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Direct haplotype-resolved 5-base HiFi sequencing for genome-wide profiling of hypermethylation outliers in a rare disease cohort

Author

Listed:
  • Warren A. Cheung

    (Children’s Mercy Kansas City)

  • Adam F. Johnson

    (Children’s Mercy Kansas City)

  • William J. Rowell

    (Pacific Biosciences)

  • Emily Farrow

    (Children’s Mercy Kansas City
    University of Missouri Kansas City)

  • Richard Hall

    (Pacific Biosciences)

  • Ana S. A. Cohen

    (University of Missouri Kansas City
    Children’s Mercy Kansas City)

  • John C. Means

    (Children’s Mercy Kansas City)

  • Tricia N. Zion

    (Children’s Mercy Kansas City)

  • Daniel M. Portik

    (Pacific Biosciences)

  • Christopher T. Saunders

    (Pacific Biosciences)

  • Boryana Koseva

    (Children’s Mercy Kansas City)

  • Chengpeng Bi

    (Children’s Mercy Kansas City)

  • Tina K. Truong

    (New York University Grossman School of Medicine)

  • Carl Schwendinger-Schreck

    (Children’s Mercy Kansas City)

  • Byunggil Yoo

    (Children’s Mercy Kansas City)

  • Jeffrey J. Johnston

    (Children’s Mercy Kansas City)

  • Margaret Gibson

    (Children’s Mercy Kansas City)

  • Gilad Evrony

    (New York University Grossman School of Medicine)

  • William B. Rizzo

    (Nebraska Medical Center)

  • Isabelle Thiffault

    (University of Missouri Kansas City
    Children’s Mercy Kansas City)

  • Scott T. Younger

    (Children’s Mercy Kansas City
    University of Missouri Kansas City)

  • Tom Curran

    (Children’s Mercy Research Institute)

  • Aaron M. Wenger

    (Pacific Biosciences)

  • Elin Grundberg

    (Children’s Mercy Kansas City
    University of Missouri Kansas City)

  • Tomi Pastinen

    (Children’s Mercy Kansas City
    University of Missouri Kansas City)

Abstract

Long-read HiFi genome sequencing allows for accurate detection and direct phasing of single nucleotide variants, indels, and structural variants. Recent algorithmic development enables simultaneous detection of CpG methylation for analysis of regulatory element activity directly in HiFi reads. We present a comprehensive haplotype resolved 5-base HiFi genome sequencing dataset from a rare disease cohort of 276 samples in 152 families to identify rare (~0.5%) hypermethylation events. We find that 80% of these events are allele-specific and predicted to cause loss of regulatory element activity. We demonstrate heritability of extreme hypermethylation including rare cis variants associated with short (~200 bp) and large hypermethylation events (>1 kb), respectively. We identify repeat expansions in proximal promoters predicting allelic gene silencing via hypermethylation and demonstrate allelic transcriptional events downstream. On average 30–40 rare hypermethylation tiles overlap rare disease genes per patient, providing indications for variation prioritization including a previously undiagnosed pathogenic allele in DIP2B causing global developmental delay. We propose that use of HiFi genome sequencing in unsolved rare disease cases will allow detection of unconventional diseases alleles due to loss of regulatory element activity.

Suggested Citation

  • Warren A. Cheung & Adam F. Johnson & William J. Rowell & Emily Farrow & Richard Hall & Ana S. A. Cohen & John C. Means & Tricia N. Zion & Daniel M. Portik & Christopher T. Saunders & Boryana Koseva & , 2023. "Direct haplotype-resolved 5-base HiFi sequencing for genome-wide profiling of hypermethylation outliers in a rare disease cohort," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38782-1
    DOI: 10.1038/s41467-023-38782-1
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    References listed on IDEAS

    as
    1. Wouter Meuleman & Alexander Muratov & Eric Rynes & Jessica Halow & Kristen Lee & Daniel Bates & Morgan Diegel & Douglas Dunn & Fidencio Neri & Athanasios Teodosiadis & Alex Reynolds & Eric Haugen & Je, 2020. "Index and biological spectrum of human DNase I hypersensitive sites," Nature, Nature, vol. 584(7820), pages 244-251, August.
    2. Sanna Gudmundsson & Konrad J. Karczewski & Laurent C. Francioli & Grace Tiao & Beryl B. Cummings & Jessica Alföldi & Qingbo Wang & Ryan L. Collins & Kristen M. Laricchia & Andrea Ganna & Daniel P. Bir, 2021. "Addendum: The mutational constraint spectrum quantified from variation in 141,456 humans," Nature, Nature, vol. 597(7874), pages 3-4, September.
    3. S. Choufani & C. Cytrynbaum & B. H. Y. Chung & A. L. Turinsky & D. Grafodatskaya & Y. A. Chen & A. S. A. Cohen & L. Dupuis & D. T. Butcher & M. T. Siu & H. M. Luk & I. F. M. Lo & S. T. S. Lam & O. Cal, 2015. "NSD1 mutations generate a genome-wide DNA methylation signature," Nature Communications, Nature, vol. 6(1), pages 1-7, December.
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    Cited by:

    1. Peng Ni & Fan Nie & Zeyu Zhong & Jinrui Xu & Neng Huang & Jun Zhang & Haochen Zhao & You Zou & Yuanfeng Huang & Jinchen Li & Chuan-Le Xiao & Feng Luo & Jianxin Wang, 2023. "DNA 5-methylcytosine detection and methylation phasing using PacBio circular consensus sequencing," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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