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Showing 1–7 of 7 results
Advanced filters: Author: Natasha Jansz Clear advanced filters

  • Here the authors reveal that a neomorphic mutation in chromatin protein SMCHD1 enhances SMCHD1-mediated gene silencing, including at the FSHD disease-relevant locus, while depleting SMCHD1-mediated chromatin interactions, suggesting these SMCHD1 functions are unlinked.

    • Andres Tapia del Fierro
    • Bianca den Hamer
    • Marnie E. Blewitt
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-22

  • Here the authors show that the disruption of OGT expression in mouse embryonic stem cells unleashes TET activity, causing genome-wide decreases in DNA methylation and increases in 5-hydroxymethylcytosine, leading to the derepression of transposable elements and, in certain cases, the activation of nearby genes.

    • Hugo Sepulveda
    • Xiang Li
    • Anjana Rao
    Research
    Nature Structural & Molecular Biology
    Volume: 32, P: 1282-1296

  • LINE-1 retrotransposons are a type of mobile DNA element normally repressed in the body. Here the authors show that LINE-1 sequences can jump in mouse parvalbumin interneurons and also promote the transcription of key parvalbumin interneuron genes.

    • Gabriela O. Bodea
    • Juan M. Botto
    • Geoffrey J. Faulkner
    ResearchOpen Access
    Nature Neuroscience
    Volume: 27, P: 1274-1284

  • Female embryonic stem cells (ESCs) are the ideal model to study X chromosome inactivation (XCI) establishment; however, these cells are challenging to keep in culture. Here the authors create fluorescent ‘Xmas’ reporter mice as a renewable source of ESCs and show nucleosome remodelers Smarcc1 and Smarca4 create a nucleosome-free promoter region prior to the establishment of silencing.

    • Andrew Keniry
    • Natasha Jansz
    • Marnie E. Blewitt
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-15

  • A defining feature of Human T-cell leukaemia virus type 1 (HTLV-1) infection is the establishment of reversible latency that can persist for many years. This latency enables the expansion of infected CD4+ T cells, ultimately contributing to adult T-cell leukaemia (ATL) and inflammatory disease. Sugata et al. identify a viral negative regulatory element within the HTLV-1 proviral genome that governs transcriptional latency. This intragenic silencing element contains binding sites for the master haematopoietic transcription factor, RUNX1. RUNX1 complex binding represses viral expression, thereby reducing viral production, antigen presentation, and susceptibility to cytotoxic T lymphocyte responses. The intragenic silencing element described in their study is unique to HTLV-1 and represents a novel strategy by which the virus achieves lifelong persistence in the host.

    • Natasha Jansz
    • Damian F. J. Purcell
    Research HighlightsOpen Access
    npj Viruses
    Volume: 3, P: 1-3