Publication: Chlamydia suis displays high transformation capacity with complete cloning vector integration into the chromosomal rrn-nqrF plasticity zone
Chlamydia suis displays high transformation capacity with complete cloning vector integration into the chromosomal rrn-nqrF plasticity zone
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Marti, H., Biggel, M., Shima, K., Onorini, D., Rupp, J., Charette, S. J., & Borel, N. (2023). Chlamydia suis displays high transformation capacity with complete cloning vector integration into the chromosomal rrn-nqrF plasticity zone. Microbiology Spectrum, 11(6), e0237823. https://doi.org/10.1128/spectrum.02378-23
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The obligate intracellular Chlamydia genus contains many pathogens with a negative impact on global health and economy. Despite recent progress, there is still a lack of genetic tools limiting our understanding of these complex bacteria. This study provides new insights into genetic manipulation of Chlamydia with the opportunistic porcine pathogen Chlamydia suis, the only chlamydial species naturally harboring an antibiotic resistance gene, originally obtained by horizontal gene transfer. C. suis is transmissible to humans, posing a p
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Marti, H., Biggel, M., Shima, K., Onorini, D., Rupp, J., Charette, S. J., & Borel, N. (2023). Chlamydia suis displays high transformation capacity with complete cloning vector integration into the chromosomal rrn-nqrF plasticity zone. Microbiology Spectrum, 11(6), e0237823. https://doi.org/10.1128/spectrum.02378-23
