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151. The nucleotide excision repair (NER) system of Helicobacter pylori: Role in mutation prevention and chromosomal import patterns after natural transformation

Author

Moccia Claudia, Krebes Juliane, Kulick Stefan, Didelot Xavier, Kraft Christian, Bahlawane Christelle, and Suerbaum Sebastian

Subjects
Helicobacter pylori, Mutation, Recombination, Nucleotide excision repair, Microbiology, QR1-502
Abstract

Abstract Background Extensive genetic diversity and rapid allelic diversification are characteristics of the human gastric pathogen Helicobacter pylori, and are believed to contribute to its ability to cause chronic infections. Both a high mutation rate and frequent imports of short fragments of exogenous DNA during mixed infections play important roles in generating this allelic diversity. In this study, we used a genetic approach to investigate the roles of nucleotide excision repair (NER) pathway components in H. pylori mutation and recombination. Results Inactivation of any of the four uvr genes strongly increased the susceptibility of H. pylori to DNA damage by ultraviolet light. Inactivation of uvrA and uvrB significantly decreased mutation frequencies whereas only the uvrA deficient mutant exhibited a significant decrease of the recombination frequency after natural transformation. A uvrC mutant did not show significant changes in mutation or recombination rates; however, inactivation of uvrC promoted the incorporation of significantly longer fragments of donor DNA (2.2-fold increase) into the recipient chromosome. A deletion of uvrD induced a hyper-recombinational phenotype. Conclusions Our data suggest that the NER system has multiple functions in the genetic diversification of H. pylori, by contributing to its high mutation rate, and by controlling the incorporation of imported DNA fragments after natural transformation.

Published
2012
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152. Phylogenetic Tools for Generalized HIV-1 Epidemics: Findings from the PANGEA-HIV Methods Comparison

Author

Ratmann, Oliver, Hodcroft, Emma B, Pickles, Michael, Cori, Anne, Hall, Matthew, Lycett, Samantha, Colijn, Caroline, Dearlove, Bethany, Didelot, Xavier, Frost, Simon, Hossain, AS Md Mukarram, Joy, Jeffrey B, Kendall, Michelle, Kühnert, Denise, Leventhal, Gabriel E, Liang, Richard, Plazzotta, Giacomo, Poon, Art FY, Rasmussen, David A, Stadler, Tanja, Volz, Erik, Weis, Caroline, Leigh Brown, Andrew J, Fraser, Christophe, PANGEA-HIV Consortium, Dearlove, Bethany [0000-0003-3653-4592], Frost, Simon [0000-0002-5207-9879], and Apollo - University of Cambridge Repository

Subjects
Male, HIV transmission and prevention, viral phylogenetic methods validation, Incidence, HIV-1, Humans, Computer Simulation, Female, HIV Infections, Epidemics, Africa South of the Sahara, Phylogeny, molecular epidemiology of infectious diseases
Abstract

Viral phylogenetic methods contribute to understanding how HIV spreads in populations, and thereby help guide the design of prevention interventions. So far, most analyses have been applied to well-sampled concentrated HIV-1 epidemics in wealthy countries. To direct the use of phylogenetic tools to where the impact of HIV-1 is greatest, the Phylogenetics And Networks for Generalized HIV Epidemics in Africa (PANGEA-HIV) consortium generates full-genome viral sequences from across sub-Saharan Africa. Analyzing these data presents new challenges, since epidemics are principally driven by heterosexual transmission and a smaller fraction of cases is sampled. Here, we show that viral phylogenetic tools can be adapted and used to estimate epidemiological quantities of central importance to HIV-1 prevention in sub-Saharan Africa. We used a community-wide methods comparison exercise on simulated data, where participants were blinded to the true dynamics they were inferring. Two distinct simulations captured generalized HIV-1 epidemics, before and after a large community-level intervention that reduced infection levels. Five research groups participated. Structured coalescent modelling approaches were most successful: phylogenetic estimates of HIV-1 incidence, incidence reductions, and the proportion of transmissions from individuals in their first three months of infection correlated with the true values (Pearson correlation > 90%), with small bias. However, on some simulations, true values were markedly outside reported confidence or credibility intervals. The blinded comparison revealed current limits and strengths in using HIV phylogenetics in challenging settings, provided benchmarks for future methods’ development, and supports using the latest generation of phylogenetic tools to advance HIV surveillance and prevention.

Published
2018
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153. The speciation and hybridization history of the genus Salmonella

Author

Criscuolo, Alexis, primary, Issenhuth-Jeanjean, Sylvie, additional, Didelot, Xavier, additional, Thorell, Kaisa, additional, Hale, James, additional, Parkhill, Julian, additional, Thomson, Nicholas R., additional, Weill, François-Xavier, additional, Falush, Daniel, additional, and Brisse, Sylvain, additional

Published
2019
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156. Phylogenomic analysis reveals the basis of adaptation of Pseudorhizobium species to extreme environments

Author

Lassalle, Florent, primary, Dastgheib, Seyed M. M., additional, Zhao, Fang-Jie, additional, Zhang, Jun, additional, Verbarg, Susanne, additional, Frühling, Anja, additional, Brinkmann, Henner, additional, Osborne, Thomas H., additional, Sikorski, Johannes, additional, Balloux, Francois, additional, Didelot, Xavier, additional, Santini, Joanne M., additional, and Petersen, Jörn, additional

Published
2019
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160. A Role for Tetracycline Selection in Recent Evolution of Agriculture-Associated Clostridium difficile PCR Ribotype 078

Author

Dingle, Kate E., primary, Didelot, Xavier, additional, Quan, T. Phuong, additional, Eyre, David W., additional, Stoesser, Nicole, additional, Marwick, Charis A., additional, Coia, John, additional, Brown, Derek, additional, Buchanan, Sarah, additional, Ijaz, Umer Z., additional, Goswami, Cosmika, additional, Douce, Gill, additional, Fawley, Warren N., additional, Wilcox, Mark H., additional, Peto, Timothy E. A., additional, Walker, A. Sarah, additional, and Crook, Derrick W., additional

Published
2019
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161. The speciation and hybridization history of the genusSalmonella

Author

Criscuolo, Alexis, primary, Issenhuth-Jeanjean, Sylvie, additional, Didelot, Xavier, additional, Thorell, Kaisa, additional, Hale, James, additional, Parkhill, Julian, additional, Thomson, Nicholas R., additional, Weill, François-Xavier, additional, Falush, Daniel, additional, and Brisse, Sylvain, additional

Published
2019
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162. Rapid phenotypic evolution in multidrug-resistant Klebsiella pneumoniae hospital outbreak strains

Author

van Dorp, Lucy, primary, Wang, Qi, additional, Shaw, Liam P., additional, Acman, Mislav, additional, Brynildsrud, Ola B., additional, Eldholm, Vegard, additional, Wang, Ruobing, additional, Gao, Hua, additional, Yin, Yuyao, additional, Chen, Hongbin, additional, Ding, Chuling, additional, Farrer, Rhys A., additional, Didelot, Xavier, additional, Balloux, Francois, additional, and Wang, Hui, additional

Published
2019
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165. Closely related Campylobacter jejuni strains from different sources reveal a generalist rather than a specialist lifestyle

Author

Gripp Eugenia, Hlahla Daniela, Didelot Xavier, Kops Friederike, Maurischat Sven, Tedin Karsten, Alter Thomas, Ellerbroek Lüppo, Schreiber Kerstin, Schomburg Dietmar, Janssen Traute, Bartholomäus Patrick, Hofreuter Dirk, Woltemate Sabrina, Uhr Markus, Brenneke Birgit, Grüning Petra, Gerlach Gerald, Wieler Lothar, Suerbaum Sebastian, and Josenhans Christine

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Campylobacter jejuni and Campylobacter coli are human intestinal pathogens of global importance. Zoonotic transmission from livestock animals or animal-derived food is the likely cause for most of these infections. However, little is known about their general and host-specific mechanisms of colonization, or virulence and pathogenicity factors. In certain hosts, Campylobacter species colonize persistently and do not cause disease, while they cause acute intestinal disease in humans. Results Here, we investigate putative host-specificity using phenotypic characterization and genome-wide analysis of genetically closely related C. jejuni strains from different sources. A collection of 473 fresh Campylobacter isolates from Germany was assembled between 2006 and 2010 and characterized using MLST. A subset of closely related C. jejuni strains of the highly prevalent sequence type ST-21 was selected from different hosts and isolation sources. PCR typing of strain-variable genes provided evidence that some genes differed between these strains. Furthermore, phenotypic variation of these strains was tested using the following criteria: metabolic variation, protein expression patterns, and eukaryotic cell interaction. The results demonstrated remarkable phenotypic diversity within the ST-21 group, which however did not correlate with isolation source. Whole genome sequencing was performed for five ST-21 strains from chicken, human, bovine, and food sources, in order to gain insight into ST-21 genome diversity. The comparisons showed extensive genomic diversity, primarily due to recombination and gain of phage-related genes. By contrast, no genomic features associated with isolation source or host were identified. Conclusions The genome information and phenotypic data obtained in vitro and in a chicken infection model provided little evidence of fixed adaptation to a specific host. Instead, the dominant C. jejuni ST-21 appeared to be characterized by phenotypic flexibility and high genetic microdiversity, revealing properties of a generalist. High genetic flexibility might allow generalist variants of C. jejuni to reversibly express diverse fitness factors in changing environments.

Published
2011
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166. Interplay of recombination and selection in the genomes of Chlamydia trachomatis

Author

Dean Deborah, Gandhi Khanjan, Didelot Xavier, Joseph Sandeep J, and Read Timothy D

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Background Chlamydia trachomatis is an obligate intracellular bacterial parasite, which causes several severe and debilitating diseases in humans. This study uses comparative genomic analyses of 12 complete published C. trachomatis genomes to assess the contribution of recombination and selection in this pathogen and to understand the major evolutionary forces acting on the genome of this bacterium. Results The conserved core genes of C. trachomatis are a large proportion of the pan-genome: we identified 836 core genes in C. trachomatis out of a range of 874-927 total genes in each genome. The ratio of recombination events compared to mutation (ρ/θ) was 0.07 based on ancestral reconstructions using the ClonalFrame tool, but recombination had a significant effect on genetic diversification (r/m = 0.71). The distance-dependent decay of linkage disequilibrium also indicated that C. trachomatis populations behaved intermediately between sexual and clonal extremes. Fifty-five genes were identified as having a history of recombination and 92 were under positive selection based on statistical tests. Twenty-three genes showed evidence of being under both positive selection and recombination, which included genes with a known role in virulence and pathogencity (e.g., ompA, pmps, tarp). Analysis of inter-clade recombination flux indicated non-uniform currents of recombination between clades, which suggests the possibility of spatial population structure in C. trachomatis infections. Conclusions C. trachomatis is the archetype of a bacterial species where recombination is relatively frequent yet gene gains by horizontal gene transfer (HGT) and losses (by deletion) are rare. Gene conversion occurs at sites across the whole C. trachomatis genome but may be more often fixed in genes that are under diversifying selection. Furthermore, genome sequencing will reveal patterns of serotype specific gene exchange and selection that will generate important research questions for understanding C. trachomatis pathogenesis. Reviewers This article was reviewed by Dr. Jeremy Selengut, Dr. Lee S. Katz (nominated by Dr. I. King Jordan) and Dr. Arcady Mushegian.

Published
2011
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167. Maternal high fat diet during pregnancy and lactation alters hepatic expression of insulin like growth factor-2 and key microRNAs in the adult offspring

Author

Lehnert Hendrik, Hanson Mark, Vatish Manu, Cagampang Felino R, Bruce Kimberley D, Didelot Xavier, Zhang Fang, Zhang Junlong, Ceriello Antonio, and Byrne Christopher D

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background miRNAs play important roles in the regulation of gene functions. Maternal dietary modifications during pregnancy and gestation have long-term effects on the offspring, but it is not known whether a maternal high fat (HF) diet during pregnancy and lactation alters expression of key miRNAs in the offspring. Results We studied the effects of maternal HF diet on the adult offspring by feeding mice with either a HF or a chow diet prior to conception, during pregnancy and lactation, and all offspring were weaned onto the same chow diet until adulthood. Maternal HF fed offspring had markedly increased hepatic mRNA levels of peroxisome proliferator activated receptor-alpha (ppar-alpha) and carnitine palmitoyl transferase-1a (cpt-1a) as well as insulin like growth factor-2 (Igf2). A HF diet induced up-regulation of ppar-alpha and cpt-1a expression in the wild type but not in Igf2 knock out mice. Furthermore, hepatic expression of let-7c was also reduced in maternal HF fed offspring. Among 579 miRNAs measured with microarray, ~23 miRNA levels were reduced by ~1.5-4.9-fold. Reduced expression of miR-709 (a highly expressed miRNA), miR-122, miR-192, miR-194, miR-26a, let-7a, let7b and let-7c, miR-494 and miR-483* (reduced by ~4.9 fold) was validated by qPCR. We found that methyl-CpG binding protein 2 was the common predicted target for miR-709, miR-let7s, miR-122, miR-194 and miR-26a using our own purpose-built computer program. Conclusion Maternal HF feeding during pregnancy and lactation induced co-ordinated and long-lasting changes in expression of Igf2, fat metabolic genes and several important miRNAs in the offspring.

Published
2009
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168. Lineage specific recombination rates and microevolution in Listeria monocytogenes

Author

Nightingale Kendra K, Fortes Esther D, Didelot Xavier, den Bakker Henk C, and Wiedmann Martin

Subjects
Evolution, QH359-425
Abstract

Abstract Background The bacterium Listeria monocytogenes is a saprotroph as well as an opportunistic human foodborne pathogen, which has previously been shown to consist of at least two widespread lineages (termed lineages I and II) and an uncommon lineage (lineage III). While some L. monocytogenes strains show evidence for considerable diversification by homologous recombination, our understanding of the contribution of recombination to L. monocytogenes evolution is still limited. We therefore used STRUCTURE and ClonalFrame, two programs that model the effect of recombination, to make inferences about the population structure and different aspects of the recombination process in L. monocytogenes. Analyses were performed using sequences for seven loci (including the house-keeping genes gap, prs, purM and ribC, the stress response gene sigB, and the virulence genes actA and inlA) for 195 L. monocytogenes isolates. Results Sequence analyses with ClonalFrame and the Sawyer's test showed that recombination is more prevalent in lineage II than lineage I and is most frequent in two house-keeping genes (ribC and purM) and the two virulence genes (actA and inlA). The relative occurrence of recombination versus point mutation is about six times higher in lineage II than in lineage I, which causes a higher genetic variability in lineage II. Unlike lineage I, lineage II represents a genetically heterogeneous population with a relatively high proportion (30% average) of genetic material imported from external sources. Phylograms, constructed with correcting for recombination, as well as Tajima's D data suggest that both lineages I and II have suffered a population bottleneck. Conclusion Our study shows that evolutionary lineages within a single bacterial species can differ considerably in the relative contributions of recombination to genetic diversification. Accounting for recombination in phylogenetic studies is critical, and new evolutionary models that account for the possibility of changes in the rate of recombination would be required. While previous studies suggested that only L. monocytogenes lineage I has experienced a recent bottleneck, our analyses clearly show that lineage II experienced a bottleneck at about the same time, which was subsequently obscured by abundant homologous recombination after the lineage II bottleneck. While lineage I and lineage II should be considered separate species from an evolutionary viewpoint, maintaining single species name may be warranted since both lineages cause the same type of human disease.

Published
2008
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169. The global distribution and spread of the mobilized colistin resistance gene mcr-1

Author

Wang, Ruobing, van Dorp, Lucy, Shaw, Liam P., Bradley, Phelim, Wang, Qi, Wang, Xiaojuan, Jin, Longyang, Zhang, Qing, Liu, Yuqing, Rieux, Adrien, Dorai-Schneiders, Thamarai, Weinert, Lucy Anne, Iqbal, Zamin, Didelot, Xavier, Wang, Hui, Balloux, François, Wang, Ruobing, van Dorp, Lucy, Shaw, Liam P., Bradley, Phelim, Wang, Qi, Wang, Xiaojuan, Jin, Longyang, Zhang, Qing, Liu, Yuqing, Rieux, Adrien, Dorai-Schneiders, Thamarai, Weinert, Lucy Anne, Iqbal, Zamin, Didelot, Xavier, Wang, Hui, and Balloux, François

Abstract

Colistin represents one of the few available drugs for treating infections caused by carbapenem-resistant Enterobacteriaceae. As such, the recent plasmid-mediated spread of the colistin resistance gene mcr-1 poses a significant public health threat, requiring global monitoring and surveillance. Here, we characterize the global distribution of mcr-1 using a data set of 457 mcr-1-positive sequenced isolates. We find mcr-1 in various plasmid types but identify an immediate background common to all mcr-1 sequences. Our analyses establish that all mcr-1 elements in circulation descend from the same initial mobilization of mcr-1 by an ISApl1 transposon in the mid 2000s (2002–2008; 95% highest posterior density), followed by a marked demographic expansion, which led to its current global distribution. Our results provide the first systematic phylogenetic analysis of the origin and spread of mcr-1, and emphasize the importance of understanding the movement of antibiotic resistance genes across multiple levels of genomic organization.

Published
2018

170. Additive Uncorrelated Relaxed Clock Models for the Dating of Genomic Epidemiology Phylogenies.

Author

Didelot, Xavier, Siveroni, Igor, and Volz, Erik M

Subjects
PHYLOGENETIC models, PHYLOGENY, EPIDEMIOLOGY, MOLECULAR clock, CONFIDENCE intervals
Abstract

Phylogenetic dating is one of the most powerful and commonly used methods of drawing epidemiological interpretations from pathogen genomic data. Building such trees requires considering a molecular clock model which represents the rate at which substitutions accumulate on genomes. When the molecular clock rate is constant throughout the tree then the clock is said to be strict, but this is often not an acceptable assumption. Alternatively, relaxed clock models consider variations in the clock rate, often based on a distribution of rates for each branch. However, we show here that the distributions of rates across branches in commonly used relaxed clock models are incompatible with the biological expectation that the sum of the numbers of substitutions on two neighboring branches should be distributed as the substitution number on a single branch of equivalent length. We call this expectation the additivity property. We further show how assumptions of commonly used relaxed clock models can lead to estimates of evolutionary rates and dates with low precision and biased confidence intervals. We therefore propose a new additive relaxed clock model where the additivity property is satisfied. We illustrate the use of our new additive relaxed clock model on a range of simulated and real data sets, and we show that using this new model leads to more accurate estimates of mean evolutionary rates and ancestral dates. [ABSTRACT FROM AUTHOR]

Published
2021
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171. Estimating the fitness cost and benefit of cefixime resistance in Neisseria gonorrhoeae to inform prescription policy : A modelling study (Volume 14, Number 10)

Author

Whittles, Lilith K., White, Peter J., and Didelot, Xavier

Abstract

Gonorrhoea is one of the most common bacterial sexually transmitted infections in England. Over 41,000 cases were recorded in 2015, more than half of which occurred in men who have sex with men (MSM). As the bacterium has developed resistance to each first-line antibiotic in turn, we need an improved understanding of fitness benefits and costs of antibiotic resistance to inform control policy and planning. Cefixime was recommended as a single-dose treatment for gonorrhoea from 2005 to 2010, during which time resistance increased, and subsequently declined.

Published
2017

172. Model-based analysis of an outbreak of bubonic plague in Cairo in 1801

Author

Didelot, Xavier, Whittles, Lilith K., Hall, Ian, National Institute for Health Research, and Medical Research Council (MRC)

Subjects
Science & Technology, palaeoepidemiology, General Science & Technology, Bayesian analysis, infectious disease model, FRENCH, EGYPT, DISEASE, Multidisciplinary Sciences, bubonic plague, HISTORY, MD Multidisciplinary, Science & Technology - Other Topics, BLACK-DEATH, PATHOGEN, YERSINIA-PESTIS, AGENT
Abstract

Bubonic plague has caused three deadly pandemics in human history: from the mid-sixth to mid-eighth century, from the mid-fourteenth to the mid-eighteenth century and from the end of the nineteenth until the mid-twentieth century. Between the second and the third pandemics, plague was causing sporadic outbreaks in only a few countries in the Middle East, including Egypt. Little is known about this historical phase of plague, even though it represents the temporal, geographical and phylogenetic transition between the second and third pandemics. Here we analysed in detail an outbreak of plague that took place in Cairo in 1801, and for which epidemiological data are uniquely available thanks to the presence of medical officers accompanying the Napoleonic expedition into Egypt at that time. We propose a new stochastic model describing how bubonic plague outbreaks unfold in both rat and human populations, and perform Bayesian inference under this model using a particle Markov chain Monte Carlo. Rat carcasses were estimated to be infectious for approximately 4 days after death, which is in good agreement with local observations on the survival of infectious rat fleas. The estimated transmission rate between rats implies a basic reproduction number R0 of approximately 3, causing the collapse of the rat population in approximately 100 days. Simultaneously, the force of infection exerted by each infected rat carcass onto the human population increases progressively by more than an order of magnitude. We also considered human-to-human transmission via pneumonic plague or human specific vectors, but found this route to account for only a small fraction of cases and to be significantly below the threshold required to sustain an outbreak.

Published
2017
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177. Corrigendum: Genomic surveillance of Neisseria gonorrhoeae to investigate the distribution and evolution of antimicrobial-resistance determinants and lineages

Author

Yahara, Koji, primary, Nakayama, Shu-ichi, additional, Shimuta, Ken, additional, Lee, Ken-ichi, additional, Morita, Masatomo, additional, Kawahata, Takuya, additional, Kuroki, Toshiro, additional, Watanabe, Yuko, additional, Ohya, Hitomi, additional, Yasuda, Mitsuru, additional, Deguchi, Takashi, additional, Didelot, Xavier, additional, and Ohnishi, Makoto, additional

Published
2018
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179. Genomic surveillance of Neisseria gonorrhoeae to investigate the distribution and evolution of antimicrobial-resistance determinants and lineages

Author

Yahara, Koji, primary, Nakayama, Shu-ichi, additional, Shimuta, Ken, additional, Lee, Ken-ichi, additional, Morita, Masatomo, additional, Kawahata, Takuya, additional, Kuroki, Toshiro, additional, Watanabe, Yuko, additional, Ohya, Hitomi, additional, Yasuda, Mitsuru, additional, Deguchi, Takashi, additional, Didelot, Xavier, additional, and Ohnishi, Makoto, additional

Published
2018
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183. The global distribution and spread of the mobilized colistin resistance gene mcr-1

Author

Wang, Ruobing, primary, van Dorp, Lucy, additional, Shaw, Liam P., additional, Bradley, Phelim, additional, Wang, Qi, additional, Wang, Xiaojuan, additional, Jin, Longyang, additional, Zhang, Qing, additional, Liu, Yuqing, additional, Rieux, Adrien, additional, Dorai-Schneiders, Thamarai, additional, Weinert, Lucy Anne, additional, Iqbal, Zamin, additional, Didelot, Xavier, additional, Wang, Hui, additional, and Balloux, Francois, additional

Published
2018
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184. Range Expansion and the Origin of USA300 North American Epidemic Methicillin-Resistant Staphylococcus aureus

Author

Challagundla, Lavanya, primary, Luo, Xiao, additional, Tickler, Isabella A., additional, Didelot, Xavier, additional, Coleman, David C., additional, Shore, Anna C., additional, Coombs, Geoffrey W., additional, Sordelli, Daniel O., additional, Brown, Eric L., additional, Skov, Robert, additional, Larsen, Anders Rhod, additional, Reyes, Jinnethe, additional, Robledo, Iraida E., additional, Vazquez, Guillermo J., additional, Rivera, Raul, additional, Fey, Paul D., additional, Stevenson, Kurt, additional, Wang, Shu-Hua, additional, Kreiswirth, Barry N., additional, Mediavilla, Jose R., additional, Arias, Cesar A., additional, Planet, Paul J., additional, Nolan, Rathel L., additional, Tenover, Fred C., additional, Goering, Richard V., additional, and Robinson, D. Ashley, additional

Published
2018
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185. A role for tetracycline selection in the evolution of Clostridium difficile PCR-ribotype 078

Author

Dingle, Kate E., primary, Didelot, Xavier, additional, Quan, T. Phuong, additional, Eyre, David W., additional, Stoesser, Nicole, additional, Marwick, Charis A., additional, Coia, John, additional, Brown, Derek, additional, Buchanan, Sarah, additional, Ijaz, Umer Z., additional, Goswami, Cosmika, additional, Douce, Gill, additional, Fawley, Warren N., additional, Wilcox, Mark H., additional, Peto, Timothy E.A., additional, Walker, A. Sarah, additional, and Crook, Derrick W., additional

Published
2018
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188. The global distribution and spread of the mobilized colistin resistance gene mcr-1

Author

Wang, Ruobing, primary, van Dorp, Lucy, additional, Shaw, Liam, additional, Bradley, Phelim, additional, Wang, Qi, additional, Wang, Xiaojuan, additional, Jin, Longyang, additional, Zhang, Qing, additional, Liu, Yuqing, additional, Rieux, Adrien, additional, Dorai-Schneiders, Thamarai, additional, Weinert, Lucy Anne, additional, Iqbal, Zamin, additional, Didelot, Xavier, additional, Wang, Hui, additional, and Balloux, Francois, additional

Published
2017
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191. A combined case-control and molecular source attribution study of human Campylobacter infections in Germany, 2011–2014

Author

Rosner, Bettina M., primary, Schielke, Anika, additional, Didelot, Xavier, additional, Kops, Friederike, additional, Breidenbach, Janina, additional, Willrich, Niklas, additional, Gölz, Greta, additional, Alter, Thomas, additional, Stingl, Kerstin, additional, Josenhans, Christine, additional, Suerbaum, Sebastian, additional, and Stark, Klaus, additional

Published
2017
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193. Local genes for local bacteria: Evidence of allopatry in the genomes of transatlanticCampylobacterpopulations

Author

Pascoe, Ben, primary, Méric, Guillaume, additional, Yahara, Koji, additional, Wimalarathna, Helen, additional, Murray, Susan, additional, Hitchings, Matthew D., additional, Sproston, Emma L., additional, Carrillo, Catherine D., additional, Taboada, Eduardo N., additional, Cooper, Kerry K., additional, Huynh, Steven, additional, Cody, Alison J., additional, Jolley, Keith A., additional, Maiden, Martin C. J., additional, McCarthy, Noel D., additional, Didelot, Xavier, additional, Parker, Craig T., additional, and Sheppard, Samuel K., additional

Published
2017
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198. Local genes for local bacteria: evidence of allopatry in the genomes of transatlantic Campylobacter populations

Author

Pascoe, Ben, primary, Meric, Guillaume, additional, Yahara, Koji, additional, Wimalarathna, Helen, additional, Murray, Susan, additional, Hitchings, Matthew D, additional, Sproston, Emma L, additional, Carrillo, Catherine D, additional, Taboada, Eduardo N, additional, Cooper, Kerry K, additional, Huynh, Steven, additional, Cody, Alison J, additional, Jolley, Keith A, additional, Maiden, Martin CJ, additional, McCarthy, Noel D, additional, Didelot, Xavier, additional, Parker, Craig, additional, and Sheppard, Samuel K, additional

Published
2017
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