DNA-replication checkpoint control at the Drosophila midblastula transition
TLDR
This article showed that mutations in the grapes (grp) checkpoint 1 kinase homologue in Drosophila block the morphological and biochemical changes that accompany the midblastula transition, leading to a continuation of the maternal cell-cycle programme, and disrupt DNA-replication checkpoint control of cell cycle progression.Abstract:
Embryogenesis is typically initiated by a series of rapid mitotic divisions that are under maternal genetic control. The switch to zygotic control of embryogenesis at the midblastula transition is accompanied by significant increases in cell-cycle length and gene transcription, and changes in embryo morphology. Here we show that mutations in the grapes (grp) checkpoint 1 kinase homologue in Drosophila block the morphological and biochemical changes that accompany the midblastula transition, lead to a continuation of the maternal cell-cycle programme, and disrupt DNA-replication checkpoint control of cell-cycle progression. The timing of the midblastula transition is controlled by the ratio of nuclei to cytoplasm (the nucleocytoplasmic ratio), suggesting that this developmental transition is triggered by titration of a maternal factor by the increasing mass of nuclear material that accumulates during the rapid embryonic mitoses. Our observations support a model for cell-cycle control at the midblastula transition in which titration of a maternal component of the DNA-replication machinery slows DNA synthesis and induces a checkpoint-dependent delay in cell-cycle progression. This delay may allow both completion of S phase and transcription of genes that initiate the switch to zygotic control of embryogenesis.read more
Citations
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Journal ArticleDOI
Cellular Responses to DNA Damage: One Signal, Multiple Choices
TL;DR: This work reviews recent data on cellular responses to DNA double-strand breaks and investigates whether a cell may arrest division via checkpoint activation to fix DSBs or commit suicide by apoptosis.
COMMENTARY Chk1 and Cds1: linchpins of the DNA damage and replication checkpoint pathways
Nicholas Rhind,Paul Russell +1 more
TL;DR: In this paper, the Chk1 and Cds1 protein kinases, downstream effectors in the checkpoint pathways, seem to play just such roles, and they not only have different targets in different organisms but also seem to respond to different signals.
Journal ArticleDOI
Smaug, a novel RNA-binding protein that operates a translational switch in Drosophila.
TL;DR: The observations suggest that Smaug operates a translational switch that governs the distribution of Nanos protein, a key component of the pole plasm for activation of nanos mRNA and specification of the germline precursors.
Journal ArticleDOI
The Drosophila grapes gene is related to checkpoint gene chk1/rad27 and is required for late syncytial division fidelity
Patrick Fogarty,Shelagh D. Campbell,Robin Abu-Shumays,Brigitte de Saint Phalle,Kristina R. Yu,Geoffrey L. Uy,Michael L. Goldberg,William J. Sullivan +7 more
TL;DR: It is proposed that the primary defect in grp-derived embryos is a failure to replicate or repair DNA completely before mitotic entry during the late syncytial divisions, which suggests that wild-type grp functions in a developmentally regulated DNA replication/damage checkpoint operating during theLate syncyTial divisions.
Journal ArticleDOI
Drosophila checkpoint kinase 2 couples centrosome function and spindle assembly to genomic integrity.
TL;DR: DmChk2 is essential for a "mitotic catastrophe" signal that disrupts centrosome function in response to genotoxic stress and ensures that mutant and aneuploid nuclei are eliminated from the embryonic precursor pool.
References
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