A specialized TFIIB is required for transcription of transposon-targeting noncoding RNAs.

Transposable elements (TEs) pose threats to genome stability. Therefore, small RNA-mediated heterochromatinization suppresses the transcription and hence the mobility of TEs. Paradoxically, transcription of noncoding RNA (ncRNA) from TEs is needed for the production of TE-targeting small RNAs and/or recruiting the silencing machinery to TEs. Hence, specialized RNA polymerase II (Pol II) regulators are required for such unconventional transcription in different organisms, including the developmental stage-specific Mediator complex (Med)-associated proteins in the ncRNA transcription from TE-related sequences in Tetrahymena. Yet it remains unclear how the Pol II transcriptional machinery is assembled at TE-related sequences for the ncRNA transcription. Here, we report that Pol II is regulated by Emit3, a stage-specific TFIIB-like protein specialized in TE transcription. Emit3 interacts with the TFIIH complex and localizes to TE-dense regions, especially at sites enriched with a G-rich sequence motif. Deletion of Emit3 globally abolishes Pol II-chromatin association in the meiotic nucleus, disrupts the chromatin binding of Med, and impairs the TE-biased localization of TFIIH. Conversely, Emit3's preferential localization to TE-rich loci relies in part on Med-associated proteins. These findings suggest that Emit3, TFIIH, and Med-associated proteins work together to initiate Pol II ncRNA transcription from TE-dense regions, possibly in a sequence-dependent manner.