| On metabolic shift to lactate consumption in fed-batch culture of mammalian cells BC Mulukutla, M Gramer, WS Hu Metabolic engineering 14 (2), 138-149, 2012 | 193 | 2012 |
| Glucose metabolism in mammalian cell culture: new insights for tweaking vintage pathways BC Mulukutla, S Khan, A Lange, WS Hu Trends in biotechnology 28 (9), 476-484, 2010 | 177 | 2010 |
| Regulation of glucose metabolism–a perspective from cell bioprocessing BC Mulukutla, A Yongky, T Le, DG Mashek, WS Hu Trends in biotechnology 34 (8), 638-651, 2016 | 144 | 2016 |
| Systems analysis of N-glycan processing in mammalian cells P Hossler, BC Mulukutla, WS Hu PloS one 2 (8), e713, 2007 | 140 | 2007 |
| Identification and control of novel growth inhibitors in fed‐batch cultures of Chinese hamster ovary cells BC Mulukutla, J Kale, T Kalomeris, M Jacobs, GW Hiller Biotechnology and Bioengineering 114 (8), 1779-1790, 2017 | 109 | 2017 |
| Multiplicity of steady states in glycolysis and shift of metabolic state in cultured mammalian cells BC Mulukutla, A Yongky, S Grimm, P Daoutidis, WS Hu PLoS One 10 (3), e0121561, 2015 | 87 | 2015 |
| Bistability in glycolysis pathway as a physiological switch in energy metabolism BC Mulukutla, A Yongky, P Daoutidis, WS Hu PloS one 9 (6), e98756, 2014 | 83 | 2014 |
| Small-molecule control of antibody N-glycosylation in engineered mammalian cells MM Chang, L Gaidukov, G Jung, WA Tseng, JJ Scarcelli, R Cornell, ... Nature chemical biology 15 (7), 730-736, 2019 | 68 | 2019 |
| Developing genomic platforms for Chinese hamster ovary cells A Kantardjieff, PM Nissom, SH Chuah, F Yusufi, NM Jacob, BC Mulukutla, ... Biotechnology advances 27 (6), 1028-1035, 2009 | 68 | 2009 |
| Metabolic engineering of Chinese hamster ovary cells towards reduced biosynthesis and accumulation of novel growth inhibitors in fed-batch cultures BC Mulukutla, J Mitchell, P Geoffroy, C Harrington, M Krishnan, ... Metabolic Engineering 54, 54-68, 2019 | 54 | 2019 |
| Dissecting N-glycosylation dynamics in Chinese hamster ovary cells fed-batch cultures using time course omics analyses M Sumit, S Dolatshahi, AHA Chu, K Cote, JJ Scarcelli, JK Marshall, ... IScience 12, 102-120, 2019 | 53 | 2019 |
| Reaching the depth of the Chinese hamster ovary cell transcriptome NM Jacob, A Kantardjieff, FNK Yusufi, EF Retzel, BC Mulukutla, ... Biotechnology and bioengineering 105 (5), 1002-1009, 2010 | 44 | 2010 |
| Regulation of metabolic homeostasis in cell culture bioprocesses CM O'Brien, BC Mulukutla, DG Mashek, WS Hu Trends in biotechnology 38 (10), 1113-1127, 2020 | 34 | 2020 |
| Mechanism for multiplicity of steady states with distinct cell concentration in continuous culture of mammalian cells A Yongky, J Lee, T Le, BC Mulukutla, P Daoutidis, WS Hu Biotechnology and bioengineering 112 (7), 1437-1445, 2015 | 23 | 2015 |
| Method of cell culture GW Hiller, BC MULUKUTLA | 8* | 2015 |
| Forecasting and control of lactate bifurcation in Chinese hamster ovary cell culture processes J Schmitt, B Downey, J Beller, B Russell, A Quach, D Lyon, M Curran, ... Biotechnology and Bioengineering 116 (9), 2223-2235, 2019 | 6 | 2019 |
| Production of butyrate and branched‐chain amino acid catabolic byproducts by CHO cells in fed‐batch culture enhances their specific productivity C Harrington, M Jacobs, Q Bethune, T Kalomeris, GW Hiller, BC Mulukutla Biotechnology and Bioengineering 118 (12), 4786-4799, 2021 | 5 | 2021 |
| Cells having reduced BCAT1 GW Hiller, JJ Mitchell, BC Mulukutla, PM Pegman US Patent 10,738,334, 2020 | 2 | 2020 |
| Method of cell culture GW Hiller, BC Mulukutla US Patent App. 16/722,541, 2020 | 1 | 2020 |
| Systems analysis of glucose metabolism of cultured mammalian cells BC Mulukutla University of Minnesota, 2012 | 1 | 2012 |
