1991 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010
Variation of swimming speed enhances the chemotactic migration of Escherichia coli,
Uday Bhaskar, R.V.S., Karmakar, R., Deepika, D., Tirumkudulu, M.S., Venkatesh, K.V. Systems and Synthetic Biology 9 (3), 85-95, 2015.
Implementation of integral feedback control in biological systems
Somvanshi, P.R., Patel, A.K., Bhartiya, S., Venkatesh, K.V., Wiley Interdisciplinary Reviews: Systems Biology and Medicine, 2015.
Variation in swimming speed of Escherichia coli in response to attractant
Deepika, Deepti, Karmakar, Richa, Tirumkudulu, Mahesh S., Venkatesh K. V., Archives of Microbiology, 197 (2) 211-222, 2015.
Quorum Sensing Biosensors,
N Rai, R Rai, KV Venkatesh, Quorum Sensing vs Quorum Quenching: A Battle with No End in Sight, 173-183, 2015
Quorum Sensing in Competence and Sporulation
N Rai, R Rai, KV Venkatesh, Quorum Sensing vs Quorum Quenching: A Battle with No End in Sight, 61-64, 2015
Control of cholesterol homeostasis by entero- hepatic bile transport–the role of feedback mechanisms
Shekhar Mishra, Pramod R Somvanshi and K.V.Venkatesh, RSC Advances, 2014, 4, 58964
Motor characteristics determine the rheological behavior of a suspension of microswimmers, of microswimmers
Richa Karmakar, Ranjit Gulvady, Mahesh S. Tirumkudulu and KV Venkatesh, Physics of Fluids, 26, 2014.
Analysis of osmoadaptation system in budding yeast suggests that regulated degradation of glycerol synthesis enzyme is key to near-perfect adaptation
AK Patel, S Bhartiya, KV Venkatesh, Systems and Synthetic Biology, 8(2), 141-154, 2014
A G protein subunit translocation embedded network motif underlies GPCR regulation of Calcium oscillations
L Giri, AK Patel, WKA Karunarathne KV Venkatesh, N Gautam, Biophysical Journal, 107(1) 242-254, 2014.
Study of CFU for individual microorganisms in mixed cultures with a known ratio using MBRT
SK Nandy and KV Venkatesh, AMB Express 4 (1), 1-7, 2014.
Study on the Effect of Glucose on Trg Receptor of Escherichia coli Using Soft Agar Experiment
R Karmakar, MS Tirumkudulu, KV Venkatesh, Indian Chemical Engineer, 1-6, 2014.
Stochastic galactokinase expression underlies GAL gene induction in a GAL3 mutant of Saccharomyces cerevisiae,
RK Kar, M Qureshi, AK DasAdhikari, T Zahir, KV Venkatesh, PJ Bhat, FEBS Journal 281 (7), 1798-1817, 2014.
Non-coding RNA interact to regulate neuronal development and function
BR Iyengar, A Choudhary, MA Sarangdhar, KV Venkatesh, CJ Gadgil, Beena Pillai, Frontiers in cellular neuroscience 8, 2014.
Steady state analysis of the genetic regulatory network incorporating underlying molecular mechanisms for anaerobic metabolism in Escherichia coli,
S Srinivasan, KV Venkatesh, Molecular BioSystems, 2014.
A conceptual review on systems biology in health and diseases: from biological networks to modern therapeutics,
PR Somvanshi, KV Venkatesh, Systems and Synthetic Biology, 1-18, 2014
The structure of dynamic GPCR signaling networks, 7PR O'Neill, L Giri, WK Karunarathne, AK Patel, KV Venkatesh, N Gautam, Wiley Interdisciplinary Reviews: Systems Biology and Medicine 6 (1), 115-123, 2014.
GAL regulon of Saccharomyces cerevisiae performs optimally to maximize growth on galactose,
P Malakar, KV Venkatesh, FEMS yeast research, 14 (2), 346-356, 2014
A conceptual review on systems biology in health and disease: From Biological networks to potential therapeutics
Pramod R Somvanshi and K.V. Venkatesh,, Perspectives in systems biology, Systems and Synthetic Biology, Springer. Aug 2013.
Optical control demonstrates switch-like PIP3 dynamics underlying the initiation of immune cell migration,
WKA Karunarathne, L Giri, AK Patel, KV Venkatesh, N Gautam, Proceedings of the National Academy of Sciences 110 (17), E1575-E1583, 2013.
Analysis of osmoadaptation system in budding yeast suggests that regulated degradation of glycerol synthesis enzyme is key to near-perfect adaptation,
AK Patel, S Bhartiya, KV Venkatesh, Systems and Synthetic Biology, 1-14, 2013
Lysine overproducing Corynebacterium glutamicum is characterized by a robust linear combination of two optimal phenotypic states, M Rajvanshi, K Gayen, KV Venkatesh, Systems and synthetic biology 7 (1-2), 51-62, 2013.
Characterization of burden on growth due to the nutritional state of media and pre-induced gene expression,
P Malakar, KV Venkatesh, Archives of microbiology 195 (4), 291-295, 2013.
Flux Balance Analysis, M Rajvanshi, KV Venkatesh, Encyclopedia of Systems Biology, 749-752, 2013.
Ultrasensitivity, KV Venkatesh, Encyclopedia of Systems Biology, 2309-2311, 2013.
Amplification, KV Venkatesh, Encyclopedia of Systems Biology, 22-23, 2013
Hill Equation, PR Somvanshi, KV Venkatesh, Encyclopedia of Systems Biology, 892-895, 2013
Genetic Regulation Mechanisms, PR Somvanshi, KV Venkatesh, Encyclopedia of Systems Biology, 827-830, 2013
Pathway Modeling, Metabolic, M Rajvanshi, KV Venkatesh, Encyclopedia of Systems Biology, 1652-1655, 2013
Warburg Effect, KV Venkatesh, L Darunte, PJ Bhat, Encyclopedia of Systems Biology, 2349-2350, 2013
Quantitative Analysis of a Dynamic Cell Cycle Regulatory Model of Schizosaccharomyces pombe,
P Anbumathi, S Bhartiya, KV Venkatesh, Current Synthetic Systems Biology 1 (105), 2332-0737.1000105, 2013
3-Cycle, Canonical Network Motifs,
M Rajvanshi, KV Venkatesh, C Fluxomics, 2013
Growth Related Model Of the Gal System In Saccharomyces Cerevisiae Predicts Behavior Of Several Mutant Strains,
Pannala Venkat, Hazarika Saumar, Bhat P Bhartiya Sharad, K V Venkatesh, IET Systems Biology, 2012.
Prediction by Promoter Logic in Bacterial Quorum Sensing,
Navneet Rai, Rajat Anand, Krishna Ramkumar, Varun Sreenivasan,Sugat Dabholkar, K. V. Venkatesh, Mukund Thattai, PLOS Computational Biology, 2012
Characterizing the Memory of the GAL Regulatory Network in Saccharomyces cerevisiae,
Vishwesh V. Kulkarni, Venkatesh Kareenhalli, Ganesh A. Viswananthan, Marc Riedel, Systems and Synthetic Biology, 2011
Mathematical modeling of fission yeast Schizosaccharomyces pombe cell cycle: exploring the role of multiple phosphatases, Anbumathi, P., Bhartiya, S., Venkatesh, K.V., Systems and Synthetic Biology , pp. 1-15, 2011
Effect of substrate and IPTG concentrations on the burden to growth of Escherichia coli on glycerol due to the expression of Lac proteins,
Malakar, P., Venkatesh, K.V.Applied Microbiology and Biotechnology , pp. 1-7, 2011
Can Metabolic Plasticity be a Cause for Cancer? Warburg-Waddington Legacy Revisited,
Paike Jayadeva Bhat, Lalit Darunte, Venkatesh Kareenhalli, Jaswandi Dandekar, Abhay Kumar, Clinical Epigenetics, 2011
Quantification of metabolism in Saccharomyces cerevisiae under hyper osmotic condition using Elementary mode analysis,
Jignesh Parmar, Sharad Bhartiya and K. V. Venkatesh, Journal of Industrial Microbiology and Biotechnology, 2011
Dynamic Analysis of the KlGAL Regulatory System in Kluyveromyces lactis: A Comparative Study with Saccharomyces cerevisiae, Venkat R. Pannala, Sharad Bhartiya and K. V.Venkatesh, Systems and Synthetic Biology, 2011
Characterization of the Adaptive Response and Growth upon Hyperosmotic Shock in Saccharomyces Cerevisiae,
Jignesh Parmar, Sharad Bhartiya and K. V. Venkatesh, Molecular Biosystems, 2011
Phenotypic Characterization of Corynebacterium glutamicum Using Elementary Modes towards Synthesis of Amino Acids, Rajvanshi, M., K.V. Venkatesh, , Systems and Synthetic Biology, 2011
Phenotypic characterization of Corynebacterium glutamicum under osmotic stress conditions using elementary mode analysis,
Rajvanshi, M., K.V.Venkatesh, Journal of Industrial Microbiology and Biotechnology , pp. 1-13, 2010.
Experimental and Steady State analysis of the GAL regulatory system in Kluyveromyces lactis,
Venkat R. Pannala, Sharad Bhartiya and K. V.Venkatesh , FEBS Journal, 277, 2987 ? 3002, 2010.
Chemotaxis of Escherichia coli to L-serine
Rajitha R. Vuppula Mahesh. Tirumkudulu, K. V. Venkatesh, Physical Biology, 7 (2), art. no. 026007 2010.
Mathematical modeling and Experimental validation of chemotaxis under controlled gradients of methyl-aspartate in Escherichia coli
Rajitha R. Vuppula Mahesh. Tirumkudulu, K. V. Venkatesh, Molecular Biosystems, 2010
Stability analysis of the GAL regulatory network in Saccharomyces cerevisiae and Kluyveromyces lactis,
Vishwesh Kulkarni, K. V. Venkatesh, Pushkar Malakar, Lucy Y Pao, Michael Safonov and Ganesh Viswanathan, BMC Bioinformatics 2010, 11(S43)
Phenotypic Characterization of Corynebacterium glutamicum Using Elementary Modes towards Synthesis of Amino Acids,
DeveshRadhakrishnan, Meghna Rajvanshi, K. V. Venkatesh, Journal of Systems and Synthetic Biology, 2010
Experimental and Steady State Analysis of the GAL Regulatory System in Kluyveromyces lactis,
Venkat Reddy Pannala, Sharad Bhartiya and K.V.Venkatesh, FEBS, 2010.
Application of methylene blue dye reduction test (MBRT) to determine growth and death rates of microorganisms, Subir Kumar Nandy and K. V. Venkatesh, Afr. Journal of Microbiology Research, 4(2), 61-70, 2010.
Mathematical modeling and Experimental validation of chemotaxis under controlled gradients of methyl-aspartate in Escherichia coli,
Rajitha R. Vuppula, Mahesh. Tirumkudulu and K. V. Venkatesh, Molecular Biosystems 2010
Stability analysis of the GAL regulatory network in Saccharomyces cerevisiae and Kluyveromyces lactis, ,
Vishwesh Kulkarni, K. V. Venkatesh, Pushkar Malakar, Lucy Y Pao, Michael Safonov and Ganesh Viswanathan, BMC Bioinformatics 11 (S43) 2010
.
Tomato Redness for assessing ozone treatment in extending shelf-life,
Suhas S. Zambre, K. V. Venkatesh and N. G. Shah, Journal of Food Engineering, 96(3), 463-468, 2009.
Quantification of the effect of amino acids on an integrated mTOR and insulin signaling pathway,
P. K. Vinod and K. V. Venkatesh, Molecular Biosystems, 5, 1163 - 1173, 2009.
A Model-based Study Delineating the Roles of the Two Signaling Branches of Saccharomyces cerevisiae, Sho1 and Sln1, during Adaptation to Osmotic Stress,
J. H. Parmar, Sharad Bhartiya & K. V. Venkatesh, Physical Biology, 6(3), 2009.
Systems Biology - connecting genotype to phenotype,
K. V. Venkatesh, BioByte, 2009
Systems Biology of GAL Regulon in Saccharomyces cerevisiae, ,
Venkat RP, PJ Bhat, Sharad Bhartiya, KV Venkatesh, Wiley Interdisciplinary, Reviews: Systems Biology and Medicine 2009
Optimization of bioprocesses using metabolic engineering,
Devesh Radhakrishnan, Meghna Rajvanshi, Kalyan Gayen & K. V. Venkatesh, Bioprocess and Bioproducts, Edited by Soumitra Biswas, Nirmala Kaushik and Ashok Pandey, Book Chapter:, AsiaTech Publishers, 2009.
Modeling and Experimental studies on Intermittent Starch feeding and citrate addition in Simultaneous Saccharification and Fermentation of Starch to Flavor Compounds, ,
Abhijit R Chavan, Anuradha Raghunathan and K.V.Venkatesh, Journal of Industrial Microbiology & Biotechnology, 36(4), 509 ? 519, 2009.
Stochastic analysis of the GAL genetic switch in Saccharomyces cerevisiae: Modeling and experiments reveal hierarchy in glucose repression, Vinay Prasad, K V Venkatesh, BMC Systems Biology, 2:97, 2008.
Effect of temperature on the cannibalistic behavior of Bacillus subtilis,
Subir Kumar Nandy, Vinay Prasad and K. V. Venkatesh, Applied and Environmental Microbiology, 74(23), 7427-7430, Dec. 2008.
Microbial Fuel Cells by Bruce Logan, a book review, K V Venkatesh, AIChE Journal, 2008.
Quantification of cell size distribution as applied to the growth of Corynebacterium glutamicum,
Kalyan Gayen and K V Venkatesh, Microbiological Research, 163, 586-593, 2008.
Quantification of Signaling Networks,
P K Vinod and K V Venkatesh, Journal of the Indian Institute of Science, 88:1, Jan-Mar 2008.
Effect of Carbon and Nitrogen on the Cannibalistic Behavior of Bacillus subtilis,
Subir Kumar Nandy and K. V. Venkatesh, Applied Biochemistry and Biotechnology, March, 2008 (Online first).
A Steady State Model for the Transcriptional Regulation of Filamentous Growth in Saccharomyces cerevisiae,
P K Vinod and K V Venkatesh, In Silico Biology, 8, 0018, 2008.
Integration of global signaling pathways, cAMP-PKA, MAPK and TOR in the regulation of FLO11,
P K Vinod, Neelanjan Sengupta, P J Bhat and K V Venkatesh, PLoS 0NE, 3(2):e1663, 2008.
Specificity of MAPK signaling towards FLO11 expression is established by crosstalk from cAMP pathway,
P K Vinod and K V Venkatesh, Systems and Synthetic Biology, 1, 99-108, 2007.
Metabolic flux analysis of biological hydrogen production in Escherichia coli,
Manish S, K.V. Venkatesh and Rangan Banerjee, International Journal of Hydrogen Energy, 32, 3820-3830, 2007.
Steady state approach to model gene regulatory networks- Simulation of microarray experiments,
Subodh Rawool and K V Venkatesh, BioSystems,90(3), 636-655, 2007.
A theoretical steady state analysis indicates that induction of Escherichia coli glnALG operon can display all-or-none behavior,
Vivek Mutalik and K.V. Venkatesh, BioSystems, 90(1), 1-9, 2007.
System-level Analysis of Tryptophan Regulation in Escherichia coli - Performance under Starved and Well-fed Conditions,
Nikhil Chowdhary, Sharad Bhartiya and K. V. Venkatesh, IET Systems Biology, 1(3), 181-189, 2007.
A phenomenological model to represent the kinetics of growth by Corynebacterium glutamicum for lysine production,
Kalyan Gayen and K. V. Venkatesh, Journal of Industrial Microbiology and Biotechnology, 34, 363-372, 2007.
Elementary mode analysis to study the preculturing effect on the metabolic state of Lactobacillus rhamnosus during growth on mixed substrates.
Kalyan Gayen, Mainsh Gupta and K. V. Venkatesh, In Silico Biology, 7, 0012, 2007.
Evaluation of fluxes of elementary modes through linear programming: Applied to Corynebacterium glutamicum,
Kalyan Gayen and K.V. Venkatesh, Understanding and exploiting Systems Biology in Biomedicine and Bioprocesses, Editor: Arturo Manjon, 211-222, 2007.
Sporulating bacteria prefers predation to cannibalism in mixed cultures,
Subir Kumar Nandy, Prashant M. Bapat, K.V. Venkatesh, FEBS Letters, 581, 151 - 156, 2007
Crosstalk between cAMP-PKA and MAP kinase pathways is a key regulatory design necessary to regulate FLO11 expression,
Neelanjan Sengupta*, P.K. Vinod*, K.V. Venkatesh, Biophysical Chemistry, 125(1): 59-71, 2007 (* Equal Contribution).
Analysis of optimal phenotypic space using elementary modes as applied to Corynebacterium glutamicum,
Kalyan Gayen and K.V. Venkatesh, BMC Bioinformatics, 7,445, 2006.
Ultrasensitivity response in genetic regulatory networks
Subodh Rawool, Sharad Bhartiya and KV Venkatesh, Mathematical Biology - Recent Trends, Editors: Peeyush Chandra and Rathish Kumar, Anamaya Publishers, New Delhi, 113-117, 2006.
Effect of the MAPK cascade structure, nuclear translocation and regulation of transcription factors on gene expression
Vivek K. Mutalik and K V. Venkatesh, BioSystems, 85(2):144-57, 2006.
Multiple feedback loop design in the tryptophan regulatory network of Escherichia coli suggests a paradigm for robust regulation of processes in series
Sharad Bhartiya1, Nikhil Chaudhary, K. V. Venkatesh and Francis J.Doyle III, J. R. Soc. Interface, 383 - 391, Volume 3, Number 8 / June 22, 2006.
Biological Significance of Autoregulation Through Steady State Analysis of Genetic Networks,
Malkhey Verma, Subodh Rawool, PJ Bhat and KV Venkatesh, BioSystems, 84(1):39-48, 2006.
A structured kinetic model to represent the utilization of multiple substrates in complex media during rifamycin B fermentation,
Prashant M. Bapat, Sharad Bhartiya, K.V.Venkatesh and Pramod P. Wangikar, Biotechnology and Bioenginnering, 93(4):779-90, 2006.
Quantification of metabolically active biomass using Methylene Blue dye Reduction test (MBRT): Measurement of CFU in about 200 seconds
Prashant Bapat*, Subir K Nandy*, Pramod Wangikar and K V Venkatesh, Journal of Microbiological Methods, 65, 107-116, 2006(*Equal contribution).
Keeping it Fresh, Controlling atmosphere in Storage Units
NG Shah, KV Venkatesh and S. Zambre, Modern Food Processing, Vol 1 (2) 2005.
Steady State Analysis of Enzyme Cascades in Cellular Regulation
Vivek Mutalik and KV Venkatesh, Mathematical Biology - Recent Trends, Editors: Peeyush Chandra and Rathish Kumar, Anamaya Publishers, New Delhi, 118-123, 2005.
Quantification of the glycogen cascade system: the ultrasensitive responses of liver glycogen synthase and muscle phosphorylase are due to distinctive regulatory designs
Vivek K. Mutalik and K. V. Venkatesh, Theoretical Biology and Medical Modelling, 2:19, 2005.
Detailed protein sequence alignment based on Spectral Similarity Score (SSS)
Kshitiz Gupta, Dina Thomas, S V Vidya, K V Venkatesh, S Ramakumar, BMC Bioinformatics, 6:105, 2005.
Steady state analysis of glucose repression reveals hierarchical expression of proteins under Mig1p control in Saccharomyces cerevisiae,
Malkhey Verma, PJ Bhat and KV Venkatesh, Biochemical Journal, [388] (3), 843-849, 2005.
Stochastic variation in the concentration of a repressor activates GAL genetic switch: Implications in evolution of regulatory network
P J Bhat and K V Venkatesh, FEBS Letters, [579] (3), 597-603, 2005.
Corrigendum to: Robust global sensitivity in multiple enzyme cascade system explains how the downstream cascade structure may remain unaffected by cross-talk
Vivek K. Mutalik, Aditya P. Singh, Jeremy S. Edwards and K. V. Venkatesh, FEBS 28047 [FEBS Letters 558 (2004) 79?84].
Autoregulation of Regulatory Proteins is Key for Dynamic Operation of GAL Switch in Saccharomyces cerevisiae
Anurag Ruhela, Malkhey Verma, Jeremy S. Edwards, P. J. Bhat, Sharad Bhartiya and KV Venkatesh, FEBS Letters, [576] (1), 119-126, 2004.
A Steady State Modeling Approach to Validate in vivo Mechanism of GAL Regulatory Network in Saccahromyces cerevisiae
Malkhey Verma, PJ Bhat, Sharad Bhartiya and KV Venkatesh, European Journal of Biochemistry, [271] (20), 4064-4074, 2004.
A steady state analysis indicates that negative feedback regulation of PTP1B by Akt elicits bistability in insulin-stimulated GLUT4 translocation
Giri L, Mutalik VK, Venkatesh KV, Theoretical Biology and Medical Modelling, 1:2, 2004.
A Method for the Determination of Flux in Elementary Modes, and its Application to Lactobacillus rhamnosus
M.G. Poolman, K.V. Venkatesh, M.K. Pidcock, and D.A. Fell, Biotechnology and Bioengineering, [88] (5), 601-612, 2004.
Multiple feedback loops are key to a robust dynamic performance of tryptophan regulation in Escherichia coli
K. V. Venkatesh, Sharad Bhartiya and Anurag Ruhela, FEBS Letters, [563], 234 -240, 2004.
Robust global sensitivity in multiple enzyme cascade system explains how the downstream cascade structure may remain unaffected by cross-talk
Vivek K. Mutalik, Aditya P. Singh, Jeremy S. Edwards and K. V. Venkatesh, FEBS Letters, [558] (1-3), 79-84, 2004.
An integrated mechanistic model for transcription-coupled nucleotide excision repair
Shwetal Patel, K. V. Venkatesh, Jeremy S. Edwards, DNA Repair, [3], 343-348, 2004.
Expression of GAL genes in a mutant strain of Saccharomyces cerevisae lacking GAL80: Quantitative Model and Experimental Verification
Malkhey Verma, PJ Bhat and KV Venkatesh, Biotechnology and Applied Biochemistry [39] (1),89-97, 2004.
Effect of Preculturing Conditions on Growth of Lactobacillus rhamnosus on medium containing glucose and citrate
Jyoti BD, AK Suresh and KV Venkatesh, Microbiological Research, [159] (1) 35-42, 2004.
Equilibrium analysis of allosteric interactions shows zero order effects,
Vivek K. Mutalik, Aditya P. Singh, Jeremy S. Edwards and K. V. Venkatesh, Cell Biochemistry and Biophysics [41] (2), 179-192, 2004.
Steady State Analysis of Signaling Pathways in Living Systems: Use of Dimensionless Parameters Akin to Chemical Plants
Vivek K. Mutalik and K V Venkatesh, Indian Chemical Engineers, Section B [46](4), 261-265, 2004
Quantitative analysis of GAL genetic switch of Saccharomyces cerevisiae reveals that nucleocytoplasmic shuttling of Gal80p results in a highly sensitive response to galactose
Malkhey Verma, P. J. Bhat, and K. V. Venkatesh, The Journal of Biological chemistry, [278] (49), 48764-48769, 2003 .
Allosteric Interactions and Bifunctionality Make the Response of Glutamine Synthetase Cascade System of Escherichia coli Robust and Ultrasensitive
Vivek K. Mutalik, Parag Shah and K V Venkatesh, The Journal of Biological chemistry, [278] (29),26327-26332, 2003.
Dynamic Model of Escherichia coli Tryptophan Operon Shows an Optimal Structural Design
Sharad Bhartiya, Subodh Rawool, K.V. Venkatesh, European Journal of Biochemistry, [270], 2644-2651, 2003.
An optimal model to represent the kinetics of growth and product formation by Lactobacillus rhamnosus on multiple substrates,
Jyoti BD, AK Suresh and KV Venkatesh, Journal of Bioscience and Bioengineering [96] (5), 481-486, 2003.
Diacetyl Production and Growth of Lactobacillus rhamnosus on Multiple Substrates
Jyoti B D, A K Suresh and K V Venkatesh, World Journal of Microbiology and Biotechnolgy, [19] (5), 509-514, 2003.
Optimal Control Strategies for Simultaneous Saccharification and Fermentation of Starch,
Roy S, Gudi RD, KV Venkatesh and Shah, Process Biochemistry, [36] (8-9), 713-722, 2001.
Respiration, Sorption and Germination of seeds Stored in Controlled Atmosphere,
Rathi SS, Shah NG, Zambre SS, KV. Venkatesh, Seed Science and Technology, [28] (2), 341-348, 2000.
A Generalized Model for Microbial Growth Based on Optimal Strategy as Applied to Growth of Saccharomyces cerevisiae
KV Venkatesh, Process Biochemistry, [35] (9), 367- 375, 2000
Metabolic Fate of Glutamate and Evaluation of Flux through the 4-aminobutyrate (GABA) shunt in Aspergillus niger
S Kumar, NS Punekar, V SatyaNarayana and KV Venkatesh, Biotechnology and Bioengineering, [67] (5), 575-584, 2000.
Simultaneous Saccharification and Fermentation of Starch to Lactic acid
Anuradha, R, AK Suresh and KV Venkatesh, Process Biochemistry, [35] (3-4), 367-375, 1999
Analysis of the Optimal Model for Substrate Substitutability in Continuous Microbial Cultures
Prabhat Arora, RA Kumar and KV Venkatesh, Chemical Engineering Science, [54] (8), 987-997, 1999]
Quantitative Model for Gal4p Mediated expression of the Galactose/Melibiose Regulon in Saccaharomyces cerevisiae
KV Venkatesh, PJ Bhat, RA Kumar and Pankaj Doshi, Biotechnology Progress, [15] (1), 51-57, 1999.
An Optimal Model for Microbial Growth in a Multiple Substrate Environment: Simultaneous and Sequential Utilization
Pankaj Doshi and KV Venkatesh, Process Biochemistry, [33] (6), 663-670, 1998
An Optimal Model to Simulate Growth of Microorganisms on a dissacharides
KV Venkatesh, Process Biochemistry, [33] (5), 483-490, 1998
A Model for Deep-Bed Drying of Grains
Hozef Arif and KV Venkatesh, Agricultural Engineering Journal, [42] (2), 1998.
Simultaneous Saccharification and Fermentation of Cellulose to Lactic acid
KV Venkatesh, Bioresource Technology, [62] (3), 91-98, 1997.
An Optimal Strategy to Model Microbial Growth in Multiple Substrate Environment
KV Venkatesh, Pankaj Doshi and R. Rengaswamy, Biotechnology and Bioengineering, [56] (6), 635-644, 1997
Modeling of Microbial Growth for Sequential Utilization in Multi-substrate Environment
Pankaj Doshi, R. Rengaswamy and KV Venkatesh, Process Biochemistry, [32] (8), 643-650, 1997
Metabolic Flux Analysis of Lactic acid Fermentation: Effects of pH and Lactate Ion Concentration
KV Venkatesh, Process Biochemistry, [32] (8), 651-655, 1997
Controlled Atmosphere Storage of Food Grains
Narendra Shah and KV Venkatesh, Agricultural Engineering Journal, 1997
An Unsaturated Flow of Moisture in Porous Hygroscopic Media at Low Moisture Contents
Nitin Kolhapure and KV Venkatesh, Chemical Engineering Science, [52] (19), 3383-3392, 1997
Structured Model for Batch Culture Growth of Lactobacillus bulgaricus
Chetan Gadgil and KV Venkatesh, Journal of Chemical Technology and Biotechnology, [68] (1), 89-93, 1997.
Cybernetic Model for the Growth of Saccharomyces cerevisiae on Melibiose
Chetan Gadgil, P J Bhat and KV Venkatesh, Biotechnology Progress, [12] (6), 744-750, 1996.
Drying of Potato at Low Moisture Content: Effects of Temperature, Pressure, Initial Moisture Content and Size
Nitin Kolhapure and KV Venkatesh, Agricultural Engineering Science, 1996.
Comparitive Analysis of Different Processes for Lactic Acid Fermentation
KV Venkatesh, MR Okos and PC Wankat, Advances in Biotechnology, Tata McGrawhill Publication, 1995.
Kinetic Modeling of Simultaneous Saccharification and Fermentation of Cellulose to Lactic acid
KV Venkatesh, MR Okos and PC Wankat, AICHE Symposium Series, Special Issue on Food Processing, [24], 36-44, 1994.
Kinetic model of Growth and Lactic acid Production from Lactose by Lactobacillus bulgaricus
KV Venkatesh, MR Okos and PC Wankat, Process Biochemistry, [28] (4), 231-241, 1993
Hydrodynamic Studies in a Turbulent Contact Absorber
KV Venkatesh, N. Vaidhyanathan, K. Sounderrajan and K. Krishnaih, J. of Indian Chemical Engineer, [23], (3), 3-6, 1991.