Add to ORKGAccurate positioning of spindles is essential for asymmetric mitotic and meiotic cell divisions that are crucial for animal development and oocyte maturation, respectively. The predominant model for spindle positioning, termed "cortical pulling," involves attachment of the microtubule-based motor cytoplasmic dynein to the cortex, where it exerts a pulling force on microtubules that extend from the spindle poles to the cell cortex, thereby displacing the spindle. Recent studies have addressed important details of the cortical pulling mechanism and have revealed alternative mechanisms that may be used when microtubules do not extend from the spindle to the cortex
International audienceIn Caenorhabditis elegans zygote, astral microtubules generate forces essentia...
The spindle is a dynamic structure that changes its architecture and size in response to biochemical...
International audienceDuring asymmetric division of the Caenorhabditis elegans zygote, to properly d...
Accurate positioning of spindles is essential for asymmetric mitotic and meiotic cell divisions that...
SummaryProper spatial control of the cell division plane is essential to any developing organism. In...
SummaryTo divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a ...
To divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a process...
When a spindle is positioned asymmetrically in a dividing cell, the resulting daughter cells are une...
Proper positioning of the mitotic spindle is fundamental for specifying the site for cleavage furrow...
In animal cells, positioning of the mitotic spindle is crucial for defining the plane of cytokinesis...
International audienceCell mechanics control the outcome of cell division. In mitosis, external forc...
Mitotic spindle positioning by cortical pulling forces defines the cell division axis and location, ...
The position of the mitotic spindle determines the cleavage plane in animal cells, but what controls...
SummaryInteractions between microtubules and the cell cortex play a critical role in positioning org...
International audienceIn Caenorhabditis elegans zygote, astral microtubules generate forces essentia...
The spindle is a dynamic structure that changes its architecture and size in response to biochemical...
International audienceDuring asymmetric division of the Caenorhabditis elegans zygote, to properly d...
Accurate positioning of spindles is essential for asymmetric mitotic and meiotic cell divisions that...
SummaryProper spatial control of the cell division plane is essential to any developing organism. In...
SummaryTo divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a ...
To divide asymmetrically, the mitotic spindle is moved from the cell center to the cortex, a process...
When a spindle is positioned asymmetrically in a dividing cell, the resulting daughter cells are une...
Proper positioning of the mitotic spindle is fundamental for specifying the site for cleavage furrow...
In animal cells, positioning of the mitotic spindle is crucial for defining the plane of cytokinesis...
International audienceCell mechanics control the outcome of cell division. In mitosis, external forc...
Mitotic spindle positioning by cortical pulling forces defines the cell division axis and location, ...
The position of the mitotic spindle determines the cleavage plane in animal cells, but what controls...
SummaryInteractions between microtubules and the cell cortex play a critical role in positioning org...
International audienceIn Caenorhabditis elegans zygote, astral microtubules generate forces essentia...
The spindle is a dynamic structure that changes its architecture and size in response to biochemical...
International audienceDuring asymmetric division of the Caenorhabditis elegans zygote, to properly d...