Embedded Files
[40] "Influence of a Specificity of Fluorescent Antibody Probe on Flow Cytometric Analysis of the Stability of Antibody-producing Cells", S. W. Bae and G. M. Lee, J. Immunol. Meth., 189:83-88 (1996).
[39] "Influence of a Supplemental Carbon Source on Biodegradation of Pyridine by Freely Suspended and Immobilized Pimelobacter sp.", S. K. Rhee, G. M. Lee and S. T. Lee, Appl. Microbiol. Biotechnol., 44:816-822 (1996).
[38] "Isolation and Characterization of a Methylotroph Producing 3-Hydroxybutyrate-3-hydroxyvalerate Copolymer", P. Kim, S. W. Kim, G. M. Lee, H. S. Lee and J. H. Kim, J. Microbiol. Biotechnol., 5:167-171 (1995).
[37] "Enhancement of Monoclonal Antibody Productivity by Immobilized Hybridoma Cell Culture with Hyperosmolar Medium", S. Y. Park and G. M. Lee, Biotechnol. Bioeng., 48:699-705 (1995).
[36] "High Cell Density Perfusion Cultures of Anchorage-dependent Vero Cells in a Depth Filter Perfusion System", S. K. Choi, H. N. Chang, G. M. Lee, I. H. Kim and D. J. Oh, Cytotechnology, 17:173-183 (1995).
[35] "Stability of Transfectomas Producing Chimeric Antibody Against the Pre-S2 Surface Antigen of Hepatitis B Virus During a Long-term Culture", S. W. Bae, H. J. Hong and G. M. Lee, Biotechnol. Bioeng., 47:243-251 (1995).
[34] "Feasibility Study on the Use of Hyperosmolar Medium for Improved Antibody Production of Hybridoma Cells in a Long-term, Repeated-fed Batch Culture", S. Y. Park and G. M. Lee, Bioprocess Engr., 13:79-86 (1995).
[33] "Enhanced Specific Antibody Productivity of Hybridomas Resulting from Hyperosmotic Stress Is Cell Line-specific", G. M. Lee and S. Y. Park, Biotechnol. Lett., 17:145-150 (1995).
[32] "Feasibility Study on the Use of Calcium Alginate-entrapped Hybridoma Cells for IgM Production", S. J. Kim, B. K. Han and G. M. Lee, Bioprocess Engr., 12:65-70 (1995).
[31] "Monoclonal Antibody Production Using Free-suspended and Entrapped Hybridoma Cells: A Comparative Study", G. M. Lee and B. O. Palsson, Biotechnology and Genetic Engineering Reviews, 12:481-505 (1994).
[30] "Enhanced Specific Antibody Productivity of Calcium Alginate-entrapped Hybridoma Is Cell Line-specific", G. M. Lee, S. J. Kim and B. O. Palsson, Cytotechnology, 16:1-15 (1994).
[29] "Biodegradation of Pyridine by Freely Suspended and Immobilized Pimelobacter sp.", S. T. Lee, S. K. Rhee and G. M. Lee, Appl. Microbiol. Biotechnol., 41:652-657 (1994).
[28] "Comparison of Cell Disruption Methods for Determining b-Galactosidase Activity Expressed in Animal Cells", J. H. Shin, G. M. Lee and J. H. Kim, Biotechnol. Techniques, 8:425-430 (1994).
[27] "Microencapsulated Human Bone Marrow Cultures: a Potential Cell Culture System for the Outgrowth of Hematopoietic Progenitor Cells", M. G. Levee, G. M. Lee, S. H. Paek and B. O. Palsson, Biotechnol. Bioeng., 43:734-739 (1994).
[26] "Stability of Antibody Productivity Is Improved When Hybridoma Cells Are Entrapped in Calcium Alginate Beads", G. M. Lee and B. O. Palsson, Biotechnol. Bioeng., 42:1131-1135 (1993).
[25] "Effect of Fixation Temperature on Flow Cytometric Measurement of Intracellular Antibody Content of Hybridoma During a Batch Culture.", G. M. Lee, A. S. Chuck, and B. O. Palsson, Biotechnol. Techniques, 7:271-276 (1993).
[24] "Expansion of Human Bone Marrow Progenitor Cells in a High Cell Density Continuous Perfusion Systems", B. O. Palsson, S. H. Paek, R. M. Schwartz, M. Palsson, G. M. Lee, S. Silver, S. G. Emerson, Bio/Technology, 11:368-372 (1993).
[23] "Cell Culture Conditions Determine the Enhanced Specific Antibody Productivity of Calcium Alginate Entrapped Hybridoma Cells", G. M. Lee, A. S. Chuck, and B. O. Palsson, Biotechnol. Bioeng., 41:330-340 (1993).
[22] "Characterization of Physiological Changes in Hybridoma Cells During Adaptation to Low Serum Media", G. M. Lee, J. M. Savinell, and B. O. Palsson, J. Microbiol. Biotechnol., 2:141-151 (1992).
[21] "Effect of Calcium Chloride Treatment on Hybridoma Cell Viability and Growth", G. M. Lee, B. K. Han, J. H. Kim, and B. O. Palsson, Biotechnol. Lett., 14:891-896 (1992).
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