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Strainline: full-length de novo viral haplotype reconstruction from noisy long reads

Xiao Luo, Xiongbin Kang, Alexander Schönhuth

2022Genome biology41 citationsDOIOpen Access PDF

Abstract

Haplotype-resolved de novo assembly of highly diverse virus genomes is critical in prevention, control and treatment of viral diseases. Current methods either can handle only relatively accurate short read data, or collapse haplotype-specific variations into consensus sequence. Here, we present Strainline, a novel approach to assemble viral haplotypes from noisy long reads without a reference genome. Strainline is the first approach to provide strain-resolved, full-length de novo assemblies of viral quasispecies from noisy third-generation sequencing data. Benchmarking on simulated and real datasets of varying complexity and diversity confirm this novelty and demonstrate the superiority of Strainline.

Topics & Concepts

Viral quasispeciesBiologyComputational biologyGenomeHaplotypeGeneticsSequence assemblyHuman geneticsNoveltyGenomicsDNA sequencingViral evolutionSequence (biology)BenchmarkingReference genomeFalse discovery rateEvolutionary biologyDeep sequencingVirusHuman genomeGenomics and Phylogenetic StudiesBacteriophages and microbial interactionsEvolution and Genetic Dynamics