Tellurite is highly toxic to most bacteria owing to its strong oxidative ability. However, some bacteria demonstrate tellurite resistance. In particular, some strains, including Shiga toxin-producing O157:H7, are known to be resistant to tellurite. This resistance is involved in operon, which is usually located on a prophage-like element of the chromosome. The characteristics of the operon have been investigated mainly by genome analysis of pathogenic ; however, the distribution and structural characteristics of the operon in other are almost unknown. To clarify these points, we examined 106 strains carrying the operon from various animals. The draft genomes of 34 representative strains revealed that operons were clearly classified into four subtypes, -type 1-4, at the nucleotide sequence level. Complete genomic sequences revealed that operons belonging to three -types (1, 3, and 4) were located on the prophage-like elements on the chromosome, whereas the -type 2 operon was located on the IncHI2 plasmid. The positions of the tRNA, tRNA, and tRNA indicated the insertion sites of elements carrying operons. Using the PCR method developed in this study, 106 strains were classified as type 1 ( = 66), 2 ( = 13), 3 ( = 8), and 4 ( = 17), and two strains carried both types 1 and 2. Furthermore, significant differences in the minimum inhibitory concentration (MIC) of tellurite were observed between strains carrying -type 4 and the others ( < 0.05). The -type was also closely related to the isolation source, with types 2 and 4 associated with chickens and deer, respectively. This study provided new insights related not only to genetic characteristics of the operons, but also to phenotypic and ecological characteristics that may be related to the diversity of the operon.
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| http://dx.doi.org/10.3389/fmicb.2021.681175 | DOI Listing |
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