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Ranking of non-coding pathogenic variants and putative essential regions of the human genome

Author

Listed:
  • Alex Wells

    (Stanford University)

  • David Heckerman

    (University of California Los Angeles)

  • Ali Torkamani

    (Scripps Research Translational Institute)

  • Li Yin

    (Scripps Research Translational Institute)

  • Jonathan Sebat

    (University of California San Diego
    University of California San Diego
    University of California San Diego)

  • Bing Ren

    (Ludwig Institute for Cancer Research)

  • Amalio Telenti

    (Scripps Research Translational Institute
    The Scripps Research Institute
    Vir Biotechnology, Inc.)

  • Julia Iulio

    (Scripps Research Translational Institute
    Vir Biotechnology, Inc.)

Abstract

A gene is considered essential if loss of function results in loss of viability, fitness or in disease. This concept is well established for coding genes; however, non-coding regions are thought less likely to be determinants of critical functions. Here we train a machine learning model using functional, mutational and structural features, including new genome essentiality metrics, 3D genome organization and enhancer reporter data to identify deleterious variants in non-coding regions. We assess the model for functional correlates by using data from tiling-deletion-based and CRISPR interference screens of activity of cis-regulatory elements in over 3 Mb of genome sequence. Finally, we explore two user cases that involve indels and the disruption of enhancers associated with a developmental disease. We rank variants in the non-coding genome according to their predicted deleteriousness. The model prioritizes non-coding regions associated with regulation of important genes and with cell viability, an in vitro surrogate of essentiality.

Suggested Citation

  • Alex Wells & David Heckerman & Ali Torkamani & Li Yin & Jonathan Sebat & Bing Ren & Amalio Telenti & Julia Iulio, 2019. "Ranking of non-coding pathogenic variants and putative essential regions of the human genome," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-13212-3
    DOI: 10.1038/s41467-019-13212-3
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    Cited by:

    1. Zihuai He & Linxi Liu & Michael E. Belloy & Yann Guen & Aaron Sossin & Xiaoxia Liu & Xinran Qi & Shiyang Ma & Prashnna K. Gyawali & Tony Wyss-Coray & Hua Tang & Chiara Sabatti & Emmanuel Candès & Mich, 2022. "GhostKnockoff inference empowers identification of putative causal variants in genome-wide association studies," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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