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A framework for real-time monitoring, analysis and adaptive sampling of viral amplicon nanopore sequencing

Rory Munro, Nadine Holmes, Christopher Moore, Matthew Carlile, Alexander Payne, John R. Tyson, Thomas Williams, Christopher Alder, Luke B. Snell, Gaia Nebbia, Roberto Santos, Matthew Loose

2023Frontiers in Genetics20 citationsDOIOpen Access PDF

Abstract

barcoding onto a single flow cell, resulting in challenges with maximising and balancing coverage for each sample. To address this, we developed a real-time analysis pipeline to maximise flow cell performance and optimise sequencing time and costs for any amplicon based sequencing. We extended our nanopore analysis platform MinoTour to incorporate ARTIC network bioinformatics analysis pipelines. MinoTour predicts which samples will reach sufficient coverage for downstream analysis and runs the ARTIC networks Medaka pipeline once sufficient coverage has been reached. We show that stopping a viral sequencing run earlier, at the point that sufficient data has become available, has no negative effect on subsequent down-stream analysis. A separate tool, SwordFish, is used to automate adaptive sampling on Nanopore sequencers during the sequencing run. This enables normalisation of coverage both within (amplicons) and between samples (barcodes) on barcoded sequencing runs. We show that this process enriches under-represented samples and amplicons in a library as well as reducing the time taken to obtain complete genomes without affecting the consensus sequence.

Topics & Concepts

Nanopore sequencingMinionAmpliconComputer sciencePipeline (software)Amplicon sequencingComputational biologyDeep sequencingDNA sequencingSequence analysisSequence (biology)Data miningBiologyReal-time computingGenomeGeneticsGenePolymerase chain reactionProgramming language16S ribosomal RNAGenomics and Phylogenetic StudiesBacteriophages and microbial interactionsMicrobial infections and disease research
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