Abstract
Objectives: To investigate the diversity of plasmids that carry blaTEM-52 genes among Escherichia coli and
Salmonella enterica originating from animals, meat products and humans.
Methods: A collection of 22 blaTEM-52-encoding plasmids was characterized by restriction fragment length
polymorphism (RFLP), replicon typing (by PCR or replicon sequencing), susceptibility testing, assessment of
plasmid ability to self-transfer by conjugation and typing of the genetic environment of the blaTEM-52 gene.
Detected IncI1 plasmids underwent further plasmid multilocus sequence typing.
Results: RFLP profiles demonstrated dissemination of blaTEM-52 in Denmark (imported meat from Germany),
France, Belgium and the Netherlands from 2000 to 2006 by mainly two different plasmids, one encoding
blaTEM-52b (IncX1A, 45 kb) and the other blaTEM-52c (IncI1, 80 kb). In addition, blaTEM-52b was also found to be
located on various other plasmids belonging to IncA/C and IncL/M, while blaTEM-52c was found on IncN-like
as well as on IncR plasmids. In the majority of cases (n¼21) the blaTEM-52 gene was located on a Tn3 transposon.
Seven out of 10 blaTEM-52 plasmids tested in conjugation experiments were shown to be capable of self-transfer
to a plasmid-free E. coli recipient.
Conclusions: The blaTEM-52 gene found in humans could have been transmitted on transferable plasmids originating
from animal sources. Some of the blaTEM-52 plasmids carry replicons that differ from the classical ones.
Two novel replicons were detected, IncX1A and IncN-like. Unlike its predecessor blaTEM-1, the blaTEM-52 gene was
not detected on F-type replicons suggesting that this gene evolved on other types of plasmid scaffolds.
Salmonella enterica originating from animals, meat products and humans.
Methods: A collection of 22 blaTEM-52-encoding plasmids was characterized by restriction fragment length
polymorphism (RFLP), replicon typing (by PCR or replicon sequencing), susceptibility testing, assessment of
plasmid ability to self-transfer by conjugation and typing of the genetic environment of the blaTEM-52 gene.
Detected IncI1 plasmids underwent further plasmid multilocus sequence typing.
Results: RFLP profiles demonstrated dissemination of blaTEM-52 in Denmark (imported meat from Germany),
France, Belgium and the Netherlands from 2000 to 2006 by mainly two different plasmids, one encoding
blaTEM-52b (IncX1A, 45 kb) and the other blaTEM-52c (IncI1, 80 kb). In addition, blaTEM-52b was also found to be
located on various other plasmids belonging to IncA/C and IncL/M, while blaTEM-52c was found on IncN-like
as well as on IncR plasmids. In the majority of cases (n¼21) the blaTEM-52 gene was located on a Tn3 transposon.
Seven out of 10 blaTEM-52 plasmids tested in conjugation experiments were shown to be capable of self-transfer
to a plasmid-free E. coli recipient.
Conclusions: The blaTEM-52 gene found in humans could have been transmitted on transferable plasmids originating
from animal sources. Some of the blaTEM-52 plasmids carry replicons that differ from the classical ones.
Two novel replicons were detected, IncX1A and IncN-like. Unlike its predecessor blaTEM-1, the blaTEM-52 gene was
not detected on F-type replicons suggesting that this gene evolved on other types of plasmid scaffolds.
Originalsprog | Engelsk |
---|---|
Tidsskrift | Journal of Antimicrobial Chemotherapy |
Vol/bind | 66 |
Udgave nummer | 11 |
Sider (fra-til) | 2465-74 |
Antal sider | 10 |
ISSN | 0305-7453 |
DOI | |
Status | Udgivet - nov. 2011 |