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Pathogenic and commensal Escherichia?coli from irrigation water show potential in transmission of extended spectrum and AmpC ?-lactamases determinants to isolates from lettuce.


ABSTRACT: There are few studies on the presence of extended-spectrum ?-lactamases and AmpC ?-lactamases (ESBL/AmpC) in bacteria that contaminate vegetables. The role of the production environment in ESBL/AmpC gene transmission is poorly understood. The occurrence of ESBL/AmpC in Escherichia coli (n?=?46) from lettuce and irrigation water and the role of irrigation water in the transmission of resistant E.?coli were studied. The presence of ESBL/AmpC, genetic similarity and phylogeny were typed using genotypic and phenotypic techniques. The frequency of ?-lactamase gene transfer was studied in vitro. ESBLs/AmpC were detected in 35 isolates (76%). Fourteen isolates (30%) produced both ESBLs/AmpC. Prevalence was highest in E.?coli from lettuce (90%). Twenty-two isolates (48%) were multi-resistant with between two and five ESBL/AmpC genes. The major ESBL determinant was the CTX-M type (34 isolates). DHA (33% of isolates) were the dominant AmpC ? lactamases. There was a high conjugation efficiency among the isolates, ranging from 3.5?×?10(-2) to 1?×?10(-2) ?±?1.4?×?10(-1) transconjugants per recipient. Water isolates showed a significantly higher conjugation frequency than those from lettuce. A high degree of genetic relatedness between E.?coli from irrigation water and lettuce indicated possible common ancestry and pathway of transmission.

SUBMITTER: Njage PM 

PROVIDER: S-EPMC4408178 | biostudies-literature | 2015 May

REPOSITORIES: biostudies-literature

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Pathogenic and commensal Escherichia coli from irrigation water show potential in transmission of extended spectrum and AmpC β-lactamases determinants to isolates from lettuce.

Njage Patrick M K PM   Buys Elna M EM  

Microbial biotechnology 20141209 3


There are few studies on the presence of extended-spectrum β-lactamases and AmpC β-lactamases (ESBL/AmpC) in bacteria that contaminate vegetables. The role of the production environment in ESBL/AmpC gene transmission is poorly understood. The occurrence of ESBL/AmpC in Escherichia coli (n = 46) from lettuce and irrigation water and the role of irrigation water in the transmission of resistant E. coli were studied. The presence of ESBL/AmpC, genetic similarity and phylogeny were typed using genot  ...[more]

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