Scientific Reports (Aug 2023)

A tool for rapid, automated characterization of population epigenomics in plants

  • Jack M. Colicchio,
  • Cynthia L. Amstutz,
  • Nelson Garcia,
  • Keerthana N. Prabhu,
  • Thomas M. Cairns,
  • Melis Akman,
  • Thomas Gottilla,
  • Twyla Gollery,
  • Shawn L. Stricklin,
  • Travis S. Bayer

DOI
https://doi.org/10.1038/s41598-023-38356-7
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Epigenetic variation in plant populations is an important factor in determining phenotype and adaptation to the environment. However, while advances have been made in the molecular and computational methods to analyze the methylation status of a given sample of DNA, tools to profile and compare the methylomes of multiple individual plants or groups of plants at high resolution and low cost are lacking. Here, we describe a computational approach and R package (sounDMR) that leverages the benefits of long read nanopore sequencing to enable robust identification of differential methylation from complex experimental designs, as well as assess the variability within treatment groups and identify individual plants of interest. We demonstrate the utility of this approach by profiling a population of Arabidopsis thaliana exposed to a demethylating agent and identify genomic regions of high epigenetic variability between individuals. Given the low cost of nanopore sequencing devices and the ease of sample preparation, these results show that high resolution epigenetic profiling of plant populations can be made more broadly accessible in plant breeding and biotechnology.