Differential Adhesion

Differential Adhesion: Cell Sorting in Two Dimensions
Morpheus Model ID: M0021
Introduction This model shows the original cellular Potts model (a.k.a. Glazier-Graner model) of cell sorting based on the Steinberg’s differential adhesion hypothesis. Yellow cells engulf the red cells as a result of differential adhesion.
F. Graner, J. A. Glazier (Authors)
Differential Adhesion: Cell Sorting in Two Dimensions
Single Genotype Circuit
Morpheus Model ID: M2053
Introduction This model combines simple Notch signaling with the cellular Potts model (CPM), which drives cell sorting as a result of differential adhesion. Model details are contained in the reference Mulberry and Keshet, 2020.
N. Mulberry (Contributor)
DOI:10.1088/1478-3975/abb2dc
Single Genotype Circuit
Three Layer Circuit
Morpheus Model ID: M2052
Introduction This model combines simple Notch signaling with the cellular Potts model (CPM), which drives cell sorting as a result of differential adhesion. Model details are contained in the reference Mulberry and Keshet, 2020.
N. Mulberry (Contributor)
DOI:10.1088/1478-3975/abb2dc
Three Layer Circuit
Two Layer Circuit
Morpheus Model ID: M2051
Introduction This model combines simple Notch signaling with the cellular Potts model (CPM), which drives cell sorting as a result of differential adhesion. Model details are contained in the reference Mulberry and Keshet, 2020.
N. Mulberry (Contributor)
DOI:10.1088/1478-3975/abb2dc
Two Layer Circuit
Human iPSC Wildtype Colony Growth
Morpheus Model ID: M7671
Introduction Human induced pluripotent stem cells (hiPSCs) can be grown in cell culture where they self-organize spatial patterns. Libby et al. have employed inducible CRISPR interference-driven genetic perturbations to modulate mechanical cell properties like cell-cell adhesion and cortical tension.
L. Brusch (Contributor)
DOI:10.1016/j.cels.2019.10.008
Human iPSC Wildtype Colony Growth
Human iPSC ROCK1-KD : Wildtype Colony Patterning
Morpheus Model ID: M7673
Introduction Human induced pluripotent stem cells (hiPSCs) can be grown in cell culture where they self-organize spatial patterns. Libby et al. have employed inducible CRISPR interference-driven genetic perturbations to modulate mechanical cell properties like cell-cell adhesion and cortical tension.
L. Brusch (Contributor)
DOI:10.1016/j.cels.2019.10.008
Human iPSC ROCK1-KD : Wildtype Colony Patterning
Human iPSC CDH1-KD : Wildtype Colony Patterning
Morpheus Model ID: M7672
Introduction Human induced pluripotent stem cells (hiPSCs) can be grown in cell culture where they self-organize spatial patterns. Libby et al. have employed inducible CRISPR interference-driven genetic perturbations to modulate mechanical cell properties like cell-cell adhesion and cortical tension.
L. Brusch (Contributor)
DOI:10.1016/j.cels.2019.10.008
Human iPSC CDH1-KD : Wildtype Colony Patterning
Simplified Cell Sorting
Morpheus Model ID: M2007
A simplified version of the Morpheus cell sorting example Introduction A simplified version of the Morpheus built-in example of M0021"cell sorting showing the effect of cell-cell and cell-medium contact energies on the tissue configuration.
Y. Xiao (Contributor)
L. Edelstein-Keshet: Mathematical Models in Cell Biology
Simplified Cell Sorting
Self-organized multicellular structures from simple cell signaling: a computational model
Recent synthetic biology experiments reveal that signaling modules designed to target cell-cell adhesion enable self-organization of …
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Self-organized multicellular structures from simple cell signaling: a computational model