A Bourdet scite author profile

Unstable minisatellites display high frequencies of spontaneous gain and loss of repeats in the human germline. Most length changes arise through complex recombination events including intra-allelic duplications/deletions and inter-allelic transfers of repeats. Definition of the factors modulating instability requires both measurement of mutation rate and detailed analysis of mutant structures at the level of individual alleles. We have measured mutation rates in sperm for a wide range of alleles of the highly unstable human minisatellite CEB1. Instability varies by three orders of magnitude between alleles and increases steadily with the size of the tandem array. Structural analysis of mutant molecules derived from six alleles revealed that it is the rate of intra-allelic rearrangements which increases with array size and that intra-allelic duplication events tend to cluster within homogeneous segments of alleles; both phenomena resemble features of trinucleotide repeat instability. In contrast, inter-allelic transfers occur at a fairly constant rate, irrespective of array length, and show a mild polarity towards one end of the minisatellite, suggesting the possible influence of flanking DNA on these conversion-like events.

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Nuclear mRNA Degradation Pathway(s) Are Implicated in Xist Regulation and X Chromosome Inactivation

Ciaudo

Bourdet

Cohen-Tannoudji

et al. 2006

PLoS Genet

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A critical step in X-chromosome inactivation (XCI), which results in the dosage compensation of X-linked gene expression in mammals, is the coating of the presumptive inactive X chromosome by the large noncoding Xist RNA, which then leads to the recruitment of other factors essential for the heterochromatinisation of the inactive X and its transcriptional silencing. In an approach aimed at identifying genes implicated in the X-inactivation process by comparative transcriptional profiling of female and male mouse gastrula, we identified the Eif1 gene involved in translation initiation and RNA degradation. We show here that female embryonic stem cell lines, silenced by RNA interference for the Eif1 gene, are unable to form Xist RNA domains upon differentiation and fail to undergo X-inactivation. To probe further an effect involving RNA degradation pathways, the inhibition by RNA interference of Rent1, a factor essential for nonsense-mediated decay and Exosc10, a specific nuclear component of the exosome, was analysed and shown to similarly impair Xist upregulation and XCI. In Eif1-, Rent1-, and Exosc10-interfered clones, Xist spliced form(s) are strongly downregulated, while the levels of unspliced form(s) of Xist and the stability of Xist RNA remain comparable to that of the control cell lines. Our data suggests a role for mRNA nuclear degradation pathways in the critical regulation of spliced Xist mRNA levels and the onset of the X-inactivation process.

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Comparative Sequence Analysis of the X-Inactivation Center Region in Mouse, Human, and Bovine

Chureau¹,

Prissette²,

Bourdet³

et al. 2000

Genome Res.

212

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We have sequenced to high levels of accuracy 714-kb and 233-kb regions of the mouse and bovine X-inactivation centers (Xic), respectively, centered on the Xist gene. This has provided the basis for a fully annotated comparative analysis of the mouse Xic with the 2.3-Mb orthologous region in human and has allowed a three-way species comparison of the core central region, including theXist gene. These comparisons have revealed conserved genes, both coding and noncoding, conserved CpG islands and, more surprisingly, conserved pseudogenes. The distribution of repeated elements, especially LINE repeats, in the mouse Xic region when compared to the rest of the genome does not support the hypothesis of a role for these repeat elements in the spreading of X inactivation. Interestingly, an asymmetric distribution of LINE elements on the two DNA strands was observed in the three species, not only within introns but also in intergenic regions. This feature is suggestive of important transcriptional activity within these intergenic regions. In silico prediction followed by experimental analysis has allowed four new genes, Cnbp2, Ftx, Jpx, and Ppnx, to be identified and novel, widespread, complex, and apparently noncoding transcriptional activity to be characterized in a region 5′ of Xist that was recently shown to attract histone modification early after the onset of X inactivation.[The sequence data described in this paper have been submitted to the EMBL data library under accession nos. AJ421478, AJ421479, AJ421480, andAJ421481. Online supplemental data are available athttp://pbil.univ-lyon1.fr/datasets/Xic2002/data.html andwww.genome.org.]

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A SAGE approach to identifying novel <i>trans</i>-acting factors involved in the X inactivation process

Bourdet

Ciaudo

Zakin

et al. 2006

Cytogenet Genome Res

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X chromosome inactivation ensures the dosage compensation of X-linked genes in XX females compared to their XY male counterpart. It is characterised by the specific recruitment of an inhibitory ribonucleoprotein complex involving the non-coding Xist RNA to the presumptive inactive X chromosome and associated chromatin modifications, which result in the transcriptional silencing of the X chromosome. As an approach to the identification of some of the potential molecular players in this process we have performed comparative transcriptional profiling of mouse 6.5-dpc (days post-coitum) female and male embryos using a modified SAGE (Serial analysis of gene expression) technique which allows the analysis of small quantities of biological material. At 6.5 dpc, a moment when random X inactivation of embryonic tissues has just been achieved, some two hundred transcripts that were significantly enriched in the female gastrula compared to its male counterpart could be identified. The validation of an association with the X inactivation process of a subset of these transcripts has been studied, ex vivo, in differentiating female and male ES cells and in female ES cells in which the establishment of X inactivation is interrupted through the post-transcriptional inhibition of Xist synthesis.

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Inactivation du chromosome X chez la souris : les tendancescisettranspour 2002

Bourdet

Rougeulle

2002

Med Sci (Paris)

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A Bourdet

Influences of array size and homogeneity on minisatellite mutation

Nuclear mRNA Degradation Pathway(s) Are Implicated in Xist Regulation and X Chromosome Inactivation

Comparative Sequence Analysis of the X-Inactivation Center Region in Mouse, Human, and Bovine

A SAGE approach to identifying novel <i>trans</i>-acting factors involved in the X inactivation process

Inactivation du chromosome X chez la souris : les tendancescisettranspour 2002

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