Development transforms a single cell into a complex organism through coordinated cell division, differentiation, and morphogenesis. This simulation models key developmental mechanisms.
About This Simulation
Implement auxin-based self-organization of leaf primordia. Generate spiral and whorled patterns.
Key Concepts
- Morphogen Gradients: Chemical signals that diffuse through tissue, creating concentration gradients that specify cell fates based on position.
- Pattern Formation: Spontaneous emergence of spatial organization through reaction-diffusion, cell sorting, and mechanical forces.
- Cell Signaling: Communication between cells through direct contact or secreted molecules, coordinating development across tissues.
- Gene Regulatory Networks: Interconnected genes that control developmental timing and cell fate decisions.
Why It Matters
Understanding development informs regenerative medicine, birth defect prevention, and tissue engineering.
How to Explore
- Adjust the sliders to modify simulation parameters and observe how the system responds
- Look for emergent patterns that arise from agent interactions
- Try extreme parameter values to find phase transitions and tipping points
- Compare the simulation behavior to real-world phenomena
Category: Developmental Biology — Exploring morphogenesis and developmental processes