Communications Biology (Apr 2023)

NADcapPro and circNC: methods for accurate profiling of NAD and non-canonical RNA caps in eukaryotes

  • Sunny Sharma,
  • Jun Yang,
  • John Favate,
  • Premal Shah,
  • Megerditch Kiledjian

DOI
https://doi.org/10.1038/s42003-023-04774-6
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 14

Abstract

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Abstract Accurate identification of NAD-capped RNAs is essential for delineating their generation and biological function. Previous transcriptome-wide methods used to classify NAD-capped RNAs in eukaryotes contain inherent limitations that have hindered the accurate identification of NAD caps from eukaryotic RNAs. In this study, we introduce two orthogonal methods to identify NAD-capped RNAs more precisely. The first, NADcapPro, uses copper-free click chemistry and the second is an intramolecular ligation-based RNA circularization, circNC. Together, these methods resolve the limitations of previous methods and allowed us to discover unforeseen features of NAD-capped RNAs in budding yeast. Contrary to previous reports, we find that 1) cellular NAD-RNAs can be full-length and polyadenylated transcripts, 2) transcription start sites for NAD-capped and canonical m7G-capped RNAs can be different, and 3) NAD caps can be added subsequent to transcription initiation. Moreover, we uncovered a dichotomy of NAD-RNAs in translation where they are detected with mitochondrial ribosomes but minimally on cytoplasmic ribosomes indicating their propensity to be translated in mitochondria.