Noncoding deletions reveal a gene that is critical for intestinal function

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Noncoding deletions reveal a gene that is critical for intestinal function
 
Oz-Levi, Danit; Olender, Tsviya; Bar-Joseph, Ifat; Zhu, Yiwen; Marek-Yagel, Dina; Barozzi, Iros; Osterwalder, Marco; Alkelai, Anna; Ruzzo, Elizabeth K; Han, Yujun; Vos, Erica S M; Reznik-Wolf, Haike; Hartman, Corina; Shamir, Raanan; Weiss, Batia; Shapiro, Rivka; Pode-Shakked, Ben; Tatarskyy, Pavlo; Milgrom, Roni; Schvimer, Michael; Barshack, Iris; Imai, Denise M; Coleman-Derr, Devin; Dickel, Diane E; Nord, Alex S; Afzal, Veena; van Bueren, Kelly Lammerts; Barnes, Ralston M; Black, Brian L; Mayhew, Christopher N; Kuhar, Matthew F; Pitstick, Amy; Tekman, Mehmet; Stanescu, Horia C; Wells, James M; Kleta, Robert; de Laat, Wouter; Goldstein, David B; Pras, Elon; Visel, Axel; Lancet, Doron; Anikster, Yair; Pennacchio, Len A
(2019) Nature, volume 571, issue 7763, pp. 107 - 111
(Article)
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 ... read more
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Keywords: Animals, Chromosomes, Human, Pair 16/genetics, Diarrhea/congenital, Disease Models, Animal, Enhancer Elements, Genetic/genetics, Female, Gene Expression Regulation, Developmental, Genes, Genes, Reporter, Genetic Loci/genetics, Humans, Intestines/physiology, Male, Mice, Mice, Knockout, Mice, Transgenic, Pedigree, Phenotype, Sequence Deletion/genetics, Transcriptional Activation, Transcriptome/genetics, Transgenes/genetics, Journal Article
DOI: https://doi.org/10.1038/s41586-019-1312-2
ISSN: 0028-0836
Publisher: Nature Publishing Group
Note: Funding Information: Acknowledgements The authors thank the patients and their families for their cooperation and support. This work was supported by grants to D.L. from the SysKid EU FP7 project (241544), the Wolfson Family Charitable Trust and the Crown Human Genome Center at the Weizmann Institute of Science. A.V. and L.A.P. were supported by NHLBI grant R24HL123879 and NHGRI grants R01HG003988, U54HG006997 and UM1HG009421; J.M.W. and Y.A. were supported by the Cincinnati Children’s Hospital and Sheba Medical Center’s Joint Research Fund; J.M.W. and M.F.K. were supported by NIH grants 1R01DK092456 and 1U18NS080815 as well as a digestive disease center grant (P30 DK0789392); R.K. was supported by the David and Elaine Potter Charitable Foundation; B.L.B. was supported by NIH grants HL089707, HL064658 and HL136182; and I. Barozzi was funded through an Imperial College Research Fellowship. Research was conducted at the E. O. Lawrence Berkeley National Laboratory and performed under the Department of Energy contract DE-AC02-05CH11231 (University of California). iPS cell lines were generated in collaboration with the Cincinnati Children’s Pluripotent Stem Cell Facility. This work was performed in partial fulfilment of the requirements for a PhD degree for D.O.-L. (Weizmann Institute of Science, Rehovot, Israel) and I.B.-J. (The Sackler Faculty of Medicine, Tel Aviv University, Israel). Publisher Copyright: © 2019, The Author(s), under exclusive licence to Springer Nature Limited. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
(Peer reviewed)