iScience (Dec 2023)

Epitranscriptome analysis of NAD-capped RNA by spike-in-based normalization and prediction of chronological age

  • Dean Li,
  • Shuwen Ge,
  • Yandong Liu,
  • Miaomiao Pan,
  • Xueting Wang,
  • Guojing Han,
  • Sili Zou,
  • Rui Liu,
  • Kongyan Niu,
  • Chao Zhao,
  • Nan Liu,
  • Lefeng Qu

Journal volume & issue
Vol. 26, no. 12
p. 108558

Abstract

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Summary: Nicotinamide adenine dinucleotide (NAD) can be used as an initiating nucleotide in RNA transcription to produce NAD-capped RNA (NAD-RNA). RNA modification by NAD that links metabolite with expressed transcript is a poorly studied epitranscriptomic modification. Current NAD-RNA profiling methods involve multi-steps of chemo-enzymatic labeling and affinity-based enrichment, thus presenting a critical analytical challenge to remove unwanted variations, particularly batch effects. Here, we propose a computational framework, enONE, to remove unwanted variations. We demonstrate that designed spike-in RNA, together with modular normalization procedures and evaluation metrics, can mitigate technical noise, empowering quantitative and comparative assessment of NAD-RNA across different datasets. Using enONE and a human aging cohort, we reveal age-associated features of NAD-capping and further develop an accurate RNA-based aging clock that combines signatures from both transcriptome and NAD-modified epitranscriptome. enONE facilitates the discovery of NAD-RNA responsive to physiological changes, laying an important foundation for functional investigations into this modification.

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