Lecture 1 - Pharmacognosy and Medicinal Plants
Lecture 2 - Plant Specialized Metabolites: Waste Products or Ecochemicals?
Lecture 3 - Evolution of Specialized Metabolism from Primary Metabolism
Lecture 4 - Production of specialized metabolites through cell and organ culture
Lecture 5 - Eliciting specialized metabolism in culture
Lecture 6 - Analysis of Specialized Metabolites - Tools and Techniques
Lecture 7 - Metabolic phytochemistry-based approaches for studying plant specialized metabolism
Lecture 8 - Metabolic engineering strategies in plants
Lecture 9 - Plant genetic transformation (through natural genetic engineer)
Lecture 10 - Design of vectors for Agrobacterium-mediated gene transfer; Transformed and co-
Lecture 11 - Introduction to alkaloids
Lecture 12 - Biosynthesis of tropane alkaloids
Lecture 13 - Engineering tropane alkaloid pathways in plants - I
Lecture 14 - Engineering tropane alkaloid pathways in plants - II : Engineering tropane alkaloid pathway
Lecture 15 - Isoquinoline alkaloids - Biosynthesis and tissue localization
Lecture 16 - Isoquinoline alkaloids - Late steps of biosynthetic pathway and tissue localization
Lecture 17 - Benzylisoquinoline alkaloids - Induced top1 mutant and natural T mutantEngineering
Lecture 18 - Benzylisoquinoline alkaloids - Metabolic pathway engineering
Lecture 19 - RNAi-mediated replacement of morphine with nornarcotic alkaloid reticuline in opium
Lecture 20 - Isoquinoline alkaloids - biosynthesis and tissue localization
Lecture 21 - Indole alkaloids - Early steps of biosynthesis
Lecture 22 - Indole alkaloids - Metabolic engineering of early steps of indole alkaloid pathway
Lecture 23 - Indole alkaloids - Environmental factors regulating indole alkaloid biosynthesis
Lecture 24 - Indole alkaloids - Role of elicitors in modulating alkaloids accumulation
Lecture 25 - Indole alkaloids - Late steps of indole alkaloid biosynthesis
Lecture 26 - Indole alkaloids - Regulatory roles of transcription factors in light-induced
Lecture 27 - Engineering indole alkaloid pathways in Catharanthus roseus hairy root cultures
Lecture 28 - Missing enzymes of vindoline biosynthetic pathway
Lecture 29 - Monoterpene indole alkaloid pathway cell and tissue localization
Lecture 30 - Model for biosynthesis and secretion of monoterpenoid indole alkaloids involving
Lecture 31 - Metabolic reprogramming of periwinkle plant culture
Lecture 32 - Engineered yeast brews precursors of anticancer drug vinblastine
Lecture 33 - Recent discovery of strychnine biosynthetic pathway
Lecture 34 - Indole alkaloid biosynthesis - a final overview
Lecture 35 - Recent discovery of colchicine biosynthetic pathway
Lecture 36 - Biosynthesis of terpenoids - an outline
Lecture 37 - Diversity of monoterpenoids
Lecture 38 - Biosynthesis of monoterpenoids
Lecture 39 - Diversity of sesquiterpenes, diterpenes, triterpenes and polyterpenes
Lecture 40 - Oleoresins and polyterpenes - an outline
Lecture 41 - Monoterpenoids as components of floral scent volatiles: Metabolic engineering of
Lecture 42 - Biosynthesis of carotenoids and carotenoid cleavage products
Lecture 43 - Metabolic engineering of carotenoid pathway
Lecture 44 - Metabolic engineering of carotenoid pathway: Golden Rice Story
Lecture 45 - Menthol story: Biosynthesis and pathway manipulation - I
Lecture 46 - Menthol story: Biosynthesis and pathway manipulation - II
Lecture 47 - Artemisinin, hyperforin and taxol - three promising candidates for biotechnological
Lecture 48 - Phenolics: Origin via shikimate pathway
Lecture 49 - Phenolics: Phenylpropanoids, benzenoids, coumarins, tannins
Lecture 50 - Phenolics: Monolignols, lignins and lignans
Lecture 51 - Phenolics: Metabolic engineering of monolignol pathways
Lecture 52 - Phenolics: Biosynthesis of lignans and podophyllotoxin; Caffeic acid esters
Lecture 53 - Phenolics: Flavonoids, Flavones, Isoflavonoids, Proanthocyanidins
Lecture 54 - Phenolics: Biosynthesis of anthocyanins; Metabolic pathway engineering for enhance
Lecture 55 - Phenolics: Metabolic engineering of anthocyanin pathways in flowers
Lecture 56 - Phenolics: Alcohol acetyl transferses and volatile phenolics
Lecture 57 - Phenolics: Biosynthesis of volatile benzenoids
Lecture 58 - Phenolics: Biosynthesis of vanillin in plants
Lecture 59 - Phenolics: Metabolic engineering for vanillin
Lecture 60 - Phenolics: Biosynthesis of shikonin
Lecture 61 - Phenolics: Metabolic engineering of shikonin pathway
Lecture 62 - Molecular Pharming: Transplastomic plants
Lecture 63 - Molecular Pharming: production of human somatotropin in tobacco
