An improved CRISPR-base editor tool to target virulence factors in the ruminant pathogen Mycoplasma bovis
Hogan, P. J.; Duclusaud, M.; Ipoutcha, T.; Lartigue, C.; Gourgues, G.; Blanchard, A.; Baranowski, E.; Beven, L.; Arfi, Y.; Sirand-Pugnet, P.; Rideau, F.
Show abstract
Mycoplasma bovis is a minimal bacterium infecting cattle, which causes a wide variety of symptoms and is impacting dairy and beef producers worldwide. Part of the difficulty in research surrounding M. bovis, and other mycoplasmas, is the lack of efficient genome editing tools. As a proof of concept, we previously presented a transposon-based CRISPR-Base Editor system to introduce targeted mutations in M. bovis. In this work, the existing tool has been greatly improved: multi-loci targeting through addition of a second guide RNA; increased number of targetable loci by using an engineered Cas9 with AT-rich PAM specificity, and elimination of the CRISPR-Base Editor from the generated mutants through either transposon excision or use of a curable plasmid. We also propose a dedicated bioinformatic tool to identify target sequences in genes of a given genome. This software was applied to demonstrate the potential of our improved tools in M. bovis and other mycoplasmas of veterinary and human interest that currently lack genome editing methods.
Matching journals
The top 12 journals account for 50% of the predicted probability mass.