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Biotechnology and Bioengineering INDEX TO VOLUME 92 Biotechnology and Bioengineering Author Index to Volume 92 Abdullah, N. Batorsky. A. Burg, M. Chase, H d, A.W.; Plopper, G.I ; See Schri Fusion Tags | Encapsulation of Adult Burrell, P.C. p fied h 1 Stem Cells Within > See O St environments Butz, J.A. Acker, J.P. ; See Mer See Kohli Bayer, R.J. Biichs, J. Al-Rubeai, MI. See Wart ; wee OS See Veraitch Beltrame, F. Cancedda, R. Albrecht, D. See Belt See J Canesi, B. Allen, M. See Belt see Ul e Carrea, G. Alphand, V. > oee S See Hilker, | Carrera, J. Alves, M.M. See S Se Per Cha, H.J. Andersen, A.Z. See M See K Benkovic, S.J. Cha, H.J. See N wee SE Bennett, G.N. Chang-Mateu, I.M See S See B Berney, M. Charles, P.T. »S I See Si Angepat, S. Bertoloni, G. Chase, H.A. Gy See S See A Bertucco, A. Chatterjee, S. S S Spi see Y Betenbaugh, M.J. Chen, A.K.-I Arakawa, H. S Kim, Y.K R M4 5 ) Betenbaugh, M.J. Autote, K. See Kra S Wa Bhunia, A.K. Baeza, J.A. See ‘ | Chen, C.-J. Bilgen, B. See H Chen, C.-Y. See Hs Chet, I. SE C Z Bill, J.R. Choi, LS. See B I See P Blackall, L.L. Chou, C. See O'Su See G > Blanch, H.W. Chow, V.S Banada, P.P. See Vor see Gor Bley, T. Chung, B.H. Bani-Yaghoub, M. »¢ rrits See Pa | R Boder, E.T. Cicek, N. M J.R.: Nields See Re Kappler. J.W Cimander, ( Noncovale MH¢ : See Jol \ N ( exed Witl Clarke, W.P. Baptista, L.1.R. Borje Lindstrom, E. See O'S See | See Rzhe« e Clifford, J.S. Barabino, G.A. Bratkovskaja, I. Legge, R See Bilgen, B S Ku J Hvdrowl Barken, K.B. Breuer, M. Modified See Jii »€ ( ner Bashir, R. Brooks, C. Cramer, S.M. S Ya See Ghose See G Basso, G. Brooks, R.P. Crovace, A. See Spi See | See Belt Biotechnology and Bioengineering. Vo Da Silva, N.A. Fawzi, N.J. Gorenflo, V.M. ; See Pecota, D.C., ; See Pfleger, B.F., 553 ; See Angepat, S., 472 da Silva, T.L. Fernandez-Lafuente, R. Grimm, L.H. ; Reis, A.; Kent, C.A.; Roseiro, J.C.; Hewitt, ; See Fernandez-Lorente, G., 773 : Kelly, S.; Volkerding, L.I.; Krull, R.;H empel C.J.: The Use of Multi-Parameter Flow Fernandez-Lorente, G. D.C.: Influence of Mechanical Stress and Cytometry to Study the Impact of Limiting : Ortiz, C.; Segura, R.L.; Fernandez-Lafuente Surface Interaction on the Aggregation of Substrate, Agitation Intensity, and Dilution R.; Guisan, J.M.; Palomo, J.M.: Purification Aspereillus niger Conidia, 879 Rate on Cell Aggregation During Bacillus of Different Lipases from Aspergillus niger Guadiz, A.A.E. licheniformis CCMI 1034 Aerobic by Using a Highly Selective Adsorption on : See Yuki, Y., 803 Continuous Culture Fermentations, 568 Hydrophobic Supports, 77 Guisan, J.M. Dasgupta, A. Ferret, E. ; See Fernandez-L« Hughey, R.; Lancin, P.; Larue, L.; Moghe, ; See Guyot, S., 403 Guisasola, A. P.V.: E-Cadherin Synergistically Induces Field, J.A. See Sin, G.. 600 Hepatospecific Phenotype and Maturation See Karri, S., 810 Gujarathi, N.P. of Embryonic Stem Cells in Conjunction Field, L.J. Linden, J.C.: Oxytetracycline Inactivation With Hepatotrophic Factors, 257 : See Schroeder, M > ative Reactive Oxygen Species de los Reyes, F.L. Fritsch, M. Nutrient Medium of Helianthus ; See Lou, I., 729 ; StarruB, J.; Loesche, A.; Mueller, S.; Bley s Hairy Root Cultures, 393 de Pablo, J.J. r.: Cell Cycle Synchronization of Guyot, S. ; See Nie, Y., 79 Cupriavidus necator by Continuous Ferret, E.: Gervais, P.: Responses of De Pauw, D.J.W. Phasing Measured via Flow Cytometry to Thermal ; See Sin, G., 600 635 Deshpande, R. Furstoss, R. ; See Kamei, D.1 : See Hilker, | Deshusses, M.A. Gordes, D. and ; See Kan, § See Jiirgen, B r Ultrasonic Devireddy, R.V. Garcia-Ochoa, F. Forces ; See Thirumala Gomez, I Prediction of Gas-Liquid Mass Hammes, F. Dias, J.M.L. Transfer Coefficient in Sparged See Looser © mo - Reis, M.A.M.: Tank Biore Hara-Yakoyama, C. Mathematical Modelling of a Gass, J. Ne Yt Al Y Mixed Culture Cultivation Process for the hren, J.; Strohn Hassan, S. Production of Polyhy droxybutyrate, 209 ‘ntatior N.; Willoughby, N Dopson, M. and Pharmacolog artic Density Distribution See Rzhepishevska Endopeptidase Fron tf Expanded Bed Adsorbents, 663 Dual,J . Implications for Hauer, B. - See Haake, A 674 See Cl Dunn, S.M. Gayton, M. Hecker, M. see Gey : See Laska See Jii Edwards, J.S. Gervais, P. Hecker, M. See Merritt, J - See Guy See Jiir Egli, T. Gervais, P. Heinemann, M. see I IOSCT \ 6Y See Mille, Y.. Kiimmel, A.:; R.: Panke, S.: In Ehren, J. Gevertz, J.L. Silico nor cale Reconstruction and See Gass, J., 674 Dunn, S.M.: Roth, C.M.: Mathematical Va idation yt the if ip c/¢ i » {u7eus Elezzabi, A.Y. Model of Real-Time PCR Kinetics, Metaboloilc : See Kohli, V., 889 Ghose, S. Hempel, D.C. Emanuelsson, E.A.C. Allen, M.; Hubbard, B.; Brooks, C.; Cramer - See Grimn Baptista, I.1.R.: Mantalaris, A.; Livingston, S.M.: Antibody Variable Region Hempel, D.C. \.G.: Strain Stability in Biological Systems Interactions with Protein A: Implications ; See Hille Treating Recalcitrant Organic Compounds, for the Development of Generic Purification Hernanz, D. R43 Processes, 665 See Leon, R.., Etschmann, M.M.W. Gimble, J.M. Hewitt, C.J. : Sell, D.; Schrader Production of : See Thirumala, S See da Silva, Phenylethanol and 2-Phenylethylacetate Glahder, J. Hilker, I. from L-Phenylalanine by Coupling Whole- : Norrild, B.; Persson, M.B.: Persson, B.R.R Wohlgemuth, R.; Alphand, V.; Furstoss, R Cell Biocatalysis with Organophilic Transfection of HeLa-cells With pEGFP Microbial Transformations 59: First Pervaporation, 624 Plasmid by Impedance Power-Assisted Kilogram Scale Asymmetric Microbial Faid, K. Electroporation, 267 Baeyer-Villiger Oxidation with Optimized ; See Bani-Yaghoub, M., 336 Gomez, E. Productivity Using a Resin-Based in situ Fan, Z. - See Garcia-Ochoa, Ff SFPR Strat McBride, J.E.; van Zyl, W.H.; Lynd, L.R.: Gonzales, J. Hille, A. Theoretical Analysis of Selection-Based ; See Warnock, D., 831 Neu, T.R.; Hempel, D.C.; Horn, H Strain Improvement for Microorganisms Gorenfio, V.M. Oxygen Profiles and Biomass Distribution With Growth Dependent Upon : Chow, V.S.: Chou, C.; Piret, J.M.: Optical in Biopellets of Aspergillus niger, Extracytoplasmic Enzymes, 35 Analysis of Perfusion Bioreactor Cell 6\4 Fang, H.H.P. Concentration in an Acoustic Separator, Horn, H. ; See Zhang, T., 514 See Hille, A., 614 AUTHOR INDEX Hsu, S.-h. Kennes, C. wee, G.K. - Chen, C.-Y.; Lu, P.S.; Lai, C.-S.; Chen, € See Jin, Y., 462 : Maheshri, N.; Kaspar, B.; Schaffer, D.V Oriented Schwann Cell Growth on Kent, C.A. PEG Conjusg ition Moderately Protects Microgrooved Surfaces, 579 : See da Silva, Adeno-Asso ited Viral Vectors Against Hubbard, B. Khosla, C. Antibody Neuts See Ghose. S.. 665 See Gass, J., 67 Hughey, R. Kim, M.G. See Dasgupt)a \ : See Park, lerapetritou, M.G. Kim, Y.K. See Sharma, N.S Isaacs, I. H.J.: Production See Gass. J.. 674 nalysis of Secreted Ito, T. yetin Glyce ytp rotein in d Droso 182 Ce Jin, Y. Kinealy, K. See Wart egradation of Kita, Y. Biotrickling See Qe Johansson, L. Kiyono, H. egge, Lindsko See Yuki, } 5 see Clift Koch, A. Lehmann, J. See Jiirgen. B 7 See Sc Kohli, V. emos, P.C. D Jiirgen, B. ung, A. Bark Biopreservati Kovar, K. See | ser, V Krambeck, F.J. Betenb Mode tf N-I Krull, R. Ss Gil Kulys, J. With Diff Caty alysed | Liden, G. Kalbfub, B. Methyl Syr te, | See Jol See Wickr Kiimmel, A. Linden, J.C. Kamei, D.T. See Gu Lindskog, A See Liu, Y. see Z Liu, Y.-S. Kan, E. See Yai D arue, I Livingston, A.G. I See Dasgupta, A 5 See I Ti ne Vapor aska, M.E. Loesche, A. Kappler, J.W. ID rooOKs, K.> t sa ’ n, iV lal cc tEfr Looser, V. ection of auffenburger, logical State of F Metl See Kame gous Membrane Anaerobic auritsen, F.R. bon-Limited Fedbatch Kaspar, B. See Andersen See Lee, G.K awrie, G. Keasling, J.D. See Leung Substrate Uptake Tests See Pflege Le Pecq, J.-B. FISH Show Differences in Keenan, B.G. See Pate f Bulking and Non Leon, R. Bulking 1 Sludge, 729 Keller, M. La, PS. See Lox - See Hs Kelly, S. Lund, A.W. See Grimm See Ba AUTHOR INDEX Lynd, L.R. Naumann, T.A. Park, J.P. : See Fan, Z., 35 ; Savinov, S.N.; Benkovic, S.J.: Engineering ; Lee, K.-B.; Lee, S.J.; Park, T.J.; Kim, ; See Samorski, M., 61 an Affinity Tag for Genetically Encoded M.G.; Chung, B.H.; Lee, Z.-W.; Choi, Maheshri, N. Cyclic Peptides, 82¢ I.S.; Lee, S.Y.: Micropatterning Proteins on ; See Lee, G.K., 24 Neild, A. Polyhydroxyalkanoate Substrates by Using Mantalaris, A. See Haake, A., 8 the Substrate Binding Domain as a Fusion ; See Emanuelsson, E.A.C Neu, T.R. Partner, 160 Marrack, P.C. See Hille, A., 614 Park, T.J. : See Boder, E.T., 485 Nie, Y. ; See Park, J.P., 160 Marten, M.R. de Pablo, J.J.; Palecek, S.P.: Platelet Patel, A. : See Raman, B., Cryopreservation Using a Irehalose and Nakhla, G.; Zhu, J.: Detachment of Multi Martin, B.D. Phosphate Formulation, 79 Species Biofilm in Circulating Fluidized - See Soto, C.M Niebruegge, S. Bed Bioreactor, 42 Maskow, T. ; See Schroeder, Patel, S. Stockar, U.v.: How Reliable are Nields, A.W. Mehta-Damani, A.; Shu, H.; Le Pecq, J.-B Thermodynamic Feasibility Statements of See Bode \n Analysis of Variability in the Biochemical Pathways?, 223 Nielsen, K.F. Manufacturing of Dexosomes: Implications Mastrogiacomo, M. : See Johansson ent of an Autologous Therapy, : See Beltrame, F., 189 Nielsen, L. McBride, J.E. ; See Leung, A.., Patterson, C.H. See Fan, Z.., Nishimura, S. See Soto, C.M Mealing, G. See Ogawa, Pecota, D.C. ; See Bani- Yaghoub, M., 336 Norrild, B. ; Da Silva, N.A.: Evaluation of the Mehta-Damani, A. ; See Glahder, J ycline Promoter System for ; See Patel, S Nussinovitch, A. yn in Merritt, J. See Zohar-Perez, ; Butz, O’Sullivan, C.A. Burrell, P.C.; ¢ W.P.: Blackall ves, M.M L.L.: Structure of a Cellulose Degrading gradation of Oleic and PCR Ce Bacterial Community During Anae vidence of Mass Transfert Mille, Y. Digestion s Caused by Long Chain Fatty Odde, D.J. ilation onto the Anaerobic Osmotic Stress See Yaakov Microorganisms Ogawa, Y. Persson, B.R.R Prediction Test ; Morikawa, N.; Ohkubo-Suzuki, A.:; Mi See Glahder, J Millitzer, M. S.; Arakawa, H.: Kita, Y.: Nishimura, S$ Persson, M.B. Wenzig, f W.: Process Modeling Epoch-Making Application of Discharge See Glahder, J f In Situ-Adsorption of a Bacterial Lipase Plasma Phenomenon to Gene fer, 865 Peukert, W. Ogunnaike, B.A. See Millitzer, Miyoshi, S. See Merritt, J., 519 Pfleger, B.F. - See Ogawa Ohkubo-Suzuki, A. Fawzi, N.J.: Kea Optimization of Moghe, P.V. See Ogawa. Y.. 865 DsRed Production in herichia Col ; See Dasgupta Okabe, S. f Ribosome Binding Site Monette, R. : See Savichtcheva, O anslation Efficiency, See Bani-Yaghoub Okano, T. Moon, H.M. See Wada, K.-I., 410 see Park J 5 Okayama, N. Morikawa, N. ; See Savichtcheva, O., Pires, O.C. See Ogaw Oleszkiewicz, J.A. See Pereira Mota, M. : See Rezania, B., 900 Piret, J.M. See Pereira, M Oliveira, R. See Angepat, $ Mueller, S. ; See Dias, J.M.L., 209 Piret, J.M. See Fritsch, M Olsen, L.F. see Gore! Munro, P. ; See Andersen, A.Z., 740 Plopper, G.E. See Leung, A., 45 Ortiz, C. ee Batorsky Muthuvijayan, V. ; See Fernandez-Lorente, G., 7 Pujar, N.S. ; See Raman, B., Palecek, S.P. : See Laska, M.I Miiller-Newen, G. ; See Nie, Y ry, <. See Samorski, M., 61 Palomo, J.M. : See Bani-Yaghoub, M., 336 Nahmias, Y. ; See Fernandez-Lorente, G Qian, J. ; Schwartz, R.E.; Verfaillie, C.M.; Odde Panke, S. ; See Warnock, D., D.J.: Laser-Guided Direct Writing for : See Heinemann, M., 850 Quarto, R. Tnhor ee-Dimensional Tissue Engineering,§ Park, J.-S. : See Beltrame ; Seo, H.-S.: Yum, J.-S.; Moon, H.M.; Lee, J Radziwill, G. Nakhla, G. The Influence of N-Glycosylation and ( See Haake, A., 8 ; See Patel, A., 427 Terminal Sequence on Secretion of HBV Raman, B. Nandakumar, M.P. Large Surface Antigen From S. cerevisiae ; Nandakumar, M.P.; Muthuvijayan, V ; See Raman, B., 384 250 Marten, M.R.: Proteome Analysist o Assess AUTHOR INDEX Schweder, T. Spilimbergo, S. See Jiirgen, B Bertucc Schweder, T. Ramaswamy, Y. See Jiirget See Leu \ ; Secundo, F. ISpe Reichl, U. rea no- and Disaccharides Starrub, J. See Wickramas R., 199 nhance the Activity and See Fi Reis, A. Ena select \ Burk eric cia Stegemann, J.P. See da S rl y¢ Lipa I rear olvent but D t See B Reis, M.A.M. nificant ffect its nformati Stevenson, T. S T)iax M ) 132 i) ee W Rezania, B. Segura, R.L. Stockar, U.v. See Fernande “1 99 See M Sell, D. Strohmeier, G. See Etsc ! 1.M.\ 4 See ( Seo, H.-S. Sun, M. Ricci, M.S. See Park, J 2 See Y See K D.1 . Seo, J.H. Sun, Y. Rogers, P.L. ; J Cha. H.J.: B See Shi, ( S ( ( \. f 1 B ( x Taniguchi, A Rosche, B. Fu | R \ Based B See W See ( \ Insec le Expr 1 [ Tao, Y. Roseiro. J.¢ m ( » S S ¢ Serafim, L.S. rhirumala, S. Roth, C.M. See D M.L.. 2 ; See ( 34 Shalel-Levanon, S. Ruediger, MI. K.-Y.: B Eft ‘rca Tiss See S FN Expre f I Thom, V. Ruinatscha, R. R 1 ( en Re i ¢ S See H M hurow, K. Rzhepishevska, O.I. \ See lidor, B. Sharma, N.S. See K litchener-Hooker, N p See H Samorski, M. robisch, S. \4 ‘ S 32 S J Shi, Q.-H. lobisch, S. , : S. uf fom, E.M. Mf Ch 64 S “ San, K.-Y. Shin, H.S. Tomiya, \ S S j S hk S K Savichtcheva, O Shu, H. rrau, M. P S } S 23 - | Sierra-Alvarez, R. rremblay, R. See Ka S_8 See | Sikorska, M. ruevinen, O.H See B Yag 33¢ S I Silfversparre, G. Udaka, S. Savinoy, S.N. S S See N 4... 8 Sin, G. Vilchez, C. Scaglione, S. S S Volkerding, 1.1 Schaffer, D.V. See S 1 Valastro, ¢ Schrader, J. 1 ste der Aerobic (¢ litior See B S SC Mi “ 1 60 van Zyl, W.H. Schroeder, M. Smets, B.F. See | N See Leu ku Vanrolleghem, P.A. Burg I M.: I ! J Soto, C.M. S i) Vardar, G. Ss Yaak N See S AUTHOR INDEX Veiga, M.C. Dysfunction and Multi-Targeting to ICAM ; See Jin, Y., 462 | and Sialyl Lewis”, 780 Veraitch, F.S. Wenzig, E. Al-Rubeai., nhanced Cell Growth in See Mi NSO Cells Expressit minoglycosid Werner, A. PI I 1 wit : See Schroeder, M I é Wickramasinghe, S.R. Apoptosis, 5 KalbfuB, B.; Zimmerm Verfaillie, C.M. I - See Yaakov 4 a Vidziunaite, R. Virus Con See Kulvs. J.. 124 Willbold, E. Vila, M. See Sc edet See Leon, R., 695 Willoughby, N. Villanueva, F.S. See Hassat See Weller, G.E.R ( Wohlgemuth, R. Viti, F. See Hilker, | See Beltran ) Wood, T.K. Yum, J.-S. Voicu, R. See Leungsaku + 1¢ See P - See Bani- Yaghoub 33 Wood, T.K. Zhang, T. Voogt, J.N. See Vardar. G.. 652 ' Wiimpelmann, M. : See Jiirgen, B., 7 Wiimpelmann, M. Xu, H. Zhou, X. See Kamei, D.T., 74 S a Xu, L. Zhu, J. < Wada. I 1 S Pat Yan, B. Zimmerman HSP70B’ Pt te I ells, 41( See War Kk. | 3 Met Wagner, W.R. Yang, L. I See Weller E.R S( Banada P.; Liu a, A Warnock, D. Bast R juctivity and pH D Y ) I Detect Zimmermann, A. Stressed / } \ f 685 Se k Yang, S.-T. Zohar-Perez, C. See Bai, Y 3 Chet, I.; Nuss Yarmush, M.L. 3 See Sharma, N 3 Carrie Weller, G.E.R. Yeo, J.S. Zopf, D. Villanueva ; I E.M.: Wagner R See Se I.H 66 See W ck, D Yin, H. Zweigerdt, R. See Leungsakul, | ( see 3S AUTHOR INDEX Biotechnology and Bioengineering Subject Index to Volume 92 AAV, 24 an}d lidda itilis, 183 DNA immobi acett ogens OOD carbon limitation, 5 Drosophila $2 5 ardiomyocytes, 92( Dunaliella arotenoid, 695 artilage tissue engineering, 907 E-cadherin, 25 eliac Sprue, 674 EBPR, 17 ell adhiegsi on mNoel ecu | Ss su E. coli, 69 568 electric DNA ybic COD stor: electro pulsat ell membrane electroporatio itation intensity ‘Il physiology elemental iror pollution contre elemental head elicitor, 393 elution pH, embryoid be embryonic emuision I enantioselect endothelia bridisation, 871 irn d 6-)-carb} oxyfl}u orescei n 1 ctroscopy, 438 requency functiona ylementation, 519 fusion inc xOdy, 166 G418, 589 GAO, 173 gas-liquid sys gene deletion ed oxvgen zene expression DNA hybridizati genetic selectic gene transfer, 865 Lisstte ria m?o nocytot genes, 668855 2-phenylethanol, 624 genome-scale metabolic network, live/dead staining, 356 2-phenylethylacetate, 624 gliadin, 674 liver tissue engineering, 129 pall rings, 462 glucose limiting, 568 PAO, 173 glucose 6-phosphate dehydrogenase, 519 maintenance coefficient, 729 particle density distribution, 663 gluten, 674 mammalian cell culture, 472, 514, PCR efficiency, 346 glycoengineering, 831 manipulation, 8 PEG, 24 glycoform, 711 marker genes, 277 peptide loading, 485 glycolysis, 91, 223 mass transport, 614 perfusion, 472, 514 glycoprotein, 452 mathematical model, 711 permeabilization, 267, 889 glycoprotein remodeling, 831 mathematical modeling, 209, 346 permeable reactive barriers, 810 glycosy lation, 831 maturation, 257 pH 173. 462. 685. 740. 900 glycosyltransferase, 83 membrane, 479 PHA, 160 growth cone, 336 membrane inlet mass spectrometry, 740 phosphate, 79 growth rate, 729 mesenchymal stem cells, 492 phosphate limitation, 541 guidance, 336 metabolic engineering, 71] phosphate removal, 173 gus gene, 117 metabolic flux analysis, 32 physical properties, 54 metabolic modeling, 729 physiological state, 69 handling, 8 metabolic pathways, 91 phytoene, 695 1epatic differentiation, 257 metabolism, 589 hepatocytes 32] metallic iron, 810 heterodimer expression in yeast, 485 methane, 871 high throughput sequencing, 519 methanogenic activity, 15 HSP70B’ promoter, 410 methoxyphenol, 652 human erythropoietin, 452 methyl jasmonate, 393 human influenza A virus, 199 methyl syringate, 128 hydrogel, 934 microaerobic conditions, 147 hydrogen sulfide, 462 microbubbles, 780 p| olyity unsatiutruraalte hydrogen-bonded networks, microcontact printing, 160 posiuoning hydrophobicity, > 3] microencapsulation, 45 microfiltration, 199 immobilization, 137 microgroove, 579 immobilized metal affinity chromatography, 501 micropatterning, 129 predictive in situ product removal, 624 microtiter plate, 61 primary cells, in situ-adsorption, 789 mineral tailings, 559 in situ-product removal, 789 mixed cultures, 209 process control in-silico, 223 mixing time, 907 process modeling, 789 inactivation, 447 MLS-pulse sequence, 267 process optimization, 472 inclusion compounds, 532 molecular modeling, 748 process variability, 238 inflammation, 780 molecular phylogeny, 559 prolyl endopeptidase, 674 insulin peptide, 803 propidium iodide, 69 integrated bioprocess, 624 N-glycan structure, 452 protein, 643, 789 integrative recombinant, | N-glycosylation, 250 protein A chromatography, 665 intein, 820 N-linked glycosylation, 7 protein engineering, 485 2 interfacial activation, 231 NADH, 61 protein-based bio-insecticide, 166 interfacial activation with hydrophobic supports, naphthalene, proteome, 2 3 neo. 589 proteome analysis, 384 intracellular and extracellular pH, 447 neurite, 336 pyruvate decarboxylase, 183 iodide, 124, 128 neutralizing antibody, 24 pyruvate metabolism, 14 neutralizing epitope, 24 kinetics, 900 nitrite, YOO QRT-PCR, 147 kinetics models reconstruction, 91 nitrogen limiting, 568 quantitative FISH, 729 kluyveromyces marxianus, 11 nitrogen source, 277 nonlinear dynamics, 91 R-2-hydroxy-4-phenylbutyric acid, 137 L-HBVsAg, 250 NSO myeloma cells, 589 R-phenylacetylcarbinol, 183 laccase, 128, 124 nutrient limitation, 384 radial flow chamber, 780 lactate, 147 Ralstonia é utropha 635 >> lactate dehydrogenase, 137 oligosaccharides, 711 reaction Gibbs energy, 223 lactic acid, 223 omega-3 fatty acids, 532 reactive oxygen species, 393 lactic acid bacteria, 740 on-line, 514 recalcitrant compounds, 843 laminin, 579 on-line monitoring, 61 recombinant membrane protein, 69 LCFA, 15 optical forcess, 129 regiospecific oxidation, 652 Lepidoptera-specific activity, | optimal experimental design (OED), 600 removal of polyhistidine tails, 501] linear programming optimization, 321 organophilic pervaporation, 624 reporter gene assay, 410 lipase, 789 osteoconductive grafts, 189 residence time distribution (RTD), 907 lipase affinity by hydrophobic supports, 7 oxidative burst, 393 resin-based in situ SFPR, 702 lipase from Burkholderia cepacia, 438 oxygen microelectrode, 614 respirometry, 600 lipase purification, 773 oxytetracyline, 393 RNA isolation, 299 SUBJECT INDEX 16S rDNA, 173 substrate uptake, 729 two-phase system, 695 saturation mutagenesis, 416 sugars, 438, 889 saturation mutagenesis cresols, superpore, 643 ultrafiltration, 199 scale-up, 308, 92¢ surface plasmon resonance, 160 ultrashort laser pulses, 889 scattered light, 61 survival rate, 356 ultrasound, 8, 780 schwann cells, 579 synthetic neural network, 336 secondary structure, 438 systems biology, 91 vaccine, 803 secretion efficiency, 250 variable regior selection, 35 t-PA, 472 viability, 568 separator, 514 tet-promoter, | 17 viral vector serratia mari tetracycline-regulatable promoter, virus concentration shear, 907 117 virus purification shikimic acid erapeutic half-lives, 748 VOC contro small colony variant, 850 thermodynamic feasibility, 22 sol—gel engineering, 231 thermogravimetric analysis, 2 water transpo solid porogenic a; tissue engineering, 492 specific microbial ; tt olerance 7 Staphylococcus aure toluene, 364 starvation, 384 xylene, 652 stationary phase, 384 xylene mono stirred tank bioreactors storage metabolism, 600 yeast displa Strain stability, 845 transitional pH yeast promot 79 stressed ba imitatic yeasts, 4 YFP, 61 77 SUBJECT INDEX

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