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April 10, 2026Open Access

Phenotypic and genomic characterization of tigecycline-insensitive Klebsiella pneumoniae strains and validation of highly virulent MDR strains

Key Points

This research aims to characterize tigecycline-insensitive Klebsiella pneumoniae strains and assess their virulence and resistance profiles.
Identified and analyzed tigecycline-insensitive K. pneumoniae strains
Characterized strains phenotypically and genomically
Detected novel allele and sequence type
Examined resistance genes and potential transmission pathways
21% of K. pneumoniae strains were tigecycline-insensitive
Discovery of novel allele (phoE 813) and novel sequence type (8597)
Confirmed presence of highly virulent multidrug-resistant strains
Identified plasmid-mediated resistance genes, which could facilitate transmission

Abstract

Our study revealed a high proportion (21%) of tigecycline-insensitive K. pneumoniae (TIKP) strains. We further characterized these TIKP isolates phenotypically and genomically, confirming the presence of highly virulent multidrug-resistant (MDR) strains. We discovered a novel allele (phoE 813) and a novel ST (8597). Our findings are significant because phenotypic analysis of TIKP allows clear determination of the level of tigecycline resistance (TRKP), which aids in optimizing antibiotic therapy and supports more rational clinical drug use. In addition, the plasmid-mediated resistance genes (e.g., the concurrent presence of both mcr-8 and tmexCD-toprJ in strain 10 in this study) may spread through the environmental-animal-human transmission chain. These results provide valuable insights for developing strategies to monitor and control the spread of TIKP.

Phenotypic and genomic characterization of tigecycline-insensitive Klebsiella pneumoniae strains and validation of highly virulent MDR strains

Key Points

Abstract

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