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Genomic Microbial Epidemiology Is Needed to Comprehend the Global Problem of Antibiotic Resistance and to Improve Pathogen DiagnosisEnvironmental Regulation of Yersinia Pathophysiology-Genomic data mining of the marine actinobacteria Streptomyces sp. H-KF8 unveils insights into multi-stress related genes and metabolic pathways involved in antimicrobial synthesis.Proactive Approach for Safe Use of Antimicrobial Coatings in Healthcare Settings: Opinion of the COST Action Network AMiCICo-occurrence of resistance genes to antibiotics, biocides and metals reveals novel insights into their co-selection potential.Specific Gene Loci of Clinical Pseudomonas putida Isolates.Metalloregulator CueR biases RNA polymerase's kinetic sampling of dead-end or open complex to repress or activate transcriptionSurvival in amoeba--a major selection pressure on the presence of bacterial copper and zinc resistance determinants? Identification of a "copper pathogenicity island".Anti-microbial coating innovations to prevent infectious diseases (AMiCI): Cost action ca15114.Characterization of the binding capacity of mercurial species in Lactobacillus strains.Identification of a U/Zn/Cu responsive global regulatory two-component system in Caulobacter crescentus.SilE is an intrinsically disordered periplasmic "molecular sponge" involved in bacterial silver resistance.Evolution of a Heavy Metal Homeostasis/Resistance Island Reflects Increasing Copper Stress in Enterobacteria.Metal-based antimicrobial strategies.Lateral gene transfer, bacterial genome evolution, and the Anthropocene.Resistance to Antibiotics, Biocides, Preservatives and Metals in Bacteria Isolated from Seafoods: Co-Selection of Strains Resistant or Tolerant to Different Classes of Compounds.Characterization of the pJB12 Plasmid from Pseudomonas aeruginosa Reveals Tn6352, a Novel Putative Transposon Associated with Mobilization of the blaVIM-2-Harboring In58 IntegronHeavy metal resistance in halophilic Bacteria and Archaea.Antimicrobial activity of Ti-ZrN/Ag coatings for use in biomaterial applications.Artificial Gene Amplification in Escherichia coli Reveals Numerous Determinants for Resistance to Metal Toxicity.Adaptation of genetically monomorphic bacteria: evolution of copper resistance through multiple horizontal gene transfers of complex and versatile mobile genetic elements.Copper and Zinc Tolerance in Bacteria Isolated from Fresh Produce.Multidrug-Resistant CTX-M-(15, 9, 2)- and KPC-2-Producing Enterobacter hormaechei and Enterobacter asburiae Isolates Possessed a Set of Acquired Heavy Metal Tolerance Genes Including a Chromosomal sil Operon (for Acquired Silver Resistance).Heavy Metal Susceptibility of Escherichia coli Isolated from Urine Samples from Sweden, Germany, and Spain.
P2860
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P2860
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Bacterial antimicrobial metal ion resistance.
@en
type
label
Bacterial antimicrobial metal ion resistance.
@en
prefLabel
Bacterial antimicrobial metal ion resistance.
@en
P356
P1476
Bacterial antimicrobial metal ion resistance
@en
P2093
Lisa C Crossman
P304
P356
10.1099/JMM.0.023036-0
P577
2014-11-23T00:00:00Z