PlasmidSeeker: identification of known plasmids from bacterial whole genome sequencing reads

PlasmidSeeker: identification of known plasmids from bacterial whole genome sequencing reads

Märt Roosaare, Mikk Puustusmaa, Märt Möls, Mihkel Vaher, Maido Remm

Background Plasmids play an important role in the dissemination of antibiotic resistance, making their detection an important task. Using whole genome sequencing (WGS), it is possible to capture both bacterial and plasmid sequence data, but short read lengths make plasmid detection a complex problem. Results We developed a tool named PlasmidSeeker that enables the detection of plasmids from bacterial WGS data without read assembly. The PlasmidSeeker algorithm is based on k-mers and uses k-mer abundance to distinguish between plasmid and bacterial sequences. We tested the performance of PlasmidSeeker on a set of simulated and real bacterial WGS samples, resulting in 100% sensitivity and 99.98% specificity. Conclusion PlasmidSeeker enables quick detection of known plasmids and complements existing tools that assemble plasmids de novo. The PlasmidSeeker source code is stored on GitHub: https://github.com/bioinfo-ut/PlasmidSeeker.

2018

Plasmid, k-mer, whole genome sequencing, Unassembled

DOI: 10.7717/peerj.4588

PeerJ

PeerJ Inc.

Medicine

EN