NOC:Introduction to Dynamical Models in Biology


Lecture 1 - Mathematical modeling in Biology


Lecture 2 - How to Start Modeling


Lecture 3 - Modeling the spread of infectious disease


Lecture 4 - Modeling population growth


Lecture 5 - Numerical solution of ODE-1


Lecture 6 - Numerical solution of ODE-2


Lecture 7 - Simulating ODE-based models: Introduction to JSim


Lecture 8 - Simulating ODE-based models: Examples of simulation in JSim


Lecture 9 - Steady state and stability analysis: Understanding Steady State


Lecture 10 - Steady state and stability analysis: Stability of Steady States


Lecture 11 - Phase Plane Analysis - I


Lecture 12 - Phase Plane Analysis - II


Lecture 13 - Concepts of Bifurcation:Introduction


Lecture 14 - Concepts of Bifurcation:Bifurcation in Biological Systems


Lecture 15 - Modeling Molecular Processes in Cell: Introduction


Lecture 16 - Modeling Molecular Processes in Cell: Receptor-Ligand Interaction


Lecture 17 - Modeling Molecular Processes in Cell: Enzymatic Processes


Lecture 18 - Modeling Molecular Processes in Cell: Transcription and Translation


Lecture 19 - Modeling Cell Signaling: Negative Feedback Motif


Lecture 20 - Modeling Cell Signaling: Positive Feedback Motif


Lecture 21 - Modeling Cell Signaling: Incoherent Feedforward Motif


Lecture 22 - Modeling Transcriptional Circuits-1


Lecture 23 - Modeling Transcriptional Circuits-2


Lecture 24 - Online Resources for Mathematical Modeling in Biology