Regulated degradation of replication-dependent histone mRNAs requires both ATR and Upf1
- 7 August 2005
- journal article
- research article
- Published by Springer Nature in Nature Structural & Molecular Biology
- Vol. 12 (9) , 794-800
- https://doi.org/10.1038/nsmb972
Abstract
Eukaryotic cells coordinately regulate histone and DNA synthesis. In mammalian cells, most of the regulation of histone synthesis occurs post-transcriptionally by regulating the concentrations of histone mRNA. As cells enter S phase, histone mRNA levels increase, and at the end of S phase they are rapidly degraded. Moreover, inhibition of DNA synthesis causes rapid degradation of histone mRNAs. Replication-dependent histone mRNAs are the only metazoan mRNAs that are not polyadenylated. Instead, they end with a conserved stem-loop structure, which is the only cis-acting element required for coupling regulation of histone mRNA half-life with DNA synthesis. Here we show that regulated degradation of histone mRNAs requires Upf1, a key regulator of the nonsense-mediated decay pathway, and ATR, a key regulator of the DNA damage checkpoint pathway activated during replication stress.Keywords
This publication has 42 references indexed in Scilit:
- Nonsense-mediated mRNA decay: splicing, translation and mRNP dynamicsNature Reviews Molecular Cell Biology, 2004
- Phosphorylation of Stem-Loop Binding Protein (SLBP) on Two Threonines Triggers Degradation of SLBP, the Sole Cell Cycle-Regulated Factor Required for Regulation of Histone mRNA Processing, at the End of S PhaseMolecular and Cellular Biology, 2003
- The Human and Mouse Replication-Dependent Histone GenesGenomics, 2002
- Separable Roles for rent1/hUpf1 in Altered Splicing and Decay of Nonsense TranscriptsScience, 2002
- The Stem-Loop Binding Protein Is Required for Efficient Translation of Histone mRNA In Vivo and In VitroMolecular and Cellular Biology, 2002
- Evidence that phosphorylation of human Upf1 protein varies with intracellular location and is mediated by a wortmannin-sensitive and rapamycin-sensitive PI 3-kinase-related kinase signaling pathwayRNA, 2001
- Formation of the 3′ end of histone mRNAGene, 1999
- Identification of a novel component of the nonsense-mediated mRNA decay pathway by use of an interacting protein screen.Genes & Development, 1995
- Translation is required for regulation of histone mRNA degradationCell, 1987
- Characterization of mouse H3.3-like histone genesGene, 1987