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Xenopus oocyte meiosis lacks spindle assembly checkpoint control.

The Journal of cell biology (2013-04-10)
Hua Shao, Ruizhen Li, Chunqi Ma, Eric Chen, X Johné Liu
RESUMEN

The spindle assembly checkpoint (SAC) functions as a surveillance mechanism to detect chromosome misalignment and to delay anaphase until the errors are corrected. The SAC is thought to control mitosis and meiosis, including meiosis in mammalian eggs. However, it remains unknown if meiosis in the eggs of nonmammalian vertebrate species is also regulated by SAC. Using a novel karyotyping technique, we demonstrate that complete disruption of spindle microtubules in Xenopus laevis oocytes did not affect the bivalent-to-dyad transition at the time oocytes are undergoing anaphase I. These oocytes also acquired the ability to respond to parthenogenetic activation, which indicates proper metaphase II arrest. Similarly, oocytes exhibiting monopolar spindles, via inhibition of aurora B or Eg5 kinesin, underwent monopolar anaphase on time and without additional intervention. Therefore, the metaphase-to-anaphase transition in frog oocytes is not regulated by SAC.

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Demecolcine solution, 10 μg/mL in HBSS, ACF Qualified, BioXtra
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Demecolcine, ≥98% (HPLC)
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(+)-S-Trityl-L-cysteine, 97%