P0291 25th ECCMID 25 – 28 April 2015 Copenhagen, Denmark

Slides:

Advertisements

Similar presentations

Global spread of antibiotic resistance: the example of New Delhi metallo-b-lactamase (NDM)-mediated carbapenem resistance Songzhen

Advertisements

Results (cont.) Figure 3: Gel results checking for digested DNA fragments using the EcoR1 restriction enzyme. (A) Lane 1 shows blue colony obtained from.

Conjugative DNA transfer, antibiotic resistance and MDR bacteria.

Conjugative DNA transfer, antibiotic resistance and MDR bacteria With thanks to Steve Matson Who first created this lecture.

Microbial Genetics (Micr340)

Students ± PV92 Alu Insert. Transposons are “mobile genetic elements” of which there are a great many kinds. Some jump around in genomes. Others jump,

Advanced Microbial Physiology

Chapter 9 Genetics of Bacteria and Their Viruses Jones and Bartlett Publishers © 2005.

Dr Katie Snape Specialist Registrar in Genetics St Georges Hospital

Bacterial Resistance Problem Space Ehren Bucholtz Saint Mary-of-the-Woods College Mark Gallo Niagara University.

+ Clonal expansion of ciprofloxacin-resistant Campylobacter jejuni Jasna Kova č, Alison J. Cody, James E. Bray, Kate E. Dingle, Sonja Smole Mo ž ina, Martin.

F A C U L T Y O F L I F E S C I E N C E S U N I V E R S I T Y O F C O P E N H A G E N Sequence and comparative analysis of Leuconostoc dairy bacteriophages.

Typhoid Fever in Africa: Emerging Flouroquinolone Resistance S KARIUKI 1,3, G REVATHI 2, J MUYODI 1, J MWITURIA 1, A MUNYALO 1, S MIRZA 3, CA HART 3 1.

Used for detection of genetic diseases, forensics, paternity, evolutionary links Based on the characteristics of mammalian DNA Eukaryotic genome 1000x.

BACTERIAL TRANSPOSONS

Lecture 6. Functional Genomics: DNA microarrays and re-sequencing individual genomes by hybridization.

Conjugative DNA transfer, antibiotic resistance and MDR bacteria With thanks to Steve Matson Who first created this lecture.

Development of a Real-Time PCR (RT-PCR) Assay for Carbapenemase Producing Bacteria including Enterobacteriaceae B. Mather, P. L. White, M. Wootton, R.

Prof. Hee Joo, Lee June, 8, Introduction P. aeruginosa –Nosocomial pathogen –Ability to acquire resistance to several antibiotics –Emergence of.

Characterization of B-lactam resistance mechanisms among UTI isolates collected from women attending primary care across Europe- RGNOSIS P th ECCMID.

2470 bp 1891 bp WT bp 2314 bp A B Fig. S1. Verification with PCR amplification of the.

Tracking a hospital outbreak of KPC-producing ST11 Klebsiella pneumoniae with whole genome sequencing Y. Jiang, Z. Wei, Y. Wang, X. Hua, Y. Feng, Y.

carbapenemase-positive Enterobacteriaceae

JM Tyrrell1, M. Woodward2, RA. Howe3, TR. Walsh1

Technical Aspects of Recombinant DNA and Gene Cloning

John Rathjen and group ANU

Prevalence of CTX-M-14 type in Welsh Hospitals

Table 1: Resistance profile

Antimicrobial Resistance: from Global to Local

Genome organization and Bioinformatics

In vitro activity of several antimicrobial peptides against colistin-susceptible and colistin- resistant Acinetobacter baumannii X. Vila-Farres, C. Garcia.

O. Barraud, M. Casellas, C. Dagot, M.-C. Ploy

Integron-mediated antibiotic multiresistance in Acinetobacter baumannii clinical isolates from Spain J. Ruiz, M.M. Navia, C. Casals, J.M. Sierra, M.T.

C th Interscience Conference on Antimicrobial Agents and Chemotherapy October 25-28, Washington, DC Examining Temocillin Activity in Combination.

Volume 21, Issue 3, Pages (October 2017)

Carbapenemase genes and genetic platforms in Gram-negative bacilli: Enterobacteriaceae, Pseudomonas and Acinetobacter species S.M. Diene, J.-M. Rolain

C th Interscience Conference on Antimicrobial Agents and Chemotherapy October 25-28, Washington, USA Emergence of VIM-2 Metallo--lactamase.

High prevalence of ST-78 infection-associated vancomycin-resistant Enterococcus faecium from hospitals in Asunción, Paraguay M.A. Khan, J.B. Northwood,

Chromosomal integration of the novel plasmid pUR3912 from methicillin-susceptible Staphylococcus aureus ST398 of human origin E. Gómez-Sanz, M. Zarazaga,

Genome sequencing and characterization of an extensively drug-resistant sequence type 111 serotype O12 hospital outbreak strain of Pseudomonas aeruginosa

Tracking a hospital outbreak of KPC-producing ST11 Klebsiella pneumoniae with whole genome sequencing Y. Jiang, Z. Wei, Y. Wang, X. Hua, Y. Feng, Y.

OXA-51-like β-lactamases and their association with particular epidemic lineages of Acinetobacter baumannii B.A. Evans, A. Hamouda, K.J. Towner, S.G.B.

Novel and uncommon antimicrobial resistance genes in livestock-associated methicillin- resistant Staphylococcus aureus K. Kadlec, A.T. Feßler, T. Hauschild,

Emerging carbapenemases in Gram-negative aerobes

Volume 21, Issue 3, Pages (October 2017)

Dissemination of multidrug-resistant, class 1 integron-carrying Acinetobacter baumannii isolates in Taiwan L.-Y. Huang, T.-L. Chen, P.-L. Lu, C.-A. Tsai,

S. A. Gomez, F. G. Pasteran, D. Faccone, N. Tijet, M. Rapoport, C

Nosocomial spread of OXA-58-positive carbapenem-resistant Acinetobacter baumannii isolates in a paediatric hospital in Greece L. Poirel, E. Lebessi,

Characterization of two novel gene cassettes, dfrA27 and aadA16, in a non-O1, non- O139 Vibrio cholerae isolate from China J. Sun, M. Zhou, Q. Wu, Y.

Figure 1. Comparative chromosome map of the CP-hvKP strain (NUHL30457) and 10 other hvKP strains (1158, CG43, HK787, ... Figure 1. Comparative chromosome.

Prevalence of Streptococcus pneumoniae isolates bearing macrolide resistance genes in association with integrase genes of conjugative transposons in Japan

Identification of essential genome features.

C. Héritier, L. Poirel, P. Nordmann

Figure 1. Structure of resistance islands containing dfrA35 in IncC plasmids. (a) pEc158 resistance island and (b) ... Figure 1. Structure of resistance.

Association of blaDHA-1 and qnrB genes carried by broad-host-range plasmids among isolates of Enterobacteriaceae at a Spanish hospital C. Mata, E. Miró,

Human Genomic Deletions Mediated by Recombination between Alu Elements

A. Sundsfjord, G. Skov Simonsen, P. Courvalin

The mosaic genome structure and phylogeny of Shiga toxin-producing Escherichia coli O104:H4 is driven by short-term adaptation K. Zhou, M. Ferdous, R.F.

Complete Haplotype Sequence of the Human Immunoglobulin Heavy-Chain Variable, Diversity, and Joining Genes and Characterization of Allelic and Copy-Number.

Rebecca J. Seward, Kevin J. Towner Clinical Microbiology and Infection

Diversity in VIM-2-encoding class 1 integrons and occasional blaSHV2a carriage in isolates of a persistent, multidrug-resistant Pseudomonas aeruginosa.

I. Bitar, A. Piazza Clinical Microbiology and Infection

Association of the blaCMY-10 gene with a novel complex class 1 integron carrying an ISCR1 element in clinical isolates from Korea J.S. Song, S.J. Jang,

Pyrosequencing for rapid identification of carbapenem-hydrolysing OXA-type β- lactamases in Acinetobacter baumannii T. Naas, L. Poirel, P. Nordmann Clinical.

Comparison of one-tube multiplex PCR, automated ribotyping and intergenic spacer (ITS) sequencing for rapid identification of Acinetobacter baumannii

Figure 1. An outline of the novel ∼3

Promoting in Tandem: The Promoter for Telomere Transposon HeT-A and Implications for the Evolution of Retroviral LTRs O.N Danilevskaya, I.R Arkhipova,

Figure 1. Genetic context of blaNDM-21 on pNDM21_020023

Francois Balloux, Ola Brønstad Brynildsrud, Lucy van Dorp, Liam P

L. Poirel, T. Vu Nguyen, A. Weintraub, C. Leviandier, P. Nordmann

Presentation transcript:

P0291 25th ECCMID 25 – 28 April 2015 Copenhagen, Denmark Complete sequence of plasmid pNDM-32, harbouring blaNDM-1 and armA, from A. baumannii and sequence variation of plasmids and resistance islands in closely related isolates. Lim Jones1,2, Karthikeyan Kumarasamy3, Tom Connor4, Mark Toleman1, Kathy Raven5, M. Estée Török5, Robin Howe2, Sharon J. Peacock5 and Tim Walsh1 1 Department of Medical Microbiology and Infectious Diseases, Cardiff University, Heath Park, Cardiff UK 2 Public Health Wales, Microbiology, Cardiff UK 3 Department of Microbiology, Univeristy of Madras, India 4 Cardiff School of Biosciences, Sir Martin Evans Building, Cardiff UK 5 Department of Medicine, University of Cambridge, Addenbrooke’s Hospital, Cambridge UK Introduction. Multi-drug resistant Acinetobacter spp. producing NDM-1-like enzymes are increasingly recognized but relatively little is known about the genetic contexts and mobile genetic elements associated with blaNDM-1-like genes in these organisms. Results cont. The complete sequence of an ~85 kb plasmid, pNDM-32, was assembled for A. baumannii CHI-32 (see Figure 1). This plasmid contained a replicase, identical to one previously associated with plasmids harbouring blaOXA-58, but no identifiable relaxase or type IV secretion system. pNDM-32 contains eight antimicrobial resistance genes and numerous insertion sequences. The local genetic context of blaNDM-1 is similar to that in Tn125 but ISCR27 is disrupted by IS15-Δ and a rearrangement has occurred so that the 3’ prime fragment of ISCR27 is upstream of blaNDM-1 and is bracketed by two copies of IS15-Δ to form a composite transposon. The local genetic context of blaNDM-1 is similar to that in Tn125 but ISCR27 is disrupted by IS15-Δ and a rearrangement has occurred so that the 3’ prime fragment of ISCR27 is upstream of blaNDM-1 and is bracketed by two copies of IS15-Δ to form a composite transposon (see Figure 2). In addition the plasmid contains a context found in a number of other resistance plasmids containing a class-1-integron harbouring the aminoglycoside and trimethoprim resistance genes, aadA2 and dfrA12, with armA and the macrolide resistance gene msrE and mphE downstream. Methods. Whole genome sequences of three clinical A. baumannii isolates from India were assembled de novo using Velvet. Annotation was performed using RAST and edited in Artemis. Plasmid assembly gaps were closed by PCR and amplicon sequencing. Antimicrobial resistance (AMR) genes were identified using Resfinder. Typing was performed using Pasteur MLST and ribosomal MLST schemes. Susceptibility testing was performed using gradient strip methods. Figure 1 – Gene map of pNDM-32 (LN833432). from A. baumannii CHI-32. Arrowed boxes indicate ORFs. The blue inner line indicates the %GC which is calculated using a sliding window of 180 bp. Results. All isolates were ST1 and their rMLST loci were identical to the ST1 A. baumannii AYE strain. They were extensively drug resistant but susceptible to colistin, with A. baumannii CHI-34 also being amikacin susceptible. There were significant differences in the AMR genes present in the three isolates. Figure 3 – ACT comparison of contigs from A. baumannii CHI-32, CHI-34 and CHI-45-1 with AbaR3 from A. baumannii A85. Further analysis of WGS contigs suggests that CHI-45-1 and CHI-34 contain plasmids very similar to pNDM-32 but that in CHI-34 a large section is missing including the context containing armA and the class-1-integron. All 3 isolates also contained a resistance island interrupting the comM gene. In CHI-34 and CHI-45-1 this is probably identical to AbaR3 but in CHI-32 the entire section containing the AMR genes is absent (see Figure 3). Conclusions. These results show that blaNDM-1 is located in another novel genetic element in these isolates. The plasmid containing blaNDM-1 and armA is likely to be non-mobilizable but the resistance genes are associated with multiple elements which could facilitate their introduction into new genetic locations. The differences in the AMR regions in these three very closely related strain backgrounds suggest that these contexts are undergoing rapid evolutionary change. The 16s RNA methylase gene, armA, was absent in A. baumannii CHI-34. All isolates contained blaOXA-23 and a blaADC-30-like genes downstream of ISAba1 and its promoter. A. baumannii 161/07 A. baumannii CHI-32 Figure 2 – Comparison of full Tn125 containing blaNDM-1 from A. baumannii 161/07 with context from pNDM-32 Email: Jonesls5@Cardiff.ac.@cardiff.ac.uk