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Single-cell multiomics decodes regulatory programs for mouse secondary palate development

Author

Listed:
  • Fangfang Yan

    (The University of Texas Health Science Center at Houston)

  • Akiko Suzuki

    (The University of Texas Health Science Center at Houston
    The University of Texas Health Science Center at Houston
    University of Missouri - Kansas City)

  • Chihiro Iwaya

    (The University of Texas Health Science Center at Houston
    The University of Texas Health Science Center at Houston)

  • Guangsheng Pei

    (The University of Texas Health Science Center at Houston)

  • Xian Chen

    (The University of Texas Health Science Center at Houston)

  • Hiroki Yoshioka

    (The University of Texas Health Science Center at Houston
    The University of Texas Health Science Center at Houston)

  • Meifang Yu

    (The University of Texas Health Science Center at Houston)

  • Lukas M. Simon

    (Baylor College of Medicine)

  • Junichi Iwata

    (The University of Texas Health Science Center at Houston
    The University of Texas Health Science Center at Houston
    MD Anderson Cancer Center UTHealth Graduate School of Biomedical Sciences)

  • Zhongming Zhao

    (The University of Texas Health Science Center at Houston)

Abstract

Perturbations in gene regulation during palatogenesis can lead to cleft palate, which is among the most common congenital birth defects. Here, we perform single-cell multiome sequencing and profile chromatin accessibility and gene expression simultaneously within the same cells (n = 36,154) isolated from mouse secondary palate across embryonic days (E) 12.5, E13.5, E14.0, and E14.5. We construct five trajectories representing continuous differentiation of cranial neural crest-derived multipotent cells into distinct lineages. By linking open chromatin signals to gene expression changes, we characterize the underlying lineage-determining transcription factors. In silico perturbation analysis identifies transcription factors SHOX2 and MEOX2 as important regulators of the development of the anterior and posterior palate, respectively. In conclusion, our study charts epigenetic and transcriptional dynamics in palatogenesis, serving as a valuable resource for further cleft palate research.

Suggested Citation

  • Fangfang Yan & Akiko Suzuki & Chihiro Iwaya & Guangsheng Pei & Xian Chen & Hiroki Yoshioka & Meifang Yu & Lukas M. Simon & Junichi Iwata & Zhongming Zhao, 2024. "Single-cell multiomics decodes regulatory programs for mouse secondary palate development," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45199-x
    DOI: 10.1038/s41467-024-45199-x
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    3. Kenji Kamimoto & Blerta Stringa & Christy M. Hoffmann & Kunal Jindal & Lilianna Solnica-Krezel & Samantha A. Morris, 2023. "Dissecting cell identity via network inference and in silico gene perturbation," Nature, Nature, vol. 614(7949), pages 742-751, February.
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