3'-Aminoglycoside phosphotransferase [APH(3')] enzymes are a group responsible for resistance to the antibiotics kanamycin (Km) and neomycin (Nm) in bacteria. Escherichia coli ECT24, originally isolated from a meat sample, harboured an 83-kb conjugative R-plasmid (pRPJ24) that carries transferable resistance to Km and Nm. Plasmid pRPJ24 was transferred by conjugation to Enterobacter cloacae 94R, which was used as the source of plasmid DNA in development of a probe for the Km-resistance determinant. Random cloning of BamHI and HindIII double-digest restriction fragments of pRPJ24 in the pUC18 vector plasmid produced clones resistant to both Nm and Km carrying a 1.9-kb DNA insert. Southern hybridization of pRPJ24 cloned chimeric plasmid DNA (pKPJ94) showed homology with the APH(3')II gene from transposon Tn5. A PstI digest of pKPJ94 produced a 920-bp fragment which hybridized with the APH(3')II structural gene, and was used as a DNA probe for the APH(3')II subclass gene. A 980-bp BamHI fragment from plasmid pGH54 carrying the APH(3')I gene from transposon Tn903 was used as a subclass I probe. Total DNA from 206 randomly screened Km-resistant Enterobacteriaceae isolates from raw ground beef and chicken meat samples were examined for the occurrence of APH(3') subclass I and II using non-radioactively-labelled DNA probes. Thirty-six percent and 60% of the isolates examined carried subclass I and II resistances, respectively, in the isolates from chicken meat samples. The corresponding values for bacterial strains from raw ground beef samples were 51% and 72%, respectively. Four percent of the resistant bacterial isolates from chicken samples did not display homology to either probe.(ABSTRACT TRUNCATED AT 250 WORDS)
An R‐plasmid donor strain of Escherichia coli isolated from a meat sample was mated with potential bacterial recipients belonging to the family Enterobacteriaceae isolated from ground beef and chicken samples. Nine different strains having different plasmid profiles were used as recipients in broth conjugation experiments. The recipients were identified as Enterobacter cloacae, Hafnia alvei, E. coli, Klebsiella pneumoniae and K. oxytoca. Of 1250 ampicillin resistant, tetracycline sensitive colonies tested, the incidence of recipients was estimated to be 3% (in ground beef) and 11% (in chicken) of the bacteria population. Two of the recipients, E. coli and K. Oxytoca also behaved as donors and transferred their R‐plasmids to a laboratory recipient strain of E. coli K12‐711. In vitro R‐plasmid transfer frequencies varied within a wide range, from 10−2 to 10−7 among recipients. Generally, frequencies of plasmid transfer were highest at 30°C and declined with decreasing temperature. Three of the recipient isolates, E. cloacae, H. alvei and E. coli displayed transfer of R‐plasmids at 10°C in broth matings. Similar trends in R‐plasmid transfer frequencies also were observed under in situ mating conditions in raw ground beef and pasteurized milk samples.
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