Odil Porrúa scite author profile

Transcription termination occurs when the polymerase is released after a transcription event, thus delimitating transcription units; however, the functional importance of termination extends beyond the mere definition of gene borders. By determining the cellular fate of the generated transcripts, transcription termination pathways shape the transcriptome. Recent reports have underscored the crucial role of these pathways in limiting the extent of pervasive transcription, which has attracted interest in post-initiation events in gene expression control. Transcription termination pathways involved in the production of non-coding RNAs - such as the Nrd1-Nab3-Sen1 (NNS) pathway in yeast and the cap-binding complex (CBC)-ARS2 pathway in humans - are key determinants of transcription quality control. Understanding the mechanisms leading to the timely and efficient dismantling of elongation complexes remains a major unmet challenge, but new insights into the molecular basis of termination at mRNA-coding and non-coding RNA gene targets have been gained in eukaryotes.

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The LysR‐type regulator AtzR binding site: DNA sequences involved in activation, repression and cyanuric acid‐dependent repositioning

Porrúa

García-Jaramillo

Santero

et al. 2007

Molecular Microbiology

145

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Molecular Basis for Coordinating Transcription Termination with Noncoding RNA Degradation

et al. 2014

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SummaryThe Nrd1-Nab3-Sen1 (NNS) complex is essential for controlling pervasive transcription and generating sn/snoRNAs in S. cerevisiae. The NNS complex terminates transcription of noncoding RNA genes and promotes exosome-dependent processing/degradation of the released transcripts. The Trf4-Air2-Mtr4 (TRAMP) complex polyadenylates NNS target RNAs and favors their degradation. NNS-dependent termination and degradation are coupled, but the mechanism underlying this coupling remains enigmatic. Here we provide structural and functional evidence demonstrating that the same domain of Nrd1p interacts with RNA polymerase II and Trf4p in a mutually exclusive manner, thus defining two alternative forms of the NNS complex, one involved in termination and the other in degradation. We show that the Nrd1-Trf4 interaction is required for optimal exosome activity in vivo and for the stimulation of polyadenylation of NNS targets by TRAMP in vitro. We propose that transcription termination and RNA degradation are coordinated by switching between two alternative partners of the NNS complex.

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Odil Porrúa

Transcription termination and the control of the transcriptome: why, where and how to stop

The LysR‐type regulator AtzR binding site: DNA sequences involved in activation, repression and cyanuric acid‐dependent repositioning

Molecular Basis for Coordinating Transcription Termination with Noncoding RNA Degradation

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