Litcius/Paper detail

Demultiplexing and barcode-specific adaptive sampling for nanopore direct RNA sequencing

Wiep van der Toorn, Patrick Bohn, Wang Liu-Wei, Marco Olguin-Nava, Anne-Sophie Gribling-Burrer, Redmond P. Smyth, Max von Kleist

2025Nature Communications27 citationsDOIOpen Access PDF

Abstract

Nanopore direct RNA sequencing (dRNA-seq) enables unique insights into RNA biology. However, applications are currently limited by the lack of accurate and cost-effective sample multiplexing. Here we introduce WarpDemuX, an ultra-fast and highly accurate adapter-barcoding and demultiplexing approach for dRNA-seq with SQK-RNA002 and SQK-RNA004 chemistries. WarpDemuX enhances speed and accuracy by fast processing of the raw nanopore signal, use of a light-weight machine-learning algorithm and design of optimized barcode sets. We demonstrate its utility by performing rapid phenotypic profiling of different SARS-CoV-2 viruses through multiplexed sequencing of longitudinal samples on a single flowcell, identifying systematic differences in transcript abundance and poly(A) tail lengths during infection. Additionally, integrating WarpDemuX into sequencing control software enables real-time enrichment of target molecules through barcode-specific adaptive sampling, which we demonstrate by enriching low abundance viral RNA. In summary, WarpDemuX represents a broadly applicable, high-performance, economical multiplexing solution for dRNA-seq, facilitating advanced (epi-) transcriptomic research.

Topics & Concepts

BarcodeMultiplexingNanopore sequencingComputational biologyComputer scienceRNAAdapter (computing)NanoporeBiologyDNA sequencingComputer hardwareNanotechnologyGeneGeneticsMaterials scienceTelecommunicationsOperating systemGenomics and Phylogenetic StudiesAdvanced biosensing and bioanalysis techniquesNanopore and Nanochannel Transport Studies