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Pyrimidine pool imbalance induced by BLM helicase deficiency contributes to genetic instability in Bloom syndrome
Mutations in the DNA helicaseBLM cause Bloom syndrome, which is characterized by slow replication fork progression and genetic instability. Here, cells lacking BLMare shown to have a defect in cytidine deaminase, which alters the pyrimidine pool and results in replication fork progression with altered velocity.
- Pauline Chabosseau
- , Géraldine Buhagiar-Labarchède
- & Mounira Amor-Guéret
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| Open AccessAurora B potentiates Mps1 activation to ensure rapid checkpoint establishment at the onset of mitosis
Mitotic exit is controlled by a cell division checkpoint that prevents premature degradation of cyclin B by the anaphase-promoting complex. Saurinet al. show that Aurora B directly regulates timely establishment of this checkpoint by facilitating activation of Mps1 kinase at unattached kinetochores.
- Adrian T. Saurin
- , Maike S. van der Waal
- & Geert J.P.L. Kops
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| Open AccessIntestinal epithelial stem cells do not protect their genome by asymmetric chromosome segregation
It has been proposed that stem cells use nonrandom chromosome segregation to avoid the accumulation of replication-induced mutations. Here, the authors examine intestinal epithelial stem cell division and show, using label exclusion and retention assays, that the cells segregate their chromosomes randomly.
- Marion Escobar
- , Pierre Nicolas
- & Catherine Legraverend
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| Open AccessDrosophila neuroblasts retain the daughter centrosome
Asymmetric partitioning of centrosomes has been reported inDrosophilaneuroblasts, but whether this type of division has implications for stem cell self-renewal is unclear. In this study, the authors show that the asymmetric division of the centrosomes correlates with the asymmetric fate of the cells and that the daughter centrosome is retained by the neuroblast.
- Jens Januschke
- , Salud Llamazares
- & Cayetano Gonzalez
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Asymmetric spermatocyte division as a mechanism for controlling sex ratios
Some organisms produce unequal numbers of male and female progeny, but the mechanics of skewed of sex ratios are largely unknown. Here, the authors describe alterations in X-chromosome segregation and cytoplasmic partitioning during spermatogenesis that together explain the distorted sex ratio in a nematode species.
- Diane C. Shakes
- , Bryan J. Neva
- & Andre Pires-daSilva
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| Open AccessNeural stem and progenitor cells shorten S-phase on commitment to neuron production
During neurogenesis, neural stem and progenitor cells can either proliferate or produce neurons. Here, the authors show that proliferating neural stem and progenitor cells have a longer S-phase portion of the cell cycle than cells committed to neuron production, suggesting that this may enable faithful DNA replication.
- Yoko Arai
- , Jeremy N. Pulvers
- & Wieland B. Huttner
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| Open AccessRapid calcium-dependent activation of Aurora-A kinase
Aurora-A kinase localizes to centrosomes, is involved in the progression through mitosis and is overexpressed in certain cancers. Here, calcium is shown to induce Aurora-A auto-phosphorylation in a calmodulin-dependent manner, suggesting a novel role for Aurora-A in non-mitotic cells.
- Olga V. Plotnikova
- , Elena N. Pugacheva
- & Erica A. Golemis
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Peptidoglycan architecture can specify division planes in Staphylococcus aureus
To ensure correct cell division Staphylococci must remember which plane they previously divided along, but the mechanism by which this is achieved is unclear. In this article, using atomic force microscopy, peptidoglycan ribs are reported to mark previous planes of division.
- Robert D. Turner
- , Emma C. Ratcliffe
- & Simon J. Foster