Course Credit:
4
1. Genomics and Proteomics
Introductions, importance of genome and genomics. Human genomics and genomic diseases. Proteins as workhorse molecules of life, protein synthesis, classification of proteins. The 20 amino acids, structure of amino acids, proteins and polypeptides, Backbone flexibility, Φ and ψ-Properties of amino acids, Hydrophobicity, EIIP, Molecular weight, α and β propensities etc.
2. Biochemical Pharmacology
Transcription and Translation of Genes, Neurohumoral Transmission and Signal Transduction, Eicosanoids (Histamine, Serotonin, Bradykinins & Other mediators of inflammation), Antihistamines, Anti-gout, cardioactive drugs. Corticosteroids and Immunomodulators
3. Cell Biotechnology
Introduction, animal and plant cells culture, development in plant cell cultures and recent approaches for high production of secondary metabolites (Drugs). Elucidation and regulation of biosynthesis in cell cultures of plant species of strategic importance from both scientific and economic point of view. Plant tissue cultures for the production of natural drugs.
4. Biosynthesis of Natural Products
Introduction, mechanism and biosynthetic formations of amino acids, carotenoids and vitamin A, water soluble vitamins, phenolic plant products, terpenes, steroids, alkaloids and glycosides. Pharmacological approaches to natural products, screening and evaluation, problems and prospects of discovering new drugs from higher plants. Flavonoids, alkaloids, sapponins with biological and pharmacological activity.
5. Drug Development
Development anti-infective drugs by direct and biosynthetic pathways. Development of anti-TB, anti-HIV and anti-cancer drugs. Drug development using human genome system. Role of bioinformatics in advanced medicinal chemistry, anti-sense therapy.