T. C. McDevitt

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.

A. R. G. Libby, D. Briers, I. Haghighi, D. A. Joy, B. R. Conklin, C. Belta, T. C. McDevitt (Authors)

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.

A. R. G. Libby, D. Briers, I. Haghighi, D. A. Joy, B. R. Conklin, C. Belta, T. C. McDevitt (Authors)

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.

A. R. G. Libby, D. Briers, I. Haghighi, D. A. Joy, B. R. Conklin, C. Belta, T. C. McDevitt (Authors)

L. Brusch (Contributor)

DOI:10.1016/j.cels.2019.10.008

Human iPSC CDH1-KD : Wildtype Colony Patterning