Orientia tsutsugamushi is a mite-transmitted obligate intracellular bacterium that causes the potentially deadly zoonosis, scrub typhus. The absence of genetic tools for Orientia have limited studies of the microbe-host interactions that underlie scrub typhus. To address this gap, we developed a protocol for transforming and achieving allelic exchange in O. tsutsugamushi str. Ikeda. From evaluating multiple cell lines and antibiotics, we found that contact-inhibited EA.hy926 human endothelial-like cells best supported Orientia replication and that chloramphenicol was an effective selection marker. We engineered a homologous recombination cassette encoding a codon-modified version of the O. tsutsugamushiank13 gene (OTT_RS04140) (CMank13) and its promoter alongside genes for mScarlet-I and chloramphenicol acetyltransferase under control of the O. tsutsugamushitsa22-up and tsa56-down promoters, respectively. A PCR product encompassing the cassette and chromosomal flanking regions was transformed into O. tsutsugamushi via electroporation or CaCl2, the latter of which better preserved bacterial and host cell viability. EA.hy926 cells inoculated with transformed O. tsutsugamushi were grown in glass-bottom plates in the presence of chloramphenicol and imaged by live-cell microscopy to identify cultures containing mScarlet-I positive bacteria, which could be maintained in perpetuity. Chromosomal integration of the CMank13 cassette and loss of wild-type ank13 were verified by PCR and nanopore sequencing. This report establishes platforms for genetically manipulating O. tsutsugamushi and building additional genetic tools to investigate this globally significant pathogen.
Carlyon, J. A., Allen, P. E., Hunt, J. R., Chiarelli, T. J.
Advertisement
Stats
- Recommendations n/a n/a positive of 0 vote(s)
- Views 9
- Comments 0
