R. Mato et al., MULTIPLICITY OF GENETIC BACKGROUNDS AMONG VANCOMYCIN-RESISTANT ENTEROCOCCUS-FAECIUM ISOLATES RECOVERED FROM AN OUTBREAK IN A NEW-YORK-CITY HOSPITAL, Microbial drug resistance, 2(3), 1996, pp. 309-317
A total of 182 vancomycin-resistant Enterococcus faecium and 6 Enteroc
occus faecalis inpatient isolates recovered during a 2-year period (19
90-1992) in a New York City hospital were analyzed by molecular finger
printing techniques, pulsed-field gel electrophoresis (PFGE), of chrom
osomal SmaI digests combined with Southern hybridization using vanA an
d vanB2-specific DNA probes, Of the 180 isolates hybridizing with thes
e probes, 153 carried the vanA and 27 the vanB gene, As many as 21 dif
ferent PFGE types and a total of 54 subtypes were identified among the
isolates, and the size of vanA and vanB-hybridizing DNA fragments als
o showed a wide range of sizes, from about 37 to over 280 kb (in vanA)
or 140 kb (in vanB), suggesting extensive recombination, including ch
romosomal integration, of the resistance genes in the isolates, Close
to one-third, 46, of the 148 isolates from 1992 belonged to two closel
y related PFGE subtype variants, each of which carried a 48 kb vanA hy
bridizing DNA fragment, Spread of this clone appears to be mainly resp
onsible for the substantial increase in the prevalence of vancomycin-r
esistant E. faecium in early 1992.