Jong Won Lim scite author profile

To better understand transcriptional regulation during human oogenesis and pre-implantation development, we defined stage-specific transcription, which revealed the cleavage stage as highly distinctive. Here, we present multiple lines of evidence that a eutherian-specific, multi-copy retrogene, DUX4, encodes a transcription factor which activates hundreds of endogenous genes (e.g. ZSCAN4, ZFP352, KDM4E) and retroviral elements (MERVL/HERVL-family) that defines the cleavage-specific transcriptional programs in mouse and human. Remarkably, mouse Dux expression is both necessary and sufficient to convert mouse embryonic stem cells into two-cell embryo-like (‘2C-like’) cells, measured here by the reactivation of ‘2C’ genes and repeat elements, the loss of POU5F1 protein and chromocenters, and by the conversion of the chromatin landscape (assessed by ATAC-seq) to a state strongly resembling mouse two-cell embryos. Taken together, we propose mouse DUX and human DUX4 as major drivers of the cleavage/‘2C’ state.

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Neurogenin and NeuroD direct transcriptional targets and their regulatory enhancers

Seo

Lim

Yellajoshyula

et al. 2007

EMBO J

188

190

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Proneural basic helix-loop-helix proteins are key regulators of neurogenesis but their 'proneural' function is not well understood, partly because primary targets have not been systematically defined. Here, we identified direct transcriptional targets of the bHLH proteins Neurogenin and NeuroD and found that primary roles of these transcription factors are to induce regulators of transcription, signal transduction, and cytoskeletal rearrangement for neuronal differentiation and migration. We determined targets induced in both Xenopus and mouse, which represent evolutionarily conserved core mediators of Neurogenin and NeuroD activities. We defined consensus sequences for Neurogenin and NeuroD binding and identified responsive enhancers in seven shared target genes. These enhancers commonly contained clustered, conserved consensus-binding sites and drove neural-restricted transgene expression in Xenopus embryos. We then used this enhancer signature in a genome-wide computational approach to predict additional Neurogenin/ NeuroD target genes involved in neurogenesis. Taken together, these data demonstrate that Neurogenin and NeuroD preferentially recognize neurogenesis-related targets through an enhancer signature of clustered consensus-binding sites and regulate neurogenesis by activating a core set of transcription factors, which build a robust network controlling neurogenesis.

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Conserved Roles of Mouse DUX and Human DUX4 in Activating Cleavage-Stage Genes and MERVL/HERVL Retrotransposons

Hendrickson

Dorais

Grow

et al. 2017

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To better understand transcriptional regulation during human oogenesis and pre-implantation development, we defined stage-specific transcription, which revealed the cleavage stage as highly distinctive. Here, we present multiple lines of evidence that a eutherian-specific, multi-copy retrogene, DUX4, encodes a transcription factor which activates hundreds of endogenous genes (e.g. ZSCAN4, ZFP352, KDM4E) and retroviral elements (MERVL/HERVL-family) that defines the cleavage-specific transcriptional programs in mouse and human. Remarkably, mouse Dux expression is both necessary and sufficient to convert mouse embryonic stem cells into two-cell embryo-like ('2C-like') cells, measured here by the reactivation of '2C' genes and repeat elements, the loss of POU5F1 protein and chromocenters, and by the conversion of the chromatin landscape (assessed by ATAC-seq) to a state strongly resembling mouse two-cell embryos. Taken together, we propose mouse DUX and human DUX4 as major drivers of the cleavage/'2C' state.Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Jong Won Lim

Conserved roles of mouse DUX and human DUX4 in activating cleavage-stage genes and MERVL/HERVL retrotransposons

Neurogenin and NeuroD direct transcriptional targets and their regulatory enhancers

Conserved Roles of Mouse DUX and Human DUX4 in Activating Cleavage-Stage Genes and MERVL/HERVL Retrotransposons

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