nanoHUB-U Biodesign L4.2: Cell Dynamics - Biological Oscillations II
nanoHUB-U Biodesign L4.1: Cell Dynamics - Biological Oscillations I
nanoHUB-U Biodesign L5.4: Cellular Devices - Cells as Biosensors II
nanoHUB-U Biodesign L5.2: Cellular Devices - The Cell Device Biointerface
nanoHUB-U Biodesign L1.3: Introduction - The Cell as a Machine - Power Consumption
nanoHUB-U Biodesign L1.4: Introduction - The Design of Photoreceptors as a Biosensors
nanoHUB-U Biodesign L3.3: Gene Circuits - Protien Half Lives
nanoHUB-U Biodesign L3.5: Gene Circuits - Feed Forward Loops I
nanoHUB-U Biodesign L3.6: Gene Circuits - Feed Forward Loops II
nanoHUB-U Biodesign L6.1: The Future - Synthetic Life
Light Induced ERK Nuclear Translocation
nanoHUB-U Atoms to Materials L3.1: What is "Molecular Dynamics"?
nanoHUB-U Nanophotonic Modeling L4.15: FAESOR: A MATLAB Toolbox for FEM Modeling
Systems biology course 2014 Jean Hausser: Biological background for computational students
phase portrait showing synchronization of biological oscillations with various coupling levels
nanoHUB-U Biodesign L3.4: Gene Circuits - Network Motif Negative Autoregulation
Engineering longevity—design of a synthetic gene oscillator to slow cellular aging
Stability (Part 2) - Process Control KIL3004
Unique "Imaging Reagents" Diagnocine 2019
Imaging reveals patterns in neuron firing
genetic oscillator
Lens Dynamics 4: Building a biological oscillator
Cellular Dynamics International
nanoHUB-U Biodesign L3.1: Gene Circuits - Introduction to Transcription Networks
nanoHUB-U Nanobiosensors L2.7: Settling Time - Beating the Diffusion Limit
