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

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

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% comp...

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Veröffentlicht in:Genome Biology 2020-03, Vol.21 (1), p.68-68, Article 68
Hauptverfasser: Dilthey, Alexander T, Meyer, Sebastian A, Kaasch, Achim J
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Assembly graph
Bacterial genetics
Bacterial genomics
DNA sequencing
Experiments
Genetic variability
Genome assembly
Genome, Bacterial
Genomes
Genomics
High-Throughput Nucleotide Sequencing
Humans
Hybrid assembly
k-mer
Labor costs
Multiplexing
Nanopore Sequencing - methods
Performance evaluation
Plasmids - genetics
Quality
Simulation
Software
Staphylococcus aureus - genetics
Staphylococcus aureus - isolation & purification
Time
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Zusammenfassung: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.
ISSN:1474-760X
1474-7596
1474-760X
DOI:10.1186/s13059-020-01974-9