AbstractThe plasma membrane of polarized epithelial cells is composed of different domains, which are associated with specific protein complexes. Recent studies in Drosophila shed new light on the functional interactions of these protein complexes during epithelial differentiation in embryogenesis
AbstractPolarization of epithelial cells depends on a hierarchical process whereby specific membrane...
Background: The differentiation of an extracellular matrix (ECM) at the apical side of epithelial ce...
Planar cell polarity (PCP) proteins form polarized cortical domains that govern polarity of external...
AbstractThe plasma membrane of polarized epithelial cells is composed of different domains, which ar...
Multicellular animals face the principle challenge to deal with two distinct compartments: the inter...
Apico-basal polarity is a hallmark of epithelial tissues. The integrated activity of several evoluti...
AbstractEpithelial cells must polarize and establish apical and basolateral membrane domains during ...
The polarized architecture of epithelial cells and tissues is a fundamental determinant of animal an...
Apical-basal polarity is essential for the formation and function of epithelial tissues, whereas los...
Apical–basal polarity is essential for the formation and function of epithelial tissues, whereas los...
The polarized nature of epithelial cells is manifested by the nonrandom partitioning of organelles w...
Apical-basal polarity is essential for the formation and function of epithelial tissues, whereas los...
SummaryThe polarized architecture of epithelia relies on an interplay between the cytoskeleton, the ...
AbstractThe function of epithelial tissues is dependent on their polarised architecture, and loss of...
AbstractHow epithelial cells subdivide their plasma membrane into an apical and a basolateral domain...
AbstractPolarization of epithelial cells depends on a hierarchical process whereby specific membrane...
Background: The differentiation of an extracellular matrix (ECM) at the apical side of epithelial ce...
Planar cell polarity (PCP) proteins form polarized cortical domains that govern polarity of external...
AbstractThe plasma membrane of polarized epithelial cells is composed of different domains, which ar...
Multicellular animals face the principle challenge to deal with two distinct compartments: the inter...
Apico-basal polarity is a hallmark of epithelial tissues. The integrated activity of several evoluti...
AbstractEpithelial cells must polarize and establish apical and basolateral membrane domains during ...
The polarized architecture of epithelial cells and tissues is a fundamental determinant of animal an...
Apical-basal polarity is essential for the formation and function of epithelial tissues, whereas los...
Apical–basal polarity is essential for the formation and function of epithelial tissues, whereas los...
The polarized nature of epithelial cells is manifested by the nonrandom partitioning of organelles w...
Apical-basal polarity is essential for the formation and function of epithelial tissues, whereas los...
SummaryThe polarized architecture of epithelia relies on an interplay between the cytoskeleton, the ...
AbstractThe function of epithelial tissues is dependent on their polarised architecture, and loss of...
AbstractHow epithelial cells subdivide their plasma membrane into an apical and a basolateral domain...
AbstractPolarization of epithelial cells depends on a hierarchical process whereby specific membrane...
Background: The differentiation of an extracellular matrix (ECM) at the apical side of epithelial ce...
Planar cell polarity (PCP) proteins form polarized cortical domains that govern polarity of external...
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