Lecture 1 - Fundamentals of a Living System
Lecture 2 - Discovery of Genetic Material
Lecture 3 - Chemical and Physical Properties of Nucleic Acids
Lecture 4 - Introduction to DNA Replication
Lecture 5 - Mechanistic Overview of DNA Replication
Lecture 6 - Gene expression and The Central Dogma of Molecular Biology
Lecture 7 - Transcription: Involved Machineries and Processes
Lecture 8 - Translation: Decoding the message of an mRNA
Lecture 9 - Time-space correlation and fidelity of transcription and translation
Lecture 10 - Regulation of gene expression
Lecture 11 - Amino acids, hierarchy of protein structure
Lecture 12 - Protein folding, Folding funnel, Anfinsen’s experiment
Lecture 13 - Protein-ligand interactions
Lecture 14 - Allosteric regulation of proteins, e.g. haemoglobin
Lecture 15 - Membrane proteins
Lecture 16 - Introduction to enzymes
Lecture 17 - Theory of enzyme catalysis
Lecture 18 - Specificity of enzymes, e.g. Chymotrypsin
Lecture 19 - Enzyme inhibition. Types and mechanism of inhibitors. Design of inhibitors
Lecture 20 - Engineered enzymes and their applications
Lecture 21 - Introduction to cells
Lecture 22 - Visualizing cells
Lecture 23 - Cell division cycle
Lecture 24 - Stem Cells
Lecture 25 - Cancer
Lecture 26 - Overview of the development of multicellular organization
Lecture 27 - Pattern formation and growth
Lecture 28 - Cell division, cell death and tissue homeostasis
Lecture 29 - Cell Junctions and extracellular matrix
Lecture 30 - Introduction to Neuron and the action potential
Lecture 31 - Vitamins and introduction to bioenergetics
Lecture 32 - Glycolysis, Gluconeogenesis and PPP
Lecture 33 - Citric Acid Cycle and Oxidative Phosphorylation
Lecture 34 - Photosynthesis
Lecture 35 - Photosynthetic carbohydrate synthesis
Lecture 36 - Evolution of life on earth
Lecture 37 - Protein evolution
Lecture 38 - Mechanisms of evolution
Lecture 39 - Evolution of eye
Lecture 40 - Model orgamisms
Lecture 41 - Introduction to microbial world and infectious diseases
Lecture 42 - Cell organization and unique features of bacteria
Lecture 43 - Understanding viruses - The smallest enemy
Lecture 44 - Pathogenicity and infection
Lecture 45 - Antibacterial and Antiviral Drugs
Lecture 46 - Introduction to the immune system
Lecture 47 - Innate immunity: the first lines of defense
Lecture 48 - Adaptive immune response
Lecture 49 - Antibody - structure, function and diversity
Lecture 50 - Vaccines and immunotherapy
Lecture 51 - Visualizing and analyzing nucleic acids: Gel electrophoresis and PCR
Lecture 52 - Visualizing and analyzing nucleic acids: DNA Sequencing
Lecture 53 - Overview of genetic engineering and its impact on society
Lecture 54 - Genetic engineering: Methods and applications
Lecture 55 - Cloning and Gene manipulation
Lecture 56 - Characterization methods
Lecture 57 - Chromatographic methods
Lecture 58 - Protein - ligand interactions
Lecture 59 - Immunoassay techniques
Lecture 60 - Landmark experiments in biology
