Olga Afonso scite author profile

Accurate chromosome segregation during mitosis requires the physical separation of sister chromatids before nuclear envelope reassembly (NER). However, how these two processes are coordinated remains unknown. Here, we identified a conserved feedback control mechanism that delays chromosome decondensation and NER in response to incomplete chromosome separation during anaphase. A midzone-associated Aurora B gradient was found to monitor chromosome position along the division axis and to prevent premature chromosome decondensation by retaining Condensin I. PP1/PP2A phosphatases counteracted this gradient and promoted chromosome decondensation and NER. Thus, an Aurora B gradient appears to mediate a surveillance mechanism that prevents chromosome decondensation and NER until effective separation of sister chromatids is achieved. This allows the correction and reintegration of lagging chromosomes in the main nuclei before completion of NER.

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Genes involved in centrosome-independent mitotic spindle assembly in Drosophila S2 cells

Moutinho-Pereira

Stuurman

Afonso

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Significance The mitotic spindle, a structure composed primarily of microtubules, guides the segregation of DNA during cell division. In somatic animal cells, centrosomes (microtubule nucleating structures) reside near the mitotic spindle poles. However, germ cells lack centrosomes, and even somatic cells can execute cell division if centrosome function is compromised. This study on Drosophila cells reports a whole-genome RNAi screen for genes involved in spindle assembly in the absence of functional centrosomes. The results show that spindle assembly pathways with and without centrosomes involve an essentially identical set of genes, demonstrating the constitutive nature of centrosome-independent spindle assembly. However, certain gene knockdowns show distinct phenotypes when centrosomes are absent, thus revealing how spindles adapt to the presence or absence of centrosomes.

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Late mitotic functions of Aurora kinases

2016

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The coordination between late mitotic events such as poleward chromosome motion, spindle elongation, DNA decondensation, and nuclear envelope reformation (NER) is crucial for the completion of chromosome segregation at the anaphase-telophase transition. Mitotic exit is driven by a decrease of Cdk1 kinase activity and an increase of PP1/PP2A phosphatase activities. More recently, Aurora kinases have also emerged as master regulators of late mitotic events and cytokinesis. Aurora A is mainly associated with spindle poles throughout mitosis and midbody during telophase, whereas Aurora B re-localizes from centromeres in early mitosis to the spindle midzone and midbody as cells progress from anaphase to the completion of cytokinesis. Functional studies, together with the identification of a phosphorylation gradient during anaphase, established Aurora B as a major player in the organization of the spindle midzone and in the spatiotemporal coordination between chromosome segregation and NER. Aurora A has been less explored, but a cooperative role in spindle midzone stability has also been proposed, implying that both Aurora A and B contribute to accurate chromosome segregation during mitotic exit. Here, we review the roles of the Aurora kinases in the regulation of late mitotic events and discuss how they work together with other mitotic players to ensure an error-free mitosis.

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An anaphase surveillance mechanism prevents micronuclei formation from frequent chromosome segregation errors

et al. 2021

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Olga Afonso

Feedback control of chromosome separation by a midzone Aurora B gradient

Genes involved in centrosome-independent mitotic spindle assembly in Drosophila S2 cells

Late mitotic functions of Aurora kinases

An anaphase surveillance mechanism prevents micronuclei formation from frequent chromosome segregation errors

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