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A reference map of murine cardiac transcription factor chromatin occupancy identifies dynamic and conserved enhancers

Author

Listed:
  • Brynn N. Akerberg

    (Boston Children’s Hospital)

  • Fei Gu

    (Boston Children’s Hospital
    Alibaba Group)

  • Nathan J. VanDusen

    (Boston Children’s Hospital)

  • Xiaoran Zhang

    (Boston Children’s Hospital)

  • Rui Dong

    (Dana-Farber Cancer Institute)

  • Kai Li

    (Boston Children’s Hospital)

  • Bing Zhang

    (Shanghai Jiao Tong University)

  • Bin Zhou

    (Shanghai Institutes for Biological Sciences)

  • Isha Sethi

    (Boston Children’s Hospital)

  • Qing Ma

    (Boston Children’s Hospital)

  • Lauren Wasson

    (University of North Carolina at Chapel Hill)

  • Tong Wen

    (The First Affiliated Hospital of Nanchang University)

  • Jinhua Liu

    (The First Affiliated Hospital of Nanchang University)

  • Kunzhe Dong

    (Augusta University)

  • Frank L. Conlon

    (University of North Carolina at Chapel Hill)

  • Jiliang Zhou

    (Augusta University)

  • Guo-Cheng Yuan

    (Dana-Farber Cancer Institute
    Harvard T.H. Chan School of Public Health)

  • Pingzhu Zhou

    (Boston Children’s Hospital)

  • William T. Pu

    (Boston Children’s Hospital
    Harvard University)

Abstract

Mapping the chromatin occupancy of transcription factors (TFs) is a key step in deciphering developmental transcriptional programs. Here we use biotinylated knockin alleles of seven key cardiac TFs (GATA4, NKX2-5, MEF2A, MEF2C, SRF, TBX5, TEAD1) to sensitively and reproducibly map their genome-wide occupancy in the fetal and adult mouse heart. These maps show that TF occupancy is dynamic between developmental stages and that multiple TFs often collaboratively occupy the same chromatin region through indirect cooperativity. Multi-TF regions exhibit features of functional regulatory elements, including evolutionary conservation, chromatin accessibility, and activity in transcriptional enhancer assays. H3K27ac, a feature of many enhancers, incompletely overlaps multi-TF regions, and multi-TF regions lacking H3K27ac retain conservation and enhancer activity. TEAD1 is a core component of the cardiac transcriptional network, co-occupying cardiac regulatory regions and controlling cardiomyocyte-specific gene functions. Our study provides a resource for deciphering the cardiac transcriptional regulatory network and gaining insights into the molecular mechanisms governing heart development.

Suggested Citation

  • Brynn N. Akerberg & Fei Gu & Nathan J. VanDusen & Xiaoran Zhang & Rui Dong & Kai Li & Bing Zhang & Bin Zhou & Isha Sethi & Qing Ma & Lauren Wasson & Tong Wen & Jinhua Liu & Kunzhe Dong & Frank L. Conl, 2019. "A reference map of murine cardiac transcription factor chromatin occupancy identifies dynamic and conserved enhancers," Nature Communications, Nature, vol. 10(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12812-3
    DOI: 10.1038/s41467-019-12812-3
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    Cited by:

    1. Andreas Herchenröther & Stefanie Gossen & Tobias Friedrich & Alexander Reim & Nadine Daus & Felix Diegmüller & Jörg Leers & Hakimeh Moghaddas Sani & Sarah Gerstner & Leah Schwarz & Inga Stellmacher & , 2023. "The H2A.Z and NuRD associated protein HMG20A controls early head and heart developmental transcription programs," Nature Communications, Nature, vol. 14(1), pages 1-20, December.
    2. Sandra Rogala & Tamer Ali & Maria-Theodora Melissari & Sandra Währisch & Peggy Schuster & Alexandre Sarre & Rebeca Cordellini Emídio & Thomas Boettger & Eva-Maria Rogg & Jaskiran Kaur & Jaya Krishnan , 2023. "The lncRNA Sweetheart regulates compensatory cardiac hypertrophy after myocardial injury in murine males," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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