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Literature DB >> 15182706

The mitotic spindle and actin tails.

Abstract

To segregate their chromosomes, eukaryotic cells rely on a dynamic structure made of microtubules: the mitotic spindle. This structure can form in cells lacking centrosomes, because their chromosomes also nucleate microtubules. This second assembly pathway is observed even in some cells that naturally have centrosomes, for example when the centrosomes are ablated by laser surgery. Recent results have started to address the complementary question of whether centrosome-nucleated microtubules alone could sustain the formation of a functional mitotic spindle. We wonder in this respect whether lower eukaryotes such as yeasts are different from higher eukaryotes such as vertebrates.

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Actins

Year: 2004 PMID： 15182706 DOI： 10.1016/j.biolcel.2003.12.008

Source DB: PubMed Journal: Biol Cell ISSN： 0248-4900 Impact factor: 4.458

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Cited

7 in total

The mitotic spindle and actin tails.

1. Bipolarization and poleward flux correlate during Xenopus extract spindle assembly.

Review 2. Towards a quantitative understanding of mitotic spindle assembly and mechanics.

Review 3. Mechanism and function of poleward flux in Xenopus extract meiotic spindles.

4. Bipolar, anastral spindle development in artificially activated sea urchin eggs.

5. The elasticity of motor-microtubule bundles and shape of the mitotic spindle.

6. Efficient formation of bipolar microtubule bundles requires microtubule-bound gamma-tubulin complexes.

7. Cell shape and intercellular adhesion regulate mitotic spindle orientation.