npj Genomic Medicine (Feb 2022)

High-resolution analysis for urinary DNA jagged ends

  • Tingting Xie,
  • Guangya Wang,
  • Spencer C. Ding,
  • Wing-Shan Lee,
  • Suk Hang Cheng,
  • Rebecca W. Y. Chan,
  • Ze Zhou,
  • Mary-Jane L. Ma,
  • Diana S. C. Han,
  • Jeremy Y. C. Teoh,
  • W. K. Jacky Lam,
  • Peiyong Jiang,
  • Rossa W. K. Chiu,
  • K. C. Allen Chan,
  • Y. M. Dennis Lo

DOI
https://doi.org/10.1038/s41525-022-00285-1
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract Single-stranded ends of double-stranded DNA (jagged ends) are more abundant in urinary DNA than in plasma DNA. However, the lengths of jagged ends in urinary DNA remained undetermined, as a previous method used for urinary DNA jagged end sequencing analysis (Jag-seq) relied on unmethylation at CpG sites, limiting the resolution. Here, we performed high-resolution Jag-seq analysis using methylation at non-CpG cytosine sites, allowing determination of exact length of jagged ends. The urinary DNA bore longer jagged ends (~26-nt) than plasma DNA (~17-nt). The jagged end length distribution displayed 10-nt periodicities in urinary DNA, which were much less observable in plasma DNA. Amplitude of the 10-nt periodicities increased in patients with renal cell carcinoma. Heparin treatment of urine diminished the 10-nt periodicities. The urinary DNA jagged ends often extended into nucleosomal cores, suggesting potential interactions with histones. This study has thus advanced our knowledge of jagged ends in urine DNA.