Abstract
To preserve genome integrity, eukaryotic cells use small RNA-directed mechanisms to repress transposable elements (TEs). Paradoxically, in order to silence TEs, precursors of the small RNAs must be transcribed from TEs. However, it is still poorly understood how these precursors are transcribed from TEs under silenced conditions. In the otherwise transcriptionally silent germline micronucleus (MIC) of Tetrahymena, a burst of non-coding RNA (ncRNA) transcription occurs during meiosis. The transcripts are processed into small RNAs that serve to identify TE-related sequences for elimination. The Mediator complex (Med) has an evolutionarily conserved role for transcription by bridging gene-specific transcription factors and RNA polymerase II. Here, we report that three Med-associated factors, Emit1, Emit2, and Rib1, are required for the biogenesis of small ncRNAs. Med localizes to the MIC only during meiosis, and both Med localization and MIC ncRNA transcription require Emit1 and Emit2. In the MIC, Med occupies TE-rich pericentromeric and telomeric regions in a Rib1-dependent manner. Rib1 is dispensable for ncRNA transcription but is required for the accumulation of double-stranded ncRNAs. Nuclear and sub-nuclear localization of the three Med-associated proteins is interdependent. Hence, Emit1 and Emit2 act coordinately to import Med into the MIC, and Rib1 recruits Med to specific chromosomal locations to quantitatively or qualitatively promote the biogenesis of functional ncRNA. Our results underscore that the transcription machinery can be regulated by a set of specialized Med-associated proteins to temporally transcribe TE-related sequences from a silent genome for small RNA biogenesis and genome defense.
Highlights
Transposable elements (TEs) are mobile DNA species that make up substantial fractions of almost all eukaryotic genomes
Major outstanding questions related to MIC transcription are (1) how does it take place in the normally repressive heterochromatic environment of the MIC? and (2) how is it limited to the pericentromeric and telomeric regions? Here, we report three Mediator complex (Med)-associated proteins that localize to the transcribed MIC during conjugation and are required for scan RNAs (scnRNAs) biogenesis
Emit1, Emit2, and Rib1 Are Required for DNA Elimination Previous studies have shown that most of the genes involved in scnRNA biogenesis are exclusively expressed during conjugation [16, 24, 29, 30]
Summary
Transposable elements (TEs) are mobile DNA species that make up substantial fractions of almost all eukaryotic genomes. In order to preserve genome integrity, eukaryotic cells use small non-coding RNA (ncRNA)-directed mechanisms to repress TE mobility [3]: transcripts produced from active or degenerate TEs are processed into small ncRNAs, which associate with Argonaute family proteins and repress TE activity through transcriptional and/or post-transcriptional mechanism(s) [6]. Studies from protists to humans indicate that RNA polymerase II (Pol II), or its specialized form in plants (Pol IV), is required for the transcription of TEderived small ncRNA precursors [7, 8]. The precursor RNA can be transcribed from a single DNA strand under the control of specific transcription factors via the canonical mechanism [9, 10] or bidirectionally via an as-yet not fully understood mechanism [11, 12]
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