| 1 |
A universal fixation method based on quaternary ammonium salts (RNAlater) for omics-technologies: Saccharomyces cerevisiae as a case study
van Eijsden RGE, Stassen C, Daenen L, Van Mulders SE, Bapat PM, Siewers V, Goossens KVY, Nielsen J, Delvaux FR, Van Hummelen P, Devreese B, Willaert RG
Biotechnology Letters, 35(6), 891, 2013 |
| 2 |
Role of extracellular protease in nitrogen substrate management during antibiotic fermentation: a process model and experimental validation
Bapat PM, Sinha A, Wangikar PP
Applied Microbiology and Biotechnology, 91(4), 1019, 2011 |
| 3 |
Reducing the variability of antibiotic production in Streptomyces by cultivation in 24-square deepwell plates
Siebenberg S, Bapat PM, Lantz AE, Gust B, Heide L
Journal of Bioscience and Bioengineering, 109(3), 230, 2010 |
| 4 |
Model-based optimization of feeding recipe for rifamycin fermentation
Bapat PM, Padiyar NU, Dave NN, Bhartiya S, Wangikar PP, Dash S
AIChE Journal, 52(12), 4248, 2006 |
| 5 |
A cybernetic model to predict the effect of freely available nitrogen substrate on rifamycin B production in complex media
Bapat PM, Sohoni SV, Moses TA, Wangikar PP
Applied Microbiology and Biotechnology, 72(4), 662, 2006 |
| 6 |
Structured kinetic model to represent the utilization of multiple substrates in complex media during rifamycin B fermentation
Bapat PM, Bhartiya S, Venkatesh KV, Wangikar PP
Biotechnology and Bioengineering, 93(4), 779, 2006 |
| 7 |
Optimization of Rifamycin B fermentation in shake flasks via a machine-learning-based approach
Bapat PM, Wangikar PP
Biotechnology and Bioengineering, 86(2), 201, 2004 |
| 8 |
An optimized method for Aspergillus niger spore production on natural carrier substrates
Bapat PM, Kundu S, Wangikar PP
Biotechnology Progress, 19(6), 1683, 2003 |
