Differences in Resolution of
 mwr
 -Containing Plasmid Dimers Mediated by the
 Klebsiella pneumoniae
 and
 Escherichia coli
 XerC Recombinases: Potential Implications in Dissemination of Antibiotic Resistance Genes

Bui, Duyen; Ramiscal, Judianne; Trigueros, Sònia; Newmark, Jason; Do, Albert; Sherratt, David J.; Tolmasky, Marcelo E.

doi:10.1128/jb.188.8.2812-2820.2006

Cited by 20 publications

(20 citation statements)

References 55 publications

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“…Recombinant plasmids pPBR1 and pPBR2 were generated by ligating HindIII-digested pPAB19-1 or pPAB19-2 to HindIII-digested pUC19 (38). Dimers of plasmids pES and pKS492 were used as controls in dimer resolution experiments (4). E. coli DS941 (AB1157 recF143 lacI q lacZ; possesses wild-type xerC, xerD, argR, and pepA) (33), E. coli DS9028 (DS941 xerD3::fol) (30), and the hyper-recombinogenic E. coli JC8679 (DS945 recBC sbcA) (32) were used to carry out the Xer recombination experiments.…”

Section: Methodsmentioning

confidence: 99%

Small Plasmids Harboring qnrB19 : a Model for Plasmid Evolution Mediated by Site-Specific Recombination at oriT and Xer Sites

Tran

Andres

Petroni

et al. 2012

Antimicrob Agents Chemother

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Plasmids pPAB19-1, pPAB19-2, pPAB19-3, and pPAB19-4, isolated from Salmonella and Escherichia coli clinical strains from hospitals in Argentina, were completely sequenced. These plasmids include the qnrB19 gene and are 2,699, 3,082, 2,989, and 2,702 nucleotides long, respectively, and they share extensive homology among themselves and with other previously described small qnrB19-harboring plasmids. The genetic environment of qnrB19 in all four plasmids is identical to that in these other plasmids and in transposons such as Tn2012, Tn5387, and Tn5387-like. Nucleotide sequence comparisons among these and previously described plasmids showed a variable region characterized by being flanked by an oriT locus and a Xer recombination site. We propose that this arrangement could play a role in the evolution of plasmids and present a model for DNA swapping between plasmid molecules mediated by site-specific recombination events at oriT and a Xer target site. Qnrs are pentapeptide repeat proteins that mediate resistance to quinolones by protecting type II DNA topoisomerases (14, 28). They are known since 1998 when the first qnr gene was found in the multiresistance plasmid pMG252 harbored by a Klebsiella pneumoniae strain isolated from the urine of a patient at the University of Alabama (20). Since then five qnr families (qnrA, qnrB, qnrC, qnrD, and qnrS) have been found, usually hosted in large plasmids (31). The first qnrB gene (qnrB1) was identified in a plasmid from a K. pneumoniae strain isolated in South India (16), and 38 members of the family quickly followed (http://www.lahey .org/qnrStudies/) (13). The qnrB19 gene has been found in several genera of Enterobacteriaceae isolated from humans (healthy people and clinical isolates), animals, and food of animal origin in numerous geographical regions (6,9,12,17,21,22,27). An interesting characteristic of the qnrB19 allele is that it has been found within large plasmids, associated to ISEcp1C-based transposons (6,9,27), and in small plasmids (ϳ3 kbp) lacking ISEcp1C or any other insertion sequence (12,17,22) (Table 1). However, in spite of being located in such dissimilar elements, the qnrB19 genes share a conserved genetic environment (22).We have recently analyzed a collection of clinical enterobacterial isolates with decreased quinolone susceptibility, and we found four small plasmids harboring qnrB19 (2). We describe here their molecular features and characterize their relationships with other qnrB19-harboring genetic platforms. Furthermore, we propose possible pathways of evolution of the qnrB19 environment as well as a site-specific recombination-based model for DNA modifications at a variable region found in these plasmids. MATERIALS AND METHODSBacterial strains and plasmids. The plasmids pPAB19-1, pPAB19-2, pPAB19-3, and pPAB19-4 analyzed in the present study were isolated from Salmonella enterica serovar Infantis M7849, Escherichia coli M9996, E. coli M9888, and Salmonella sp. strain M9397, respectively (Table 1). Salmonella Infantis M7849 was isolated at the ...

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Section: Methodsmentioning

confidence: 99%

Small Plasmids Harboring qnrB19 : a Model for Plasmid Evolution Mediated by Site-Specific Recombination at oriT and Xer Sites

Tran

Andres

Petroni

et al. 2012

Antimicrob Agents Chemother

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“…These results show that during the outbreak there was no exchange of a common plasmid carrying the bla OXA-24 gene among the strains isolated. On the (3,4,13,15). Recombination occurs via formation of a heterotetrameric complex in which each recombinase catalyzes the exchange of one pair of DNA strands in a reaction that proceeds through the Holliday junction intermediate.…”

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“…The accessory proteins bind the accessory sequence and induce formation of a synaptic complex that is required for recombination (3). These recombination events are involved in site-specific integration and excision of lysogenic genomes, transposition of conjugative transposons, termination of chromosome replication, and plasmid stability (3,14,16).…”

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OXA-24 Carbapenemase Gene Flanked by XerC/XerD-Like Recombination Sites in Different Plasmids from Different Acinetobacter Species Isolated during a Nosocomial Outbreak

Merino

Acosta²,

Poza

et al. 2010

Antimicrob Agents Chemother

100

121

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A clinical strain of Acinetobacter calcoaceticus resistant to carbapenems was isolated from a blood culture sample from an inpatient in a hospital in Madrid (Spain) during a large outbreak of infection (affecting more than 300 inpatients), caused by a multidrug-resistant Acinetobacter baumannii clone. The carbapenem resistance in both the A. calcoaceticus and A. baumannii clones was due to a bla OXA-24 gene harbored in different plasmids. The plasmids were fully sequenced, revealing the presence of site-specific recombination binding sites putatively involved in mobilization of the bla OXA-24 gene. Comparison of plasmids contained in the two strains revealed possible horizontal transmission of resistance genes between the Acinetobacter species.

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“…The efficiency of Xer-mediated dimer resolution at mwr when Escherichia coli is cultured in L broth is below the levels needed to stabilize the plasmid; instead, stabilization is mediated by the Tn1331 resolvase acting at the res site (13,21). However, the efficiency of Xer-mediated dimer resolution at mwr is substantially increased when the cells are cultured in low-osmolarity broth (4,13). The low levels of dimer resolution observed when cells are cultured in L broth seem to be due to a weak interaction of the substandard mwr ARG box with ArgR, hindering proper formation of the synaptic complex.…”

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fpr , a Deficient Xer Recombination Site from a Salmonella Plasmid, Fails To Confer Stability by Dimer Resolution: Comparative Studies with the pJHCMW1 mwr Site

2010

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Salmonella plasmid pFPTB1 includes a Tn3-like transposon and a Xer recombination site, fpr, which mediates site-specific recombination at efficiencies lower than those required for stabilizing a plasmid by dimer resolution. Mutagenesis and comparative studies with mwr, a site closely related to fpr, indicate that there is an interdependence of the sequences in the XerC binding region and the central region in Xer site-specific recombination sites.

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Differences in Resolution of mwr -Containing Plasmid Dimers Mediated by the Klebsiella pneumoniae and Escherichia coli XerC Recombinases: Potential Implications in Dissemination of Antibiotic Resistance Genes

Cited by 20 publications

References 55 publications

Small Plasmids Harboring qnrB19 : a Model for Plasmid Evolution Mediated by Site-Specific Recombination at oriT and Xer Sites

Small Plasmids Harboring qnrB19 : a Model for Plasmid Evolution Mediated by Site-Specific Recombination at oriT and Xer Sites

OXA-24 Carbapenemase Gene Flanked by XerC/XerD-Like Recombination Sites in Different Plasmids from Different Acinetobacter Species Isolated during a Nosocomial Outbreak

fpr , a Deficient Xer Recombination Site from a Salmonella Plasmid, Fails To Confer Stability by Dimer Resolution: Comparative Studies with the pJHCMW1 mwr Site

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