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© Research
Publication : The Journal of cell biology

Spindle assembly in Xenopus egg extracts: respective roles of centrosomes and microtubule self-organization

Scientific Fields
Diseases
Organisms
Applications
Technique

Published in The Journal of cell biology - 11 Aug 1997

Heald R, Tournebize R, Habermann A, Karsenti E, Hyman A

Link to Pubmed [PMID] – 9245790

J. Cell Biol. 1997 Aug;138(3):615-28

In Xenopus egg extracts, spindles assembled around sperm nuclei contain a centrosome at each pole, while those assembled around chromatin beads do not. Poles can also form in the absence of chromatin, after addition of a microtubule stabilizing agent to extracts. Using this system, we have asked (a) how are spindle poles formed, and (b) how does the nucleation and organization of microtubules by centrosomes influence spindle assembly? We have found that poles are morphologically similar regardless of their origin. In all cases, microtubule organization into poles requires minus end-directed translocation of microtubules by cytoplasmic dynein, which tethers centrosomes to spindle poles. However, in the absence of pole formation, microtubules are still sorted into an antiparallel array around mitotic chromatin. Therefore, other activities in addition to dynein must contribute to the polarized orientation of microtubules in spindles. When centrosomes are present, they provide dominant sites for pole formation. Thus, in Xenopus egg extracts, centrosomes are not necessarily required for spindle assembly but can regulate the organization of microtubules into a bipolar array.