Litcius/Paper detail

Ultraplexing: increasing the efficiency of long-read sequencing for hybrid assembly with k-mer-based multiplexing

Alexander Dilthey, Sebastian Meyer, Achim J. Kaasch

2020Genome biology11 citationsDOIOpen Access PDF

Abstract

Hybrid genome assembly has emerged as an important technique in bacterial genomics, but cost and labor requirements limit large-scale application. We present Ultraplexing, a method to improve per-sample sequencing cost and hands-on time of Nanopore sequencing for hybrid assembly by at least 50% compared to molecular barcoding while maintaining high assembly quality. Ultraplexing requires the availability of Illumina data and uses inter-sample genetic variability to assign reads to isolates, which obviates the need for molecular barcoding. Thus, Ultraplexing can enable significant sequencing and labor cost reductions in large-scale bacterial genome projects.

Topics & Concepts

BiologyNanopore sequencingSequence assemblyIllumina dye sequencingComputational biologyDNA sequencingGenomeGenomicsDeep sequencingWhole genome sequencingGeneticsGeneGene expressionTranscriptomeGenomics and Phylogenetic StudiesInfective Endocarditis Diagnosis and ManagementPlant Pathogenic Bacteria Studies
Ultraplexing: increasing the efficiency of long-read sequencing for hybrid assembly with k-mer-based multiplexing | Litcius