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Characterization of eukaryotic DNA N6-methyladenine by a highly sensitive restriction enzyme-assisted sequencing

Author

Listed:
  • Guan-Zheng Luo

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Fang Wang

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago
    Wuhan University School of Pharmaceutical Sciences)

  • Xiaocheng Weng

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago
    College of Chemistry and Molecular Sciences, Key Laboratory of Biomedical Polymers of Ministry of Education, Wuhan University)

  • Kai Chen

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Ziyang Hao

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Miao Yu

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Xin Deng

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Jianzhao Liu

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

  • Chuan He

    (Institute for Biophysical Dynamics, Howard Hughes Medical Institute, The University of Chicago)

Abstract

Although extensively studied in prokaryotes, the prevalence and significance of DNA N6-methyladenine (6mA or m6dA) in eukaryotes had been underappreciated until recent studies, which have demonstrated that 6mA regulates gene expression as a potential heritable mark. To interrogate 6mA sites at single-base resolution, we report DA-6mA-seq (DpnI-Assisted N6-methylAdenine sequencing), an approach that uses DpnI to cleave methylated adenine sites in duplex DNA. We find that DpnI cuts other sequence motifs besides the canonical GATC restriction sites, thereby expanding the utility of this method. DA-6mA-seq achieves higher sensitivity with nanograms of input DNA and lower sequencing depth than conventional approaches. We study 6mA at base resolution in the Chlamydomonas genome and apply the new method to two other eukaryotic organisms, Plasmodium and Penicillium. Combined with conventional approaches, our method further shows that most 6mA sites are fully methylated on both strands of DNA at various sequence contexts.

Suggested Citation

  • Guan-Zheng Luo & Fang Wang & Xiaocheng Weng & Kai Chen & Ziyang Hao & Miao Yu & Xin Deng & Jianzhao Liu & Chuan He, 2016. "Characterization of eukaryotic DNA N6-methyladenine by a highly sensitive restriction enzyme-assisted sequencing," Nature Communications, Nature, vol. 7(1), pages 1-6, September.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11301
    DOI: 10.1038/ncomms11301
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