MIT 8.591J Systems Biology, Fall 2014
5.0
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20 learners
What you'll learn
This course includes
- 31.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 24 lessons • 31.5 hours of video
MIT 8.591J Systems Biology, Fall 2014
24 lessons
• 31.5 hours
MIT 8.591J Systems Biology, Fall 2014
24 lessons
• 31.5 hours
- Introduction to the Class and Overview of Topics01:07:20
- Input Function, Michaelis-Menten kinetics, and Cooperativity01:17:45
- Autoregulation, Feedback and Bistability01:18:41
- Synthetic Biology and Stability Analysis in the Toggle Switch01:19:57
- Oscillatory Genetic Networks01:21:11
- Graph Properties of Transcription Networks01:21:29
- Feed-forward Loop Network Motif01:21:29
- Introduction to Stochastic Gene Expression01:20:35
- Causes and Consequences of Stochastic Gene Expression01:20:42
- Stochastic Modeling01:21:51
- Life at Low Reynolds Number01:19:12
- Robustness and Bacterial Chemotaxis01:18:42
- Robustness in Development and Pattern Formation01:21:18
- Microbial Evolution Experiments and Optimal Gene Circuit Design01:19:40
- Evolution in Finite Populations01:20:56
- Clonal Interference and the Distribution of Beneficial Mutations01:21:05
- Fitness Landscapes and Sequence Spaces01:18:46
- Evolutionary Games01:20:41
- Survival in Fluctuating Environments01:18:27
- Parasites, the Evolution of Virulence and Sex01:18:44
- Interspecies Interactions01:21:03
- Ecosystem Stability, Critical Transitions, and Biodiversity01:20:04
- Dynamics of Populations in Space01:20:47
- The Neutral Theory of Ecology01:17:45
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