Professor
Prof. K V Venkatesh
Areas Of Expertise
- Biochemical engineering
- Food process engineering
- Systems biology
- Mobility of Microorganisms
- Synthetic Biology
- Heterogeneity in microbial population
- Elementary mode analysis
- A. niger
- Acidogenesis
- Flux analysis
- GABA shunt
- Glutamate
- Metabolite balance
- End point constraint
- Fed-batch fermentation
- Multiple feed optimization
- Optimal control
- Simultaneous saccharification and fermentation
- Acetoin
- Co-metabolism
- Diacetyl
- Lactobacillus rhamnosus
- Sequential utilization
- Structured kinetics
- Diauxic growth
- Multiple substrates
- Elementary modes
- Flux assignment
- Metabolic modeling
- Allosteric protein
- ATCase
- Cooperativity
- Hill coefficient
- Modularity
- Sensitivity amplification
- Gal4p binding sites
- Gene expression
- Nucleocytoplasmic shuttling
- Regulatory networks
- Saccharomyces cerevisiae
- Lactobacillus
- Microaerophilic
- Preculturing
- Cockayne syndrome
- Hypothesis
- In silico biology
- UvrABCD
- Glucose repression
- Mig1p
- Mitogen-activated protein kinase (MAPK)
- Transcriptional activator
- Transcriptional repressor
- Yeast
- Enzyme adaptation
- Epigenetic factors
- Galregulatory network
- Molecular noise
- Steady state response
- MAPK cascade
- Regulatory design principles
- Switch-like response
- Systems biology
- Theoretical modeling
- Ultrasensitivity
- Biological regulators
- Multiple feedback loops
- Reverse engineering
- Robustness
- Tryptophan system
- Cell membrane enzymes
- Colony Forming Units (CFU)
- Dye decoloration
- Escherichia coli
- Methylene blue dye
- Viability
- Activator/repressor
- Amplification and sensitivity
- Binding sites
- Bistability
- Dimerization
- Gene
- Amino acid uptake
- Cybernetic models
- Substitutable substrates
- GAL network
- Genetic regulatory network
- Microarray modeling
- Steady state modeling
- Biological hydrogen
- Dark fermentation
- Metabolic flux analysis
- Flavor production
- Linear optimization
- Preculturing state
- Autoregulation
- Enzyme cascade
- Mathematical modeling
- Nitrogen starvation
- NtrB
- NtrC
- Switch-like responses
- Crosstalk
- Invasive growth
- Pheromone
- Signaling pathway
- Systemic properties
- Bacillus subtilis
- Cannibalism
- Mixed culture
- Predation
- Prokaryote
- Ammonium sulfate
- Endospore
- Glucose
- MBRT
- Cell size distribution
- Corynebacterium glutamicum
- Cumulative distribution function
- Growth characteristic
- Image analysis
- Biological networks
- Feedback regulation
- Simulation and modeling
- Citrate addition
- Glucoamylase
- Intermittent addition of starch
- Lactic acid
- Mathematical model
- SSF
- Bacterial chemotaxis
- Single-cell
- Behavior
- Model
- Populations
- Diffusion
- Motility
- GAL system
- galactose
- Kluyveromyces lactis
- Steady-state model
- Ozone treatment
- Tomato redness index
- Tomato rotting
- Tomato shelf life
- Kanamycin
- Minimum activating concentration (MAC)
- Minimum inhibitory concentration (MIC)
- Vitamin B12
- Drug discovery
- Drug delivery
- Drug scale up
- SwarnaJayanti Fellowship Award
- Fellow, Indian Academy of Sciences, Bangalore
- Prof. H. H. Mathur Excellence Award in Applied Sciences
- IIT Bombay Research Paper Award / Research Publication Award (From 2015 onwards)
- IIT Bombay Research Paper Award / Research Publication Award (From 2015 onwards)
- Young Engineer Award, Indian National Academy of Engineering, New Delhi
- Young Scientist Medal - Indian National Science Academy, New Delhi