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Nascent transcript sequencing visualizes transcription at nucleotide resolution

Author

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  • L. Stirling Churchman

    (Howard Hughes Medical Institute, University of California, San Francisco and California Institute for Quantitative Biosciences)

  • Jonathan S. Weissman

    (Howard Hughes Medical Institute, University of California, San Francisco and California Institute for Quantitative Biosciences)

Abstract

Recent studies of transcription have revealed a level of complexity not previously appreciated even a few years ago, both in the intricate use of post-initiation control and the mass production of rapidly degraded transcripts. Dissection of these pathways requires strategies for precisely following transcripts as they are being produced. Here we present an approach (native elongating transcript sequencing, NET-seq), based on deep sequencing of 3′ ends of nascent transcripts associated with RNA polymerase, to monitor transcription at nucleotide resolution. Application of NET-seq in Saccharomyces cerevisiae reveals that although promoters are generally capable of divergent transcription, the Rpd3S deacetylation complex enforces strong directionality to most promoters by suppressing antisense transcript initiation. Our studies also reveal pervasive polymerase pausing and backtracking throughout the body of transcripts. Average pause density shows prominent peaks at each of the first four nucleosomes, with the peak location occurring in good agreement with in vitro biophysical measurements. Thus, nucleosome-induced pausing represents a major barrier to transcriptional elongation in vivo.

Suggested Citation

  • L. Stirling Churchman & Jonathan S. Weissman, 2011. "Nascent transcript sequencing visualizes transcription at nucleotide resolution," Nature, Nature, vol. 469(7330), pages 368-373, January.
    • Handle: RePEc:nat:nature:v:469:y:2011:i:7330:d:10.1038_nature09652
    DOI: 10.1038/nature09652
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    Citations

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    Cited by:

    1. Benjamin J. E. Martin & LeAnn J. Howe, 2022. "Reply to: Pitfalls in using phenanthroline to study the causal relationship between promoter nucleosome acetylation and transcription," Nature Communications, Nature, vol. 13(1), pages 1-4, December.
    2. Anniina Vihervaara & Philip Versluis & Samu V. Himanen & John T. Lis, 2023. "PRO-IP-seq tracks molecular modifications of engaged Pol II complexes at nucleotide resolution," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    3. Jonathan Liu & Donald Hansen & Elizabeth Eck & Yang Joon Kim & Meghan Turner & Simon Alamos & Hernan Garcia, 2021. "Real-time single-cell characterization of the eukaryotic transcription cycle reveals correlations between RNA initiation, elongation, and cleavage," PLOS Computational Biology, Public Library of Science, vol. 17(5), pages 1-26, May.
    4. Benjamin J. M. Tremblay & Cristina P. Santini & Yajiao Cheng & Xue Zhang & Stefanie Rosa & Julia I. Qüesta, 2024. "Interplay between coding and non-coding regulation drives the Arabidopsis seed-to-seedling transition," Nature Communications, Nature, vol. 15(1), pages 1-21, December.
    5. Maxime Duval & Carlo Yague-Sanz & Tomasz W. Turowski & Elisabeth Petfalski & David Tollervey & François Bachand, 2023. "The conserved RNA-binding protein Seb1 promotes cotranscriptional ribosomal RNA processing by controlling RNA polymerase I progression," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    6. Kristian Ovaska & Filomena Matarese & Korbinian Grote & Iryna Charapitsa & Alejandra Cervera & Chengyu Liu & George Reid & Martin Seifert & Hendrik G Stunnenberg & Sampsa Hautaniemi, 2013. "Integrative Analysis of Deep Sequencing Data Identifies Estrogen Receptor Early Response Genes and Links ATAD3B to Poor Survival in Breast Cancer," PLOS Computational Biology, Public Library of Science, vol. 9(6), pages 1-13, June.
    7. Gongwang Yu & Yao Liu & Zizhang Li & Shuyun Deng & Zhuoxing Wu & Xiaoyu Zhang & Wenbo Chen & Junnan Yang & Xiaoshu Chen & Jian-Rong Yang, 2023. "Genome-wide probing of eukaryotic nascent RNA structure elucidates cotranscriptional folding and its antimutagenic effect," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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