1. Uninflatable and Notch Control the Targeting of Sara Endosomes during Asymmetric Division

    Current Biology 25(6):817 (2015)

  2. Uninflatable and Notch control the targeting of sara endosomes during asymmetric division.

    Current Biology 24(18):2142 (2014) PMID 25155514

    Cell fate decision during asymmetric division is mediated by the biased partition of cell fate determinants during mitosis [1-6]. In the case of the asymmetric division of the fly sensory organ precursor cells, directed Notch signaling from pIIb to the pIIa daughter endows pIIa with its distinct...
  3. Uninflatable and Notch Control the Targeting of Sara Endosomes during Asymmetric Division

    Current Biology 24(18):2142 (2014)

    Cell fate decision during asymmetric division is mediated by the biased partition of cell fate determinants during mitosis [1–6]. In the case of the asymmetric division of the fly sensory organ precursor cells, directed Notch signaling from pIIb to the pIIa daughter endows pIIa with it...
  4. Uninflatable and Notch control the targeting of Sara endosomes during asymmetric division.

    Current Biology 24(18):2142 (2014) PMID 25155514

    Cell fate decision during asymmetric division is mediated by the biased partition of cell fate determinants during mitosis [1-6]. In the case of the asymmetric division of the fly sensory organ precursor cells, directed Notch signaling from pIIb to the pIIa daughter endows pIIa with its distinct...
  5. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  6. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  7. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  8. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  9. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  10. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  11. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  12. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  13. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  14. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  15. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  16. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  17. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  18. Formation of adherens junctions leads to the emergence of a tissue-level tension in epithelial monolayers.

    Journal of Cell Science 127(Pt 11):2507 (2014) PMID 24659804 PMCID PMC4043320

    Adherens junctions and desmosomes integrate the cytoskeletons of adjacent cells into a mechanical syncitium. In doing so, intercellular junctions endow tissues with the strength needed to withstand the mechanical stresses encountered in normal physiology and to coordinate tension during morphoge...
  19. Uninflatable and Notch Control the Targeting of Sara Endosomes during Asymmetric Division

    Current Biology (2012)