Modifications of the 5′ Cap of mRNAs during <i>Xenopus</i> Oocyte Maturation: Independence from Changes in Poly(A) Length and Impact on Translation

Gillian-Daniel, Donald L.; Gray, Nicola K.; Åström, Jonas; Barkoff, Aaron; Wickens, Marvin

doi:10.1128/mcb.18.10.6152

Cited by 68 publications

(59 citation statements)

References 63 publications

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“…The eluted RNA was then extracted with phenol-chloroform and precipitated with 0.3 M sodium acetate and 2 volumes of 100% ethanol. The RNA concentration was determined by scintillation counting (11).…”

Section: Methodsmentioning

confidence: 99%

Reovirus Protein ςNS Binds in Multiple Copies to Single-Stranded RNA and Shares Properties with Single-Stranded DNA Binding Proteins

Gillian

Schmechel

Livny

et al. 2000

J Virol

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Reovirus nonstructural protein NS interacts with reovirus plus-strand RNAs in infected cells, but little is known about the nature of those interactions or their roles in viral replication. In this study, a recombinant form of NS was analyzed for in vitro binding to nucleic acids using gel mobility shift assays. Multiple units of NS bound to single-stranded RNA molecules with positive cooperativity and with each unit covering about 25 nucleotides at saturation. The NS protein did not bind preferentially to reovirus RNA over nonreovirus RNA in competition experiments but did bind preferentially to single-stranded over double-stranded nucleic acids and with a slight preference for RNA over DNA. In addition, NS bound to single-stranded RNA to which a 19-base DNA oligonucleotide was hybridized at either end or near the middle. When present in saturative amounts, NS displaced this oligonucleotide from the partial duplex. The strand displacement activity did not require ATP hydrolysis and was inhibited by MgCl 2 , distinguishing it from a classical ATP-dependent helicase. These properties of NS are similar to those of single-stranded DNA binding proteins that are known to participate in genomic DNA replication, suggesting a related role for NS in replication of the reovirus RNA genome.Mammalian orthoreoviruses (reoviruses) encode three nonstructural proteins, NS, NS, and 1s, whose roles during viral infection remain poorly understood. This report concerns NS, which is known to be essential for reovirus replication based on the phenotype of a conditionally lethal (temperaturesensitive) mutant with its lesion in the NS-encoding S3 gene segment (9, 27). The NS protein comprises 366 amino acids and has a molecular mass of 41 kDa. Interaction of NS with the viral plus-strand RNAs in infected cells is well documented (3,14). Moreover, when NS from infected cells is used to bind those RNAs in vitro, it protects 20-to 40-nucleotide fragments of the RNAs from RNase T1 digestion (34). Since the protected fragments include the 3Ј ends of at least some of the plus-strand RNAs, it was proposed that NS binds specifically to those regions (34). In addition, NS and two other reovirus proteins, NS and 3, are found to associate with the viral plus-strand RNAs shortly after they are transcribed in infected cells and before minus-strand synthesis converts them into the double-stranded RNA (dsRNA) genome segments (3). These findings have led to a hypothesis that NS plays a role in selecting or condensing the viral plus-strand RNAs for packaging during early stages of particle morphogenesis (3,14,28,34). A role for NS in translation of proteins from the reovirus plus-strand RNAs has also been suggested (10,14).Evidence for a direct role of NS in minus-strand synthesis is limited. The temperature-sensitive mutant whose lesion maps to the S3 gene segment (27) produces little or no dsRNA at restrictive temperatures (9, 15), but this indicates only that NS provides a required function at or before minus-strand synthesis in the replication cycl...

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Section: Methodsmentioning

confidence: 99%

Reovirus Protein ςNS Binds in Multiple Copies to Single-Stranded RNA and Shares Properties with Single-Stranded DNA Binding Proteins

Gillian

Schmechel

Livny

et al. 2000

J Virol

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“…The role of Dhh1 in removing mRNAs from translation is particularly apparent in oocytes and early embryos prior to the onset of zygotic transcription, because decapping does not occur in response to shortening of the poly(A) tail (Gillian-Daniel et al, 1998). Dhh1 is required for repression of translation of maternal mRNAs until the appropriate stage (Boag et al, 2008;Ladomery et al, 1997;Minshall et al, 2001;Nakamura et al, 2001;Navarro et al, 2001;Noble et al, 2008;Weston and Sommerville, 2006).…”

Section: Introductionmentioning

confidence: 99%

The RNA helicase DHH1 is central to the correct expression of many developmentally regulated mRNAs in trypanosomes

Krämer

Queiroz

Ellis

et al. 2010

Journal of Cell Science

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SummaryIn trypanosomes, the predominant mechanisms of regulation of gene expression are post-transcriptional. The DEAD-box RNA helicase DHH1 was identified in a screen for gene products that are necessary for the instability of the GPI-PLC mRNA in insect-stage trypanosomes. Expression of an ATPase-deficient dhh1 mutant caused a rapid growth arrest associated with a decrease in polysomes, an increase in P-bodies and a slight decrease in average mRNA levels. However, the effect of dhh1 mutant expression on both turnover and translational repression of mRNAs was selective. Whereas there was little effect on the stability of constitutive mRNAs, the control of a large cohort of developmentally regulated mRNAs was reversed; many mRNAs normally downregulated in insect-stage trypanosomes were stabilized and many mRNAs normally upregulated decreased in level. One stabilised mRNA, ISG75, was characterised further. Despite the overall decrease in polysomes, the proportion of the ISG75 mRNA in polysomes was unchanged and the result was ISG75 protein accumulation. Our data show that specific mRNAs can escape DHH1-mediated translational repression. In trypanosomes, DHH1 has a selective role in determining the levels of developmentally regulated mRNAs.

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“…We subjected 30 stage VI oocytes to sucrose gradient analysis through 10 to 50% sucrose and fractionated them as described (18). Protein was extracted from fractions by precipitation with 10% trichloroacetic acid prior to Western blot analysis.…”

Section: Methodsmentioning

confidence: 99%

Embryonic Poly(A)-Binding Protein Stimulates Translation in Germ Cells

Wilkie

Gautier

Lawson

et al. 2005

Molecular and Cellular Biology

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The function of poly(A)-binding protein 1 (PABP1) in poly(A)-mediated translation has been extensively characterized. Recently, Xenopus laevis oocytes and early embryos were shown to contain a novel poly(A)-binding protein, ePABP, which has not been described in other organisms. ePABP was identified as a protein that binds AU-rich sequences and prevents shortening of poly(A) tails. Here, we show that ePABP is also expressed in X. laevis testis, suggesting a more general role for ePABP in gametogenesis. We find that ePABP is conserved throughout vertebrates and that mouse and X. laevis cells have similar tissue-specific ePABP expression patterns. Furthermore, we directly assess the role of ePABP in translation. We show that ePABP is associated with polysomes and can activate the translation of reporter mRNAs in vivo. Despite its relative divergence from PABP1, we find that ePABP has similar functional domains and can bind to several PABP1 partners, suggesting that they may use similar mechanisms to activate translation. In addition, we find that PABP1 and ePABP can interact, suggesting that these proteins may be bound simultaneously to the same mRNA. Finally, we show that the activity of both PABP1 and ePABP increases during oocyte maturation, when many mRNAs undergo polyadenylation.

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Modifications of the 5′ Cap of mRNAs during Xenopus Oocyte Maturation: Independence from Changes in Poly(A) Length and Impact on Translation

Cited by 68 publications

References 63 publications

Reovirus Protein ςNS Binds in Multiple Copies to Single-Stranded RNA and Shares Properties with Single-Stranded DNA Binding Proteins

Reovirus Protein ςNS Binds in Multiple Copies to Single-Stranded RNA and Shares Properties with Single-Stranded DNA Binding Proteins

The RNA helicase DHH1 is central to the correct expression of many developmentally regulated mRNAs in trypanosomes

Embryonic Poly(A)-Binding Protein Stimulates Translation in Germ Cells

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