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Noncoding deletions reveal a gene that is critical for intestinal function

Author

Listed:
  • Danit Oz-Levi

    (Weizmann Institute of Science)

  • Tsviya Olender

    (Weizmann Institute of Science)

  • Ifat Bar-Joseph

    (Sheba Medical Center
    Tel Aviv University)

  • Yiwen Zhu

    (Lawrence Berkeley National Laboratory)

  • Dina Marek-Yagel

    (Sheba Medical Center
    Tel Aviv University
    Sheba Medical Center)

  • Iros Barozzi

    (Lawrence Berkeley National Laboratory
    Imperial College London)

  • Marco Osterwalder

    (Lawrence Berkeley National Laboratory)

  • Anna Alkelai

    (Columbia University Medical Center)

  • Elizabeth K. Ruzzo

    (University of California Los Angeles)

  • Yujun Han

    (Duke University School of Medicine)

  • Erica S. M. Vos

    (Hubrecht Institute-KNAW and University Medical Center Utrecht)

  • Haike Reznik-Wolf

    (Sheba Medical Center
    Tel Aviv University)

  • Corina Hartman

    (Tel Aviv University
    Schneider Children’s Medical Center)

  • Raanan Shamir

    (Tel Aviv University
    Schneider Children’s Medical Center)

  • Batia Weiss

    (Tel Aviv University
    Sheba Medical Center)

  • Rivka Shapiro

    (Tel Aviv University
    Schneider Children’s Medical Center)

  • Ben Pode-Shakked

    (Tel Aviv University
    Sheba Medical Center)

  • Pavlo Tatarskyy

    (Weizmann Institute of Science)

  • Roni Milgrom

    (Weizmann Institute of Science)

  • Michael Schvimer

    (Sheba Medical Center)

  • Iris Barshack

    (Tel Aviv University
    Sheba Medical Center)

  • Denise M. Imai

    (University of California Davis)

  • Devin Coleman-Derr

    (Plant Gene Expression Center, USDA ARS)

  • Diane E. Dickel

    (Lawrence Berkeley National Laboratory)

  • Alex S. Nord

    (Lawrence Berkeley National Laboratory
    University of California Davis)

  • Veena Afzal

    (Lawrence Berkeley National Laboratory)

  • Kelly Lammerts Bueren

    (University of California San Francisco)

  • Ralston M. Barnes

    (University of California San Francisco)

  • Brian L. Black

    (University of California San Francisco)

  • Christopher N. Mayhew

    (Cincinnati Children’s Hospital Medical Center)

  • Matthew F. Kuhar

    (Cincinnati Children’s Hospital Medical Center)

  • Amy Pitstick

    (Cincinnati Children’s Hospital Medical Center)

  • Mehmet Tekman

    (University College London)

  • Horia C. Stanescu

    (University College London)

  • James M. Wells

    (Cincinnati Children’s Hospital Medical Center
    Cincinnati Children’s Hospital Medical Center
    Cincinnati Children’s Hospital Medical Center)

  • Robert Kleta

    (University College London)

  • Wouter Laat

    (Hubrecht Institute-KNAW and University Medical Center Utrecht)

  • David B. Goldstein

    (Columbia University Medical Center)

  • Elon Pras

    (Sheba Medical Center
    Tel Aviv University)

  • Axel Visel

    (Lawrence Berkeley National Laboratory
    University of California
    US Department of Energy Joint Genome Institute)

  • Doron Lancet

    (Weizmann Institute of Science)

  • Yair Anikster

    (Tel Aviv University
    Sheba Medical Center
    Sheba Medical Center)

  • Len A. Pennacchio

    (Lawrence Berkeley National Laboratory
    US Department of Energy Joint Genome Institute
    Comparative Biochemistry Program, University of California Berkeley)

Abstract

Large-scale genome sequencing is poised to provide a substantial increase in the rate of discovery of disease-associated mutations, but the functional interpretation of such mutations remains challenging. Here we show that deletions of a sequence on human chromosome 16 that we term the intestine-critical region (ICR) cause intractable congenital diarrhoea in infants1,2. Reporter assays in transgenic mice show that the ICR contains a regulatory sequence that activates transcription during the development of the gastrointestinal system. Targeted deletion of the ICR in mice caused symptoms that recapitulated the human condition. Transcriptome analysis revealed that an unannotated open reading frame (Percc1) flanks the regulatory sequence, and the expression of this gene was lost in the developing gut of mice that lacked the ICR. Percc1-knockout mice displayed phenotypes similar to those observed upon ICR deletion in mice and patients, whereas an ICR-driven Percc1 transgene was sufficient to rescue the phenotypes found in mice that lacked the ICR. Together, our results identify a gene that is critical for intestinal function and underscore the need for targeted in vivo studies to interpret the growing number of clinical genetic findings that do not affect known protein-coding genes.

Suggested Citation

  • Danit Oz-Levi & Tsviya Olender & Ifat Bar-Joseph & Yiwen Zhu & Dina Marek-Yagel & Iros Barozzi & Marco Osterwalder & Anna Alkelai & Elizabeth K. Ruzzo & Yujun Han & Erica S. M. Vos & Haike Reznik-Wolf, 2019. "Noncoding deletions reveal a gene that is critical for intestinal function," Nature, Nature, vol. 571(7763), pages 107-111, July.
    • Handle: RePEc:nat:nature:v:571:y:2019:i:7763:d:10.1038_s41586-019-1312-2
    DOI: 10.1038/s41586-019-1312-2
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