Nature Communications (May 2024)

Biochemical-free enrichment or depletion of RNA classes in real-time during direct RNA sequencing with RISER

  • Alexandra Sneddon,
  • Agin Ravindran,
  • Somasundhari Shanmuganandam,
  • Madhu Kanchi,
  • Nadine Hein,
  • Simon Jiang,
  • Nikolay Shirokikh,
  • Eduardo Eyras

DOI
https://doi.org/10.1038/s41467-024-48673-8
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract The heterogeneous composition of cellular transcriptomes poses a major challenge for detecting weakly expressed RNA classes, as they can be obscured by abundant RNAs. Although biochemical protocols can enrich or deplete specified RNAs, they are time-consuming, expensive and can compromise RNA integrity. Here we introduce RISER, a biochemical-free technology for the real-time enrichment or depletion of RNA classes. RISER performs selective rejection of molecules during direct RNA sequencing by identifying RNA classes directly from nanopore signals with deep learning and communicating with the sequencing hardware in real time. By targeting the dominant messenger and mitochondrial RNA classes for depletion, RISER reduces their respective read counts by more than 85%, resulting in an increase in sequencing depth of 47% on average for long non-coding RNAs. We also apply RISER for the depletion of globin mRNA in whole blood, achieving a decrease in globin reads by more than 90% as well as an increase in non-globin reads by 16% on average. Furthermore, using a GPU or a CPU, RISER is faster than GPU-accelerated basecalling and mapping. RISER’s modular and retrainable software and intuitive command-line interface allow easy adaptation to other RNA classes. RISER is available at https://github.com/comprna/riser .