Genome Biology (Mar 2023)

BIND&MODIFY: a long-range method for single-molecule mapping of chromatin modifications in eukaryotes

  • Zhe Weng,
  • Fengying Ruan,
  • Weitian Chen,
  • Zhichao Chen,
  • Yeming Xie,
  • Meng Luo,
  • Zhe Xie,
  • Chen Zhang,
  • Juan Wang,
  • Yuxin Sun,
  • Yitong Fang,
  • Mei Guo,
  • Chen Tan,
  • Wenfang Chen,
  • Yiqin Tong,
  • Yaning Li,
  • Hongqi Wang,
  • Chong Tang

DOI
https://doi.org/10.1186/s13059-023-02896-y
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 29

Abstract

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Abstract Epigenetic modifications of histones are associated with development and pathogenesis of disease. Existing approaches cannot provide insights into long-range interactions and represent the average chromatin state. Here we describe BIND&MODIFY, a method using long-read sequencing for profiling histone modifications and transcription factors on individual DNA fibers. We use recombinant fused protein A-M.EcoGII to tether methyltransferase M.EcoGII to protein binding sites to label neighboring regions by methylation. Aggregated BIND&MODIFY signal matches bulk ChIP-seq and CUT&TAG. BIND&MODIFY can simultaneously measure histone modification status, transcription factor binding, and CpG 5mC methylation at single-molecule resolution and also quantifies correlation between local and distal elements.

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