[HTML][HTML] Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
[HTML][HTML] Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - APL Bioengineering, 2018 - ncbi.nlm.nih.gov
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - APL Bioengineering, 2018 - pubs.aip.org
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - APL bioengineering, 2018 - pubmed.ncbi.nlm.nih.gov
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
[PDF][PDF] Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - pdfs.semanticscholar.org
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility.
S Koride, AJ Loza, SX Sun - APL Bioengineering, 2018 - europepmc.org
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
[PDF][PDF] Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - 2018 - core.ac.uk
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
[PDF][PDF] Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility
S Koride, AJ Loza, SX Sun - 2018 - digitalcommons.wustl.edu
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
Epithelial vertex models with active biochemical regulation of contractility can explain organized collective cell motility.
S Koride, AJ Loza, SX Sun - APL Bioengineering, 2018 - europepmc.org
Collective motions of groups of cells are observed in many biological settings such as
embryo development, tissue formation, and cancer metastasis. To effectively model …
embryo development, tissue formation, and cancer metastasis. To effectively model …
Epithelial Vertex Models with Active Biochemical Regulation of Contractility can Explain Organized Collective Cell Motility
S Koride, A Loza, SX Sun - digitalcommons.wustl.edu
Supplementary Material Epithelial Vertex Models with Active Biochemical Regulation of
Contractility can Explain Organized Collec Page 1 Supplementary Material Epithelial Vertex …
Contractility can Explain Organized Collec Page 1 Supplementary Material Epithelial Vertex …