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Uncovering hidden enhancers through unbiased in vivo testing

Author

Listed:
  • Brandon J. Mannion

    (1 Cyclotron Road
    University of California)

  • Stella Tran

    (1 Cyclotron Road)

  • Ingrid Plajzer-Frick

    (1 Cyclotron Road)

  • Catherine S. Novak

    (1 Cyclotron Road)

  • Veena Afzal

    (1 Cyclotron Road)

  • Jennifer A. Akiyama

    (1 Cyclotron Road)

  • Ismael Sospedra-Arrufat

    (and Junta de Andalucía)

  • Sarah Barton

    (1 Cyclotron Road)

  • Erik Beckman

    (1 Cyclotron Road)

  • Tyler H. Garvin

    (1 Cyclotron Road)

  • Patrick Godfrey

    (1 Cyclotron Road)

  • Janeth Godoy

    (1 Cyclotron Road)

  • Riana D. Hunter

    (1 Cyclotron Road)

  • Momoe Kato

    (1 Cyclotron Road)

  • Michael Kosicki

    (1 Cyclotron Road)

  • Anne N. Kronshage

    (1 Cyclotron Road)

  • Elizabeth A. Lee

    (1 Cyclotron Road)

  • Eman M. Meky

    (1 Cyclotron Road)

  • Quan T. Pham

    (1 Cyclotron Road)

  • Kianna Maydell

    (1 Cyclotron Road)

  • Yiwen Zhu

    (1 Cyclotron Road)

  • Javier Lopez-Rios

    (and Junta de Andalucía
    Dos Hermanas)

  • Diane E. Dickel

    (1 Cyclotron Road
    Inc.)

  • Marco Osterwalder

    (University of Bern
    Bern University Hospital)

  • Axel Visel

    (1 Cyclotron Road
    1 Cyclotron Road
    Merced)

  • Len A. Pennacchio

    (1 Cyclotron Road
    University of California
    1 Cyclotron Road)

Abstract

Chromatin signatures are widely used to identify tissue-specific in vivo enhancers, but their sensitivity and specificity remains unclear. Here we show that many developmental enhancers remain undetectable using currently available chromatin data. In an initial comparison of over 1200 developmental enhancers with tissue-matched chromatin data, 14% (n = 285) lacked canonical enhancer-associated chromatin signatures. To further assess the prevalence of enhancers missed by chromatin profiling approaches, we used a high-throughput transgenic enhancer assay to screen the regulatory landscapes of two key developmental genes at 5 kb resolution, spanning 1.3 Mb of mouse sequence in total. We observed that 23 of 88 (26%) in vivo enhancers discovered by this approach lacked enhancer-associated chromatin signatures in the respective tissue. Our findings suggest the existence of tens of thousands of enhancers that remain undiscovered by currently available chromatin data, underscoring the continued need for expanding resources for enhancer discovery.

Suggested Citation

  • Brandon J. Mannion & Stella Tran & Ingrid Plajzer-Frick & Catherine S. Novak & Veena Afzal & Jennifer A. Akiyama & Ismael Sospedra-Arrufat & Sarah Barton & Erik Beckman & Tyler H. Garvin & Patrick God, 2025. "Uncovering hidden enhancers through unbiased in vivo testing," Nature Communications, Nature, vol. 16(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62497-0
    DOI: 10.1038/s41467-025-62497-0
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    References listed on IDEAS

    as
    1. David U. Gorkin & Iros Barozzi & Yuan Zhao & Yanxiao Zhang & Hui Huang & Ah Young Lee & Bin Li & Joshua Chiou & Andre Wildberg & Bo Ding & Bo Zhang & Mengchi Wang & J. Seth Strattan & Jean M. Davidson, 2020. "An atlas of dynamic chromatin landscapes in mouse fetal development," Nature, Nature, vol. 583(7818), pages 744-751, July.
    2. David U. Gorkin & Iros Barozzi & Yuan Zhao & Yanxiao Zhang & Hui Huang & Ah Young Lee & Bin Li & Joshua Chiou & Andre Wildberg & Bo Ding & Bo Zhang & Mengchi Wang & J. Seth Strattan & Jean M. Davidson, 2020. "Author Correction: An atlas of dynamic chromatin landscapes in mouse fetal development," Nature, Nature, vol. 586(7831), pages 31-31, October.
    3. Alvaro Rada-Iglesias & Ruchi Bajpai & Tomek Swigut & Samantha A. Brugmann & Ryan A. Flynn & Joanna Wysocka, 2011. "A unique chromatin signature uncovers early developmental enhancers in humans," Nature, Nature, vol. 470(7333), pages 279-283, February.
    4. Evgeny Z. Kvon & Tomas Kazmar & Gerald Stampfel & J. Omar Yáñez-Cuna & Michaela Pagani & Katharina Schernhuber & Barry J. Dickson & Alexander Stark, 2014. "Genome-scale functional characterization of Drosophila developmental enhancers in vivo," Nature, Nature, vol. 512(7512), pages 91-95, August.
    5. Peng He & Brian A. Williams & Diane Trout & Georgi K. Marinov & Henry Amrhein & Libera Berghella & Say-Tar Goh & Ingrid Plajzer-Frick & Veena Afzal & Len A. Pennacchio & Diane E. Dickel & Axel Visel &, 2020. "The changing mouse embryo transcriptome at whole tissue and single-cell resolution," Nature, Nature, vol. 583(7818), pages 760-767, July.
    Full references (including those not matched with items on IDEAS)

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