To enable students to-
Cell as a basic unit of living system, Cell diversity: Cell size, Cell as experiment models: E. Coli, Yeast, C. elegans, Arabidopsis thaliana, Drosophilla melanogaster, Structure and functions of cell organelles in prokaryotic and eukaryotic cells.
Cytoskeleton: Self-assembly and dynamic structure of cytosketetal filaments, actin filament, microtubules, movement of cilia and flagella.
Cell –Cell interaction: cell adhesion, tight and gap junctions, plasmodesmata
Energy Conversion: Photophosphorylation, Oxidative phosphorylation, Evolution of electron transport chain.
Cell cycle and apoptosis: Events in cell cycle, mitosis and meiosis, Key regulators of cell cycle, programmed cell death and its control.
Membrane transport: Thermodynamics of transportation, passive and active mediated transportation of molecules, Donnan equilibrium, Nernst equation, Na+- K+ ATPase, H+-K+ ATPase, ion gradient driven transportation, mechanism of protein trafficking
Molecular basics of signal transduction in bacteria, plants and animals, secondary messengers, perception of environmental signals, G- protein and tyrosine kinase coupled receptors.
Basic techniques in cell biology: microscopy, cell fractionation method, GISH, FISH, histochemical analysis, microtomy, staining and fixation.