%0 Journal Article %A Wick, Ryan R. %A Judd, Louise M. %A Gorrie, Claire L. %A Holt, Kathryn E. %T Completing bacterial genome assemblies with multiplex MinION sequencing %D 2017 %J Microbial Genomics, %V 3 %N 10 %@ 2057-5858 %C e000132 %R https://doi.org/10.1099/mgen.0.000132 %K multiplex sequencing %K Klebsiella pneumoniae %K hybrid assembly %K genome assembly %K oxford nanopore %K long-read sequencing %I Microbiology Society, %X Illumina sequencing platforms have enabled widespread bacterial whole genome sequencing. While Illumina data is appropriate for many analyses, its short read length limits its ability to resolve genomic structure. This has major implications for tracking the spread of mobile genetic elements, including those which carry antimicrobial resistance determinants. Fully resolving a bacterial genome requires long-read sequencing such as those generated by Oxford Nanopore Technologies (ONT) platforms. Here we describe our use of the ONT MinION to sequence 12 isolates of Klebsiella pneumoniae on a single flow cell. We assembled each genome using a combination of ONT reads and previously available Illumina reads, and little to no manual intervention was needed to achieve fully resolved assemblies using the Unicycler hybrid assembler. Assembling only ONT reads with Canu was less effective, resulting in fewer resolved genomes and higher error rates even following error correction with Nanopolish. We demonstrate that multiplexed ONT sequencing is a valuable tool for high-throughput bacterial genome finishing. Specifically, we advocate the use of Illumina sequencing as a first analysis step, followed by ONT reads as needed to resolve genomic structure. %U https://www.microbiologyresearch.org/content/journal/mgen/10.1099/mgen.0.000132