Introduction to Dynamical Models in Biology

Introduction to Dynamical Models in Biology

NOC17 JAN-FEB BT05 via YouTube Direct link

Modeling Molecular Processes in Cell:Transcription and Translation

18 of 24

18 of 24

Modeling Molecular Processes in Cell:Transcription and Translation

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Introduction to Dynamical Models in Biology

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  1. 1 Mathematical modeling in biology
  2. 2 How to Start Modeling
  3. 3 Modeling the spread of infectious disease
  4. 4 Modeling population growth
  5. 5 Numerical solution of ODE 1
  6. 6 Numerical solution of ODE 2
  7. 7 Simulating ODE-based models:Introduction to JSim
  8. 8 Simulating ODE-based models:Examples of simulation in JSim
  9. 9 Steady state and stability analysis:Understanding Steady State
  10. 10 Steady state and stability analysis:Stability of Steady States
  11. 11 Phase Plane Analysis-I
  12. 12 Phase Plane Analysis-II
  13. 13 Concepts of Bifurcation: Introduction
  14. 14 Concepts of Bifurcation: Bifurcation in Biological Systems
  15. 15 Modeling Molecular Processes in Cell: Introduction
  16. 16 Modeling Molecular Processes in Cell: Receptor-Ligand Interaction
  17. 17 Modeling Molecular Processes in Cell:Enzymatic Processes
  18. 18 Modeling Molecular Processes in Cell:Transcription and Translation
  19. 19 Modeling Cell Signaling:Negative Feedback Motif
  20. 20 Modeling Cell Signaling:Positive Feedback Motif
  21. 21 Modeling Cell Signaling:Incoherent Feedforward Motif
  22. 22 Modeling Transcriptional Circuits-1
  23. 23 Modeling Transcriptional Circuits-2
  24. 24 Online Resources for Mathematical Modeling in Biology

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