The influence of environment on envelope properties affecting survival of bacteria in infections.
about
Antiseptics and disinfectants: activity, action, and resistanceAlternative strategies for proof-of-principle studies of antibacterial agentsA polyphosphate kinase 1 (ppk1) mutant of Pseudomonas aeruginosa exhibits multiple ultrastructural and functional defects.Higher resource level promotes virulence in an environmentally transmitted bacterial fish pathogen.Questions about the behaviour of bacterial pathogens in vivo.Quorum sensing and the population-dependent control of virulence.Dental biofilms: difficult therapeutic targets.Potential impact of increased use of biocides in consumer products on prevalence of antibiotic resistanceAntibody response to Staphylococcus aureus surface proteins in rabbits with persistent osteomyelitis after treatment with demineralized bone implants.Testing the susceptibility of bacteria in biofilms to antibacterial agents.Growth of Francisella tularensis LVS in macrophages: the acidic intracellular compartment provides essential iron required for growthDigital image analysis of growth and starvation responses of a surface-colonizing Acinetobacter spThe biofilm matrix.Physiological studies of chloramine resistance developed by Klebsiella pneumoniae under low-nutrient growth conditions.Establishment of aging biofilms: possible mechanism of bacterial resistance to antimicrobial therapy.Identification and characterization of an iron-regulated hemopexin receptor in Haemophilus influenzae type b.Biofilm production by multiresistant Corynebacterium striatum associated with nosocomial outbreakLocalization of the Fusobacterium nucleatum T18 adhesin activity mediating coaggregation with Porphyromonas gingivalis T22.Rapid direct method for monitoring antibiotics in a mouse model of bacterial biofilm infection.Localization of a Porphyromonas gingivalis 26-kilodalton heat-modifiable, hemin-regulated surface protein which translocates across the outer membrane.Identification and molecular analysis of a 63-kilodalton stress protein from Neisseria gonorrhoeaeElectron microscopic examination of capsular material from various serotypes of Actinobacillus pleuropneumoniae.A 36-kilodalton Brucella abortus cell envelope protein is encoded by repeated sequences closely linked in the genomic DNAAerolysin of Aeromonas sobria: evidence for formation of ion-permeable channels and comparison with alpha-toxin of Staphylococcus aureus.Interaction of Escherichia coli with polymorphonuclear leukocytes in pathogenesis of urinary tract infection in mice.Quantitative relationship between capsular content and killing of K1-encapsulated Escherichia coliEffect of anaerobiosis on the surface ultrastructure and surface proteins of Actinobacillus actinomycetemcomitans (Haemophilus actinomycetemcomitans).Influence of growth rate on susceptibility to antimicrobial agents: modification of the cell envelope and batch and continuous culture studies.Influence of growth rate on susceptibility to antimicrobial agents: biofilms, cell cycle, dormancy, and stringent response.Gonococcal lipooligosaccharide sialylation prevents complement-dependent killing by immune sera.Iron-limited biofilms of Candida albicans and their susceptibility to amphotericin BVibrio cholerae O1 strain TSI-4 produces the exopolysaccharide materials that determine colony morphology, stress resistance, and biofilm formation.Antibiotic tolerance among clinical isolates of bacteria.Intraphagocytic growth induces an antibiotic-resistant phenotype of Legionella pneumophilaEnhanced activity of combination of tobramycin and piperacillin for eradication of sessile biofilm cells of Pseudomonas aeruginosa.Influence of cephalosporins and iron on surface protein antigens of Klebsiella pneumoniae in vivo.Interaction of biofilm bacteria with antibiotics in a novel in vitro chemostat system.Effects of growth rate and nutrient limitation on virulence factor production in Burkholderia cepacia.Possible involvement of the division cycle in dispersal of Escherichia coli from biofilms.Levels of nicotinamide adenine dinucleotide in extracellular body fluids of pigs may be growth-limiting for Actinobacillus pleuropneumoniae and Haemophilus parasuis.
P2860
Q24550729-23496184-5E9A-4BCA-8B2B-7AF6B2DFF1EDQ26850895-209EE584-CB32-4432-99AF-4ED5F8B9DAC1Q30479020-60D9D2DB-1174-4AF3-984A-F5556ED240C1Q33668316-B7AA5191-E729-483E-857B-9CF6E0865743Q33955457-85F6656A-AEFC-41B4-B188-9723DD520EF8Q33955518-67DAAE18-4C70-460D-95A8-3F322A4EEB69Q34128638-3CF59872-3FA0-44A5-9F95-FC0953394028Q34927172-4B33F7EF-352D-47DA-B374-44BB0FFD5B3DQ35090259-28200697-2E4E-42C6-90DA-2513CBC62D78Q35279594-0E688EE7-8275-47A0-9D18-B136DFE827F3Q35403392-350952C3-A326-45B0-80B4-53B10FA2716DQ35579398-693462D8-D9A1-47D0-A3B0-D54EF4BAD285Q35584280-4993DCAB-57A0-4FC1-8E72-7EFE9CE13383Q35693052-B27F4123-B651-4FC2-A56C-B30CA161DA06Q35754096-2A766772-75E2-4E22-8940-6CA6A3EED799Q35770866-759F2EFB-9357-428D-B5C6-E98B3211EC78Q35810694-F905025E-782F-44AE-B3A5-7C03C44C7F37Q35967030-88AF4852-9B00-43F4-B16C-9EC703BD23D2Q36047311-7BB3C2E0-F3A8-442D-883A-CFFA11B20B8EQ36126720-C963E179-1986-4464-9E42-DB3737724BC5Q36132555-852AB04C-A55A-4127-94AC-4C9D64547F4AQ36209214-ACE462DA-993A-4F76-B260-001C3771C2F6Q36433676-68F0D980-541A-4B06-A6F3-B96F3FA9371CQ36985531-830CE720-7450-4AEB-8C13-6168149AF539Q36996225-DF75900C-705C-425F-B840-648C277E0D6AQ37000194-D78FCA20-9F9D-44F3-A634-3CACF612321CQ37023441-D054BE99-81DE-4F09-8A83-13497F95296EQ38031255-157F1DCD-C807-4EEB-8F07-57E239DE7882Q38037106-8D28AF4F-2F68-4281-A8FA-B04D64512291Q38331189-EBB814B7-0232-4EA7-B528-6562E5A7B792Q39559062-702A846B-7C96-45E7-8792-B140038B635DQ39562123-2B8F5995-31C8-4C1B-AF6A-B285D97A5536Q39750871-6AD80B25-3CC7-4AFF-8066-75A95CC89269Q39780962-B8C0788B-7BC3-4E28-9B69-B3BB71CA6FBFQ39816719-AD5117DC-DC60-4190-9127-866449F5CAE6Q39817814-7615C104-B86A-4225-B4A3-6608E2AD16CFQ39820188-5D17E7EE-2902-473F-8BB8-19189096EBE5Q39837622-5AEACAAC-232A-4452-8793-19DE6CCBB283Q39944352-ACB671C9-9396-4E6B-91F0-39CEF65FEB7EQ40003983-0A45AAFC-3378-4885-9835-236ADC47A58D
P2860
The influence of environment on envelope properties affecting survival of bacteria in infections.
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年学术文章
@wuu
1985年学术文章
@zh-cn
1985年学术文章
@zh-hans
1985年学术文章
@zh-my
1985年学术文章
@zh-sg
1985年學術文章
@yue
1985年學術文章
@zh
1985年學術文章
@zh-hant
name
The influence of environment o ...... val of bacteria in infections.
@en
The influence of environment o ...... val of bacteria in infections.
@nl
type
label
The influence of environment o ...... val of bacteria in infections.
@en
The influence of environment o ...... val of bacteria in infections.
@nl
prefLabel
The influence of environment o ...... val of bacteria in infections.
@en
The influence of environment o ...... val of bacteria in infections.
@nl
P1476
The influence of environment o ...... val of bacteria in infections.
@en
P2093
P304
P356
10.1146/ANNUREV.MI.39.100185.002523
P577
1985-01-01T00:00:00Z