Microtubules promote intercellular contractile force transmission during tissue folding
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - bioRxiv, 2019 - biorxiv.org
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - The Journal of cell …, 2019 - pubmed.ncbi.nlm.nih.gov
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
[PDF][PDF] Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - J. Cell Biol, 2019 - pdfs.semanticscholar.org
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - 2019 - dspace.mit.edu
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - Journal of Cell Biology, 2019 - cir.nii.ac.jp
抄録< jats: p> During development, forces transmitted between cells are critical for sculpting
epithelial tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can …
epithelial tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can …
Microtubules promote intercellular contractile force transmission during tissue folding.
CS Ko, V Tserunyan, AC Martin - The Journal of Cell Biology, 2019 - europepmc.org
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
[HTML][HTML] Microtubules promote intercellular contractile force transmission during tissue folding
CS Ko, V Tserunyan, AC Martin - The Journal of Cell Biology, 2019 - ncbi.nlm.nih.gov
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
Microtubules promote intercellular contractile force transmission during tissue folding.
CS Ko, V Tserunyan, AC Martin - The Journal of Cell Biology, 2019 - europepmc.org
During development, forces transmitted between cells are critical for sculpting epithelial
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …
tissues. Actomyosin contractility in the middle of the cell apex (medioapical) can change cell …