Team:IIT Madras/2010.igem.org/Team:IIT Madras/Team/Faculty
From 2010.igem.org
Faculty
Dr. Guhan Jayaraman
guhanj@iitm.ac.in
Associate Professor
Dept of Biotechnology
IIT Madras
Education
Ph.D, Rensselaer Polytechnic Institute
M.Tech, Indian Institute of Technology Delhi
Research Interests
guhanj@iitm.ac.in
Associate Professor
Dept of Biotechnology
IIT Madras
Education
Ph.D, Rensselaer Polytechnic Institute
M.Tech, Indian Institute of Technology Delhi
Research Interests
- Recombinant Protein production:
Current work involves the investigation of different host-vector systems; studying the kinetic and thermodynamic limitations of gene over-expression; and evolving optimal bioreactor strategies for high-yield production of recombinant proteins. - Design of novel bioseparation processes for large-scale protein purification:
Non-linear liquid chromatographic processes; development of affinity-based aqueous two-phase extraction processes for protein purification; protein re-folding. - Design of Microfluidic Devices for Biomolecular Analysis:
This project has been recently initiated, mainly focused on development of silicon-based microfabricated devices for DNA analysis. Development of high throughput devices will have a significant impact on genome sequencing technologies.
Dr. K Chandraraj
kcraj@iitm.ac.in
Associate Professor
Dept of Biotechnology
IIT Madras
Education
Ph.D, Indian Institute of Technology Madras
M.Sc, Bharathiar University
Research Interests
kcraj@iitm.ac.in
Associate Professor
Dept of Biotechnology
IIT Madras
Education
Ph.D, Indian Institute of Technology Madras
M.Sc, Bharathiar University
Research Interests
- BioEthanol Production:
Current research is focused on process development for economical production of fuel-ethanol from crop residues and sorghum juice. - Functional Oligosaccharides (FOS):
Developing economic process for FOS production from plant biomass using enzymes.. - Molecular Bioremediation of Cr(VI):
Current research in our lab involves isolation and engineering of enzymes for transformation of Cr(VI) to Cr(III).