Publications by authors named "Edwige Hiriart"

Long non-coding RNAs (lncRNAs) regulating gene expression at the chromatin level are widespread among eukaryotes. However, their functions and the mechanisms by which they act are not fully understood. Here, we identify new fission yeast regulatory lncRNAs that are targeted, at their site of transcription, by the YTH domain of the RNA-binding protein Mmi1 and degraded by the nuclear exosome.

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Germ cell differentiation, the cellular process by which a diploid progenitor cell produces by meiotic divisions haploid cells, is conserved from the unicellular yeasts to mammals. Over the recent years, yeast germ cell differentiation process has proven to be a powerful biological system to identify and study several long noncoding RNAs (lncRNAs) that play a central role in regulating cellular differentiation by acting directly on chromatin. Remarkably, in the well-studied budding yeast Saccharomyces cerevisiae and fission yeast Schizosaccharomyces pombe, the lncRNA-based chromatin regulations of germ cell differentiation are quite different.

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Regularly positioned nucleosomes are a common feature of 5' ends of most eukaryotic genes. A series of three studies, Shim et al (2012) and Pointner et al (2012) in this issue of The EMBO Journal and Hennig et al (2012) in EMBO Reports, now show that in the fission yeast Schizosaccharomyces pombe this intragenic nucleosome positioning mostly requires two ATP-dependent remodellers of the CHD family, Hrp1 and Hrp3. Moreover, they suggest that Hrp1- and Hrp3-dependent nucleosome spacing contributes to the silencing of cryptic antisense transcription.

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The selective elimination system blocks the accumulation of meiosis-specific mRNAs during the mitotic cell cycle in fission yeast. These mRNAs harbour a region, the determinant of selective removal (DSR), which is recognized by a YTH-family RNA-binding protein, Mmi1. Mmi1 directs target transcripts to destruction in association with nuclear exosomes.

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RNA interference (RNAi) silences gene expression by acting both at the transcriptional and post-transcriptional levels in a broad range of eukaryotes. In the fission yeast Schizosaccharomyces pombe the RNA-Induced Transcriptional Silencing (RITS) RNAi complex mediates heterochromatin formation at non-coding and repetitive DNA. However, the targeting and role of RITS at other genomic regions, including protein-coding genes, remain unknown.

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The contribution of histone-DNA interactions to nucleosome positioning in vivo is currently a matter of debate. We argue here that certain nucleosome positions, often in promoter regions, in yeast may be, at least in part, specified by the DNA sequence. In contrast other positions may be poorly specified.

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Article Synopsis
  • Nucleosomes are like spools around which DNA wraps, and where they sit on the DNA helps control how genes work.
  • Nucleosomes that are near important parts of genes tend to be more precisely placed than those farther away.
  • Different studies might show different results because they use different methods to look at nucleosomes on the same DNA, especially near the beginning of genes in a type of yeast.
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The Epstein-Barr virus early protein EB2 (also called BMLF1, Mta, or SM), which allows the nuclear export of a subset of early and late viral mRNAs derived from intronless genes, is essential for the production of infectious virions. An important feature of mRNA export factors is their capacity to shuttle continuously between the nucleus and the cytoplasm. In a previous study, we identified a novel CRM1-independent transferable nuclear export signal (NES) at the N terminus of EB2, between amino acids 61 and 146.

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In vivo nucleosomes often occupy well-defined preferred positions on genomic DNA. An important question is to what extent these preferred positions are directly encoded by the DNA sequence itself. We derive here from in vivo positions, accurately mapped by partial micrococcal nuclease digestion, a translational positioning signal that identifies the approximate midpoint of DNA bound by a histone octamer.

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The Epstein-Barr virus early protein EB2 (also called BMLF1, Mta, or SM), a protein absolutely required for the production of infectious virions, shares properties with mRNA export factors. By using a yeast two-hybrid screen, we have identified the human protein OTT3 as an EB2-interacting factor. OTT3 is a new member of the Spen (split end) family of proteins (huSHARP, huOTT1, DmSpen, and muMINT), which are characterized by several N-terminal RNA recognition motifs and a highly conserved C-terminal SPOC (Spen Paralog and Ortholog C-terminal) domain that, in the case of SHARP, has been shown to interact with SMRT/NCoR corepressors.

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The Epstein-Barr virus (EBV) protein EB2 (also called Mta, SM, or BMLF1) has properties in common with mRNA export factors and is essential for the production of EBV infectious virions. However, to date no RNA-binding motif essential for EB2-mediated mRNA export has been located in the protein. We show here by Northwestern blot analysis that the EB2 protein purified from mammalian cells binds directly to RNA.

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Epstein-Barr virus nuclear antigen 2 (EBNA2) is a transcriptional activator involved in the immortalization of B lymphocytes by the virus. EBNA2 is targeted to the promoters of its responsive genes, via interaction with cellular DNA-binding proteins. Using chromatin immunoprecipitation assays, we show for the first time the conditional recruitment of EBNA2 on two specific viral promoters in vivo and demonstrate a correlation between this recruitment and a local change in the acetylation of histones H3 and H4, which is promoter dependent.

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Article Synopsis
  • mRNA export factors are proteins that move back and forth between two parts of a cell called the cytoplasm and the nucleus.
  • Scientists discovered new parts of the Epstein-Barr virus protein EB2 that help it with this moving process, including a special signal that tells it when to leave the nucleus.
  • EB2 also interacts with another protein called REF to help export mRNA, and this process needs RNA to work properly.
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