To enable students to- • Understand the basic operating characteristics of instruments. • Understand principles and applications of techniques.
Principle, Paper chromatography, TLC, Column chromatography (GC, HPLC), Adsorption chromatography, Partition chromatography, Gel filtration, Ion-exchange chromatography and Affinity chromatography
Centrifugation: principle differential and density gradient, ultracentrifugation (Preparative and analytical centrifuges) sedimentation analysis & RCF. Microscopy: construction of a microscope, light microscopy (bright field, dark field, phase-contrast, interference, confocal, polarization microscopy). Electron microscopy-TEM, SEM, Scanned probe microscopic techniques (STEM, AFM) Cytophotometry, flow cytometry
Radioisotopes; nature of radioactivity, types of radioactive decay, unit of radioactivity. Radiation dosimetry, radioactive isotopes, autoradiography, Cerenckov radiation, liquid scintillation counting, Geiger-Muller counter.
Essentials of Biophysics, P Narayanan, New Age Int. Pub. New Delhi. 2000 2. Fundamental Laboratory Approaches for Biochemistry and Biotechnology, A J Ninfa., D P Ballou, Fitzgerald science press, Inc., 1998 3. Principles and Practice of Bioanalysis, R F Venn, Taylor and Francis, 2003 4. Principles and Techniques of Biochemistry and Molecular Biology ,(6th edition), K Wilson and J Walker (editor), Cambridge University Press, 2007
Bioinstrumentation, J G Webster, John Wiley & Sons Inc. 2004 6. Methods in Modern Biophysics, B Notting, Springer Verlag Berlin Heidelberg New York, 2003 7. Protein Purification Principles and Practice, (3rd edition), R K Scopes, Spring International, 2004 8. Spectroscopy for the Biological Sciences, G G Hames, John Wiley & Sons Inc. 2005