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High-Throughput Identification of Genome-Wide Silencers in Mouse Cells Using Ss-STARR-seq


ABSTRACT: The majority of the mouse genome is composed of non-coding regions, which harbor numerous regulatory sequences essential for gene regulation. While extensive research has focused on enhancers that activate gene expression, the role of silencers that repress gene expression remains less explored. In this study, we conducted the first genome-wide identification of silencers in the mouse cell genome. In mouse embryonic fibroblasts (MEFs) and mouse embryonic stem cells (mESCs), we identified 89,596 and 115,165 silencers, respectively. These silencers are ubiquitously distributed across the genome and are predominantly associated with low-expression genes. Additionally, We have identified that these silencers predominantly exhibit cell-specific presence and exert their function through binding with repressive transcription factors (TFs). Furthermore, these silencers are notably enriched with the histone modification H3K9me3. In terms of biological effects, we identified a silencer within an intron of the pluripotency gene NANOG. Knockout of this silencer in (MEFs) resulted in a twofold increase in the induction efficiency of induced pluripotent stem cells (iPSCs). Collectively, our work provides the first comprehensive silencer landscape in the mouse genome and provides strong evidence for the role of silencers in the induction of iPSCs.

ORGANISM(S): Mus musculus

PROVIDER: GSE274317 | GEO | 2025/07/01

REPOSITORIES: GEO

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