Antibiotics (Oct 2021)

Identification of Three Novel PmGRI1 Genomic Resistance Islands and One Multidrug Resistant Hybrid Structure of Tn<i>7</i>-like Transposon and PmGRI1 in <i>Proteus mirabilis</i>

  • Boheng Ma,
  • Xuechun Wang,
  • Changwei Lei,
  • Yizhi Tang,
  • Juan He,
  • Yufeng Gao,
  • Yu Zhang,
  • Hongning Wang

DOI
https://doi.org/10.3390/antibiotics10101268
Journal volume & issue
Vol. 10, no. 10
p. 1268

Abstract

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The widespread use of antibiotics in large-scale livestock production has led to serious antibiotic resistance. Proteus mirabilis is an important pathogenic bacterium on large-scale farms. Chromosomally localized mobilizable genetic elements (genomic islands) and mobile genetic elements (Tn7-like transposons) play an important role in the acquisition and transmission of resistance genes by P. mirabilis. To study the prevalence and resistance characteristics of antibiotic-resistant genomic islands in P. mirabilis of animal origin in China, we performed whole genome sequencing of P. mirabilis isolated from large-scale pig and chicken farms. Three new variants of PmGRI1 (HN31, YN8, and YN9), and a hybrid structure (HN2p) formed by the multidrug-resistant Tn7-like-HN2p transposon and a genomic island PmGRI1-HN2p, were identified from P. mirabilis. All variants underwent homologous recombination mediated by insertion sequence IS26. A genomic rearrangement in the chromosome between the Tn7-like-HN2p transposon and PmGRI1-HN2p occurred in HN2p. The heterozygous structure contained various antimicrobial resistance genes, including three copies of fluoroquinolone resistance gene qnrA1 and 16S rRNA methylase gene rmtB, which are rarely found in P. mirabilis. Our results highlight the structural genetic diversity of genomic islands by characterizing the novel variants of PmGRI1 and enrich the research base of multidrug resistance genomic islands.

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