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CELLULAR METABOLISM AND PROCESSES
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Course Outcomes |
Learning and teaching strategies |
Assessment Strategies |
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Upon completion of the course the learner will: CO62: Analyze various cellular processes CO63: Interpret genomic instability and cell transformations. CO64: Determine cellular signaling, transport and trafficking CO65: Evaluate metabolism of carbohydrates and compute the ATP production and analyze photosynthesis. CO66: Evaluate lipid metabolism and nucleotide biosynthesis. |
Interactive Lectures, Discussion, Tutorials, Demonstrations, Assignments Reading Journals |
Class test, Semester end examinations, Quiz, Solving problems in tutorials, Assignments, Presentation, Individual and group projects |
Cell cycle and its regulation; cell division: mitosis, meiosis and cytokinesis; cell differentiation: stem cells, their differentiation into different cell types and organization into specialized tissues; cell-ECM and cell-cell interactions; cell receptors and trans- membrane signaling; cell motility and migration; cell death: different modes of cell death and their regulation.
Proto-oncogenes, oncogenes and tumour suppressor genes, transpositions- transposable genetic elements in prokaryotes and eukaryotes, role of transposons in genome; viral and cellular oncogenes; tumor suppressor genes; structure, function and mechanism of action; activation and suppression of tumor suppressor genes; oncogenes as transcriptional activators
Molecular mechanisms of membrane transport, nuclear transport, transport across mitochondria and chloroplasts; intracellular vesicular trafficking from endoplasmic reticulum through Golgi apparatus to lysosomes/cell exterior.
Bioenergetics-basic principles; equilibria and concept of free energy; coupled interconnecting reactions in metabolism; oxidation of carbon fuels; recurring motifs in metabolism; Introduction to GPCR, Inositol/DAG//PKC and Ca++ signaling pathways; glycolysis and gluconeogenesis; reciprocal regulations and non-carbohydrate sources of glucose; Citric acid cycle, entry to citric acid cycle, citric acid cycle as a source of biosynthetic precursors; Oxidative phosphorylation; importance of electron transfer in oxidative phosphorylation; F1-F0 ATP Synthase; shuttles across mitochondria; regulation of oxidative phosphorylation; Photosynthesis – chloroplasts and two photosystems; proton gradient across thylakoid membrane; Calvin cycle and pentose phosphate pathway; glycogen metabolism, reciprocal control of glycogen synthesis and breakdown, roles of epinephrine and glucagon and insulin in glycogen metabolism
Fatty acid metabolism; protein turnover and amino acid catabolism; nucleotide biosynthesis(De novo and Salvage pathways); biosynthesis of membrane lipids and sterols with specific emphasis on cholesterol metabolism and mevalonate pathway; elucidation of metabolic pathways; logic and integration of central metabolism; entry/ exit of various biomolecules from central pathways; principles of metabolic regulation; steps for regulation. target of rapamycin (TOR) & Autophagy regulation in relation to C & N metabolism, starvation responses and insulin signaling.
• Biochemistry, D. Voet and J.G. Voet, John Wiley & Sons, (5th Edition), 2004.
• Principles of Biochemistry, Lehninger, Nelson and Cox, (8th Edition), 2021.
• Principles and Techniques in Biochemistry and Molecular Biology, Edited by Keith Wilson and John Walker, Cambridge University Press, (8th Edition), 2018.
SUGGESTED READINGS:
• Biochemistry and Molecular Biology by W.H. Elliot and Daphne C. Elliot, Oxford University Press, (3rd Edition), 2005.
• Essentials of Molecular Biology, David Friefelder, Jones and Barllett Publications, 7th Reprint, 2001.
e RESOURCES:
JOURNALS:
• Indian Journal of Biochemistry and Biophysics (IJBB) http://nopr.niscair.res.in/
• Indian Journal of Biotechnology (IJBT) http://nopr.niscair.res.in/
• Biotechnology and Applied Biochemistry Biotechnology and Applied Biochemistry - Wiley Online Library
