Mechanisms of spindle positioning: cortical force generators in the limelight.
- 2013-08-21
Published in:
- Current opinion in cell biology. - 2013
Animals
Antigens, Nuclear
Biological Transport
Caenorhabditis elegans
Caenorhabditis elegans Proteins
Cytokinesis
Dyneins
Humans
Microtubules
Nuclear Matrix-Associated Proteins
Spindle Apparatus
English
Correct positioning of the spindle governs placement of the cytokinesis furrow and thus plays a crucial role in the partitioning of fate determinants and the disposition of daughter cells in a tissue. Converging evidence indicates that spindle positioning is often dictated by interactions between the plus-end of astral microtubules that emanate from the spindle poles and an evolutionary conserved cortical machinery that serves to pull on them. At the heart of this machinery lies a ternary complex (LIN-5/GPR-1/2/Gα in Caenorhabditis elegans and NuMA/LGN/Gαi in Homo sapiens) that promotes the presence of the motor protein dynein at the cell cortex. In this review, we discuss how the above components contribute to spindle positioning and how the underlying mechanisms are precisely regulated to ensure the proper execution of this crucial process in metazoan organisms.
- Language
-
- English
- Open access status
- green
- Identifiers
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- DOI 10.1016/j.ceb.2013.07.008
- PMID 23958212
- Persistent URL
- https://sonar.ch/global/documents/150896
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