Asymmetric cell division—where two dissimilar daughter cells are produced—relies on asymmetric positioning of the telophase spindle midzone, which specifies the cleavage furrow. Ou et al. (2010) now report in Science a mechanism of asymmetric midzone positioning driven by a polarized cortical distribution of the contractile motor myosin-II
AbstractThe orientation of cell division can have important consequences on the choice of cell fates...
AbstractDrosophila neuroblast asymmetric divisions generate two daughters of unequal size and fate. ...
A new study shows that an antagonistic force model can explain a number of complex mitotic spindle m...
Asymmetric cell division—where two dissimilar daughter cells are produced—relies on asymmetric posit...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
SummaryBackgroundAfter anaphase, the segregated chromosomes are sequestered by cytokinesis into two ...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
It has been shown that two different pathways - the spindle and the polarity pathways- co-regulate t...
International audienceDuring asymmetric cell division, the mitotic spindle and polarized myosin can ...
Summary: Metazoan cells can generate unequal-sized sibling cells during cell division. This form of ...
Asymmetric cell division is an evolutionarily conserved mechanism widely used to generate cellular d...
AbstractCell fate diversity can be achieved through the asymmetric segregation of cell fate determin...
SummaryTo divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a ...
Polarized cortical cues are known to guide spindle movements to dictate division axis and cleavage s...
AbstractThe orientation of cell division can have important consequences on the choice of cell fates...
AbstractDrosophila neuroblast asymmetric divisions generate two daughters of unequal size and fate. ...
A new study shows that an antagonistic force model can explain a number of complex mitotic spindle m...
Asymmetric cell division—where two dissimilar daughter cells are produced—relies on asymmetric posit...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
SummaryBackgroundAfter anaphase, the segregated chromosomes are sequestered by cytokinesis into two ...
Asymmetric cell division, creating sibling cells with distinct developmental potentials, can be mani...
It has been shown that two different pathways - the spindle and the polarity pathways- co-regulate t...
International audienceDuring asymmetric cell division, the mitotic spindle and polarized myosin can ...
Summary: Metazoan cells can generate unequal-sized sibling cells during cell division. This form of ...
Asymmetric cell division is an evolutionarily conserved mechanism widely used to generate cellular d...
AbstractCell fate diversity can be achieved through the asymmetric segregation of cell fate determin...
SummaryTo divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a ...
Polarized cortical cues are known to guide spindle movements to dictate division axis and cleavage s...
AbstractThe orientation of cell division can have important consequences on the choice of cell fates...
AbstractDrosophila neuroblast asymmetric divisions generate two daughters of unequal size and fate. ...
A new study shows that an antagonistic force model can explain a number of complex mitotic spindle m...
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