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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grp (chk1) replication-checkpoint mutations and DNA damage trigger a Chk2-dependent block at the Drosophila midblastula transition.
TL;DR: It is concluded that the DNA-replication checkpoint maintains genome integrity during the cleavage divisions, and that checkpoint mutations lead to DNA damage that induces a novel Chk2-dependent block at the MBT.
Journal ArticleDOI
G2 acquisition by transcription-independent mechanism at the zebrafish midblastula transition.
TL;DR: It is shown that cell cycle remodeling during the zebrafish MBT includes the transcription-independent acquisition of a G2 phase that is essential for preventing entry into mitosis before S-phase completion in cycles 11-13 and that lengthening is not required for initiation of zygotic transcription.
Journal ArticleDOI
Influence of cyclin type and dose on mitotic entry and progression in the early Drosophila embryo.
TL;DR: RNA interference and real-time visualization in embryos are used to define the events regulated by each of the three mitotic cyclins of Drosophila melanogaster, CycA,CycB, and CycB3 and show that cyclin function can be sufficient for some mitotic events although inadequate for others.
Journal ArticleDOI
Mec1p regulates Pds1p levels in S phase: complex coordination of DNA replication and mitosis
TL;DR: It is shown that Pds1p becomes essential once two-thirds of the genome has been replicated and that the coupling of the completion of genome replication with mitosis relies on the regulation of PDS1p levels.
Journal ArticleDOI
Cycling through development in Drosophila and other metazoa.
Smruti J. Vidwans,Tin Tin Su +1 more
TL;DR: The various modes of cell-cycle regulation in metazoa are presented and their possible generation by a combination of universally conserved molecules and new regulatory circuits are discussed.
References
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A non-radioactive in situ hybridization method for the localization of specific RNAs in Drosophila embryos reveals translational control of the segmentation gene hunchback.
Diethard Tautz,Christine Pfeifle +1 more
TL;DR: A non-radioactive in situ hybridization technique for the localization of RNA in whole mount Drosophila embryos and revealed translational control of the maternally derived hb mRNA, which was difficult to detect by conventional techniques.
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A major developmental transition in early xenopus embryos: I. characterization and timing of cellular changes at the midblastula stage
TL;DR: The Xenopus embryo undergoes 12 rapid synchronous cleavages followed by a period of slower asynchronous divisions more typical of somatic cells, termed the midblastula transition (MBT), which shows that at the MBT the blastomeres become motile and transcriptionally active for the first time.
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Studies of nuclear and cytoplasmic behaviour during the five mitotic cycles that precede gastrulation in Drosophila embryogenesis
V.E. Foe,B.M. Alberts +1 more
TL;DR: Using differential interference contrast optics, combined with cinematography, the morphological changes that the living, syncytial embryo undergoes from stage 10 through 14 of Drosophila embryogenesis, that is just prior to and during formation of the cellular blastoderm are studied.