.N., 188 Deutschmann, S.M.; Kionka, C.; Lo, Y.-C. See Liao, K.-W., 313 Reuss, M. See Wilms, B., 95 Lehmann, J.: An Automatic System for Lubicki, P. See Zhao, J.-S., 306 Rho, D. the Assessment of Complex Medium ; Hodgson, J.; Thiboutot, S.; Ampleman, Additives Under Cultivation Conditions, MacLeod, A.J. See Underwood, S., 295 G.; Hawari, J.: Transformation of 442 Manuel, M.-F. See Tartakovsky, B., 476 2,4,6-Trinitrotoluene (TNT) by Margolin, A.L. See Shenoy, B., 358 Immobilized Phanerochaete James, D.C. See Baker, K.N., 188 Mastrangelo, A.J. See Figueroa, B., Jr., chrysosporium Under Fed-Batch and Janssen, A.E.M. See Schroén, C.G.P.H., 171 211 Continuous TNT Feeding Conditions, Janssen, D.B. See Baldascini, H., 44 Mathiszik, B. See Lin, H.Y., 347 Tt Jenkins, J. See Gaskin, D.J.H., 433 Matsunaga, T. Rittmann, B.E. See Woo, S.H., 12 Johansson, G. See Fernandes, S.. 465 -, Nakayama, H.; Okochi, M.; Takeyama, Robinson, J.P. See Bashir, R., 324 H.: Fluorescent Detection of Robson, G.D. See Wiebe, M.G., 146 Kaper, T. See Hansson, T., 203 Cyanobacterial DNA Using Bacterial Roffler, S.R. See Liao, K.-W., 313 Karlsson, E. Nordberg See Nandakumar, Magnetic Particles on a Romojaro, A. See Gaskin, D.J.H., 433 M.P., 406 MAG-Microarray, 400 Roy, P. See Tilles, A.W., 379 Kato, Y. See Xu, J.-H., 493 Mattes, R. See Wilms, B., 95 Kim, B.-G. See Shin, J.-S., 179 Mattiasson, B. See Bjérnsson, L., 35 Sarikaya, A. See Bashir, R., 324 Kim, Y.-D. ; See Nandakumar, M.P., 406 Sauerwald, T.M. See Figueroa, B., Jr., 211 —; Park, C.B.; Clark, D.S.: Stable Sol-Gel Maugard, T. Schoemaker, H.E. See Hage, A., 69 Microstructured and Microfluidic —; Lamare, S.; Legoy, M.D.: Gas Phase Schroeder, E.D. See Mysliwiec, M.J., 282 Networks for Protein Patterning, 331 Biotransformation Reaction Catalyzed Schroén, C.G.P.H. Kionka, C. See Iding, K., 442 by Baker’s Yeast, 164 ; Nierstrasz, V.A.; Moody, H.M.,; Kleerebezem, R. See Gonzalez-Gil, G., 125 McFarlane, C.M. See Amanullah, A., 390 Hoogschagen, M.J.; Kroon, P.J.; Bosma, Klibanov, A.M. See Tiller, J.C., 246 Moody, H.M. See Schre#n, C.G.P.H., 171 R.; Beeftink, H.H.; Janssen, A.E.M.; Knoetze, J.H. See Gérgens, J.F.. 238 Morrone, R. See Secundo, F., 157 Tramper, J.: Modeling of the Enzymatic Kousinioris, N. See Uludag, H., 510 Mukoyama, S. See Oikawa, T., 80 Kinetic Synthesis of Cephalexin Kroon, P.J. See Schroén, C.G.P.H., 171 Mysliwiec, M.J. Influence of Substrate Concentration Kwon, S. ; VanderGheynst, J.S.; Rashid, M.M.; and Temperature, 171 -; Yoo, I.-K.; Lee, W.G.; Chang, H.N.; Schroeder, E.D.: Dynamic Secundo, F. Chang, Y.K.: High-Rate Continuous Volume-Averaged Model of Heat and ; Carrea, G.; Soregaroli, C.; Varinelli, D.; Production of Lactic Acid by Mass Transport Within a Compost Morrone, R.: Activity of Different Lactobacillus rhamnosus in a Biofilter: I. Model Development, 282 Candida antarctica Lipase B Two-Stage Membrane Cell-Recycle Formulations in Organic Solvents, 157 Bioreactor, 25 Nakayama, H. See Matsunaga, T., 400 Seghezzo, L. See Gonzalez-Gil, G., 125 Nandakumar, M.P. Shamlou, P. Ayazi See Underwood Ladisch, M.R. See Bashir, R., 324 ~; Karlsson, E. Nordberg; Mattiasson, B.: Shan, W. See Shenoy, B., 358 Lamare, S. See Maugard, T., 164 Integrated Flow-Injection Processing for Sharp, J.M. Lee, J.C-M. On-line Quantification of Plasmid DNA —; Doran, P.M.: Characterization of -, Bermudez, H.; Discher, B.M.; Sheehan, During Cultivation of E. coli, 406 Monoclonal Antibody Fragments M.A.; Won, Y.-Y.; Bates, F.S.; Discher, Neubauer, P. See Lin, H.Y., 347 Produced by Plant Cells, 338 AUTHOR INDEX Sheehan, M.A. See Lee, J.C-M., 135 Trinci, A.P.J. See Wiebe, M.G., 146 Fusarium venenatum A3/5 in Chemostat Sheldon, R.A. See Youshko, M.1., 426 Turner, N.A. See Gaskin, D.J.H., 433 Culture, 146 Shenoy, B. Wilms, B. ; Wang, Y.; Shan, W.; Margolin, A.L.: —; Hauck, A.; Reuss, M.; Syldatk, C.; Uludag, H. Stability of Crystalline Proteins, 358 Mattes, R.; Siemann, M.; Altenbuchner, ; Norrie, B.; Kousinioris, N.; Gao, T.: Shin, J.-S. J.: High-Cell-Density Fermentation for Engineering Temperature-Sensitive ; Kim, B.-G.; Liese, A.; Wandrey, C.: Production of L-N-Carbamoylase Using Poly(N-Isopropylacrylamide) Polymers Kinetic Resolution of Chiral Amines an Expression System Based on the as Carriers of Therapeutic Proteins, 510 with w-Transaminase Using an Escherichia coli rhaBAD Promoter, 95 Underwood, S. Enzyme-Membrane Reactor, 179 Witkamp, G.-J. See Thiering, R., 1 -; Afoke, A.; Brown, R.A.; MacLeod, A.J.; Shuster, J. See Wiebe, M.G., 146 Won, Y.-Y. See Lee, J.C-M., 135 Shamlou, P. Ayazi; Dunnill, P.: Wet Siemann, M. See Wilms, B., 95 Woo, S.H. Extrusion of Fibronectin—Fibrinogen Soda, K. See Oikawa, T., 80 ; Park, J.M.; Rittmann, B.E.: Evaluation Cables for Application in Tissue Soregaroli, C. See Secundo, F., 157 of the Interaction Between Engineering, 295 Stocks, S.M. Biodegradation and Sorption of —; Thomas, C.R.: Strength of Phenanthrene in Soil-Slurry Systems, 12 Mid-Logarithmic and Stationary Phase van de Wielen, L. See Thiering, R., | Saccharopolyspora erythraea Hyphae van der Oost, J. See Hansson, T., 203 Xu, B. See Lin, H.Y., 347 During a Batch Fermentation in Defined van Langen, L.M. See Youshko, M.1., 426 Xu, J.-H. Nitrate-Limited Medium, 370 van Loosdrecht, M. See Dircks, K., 85 ; Kato, Y.; Asano, Y.: Efficient Sturgis, J. See Bashir, R., 324 van Rantwijk, F. See Youshko, M.I., 426 Preparation of (R)-a-Monobenzoy] Svedas, V.K. See Youshko, M.I., 426 van Zyl, W.H. See Gorgens, J.F., 238 Glycerol by Lipase Catalyzed Syidatk, C. See Wilms, B., 95 VanderGheynst, J.S. See Mysliwiec, M.J., Asymmetric Esterification: Optimization 282 and Operation in Packed Bed Reactor, Varinelli, D. See Secundo, F., 157 493 Takeyama, H. See Matsunaga, T., 400 Vlassides, S. Xu, Y.-G. See Wang, Y., 74 Tang, Y.-H. See Wang, Y., 74 ; Ferrier, J.G.; Block, D.E.: Using Tartakovsky, B. Historical Data for Bioprocess Yao, S.-Y. See Wang, Y., 74 ; Manuel, M.-F.; Beaumier, D.; Greer, Optimization: Modeling Wine Yarmush, M.L. See Tilles, A.W., 379 C.W.; Guiot, S.R.: Enhanced Selection Characteristics Using Artificial Neural Yoo, I.-K. See Kwon, S., 25 of an Anaerobic Pentachlorophenol- Networks and Archived Process Youshko, M.I. Degrading Consortium, 476 Information, 55 ; van Langen, L.M.; de Vroom, E.; van Thiboutot, S. See Rho, D., 27 Vulfson, E.N. See Gaskin, D.J.H., 433 Rantwijk, F.; Sheldon, R.A.; Svedas, Thiering, R. V.K.: Highly Efficient Synthesis of —; Hofland, G.; Foster, N.; Witkamp, G.-J.; Ampicillin in an “Aqueous van de Wielen, L.: Fractionation of Wandrey, C. See Shin, J.-S., 179 Solution-Precipitate” System: Repetitive Soybean Proteins with Pressurized Wang, J. See Yu, J., 458 Addition of Substrates in a Carbon Dioxide as a Volatile Wang, Y. Semicontinuous Process, 426 Electrolyte, | ; Liang, Z.-H.; Zhang, Y.-S.; Yao, S.-Y.; Yu, J. Thomas, C.R. See Stocks, $.M., 370 Xu, Y.-G.; Tang, Y.-H.; Zhu, S.-Q.; ; Wang, J.: Metabolic Flux Modeling of Tiller, J.C. Cui, D.-F.; Feng, Y.-M.: Human Insulin Detoxification of Acetic Acid by ; Bonner, G.; Pan, L.-C.; Klibanov, A.M.: from a Precursor Overexpressed in the Ralstonia eutropha at Slightly Alkaline Improving Biomaterial Properties of Methylotrophic Yeast Pichia pastoris pH Levels, 458 Collagen Films by Chemical and a Simple Procedure for Purifying Modification, 246 the Expression Product, 74 Zennaro, E. See Hage, A., 69 Tilles, A.W. ; See Shenoy, B., 358 Zhang, Y.-S. See Wang, Y., 74 ; Baskaran, H.; Roy, P.; Yarmush, M.L.; Ward, O.P. See Zhao, J.-S., 306 Zhao, J.-S. Toner, M.: Effects of Oxygenation and Weathers, P.J. See Correll, M.J., 253 ; Ward, O.P.; Lubicki, P.; Cross, J.D.; Flow on the Viability and Function of Wever, R. See Hage, A., 69 Huck, P.: Process for Degradation Rat Hepatocytes Cocultured in a Wiebe, M.G. of Nitrobenzene: Combining Microchannel Flat-Plate Bioreactor, 379 ; Robson, G.D.:; Shuster, J.; Trinci, A.P.J.: Electron Beam Irradiation with Toner, M. See Tilles, A.W., 379 Evolution of a Recombinant Biotransformation, 306 Tramper, J. See Schroén, C.G.P.H., 17] (Gucoamylase-Producing) Strain of Zhu, S.-Q. See Wang, Y., 74 AUTHOR INDEX Biotechnology and Bioengineering Subject Index to Volume 73 a-galactose, 188 Chemo-enzymatic enantiomerization, 80 Genetic instability, 146 Acetate, 223, 347 Chemostat culture, 146 Glucoamylase, 146 Acetic acid detoxification, Chimeric protein, 313 Glucose phosphotransferase transport Acetoin, 390 Chinese hamster ovary (CHO) cells, 188, system, 530 Actinomycetes, 370 211 Glucose, 85, 104, 223 Activated sludge, 85 Chiral amine, 179 Glycinin, | Adaptation, 476 Chloramphenicol acetyltransferase, 211 Glycogen, 85 Adenine nucleotide levels, cis—trans isomerization, 69 Glycosylation, ADH? promoter, 238 Cito cell culture, 522 Granules, 125 Adsorption, 324 Clonal heterogeneity, 261 GS-NSO, 261 Aerobic, 85 Collagen, 246 Aeroponics, 253 Cutinase, 465 Hairy roots, 338 Amino acids, 530 High-cell-density fermentation, 95 Ampicillin synthesis, 426 p-lactate, 80 High-performance liquid chromatography Anaerobic, 125, 476 DegP, 484 (HPLC), 188 Anaerobic digestion, 35 DGGE, 476 High productivity, 25 Antibiotic synthesis, 171 Diblock, 135 Historical data, 55 Antibody fragments, 338 Dissolved hydrogen, 35 HY AFF, 449 Apoptosis, 211 Dissolved oxygen, 223 Hydrolysis, 433 Aqueous biocatalytic process, 426 Dissolved oxygen tension, 347 Hydroxyapatite, 522 Aqueous solution-precipitate system, 426 Dot-blotting method, 74 Hyperthermophilic, 203 Aqueous two-phase system, 465 Drug delivery, 500 Hyphae, 370 Aromatic compounds, 530 Drug formulation, 358 Assessment method, 442 Inclusion body, 484 Asymmetric esterification, 493 E-selectin, 500 Instability, 261 EGSB, 125 Insulin precursor, 74 6-conglycinin, | Elastic modulus, 370 Interaction, 465 B-glycosidase, 203 Electron beam, 306 Bacillus subtilis, 390 Enantioselectivity, 231 Kinetic model, 171, 347 Baby hamster kidney cells, 211 Endothelial cell attachment, 246 Kinetic resolution, 44, 179 Bacterial adhesion, 246 Endothelium, 500 Kinetic synthesis, 171 Bacterial magnetic particle, 400 Enrichment, 476 Kinetics, 12, 104, 125 Baker’s yeast, 164 Enzyme-membrane reactor, 179 Benzoic anhydride, 493 Epoxide hydrolase, 44 L-lactate oxidase, 80 Bioartificial liver, 379 Escherichia coli, 223, 406, 484 L-N-carbamoylase, 95 Biochips, 324 Ester, 433 L-rhamnose inducible expression, 95 Biodegradable, 500 Explosive, 271 L-selectin, 111 Biodegradable polymer, 458 Extraction, 465 Lactic acid, 25 Biodegradation, 12, 271, 306 Lactobacillus rhamnosus, 25 Biofilm, 125 Fatty acids, 104 Lactose, 203 Biofilter, 282 Feast-famine regime, 85 Large-scale bioreactor, 390 Biogas, 35 Fed-batch cultivation, 223 Leloir pathway, 412 Biomaterials, 246 Fed-batch-fermentation, 347 Lewis cell, 44 Biopolymer, 449 Fibrinogen, 295 Lipase, 104 Bioprocess optimization, 55 Fibroblast cell attachment, 246 Liposome, 135 Bioreactor, 442 Fibronectin, 295 logP, 69 Bioseparation, 522 Finite element method, 282 Lyophilization, 231 Biotransformation, 69, 164 Flat plate, 379 Bone regeneration, 510 Flow chamber, 111 MAG-microarray, 400 BSA-coated chip, 324 Flow-injection processing, 406 Magnetic-separation robot, 400 Butyrate, 465 Fluorescence spectroscopy, 465 Mammalian cell culture, 211 Foreign gene expression, 238 Mass transfer limitations, 44 Candida antarctica lipase B, 157, 493 Foreign proteins, 338 Mass-transfer model, 179 Carbon dioxide, | Fractionation, | Mass transport, 125 Carbonylic compounds, 69 Fungi, 271 Mathematical model, 85 Carnation, 253 Fusarium venenatum A3/5 and JeRS 325, Membrane, 135 Cell adhesion, 111 146 Membrane bioreactor, 25 Cell-affinity chromatography, 111 Membrane contactor, 179 Cell immobilization, 271 GAL genes, 412 Metabolic burden, 238 Cell recycle, 25 Galactose, 412 Metabolic engineering, 530 Cephalexin, 171 Galactose-1-phosphate, 412 Metabolic flux analysis, 412 Channeling, 282 Galactosemia, 412 Metabolic flux modeling, 458 Chemical modification, 246 Gas phase, 164 Methylotrophic yeast, 74 Biotechnology and Bioengineering, Vol. 73, Pp. 542-543 (2001) Micro-fabricated surfaces, 324 PHB, 458 Salt activation, 231 Microfabrication, 379 Phenanthrene, 12 Scale-down model, 390 Microfluidics, 331 Phosphoenolpyruvate, 530 Selectivity, 433 Micropropagation, 253 Plant cell suspensions, 338 Serum deprivation, 211 Microspheres, 500 Plasmid stability, 95 Shear stress, 379 Monoclonal antibody, 338 Plasmids, 406 Sialic acid, 188 Monoglyceride, 493 Polydimethylsiloxane, 331 Sindbis virus, 211 Multiphase flow, 282 Poly(ethylene-glycol), 157 Single-chain antibody, 313 Murine myeloma cells, 188 Polymer, 135 Soil slurry, 12 Mycelia, 370 Porous media, 282 Sol-gel, 331 Myeloma, 261 Precipitation, 449 Sorbed-phase biodegradation, 12 Process control, 223 Soy protein, | n-octane, 44 Product inhibition, 179 Spacer, 313 Neural networks, 55 Productivity, 261 Sponges, 449 Nitrobenzene, 306 Protease, 484 Storage, 85 Nitrophenol, 306 Protein chip, 331 Subtilisin Carlsberg, 231 Non-steady-state model, 12 Protein conjugation, 510 Sugar esters, 104 Nucleotide sugar, 188 Protein crystals, 358 Supercritical antisolvent, 449 Protein delivery, 510 Surface expression, 313 Protein engineering, 203 Oligonucleotide probe, 400 Tensile strength, 370 Protein fibers, 295 Oligosaccharides, 203 Thermosensitive polymers, 510 Protein patterning, 331 On-line, 35 Threads, 449 Protein stability, 338, 358 On-line control, 476 Tissue engineering, 295 Proteolysis, 484 On-line sampling, 406 TNT, 271 Pseudomonas putida, 69 Organic solvents, 157, 231 Pseudomonas sp, 306 Toxicity, 69 Oxygen uptake, 347 Purification, 465 Tramsesterification, 157 Transglycosylation, 203 Transmembrane domain, : P-CAC, 522 (R)-a-monobenzoyl glycerol, 493 Two-phase system, 44 P-selectin, 500 Ralstonia eutropha, 458 2,3-butanediol, 390 Packed bed reactor, 493 Random mutagenesis, 433 + .4,6-trinitrotoluene, 271 Palladium—metal oxide semiconductor Reactor, 253 (Pd-MOS) sensor, 35 Recombinant lipase, 433 Variovorax sp, 306 Particles, 449 Recombinant protein, 146, 261 Vesicle, 135 Penicillin acylase, 426, 484 Reductive dechlorination, 476 Volume-averaging, 282 Pentachlorophenol, 476 Rhamnose promoter, 95 w-transaminase, 179 Perfusion, 379 rhBMP-2, 510 Water activity, 164 Periplasm, 484 Rhesus factor, 522 Wet spinning, 295 PGK] promoter, 238 Rolling, 111 Wine, 55 pH fluctuations, 390 PHAs, 458 Saccharomyces cerevisiae, 164, 238, 412 Yeast extract, 442 Phanerochaete chrysosporium, 69, 271 Saccharopolyspora erythraea, 370 Yield coefficient, 85 SUBJECT INDEX