Insights into the Environmental Resistance Gene Pool from the Genome Sequence of the Multidrug-Resistant Environmental Isolate
            <i>Escherichia coli</i>
            SMS-3-5

Fricke, W. Florian; Wright, Meredith S.; Lindell, Angela H.; Harkins, Derek M.; Baker‐Austin, Craig; Ravel, Jacques; Stepanauskas, Ramunas

doi:10.1128/jb.00661-08

Cited by 85 publications

(67 citation statements)

References 97 publications

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“…S1) when we investigated the network reconstructed with sequences presenting at least 40% of sequence identity. This is either because of the methodological limit of the method that cannot account for edge weights, or, as it is in agreement with the literature (15)(16)(17)(18), it might be explained if, within the limits of one type of vehicle, DNA molecules obey complex rules of transfers and losses. Yet, the lack of a strong underlying hierarchical structure does not mean that understanding the processes that led to its complexity is out of reach.…”

Section: Disconnected Structured Networksupporting

confidence: 65%

Network analyses structure genetic diversity in independent genetic worlds

Halary

Leigh

Cheaib

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

253

271

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DNA flows between chromosomes and mobile elements, following rules that are poorly understood. This limited knowledge is partly explained by the limits of current approaches to study the structure and evolution of genetic diversity. Network analyses of 119,381 homologous DNA families, sampled from 111 cellular genomes and from 165,529 phage, plasmid, and environmental virome sequences, offer challenging insights. Our results support a disconnected yet highly structured network of genetic diversity, revealing the existence of multiple "genetic worlds." These divides define multiple isolated groups of DNA vehicles drawing on distinct gene pools. Mathematical studies of the centralities of these worlds' subnetworks demonstrate that plasmids, not viruses, were key vectors of genetic exchange between bacterial chromosomes, both recently and in the past. Furthermore, network methodology introduces new ways of quantifying current sampling of genetic diversity.evolution | lateral gene transfer | mobile genetic elements | phages | plasmids

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Section: Disconnected Structured Networksupporting

confidence: 65%

Network analyses structure genetic diversity in independent genetic worlds

Halary

Leigh

Cheaib

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

253

271

View full text Add to dashboard Cite

show abstract

“…However, such a similarity cannot be due to a common origin, since Shigella species derive from lineages that are independent of B2 (Fricke et al, 2008;Ogura et al, 2009;Pupo et al, 2000;Turner et al 2006). Moreover, the closely related ECOR strains carry a complete CRISPR2/CAS-E system (our unpublished results) and the deletions in CRISPR2.1/CAS-E are unrelated, entailing distinct genes and sequences (Supplementary Fig.…”

Section: Cas Depletionmentioning

confidence: 99%

Diversity of CRISPR loci in Escherichia coli

et al. 2010

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CRISPR (clustered regularly interspaced short palindromic repeats) and CAS (CRISPR-associated sequence) proteins are constituents of a novel genetic barrier that limits horizontal gene transfer in prokaryotes by means of an uncharacterized mechanism. The fundamental discovery of small RNAs as the guides of the defence apparatus arose as a result of Escherichia coli studies. However, a survey of the system diversity in this species in order to further contribute to the understanding of the CRISPR mode of action has not yet been performed. Here we describe two CRISPR/CAS systems found in E. coli, following the analysis of 100 strains representative of the species' diversity. Our results substantiate different levels of activity between loci of both CRISPR types, as well as different target preferences and CRISPR relevances for particular groups of strains. Interestingly, the data suggest that the degeneration of one CRISPR/CAS system in E. coli ancestors could have been brought about by self-interference.

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“…Most of IncFII plasmids contain multiple replicons, which are composed of the master IncFII replicon together with one or more other replicons such as IncFIA (rep1A) [2], IncFIB (rep1B) [3], and that (repB) belonging to an uncharacterized incompatibility group [4]; by contrast, there are some IncFII plasmids, such as R100 (accession number AP000342) [5] and R1 [6], which contain the sole IncFII replicon. IncFII plasmids with multiple replicons can overcome the incompatibility barrier with incoming plasmids [1].…”

Section: Introductionmentioning

confidence: 99%

WITHDRAWN: Structure genomics of two chimera plasmids p675920-1 and p675920-2 coexisting in a multi-drug resistant Klebsiella pneumoniae isolate

Feng¹,

Yin²,

Zhan³

et al. 2018

Oncotarget

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This study dealt with detailed genomic characterization of two multidrug resistant (MDR) plasmids p675920-1 and p675920-2 from a single clinical Klebsiella pneumoniae isolate 675920. p675920-1 was essentially a hybrid of the IncFII plasmid pHN7A8 and the IncR plasmid pKPC-LK30, and functioned as an IncFII plasmid with inactivation of the IncR replication gene. The backbone of p675920-2 was a hybrid of a novel replicon, three maintenance regions (22.0-, 2.7-, 2.6-kb in length, respectively) as found in pKPYL2, p10164-3 and pK1HV, respectively, and the entire 25.9-kb conjugal transfer region of pKPYL2. p675920-1 and p675920-2 carried a large number of resistance genes, which contributed to resistance to at least seven classes of antibiotics (β-lactams, quinolones, aminoglycosides, fosfomycins, sulphonamides, trimethoprims, and tetracyclines) and one kind of heavy mental (mercury). All of these resistance genes are associated with mobile elements such as insertion sequences, insertion sequence-based transposition units, and transposons, which constituted a total of three novel MDR regions, two in p675920-1 and another in p675920-2. Coexistence of two MDR plasmids p675920-1 and p675920-2 made K. pneumoniae 675920 tend to become extensively drug-resistant.

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Insights into the Environmental Resistance Gene Pool from the Genome Sequence of the Multidrug-Resistant Environmental Isolate Escherichia coli SMS-3-5

Cited by 85 publications

References 97 publications

Network analyses structure genetic diversity in independent genetic worlds

Network analyses structure genetic diversity in independent genetic worlds

Diversity of CRISPR loci in Escherichia coli

WITHDRAWN: Structure genomics of two chimera plasmids p675920-1 and p675920-2 coexisting in a multi-drug resistant Klebsiella pneumoniae isolate

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