Lecture 1 - Story of proposal of the theory of natural selection
Lecture 2 - Natural Selection; Patrick Matthew. History of life on earth
Lecture 3 - Where did life come from ?
Lecture 4 - Elements of theory of natural selection
Lecture 5 - Limitations of Darwins proposal of theory of natural selection
Lecture 6 - Natural selection in action in ecology
Lecture 7 - Central Dogma of Molecular Biology
Lecture 8 - Gene expression in biology
Lecture 9 - Numbers in E. coli
Lecture 10 - Growth and evolution in microbial populations
Lecture 11 - Mutations and errors in DNA replication
Lecture 12 - How does E. coli divide ?
Lecture 13 - How does evolution take place in sexually reproducing organisms ?
Lecture 14 - Growth in batch culture
Lecture 15 - How to define fitness in a batch culture ?
Lecture 16 - Model for growth in exponential growth
Lecture 17 - Logistic model for growth
Lecture 18 - Growth in a chemostat
Lecture 19 - Modeling genotype competition in a chemostat
Lecture 20 - Mutations and their selection coefficients
Lecture 21 - Distribution of fitness effects (DFE)
Lecture 22 - Sequence Space and Fitness Landscape
Lecture 23 - Epistasis and structure of landscape
Lecture 24 - Epistasis and structure of landscape
Lecture 25 - Landscape of antibiotic resistance
Lecture 26 - IPsec and Virtual Private Networks (VPNs) for Network-Layer Security - Part 1
Lecture 27 - IPsec and Virtual Private Networks (VPNs) for Network-Layer Security - Part 2
Lecture 28 - IPsec and Virtual Private Networks (VPNs) for Network-Layer Security - Part 3
Lecture 29 - Securing Wireless LANs - Part 1
Lecture 30 - Securing Wireless LANs - Part 2
Lecture 31 - Marbles in a jar continued
Lecture 32 - Moran Process
Lecture 33 - Transition probability in Moran process
Lecture 34 - Fixation probability
Lecture 35 - Fixation probability of a neutral mutation
Lecture 36 - Fixation probability of a beneficial mutation
Lecture 37 - Fixation probability of a beneficial mutation (Continued...)
Lecture 38 - Fixation probability of a beneficial mutation (Continued...)
Lecture 39 - Time of occurance of mutations
Lecture 40 - Graphical representation of evolving populations
Lecture 41 - Time of fixation of mutations
Lecture 42 - Estimating t_wait
Lecture 43 - Traveling wave model of microbial evolution
Lecture 44 - Deriving traveling wave model equations
Lecture 45 - dN/dS
Lecture 46 - dN/dS (Continued...), and how to do an evolution experiment in lab ?
Lecture 47 - Serial Subculture Experiment
Lecture 48 - Evolution in Chemostat and Mutation Accumulation Experiment
Lecture 49 - Megaplate Experiment
Lecture 50 - Long Term Evolution Experiment (LTEE)
Lecture 51 - Fitness trajectory with number of generations
Lecture 52 - Second order selection - mutation rate
Lecture 53 - Do fitness landscapes have a peak ?
Lecture 54 - Do fitness landscapes have a peak ? (Continued...)
Lecture 55 - Metabolic innovation in a lab evolution experiment ?
Lecture 56 - Selection vs. Drift
Lecture 57 - Historical Contingency in evolution
Lecture 58 - Unicellularity to Multicellularity
Lecture 59 - Adaptive diversification in microbial populations
Lecture 60 - Synonymous mutations have fitness effects. Mutation Accumulation Experiments
