Improved site-specific mutagenesis in Rhodococcus opacus using a novel conditional suicide plasmid

Abstract

Abstract Rhodococcus opacus PD630 is a biotechnologically important bacterium with metabolic capability for bioremediation, metal recovery, and storage of triacylglycerols. Genome editing by homologous recombination in R. opacus is hampered by a very low combined frequency of DNA transfer and recombination. To improve recombination in the species, a conjugative, conditional suicide plasmid based on the replicon derived from the Corynebacterium glutamicum plasmid pGA1 was constructed and evaluated in R. opacus. The replication of this plasmid is controlled by a dual inducible and repressible promoter system originally developed for Mycobacterium spp. Next, we demonstrated that a derivative of this plasmid containing sacB as a counterselection marker and homologous regions of R. opacus could be used for homologous recombination, and that the problem of obtaining recombinants had been solved. Like for other Corynebacteriales, the cell wall of Rhodococcus spp. contains mycolic acids which form a hydrophobic and impermeable outer layer. Mycolic acids are essential for Mycobacterium smegmatis, but not for Corynebacterium glutamicum, and the new vector was used to study if mycolic acid is essential for R. opacus. We found that accD3 that is necessary for mycolic acid synthesis could only be deleted from the chromosome in strains containing a plasmid-encoded copy of accD3. This indicates that mycolic acid is important for R. opacus viability. The conditional suicide vector should be useful for homologous recombination or for delivering gene products like recombinases or Cas proteins and gRNA to Rhodococcus and related genera, while the approach should be applicable for any plasmid needing a plasmid-encoded protein for replication. Key points • Improved vector for homologous recombination in R. opacus. • Mycolic acid is important for survival of R. opacus like it is for Mycobacterium. • Similar conditional suicide plasmids may be constructed for other bacteria. Graphical abstract