Abstract
AbstractMycoplasmas are respiratory pathogens in humans and animals and due to their fastidious nature, they have been historically underdiagnosed. Lack of standardised diagnostic, typing and antimicrobial susceptibility testing methods makes clinical management and epidemiological studies challenging. The aim of this study was to develop a cost-effective and accurate sequencing workflow for genotypic characterization of clinical isolates of respiratory mycoplasmas using a rapid long-read sequencing platform. Critical aspects of bacterial whole genome sequencing were explored using fastidious respiratory Mycoplasma (M. felis and M. cynos) isolated from animals including: (i) four solid and liquid-based media based on a specialized formulation for Mycoplasma culture, (ii) three DNA extraction methods modified for sequencing purposes, and (iii) two de novo assembly platforms as key components of a bioinformatic pipeline including Flye and Canu assemblers. DNA quality and quantity compatible with long-read sequencing requirements were obtained with culture volumes of 160ml in modified Hayflick’s broth incubated for 96 hours. The other three culture approaches investigated did not meet the DNA quality criteria required for long-read sequencing. The use of bead-beating bacterial cell lysis in the extraction protocol resulted in smaller fragments and shorter reads compared to enzymatic lysis methods. Overall, Flye generated more contiguous assemblies than the Canu assembler. This novel study provides a step-by-step sequencing workflow including mycoplasma culture, DNA extraction and de novo assembly approaches for the characterization of highly fastidious respiratory mycoplasmas. This workflow will provide diagnosticians, epidemiologists, and researchers with a more comprehensive tool than the laborious conventional methods for a complete genomic characterization of respiratory mycoplasmas.
Publisher
Cold Spring Harbor Laboratory