Genome-wide Single-Molecule Footprinting Reveals High RNA Polymerase II Turnover at Paused Promoters

Krebs, Arnaud R; Imanci, Dilek; Hoerner, Leslie; Gaidatzis, Dimos; Burger, Lukas; Schübeler, Dirk

doi:10.1016/j.molcel.2017.06.027

Cited by 174 publications

(196 citation statements)

References 34 publications

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“…2D). Our finding of surprisingly short promoter proximal pausing appears to agree with recent studies hinting at rapid Pol II turnover in this region 23,24 . This suggests that, instead of pausing, this region rather features a high rate of abortive transcription, which might be a standard feature of metazoan Pol II transcription.…”

supporting

confidence: 93%

Timing polymerase pausing with TV-PRO-seq: dissecting the interplay of pausing duration and location, and gene expression

Zhang

Cavallaro

Hebenstreit

2018

Preprint

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Transcription of many genes in metazoans is subject to polymerase pausing, which corresponds to the transient arrest of transcriptionally engaged polymerase. It occurs mainly at promoter proximal regions and is not well understood. In particular, a genomewide measurement of pausing times at high resolution has been lacking.We present here an extension of PRO-seq, time variant PRO-seq (TV-PRO-seq), that allowed us to estimate genome-wide pausing times at single base resolution. Its application to human cells reveals that promoter proximal pausing is surprisingly short compared to other regions and displays an intricate pattern. We also find precisely conserved pausing profiles at tRNA and rRNA genes and identified DNA motifs associated with pausing time. Finally, we show how chromatin states reflect differences in pausing times.

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supporting

confidence: 93%

Timing polymerase pausing with TV-PRO-seq: dissecting the interplay of pausing duration and location, and gene expression

Zhang

Cavallaro

Hebenstreit

2018

Preprint

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“…Even at a production rate of 24 copies/cell per min (two standard deviations below the calculated rate), the rate of miR-21a production would be more than 2-fold faster than that of the most rapidly produced mRNA in NIH3T3 fibroblasts and comparable to that of pre-rRNA production from a single pre-rRNA locus in HeLa cells (Schwanhäusser et al 2011;Turowski and Tollervey 2015). When considering that miR-21 is transcribed from two alleles of a single locus and that RNA polymerase II (PolII) elongates with a rate constant of ~4.3 kb/min and has a footprint of ~40-50 nucleotides (Darzacq et al 2007;Darst et al 1991;Rice et al 1993;Krebs et al 2017), our results imply that at the calculated rate of production, the Mir21 locus is coated in elongating PolII at approximately 50% of its maximum density. Such efficient PolII recruitment is presumably challenging and greater then 2-fold more efficient recruitment would be impossible, which helps explain why some highly expressed miRNAs are transcribed from multiple genes-the extreme being miR-430, which makes up 99% of the miRNA in the early zebrafish embryo and is transcribed from an array of >90 genes (Wei et al 2012;Giraldez et al 2005).…”

Section: Discussionmentioning

confidence: 99%

Global analyses of the dynamics of mammalian microRNA metabolism

Kingston

Bartel

2019

Preprint

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Rates of production and degradation together specify microRNA (miRNA) abundance and dynamics.Here, we used approach-to-equilibrium metabolic labeling to assess these rates for 176 miRNAs in contact-inhibited mouse embryonic fibroblasts (MEFs), 182 miRNAs in dividing MEFs, and 136 miRNAs in mouse embryonic stem cells (mESCs). MicroRNA duplexes, each comprising a mature miRNA and its passenger strand, are produced at rates as fast as 114 ± 49 copies/cell per min, which exceeds rates reported for any mRNAs. These duplexes are rapidly loaded into Argonaute, with <10 min typically required for duplex loading and silencing-complex maturation. Within Argonaute, guide strands have stabilities that vary by 100-fold. Half-lives also vary globally between cell lines, with median values ranging from 6.3 to 34 h in mESCs and contact-inhibited MEFs, respectively. Moreover, relative half-lives for individual miRNAs vary between cell types, implying the influence of cell-specific factors in dictating turnover rate. The apparent influence of miRNA regions most important for targeting, together with the effect of one target on miR-7a-5p accumulation, suggest that targets fulfill this role. Analysis of the tailing and trimming of miRNA 3′ termini showed that the flux was typically greatest through the isoform tailed with a single uridine, although changes in this flux did not correspond to changes in stability, which suggested that the processes of tailing and trimming might be independent from that of decay.Together these results establish a framework for describing the dynamics and regulation of miRNAs throughout their lifecycle.

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“…Recent advances in the field of transcription regulation point to the fact that activation of paused genes is mediated through switching from a premature termination state of Pol II at PPP sites to a processive elongation state 13,16,17 , implying that continuous initiation is required for fast transcriptional induction 16 . Our results, showing that persistent initiation guarantees a prolonged transcription-coupled NER, are functionally linked to the fact that DNA damage-triggered widespread PPP release of a given Pol II is sufficient to drive immediate initiation of the next Pol II (see Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Signal-regulated phosphorylation of these factors and of serine 2 residue (S2P) of Pol II CTD by P-TEFb is required for productive elongation [13][14][15] . It recently emerged that, if this step does not occur rapidly, start-RNAs are terminated 14,16 , implying that Pol II turnover at PPP sites is high and that replenishment of Pol II engaged in early transcription is achieved by the continuous re-entry of pre-initiating Pol II into PICs 16,17 .…”

Section: Introductionmentioning

confidence: 99%

Continuous transcription initiation guarantees robust repair of transcribed genes and regulatory regions in response to DNA damage

Liakos

Konstantopoulos

Lavigne³

et al. 2019

Preprint

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Inhibition of RNA synthesis caused by DNA damage-impaired RNA polymerase II (Pol II) elongation is found to conceal a local increase in de novo transcription, slowly progressing from Transcription Start Sites (TSSs) to gene ends. Although associated with accelerated repair of Pol II-encountered lesions and limited mutagenesis, it is still unclear how this mechanism is maintained during recovery from genotoxic stress. Here we uncover a surprising widespread gain in chromatin accessibility and preservation of the active histone mark H3K27ac after UV-irradiation. We show that the concomitant increase in Pol II release from promoter-proximal pause (PPP) sites of most active genes, PROMoter uPstream Transcripts (PROMPTs) and enhancer RNAs (eRNAs) favors unrestrained initiation, as demonstrated by the synthesis of short nascent RNAs, including TSSassociated RNAs (start-RNAs). In accordance, drug-inhibition of the transition into elongation replenished the post-UV reduced levels of pre-initiating pol II at TSSs. Continuous engagement of new Pol II thus ensures maximal transcription-driven DNA repair of active genes and non-coding regulatory loci. Together, our results reveal an unanticipated layer regulating the UV-triggered transcriptional-response and provide physiologically relevant traction to the emerging concept that transcription initiation rate is determined by pol II pauserelease dynamics.

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Genome-wide Single-Molecule Footprinting Reveals High RNA Polymerase II Turnover at Paused Promoters

Cited by 174 publications

References 34 publications

Timing polymerase pausing with TV-PRO-seq: dissecting the interplay of pausing duration and location, and gene expression

Timing polymerase pausing with TV-PRO-seq: dissecting the interplay of pausing duration and location, and gene expression

Global analyses of the dynamics of mammalian microRNA metabolism

Continuous transcription initiation guarantees robust repair of transcribed genes and regulatory regions in response to DNA damage

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