Contribution of stress responses to antibiotic tolerance in Pseudomonas aeruginosa biofilms
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New Perspectives on the Use of Phytochemicals as an Emergent Strategy to Control Bacterial Infections Including BiofilmsThe Three Bacterial Lines of Defense against Antimicrobial AgentsPseudomonas aeruginosa Aggregate Formation in an Alginate Bead Model System Exhibits In Vivo-Like Characteristics.Pseudomonas aeruginosa cells attached to a surface display a typical proteome early as 20 minutes of incubation.Mechanisms of Resistance to Aminoglycoside Antibiotics: Overview and PerspectivesThe Pseudomonas aeruginosa PAO1 Two-Component Regulator CarSR Regulates Calcium Homeostasis and Calcium-Induced Virulence Factor Production through Its Regulatory Targets CarO and CarP.Reorganization of gene network for degradation of polycyclic aromatic hydrocarbons (PAHs) in Pseudomonas aeruginosa PAO1 under several conditionsThe Role of Efflux and Physiological Adaptation in Biofilm Tolerance and Resistance.Astrobiology as a framework for investigating antibiotic susceptibility: a study of Halomonas hydrothermalis.Mechanisms of bacterial persistence during stress and antibiotic exposure.The Complex Relationship between Virulence and Antibiotic Resistance.Effects of an autoinducer analogue on antibiotic tolerance in Pseudomonas aeruginosa.In Situ Biomineralization and Particle Deposition Distinctively Mediate Biofilm Susceptibility to Chlorine.Microsensor and transcriptomic signatures of oxygen depletion in biofilms associated with chronic wounds.Bromopyrrole Alkaloids with the Inhibitory Effects against the Biofilm Formation of Gram Negative Bacteria.Synergistic effects of heat and antibiotics on Pseudomonas aeruginosa biofilms.Targeting microbial biofilms: current and prospective therapeutic strategies.Effects of Sub-lethal Concentrations of Silver Nanoparticles on a Simulated Intestinal Prokaryotic-Eukaryotic Interface.Mesoscopic Energy Minimization Drives Pseudomonas aeruginosa Biofilm Morphologies and Consequent Stratification of Antibiotic Activity Based on Cell Metabolism.Expression of the Pseudomonas aeruginosa biofilm antibiotic resistance gene ndvB requires the RpoS stationary phase sigma factor.In vitro microbicidal, anti-biofilm and cytotoxic effects of different commercial antiseptics.Targeted disruption of the extracellular polymeric network of Pseudomonas aeruginosa biofilms by alginate oligosaccharides.Mechanisms of Bacterial Tolerance and Persistence in the Gastrointestinal and Respiratory EnvironmentsTargeting the Bacterial Protective Armour; Challenges and Novel Strategies in the Treatment of Microbial Biofilm
P2860
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P2860
Contribution of stress responses to antibiotic tolerance in Pseudomonas aeruginosa biofilms
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2015 nî lūn-bûn
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2015年の論文
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2015年論文
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2015年論文
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2015年論文
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2015年論文
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name
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@ast
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@en
type
label
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@ast
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@en
prefLabel
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@ast
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@en
P2093
P2860
P356
P1476
Contribution of stress respons ...... seudomonas aeruginosa biofilms
@en
P2093
Garth A James
James P Folsom
Kerry S Williamson
Laura Boegli
Michael J Franklin
Philip S Stewart
P2860
P304
P356
10.1128/AAC.00433-15
P407
P577
2015-04-13T00:00:00Z