1. Transcription of Mammalian cis-Regulatory Elements Is Restrained by Actively Enforced Early Termination
- Author
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Austenaa, L, Barozzi, I, Simonatto, M, Masella, S, Della Chiara, G, Ghisletti, S, Curina, A, de Wit, E, Bouwman, B, de Pretis, S, Piccolo, V, Termanini, A, Prosperini, E, Pelizzola, M, de Laat, W, Natoli, G, Austenaa LMI, Barozzi I, Simonatto M, Masella S, Della Chiara G, Ghisletti S, Curina A, de Wit E, Bouwman BAM, de Pretis S, Piccolo V, Termanini A, Prosperini E, Pelizzola M, de Laat W, Natoli G, Austenaa, L, Barozzi, I, Simonatto, M, Masella, S, Della Chiara, G, Ghisletti, S, Curina, A, de Wit, E, Bouwman, B, de Pretis, S, Piccolo, V, Termanini, A, Prosperini, E, Pelizzola, M, de Laat, W, Natoli, G, Austenaa LMI, Barozzi I, Simonatto M, Masella S, Della Chiara G, Ghisletti S, Curina A, de Wit E, Bouwman BAM, de Pretis S, Piccolo V, Termanini A, Prosperini E, Pelizzola M, de Laat W, and Natoli G
- Abstract
Upon recruitment to active enhancers and promoters, RNA polymerase II (Pol II) generates short non-coding transcripts of unclear function. The mechanisms that control the length and the amount of ncRNAs generated by cis-regulatory elements are largely unknown. Here, we show that the adaptor protein WDR82 and its associated complexes actively limit such non-coding transcription. WDR82 targets the SET1 H3K4 methyltransferases and the nuclear protein phosphatase 1 (PP1) complexes to the initiating Pol II. WDR82 and PP1 also interact with components of the transcriptional termination and RNA processing machineries. Depletion of WDR82, SET1, or the PP1 subunit required for its nuclear import caused distinct but overlapping transcription termination defects at highly expressed genes and active enhancers and promoters, thus enabling the increased synthesis of unusually long ncRNAs. These data indicate that transcription initiated from cis-regulatory elements is tightly coordinated with termination mechanisms that impose the synthesis of short RNAs. Upon recruitment to enhancers and promoters, RNA polymerase II synthesizes short and poorly abundant non-coding transcripts.
- Published
- 2015