Role of commensal relationships on the spatial structure of a surface-attached microbial consortium.
about
Megacities as sources for pathogenic bacteria in rivers and their fate downstreamA bistable switch and anatomical site control Vibrio cholerae virulence gene expression in the intestinePathogens protection against the action of disinfectants in multispecies biofilmsMetabolic and demographic feedbacks shape the emergent spatial structure and function of microbial communitiesDevelopment of Spatial Distribution Patterns by Biofilm CellsThe biogeography of polymicrobial infectionAnti-biofilm activity: a function of Klebsiella pneumoniae capsular polysaccharideSeparation of the bacterial species, Escherichia coli, from mixed-species microbial communities for transcriptome analysis.Biofilm shows spatially stratified metabolic responses to contaminant exposure.Density of founder cells affects spatial pattern formation and cooperation in Bacillus subtilis biofilms.Development and dynamics of Pseudomonas sp. biofilmsSpatial arrangements and associative behavior of species in an in vitro oral biofilm modelRole of quorum sensing and antimicrobial component production by Serratia plymuthica in formation of biofilms, including mixed biofilms with Escherichia coliMetabolic commensalism and competition in a two-species microbial consortium.Trophic interactions induce spatial self-organization of microbial consortia on rough surfaces.Mutualism versus independence: strategies of mixed-species oral biofilms in vitro using saliva as the sole nutrient source.Antigen 43 facilitates formation of multispecies biofilms.Architecture of a nascent Sphingomonas sp. biofilm under varied hydrodynamic conditionsThree stages of a biofilm community developing at the liquid-liquid interface between polychlorinated biphenyls and waterBacterial interactions in biofilms.Biofilm formation in environmental bacteria is influenced by different macromolecules depending on genus and species.Commensal interactions in a dual-species biofilm exposed to mixed organic compoundsSpatial organization of dual-species bacterial aggregates on leaf surfaces.Microscope-based imaging platform for large-scale analysis of oral biofilms.Single cell activity reveals direct electron transfer in methanotrophic consortia.Strong inter-population cooperation leads to partner intermixing in microbial communities.Localization of Burkholderia cepacia complex bacteria in cystic fibrosis lungs and interactions with Pseudomonas aeruginosa in hypoxic mucus.Biofilm growth mode promotes maximum carrying capacity and community stability during product inhibition syntrophyThe quantity and quality of dissolved organic matter as supplementary carbon source impacts the pesticide-degrading activity of a triple-species bacterial biofilm.Environmental dissolved organic matter governs biofilm formation and subsequent linuron degradation activity of a linuron-degrading bacterial consortium.Peptidoglycan from Bacillus cereus mediates commensalism with rhizosphere bacteria from the Cytophaga-Flavobacterium group.The contribution of cell-cell signaling and motility to bacterial biofilm formationAntibacterial and dissolution ability of sodium hypochlorite in different pHs on multi-species biofilms.Characterization of a Pseudomonas putida rough variant evolved in a mixed-species biofilm with Acinetobacter sp. strain C6.Resource Availability Modulates the Cooperative and Competitive Nature of a Microbial Cross-Feeding Mutualism.Cooperation in carbon source degradation shapes spatial self-organization of microbial consortia on hydrated surfaces.Defined spatial structure stabilizes a synthetic multispecies bacterial communityResource limitation drives spatial organization in microbial groupsBiofilm development and enhanced stress resistance of a model, mixed-species community biofilm.Going local: technologies for exploring bacterial microenvironments.
P2860
Q21296756-300F7F19-026F-4DF2-AD74-C3A66F4BC464Q21559407-032577A0-8B99-4531-9C01-3D1D5534721FQ26800012-F9FD5B8A-D232-44F5-9628-A2D7CF7590B9Q27323496-019D9DD4-938F-4796-8536-331B8EACDD84Q27323681-2F161A99-63A1-460D-8856-8BF07591BE09Q28070102-FDCB06E4-809D-4915-B89F-E5750F2653B4Q28539739-42E9A766-C8E1-415E-88AD-244663245B14Q30475822-CC4F3106-3D2E-4D63-AB0F-4C06821627D9Q30559429-D1FC79F2-8F70-4033-936D-6BD2293581F0Q30588827-9AC7C0F8-1678-4C8A-806A-AAC86E3EB30CQ30659180-8725545A-BF5E-4491-B47A-1F20636F6697Q30660013-59A9AB74-E449-43E9-B283-9AE8633EB946Q30826767-79F48001-524F-4AE9-9639-B432077C56D6Q30834182-7F99D991-BE34-4CF8-BFC1-F2A5A38E00F4Q30844199-831DFFCB-B4EF-4B4C-8C21-9F5777C826F8Q31000674-24CF2BA6-920B-49A8-819B-7FB1358AAA8CQ31871328-F5E06D7D-84A2-4CA0-B2F7-0A845B16C2B7Q33214672-5C985353-A73E-41BC-A39F-6E2825722994Q33226579-635B27DA-2EA0-49EA-BDFE-DC770E0BBFF3Q33485456-7C9B596F-AF4D-4C59-9525-F631D18907A8Q33560322-C5866F66-DF26-44E7-8215-5CCE60BE6DD7Q33987850-2525BF04-EECC-45E1-A617-70CBB185B8CBQ33995929-0A62D824-B94A-473E-9897-6A9797B032EEQ34435701-96157B98-7053-4831-B8CF-982F1314E972Q34494368-41E04341-AD42-44E9-8156-ECAF3CC5AFEAQ34566652-E8A54F0E-9BF9-437E-9592-EB52FC42D8D0Q34596241-654485DE-E7CE-422E-AE96-472C1229243DQ34699826-9975B1D9-3E2E-4737-A21A-68A2D38FC927Q34709596-2C18F386-5C41-4597-9AE3-05981058A318Q34716097-A385FE33-A5D4-44F7-A78A-E5D09F00D796Q34974029-71738B9F-D00F-4058-AEDC-16F81199EAB0Q35482043-9B61C446-6C80-4921-B5C0-DF656D1A40EBQ35567819-653DA0DC-BC15-4C04-8B1E-8BC277DBBEDDQ35879451-D32CDE18-3C81-48B4-9979-188D878FA19EQ36111827-0F2B5947-E2F7-475A-ABB6-9BDA69A9F7BCQ36297912-1DF19465-4EB0-4F15-8109-6E25CCAB5DF0Q36984976-57BDD057-F006-41FE-A17C-40599621A189Q37268158-1D1B7B13-FD91-425B-8A63-300974FD88D4Q37650423-2D3DE5F0-9FB6-4F0A-94E1-81C805D0A851Q37699391-FAFF7FC8-613B-46AC-9832-11B0AEE8D5D1
P2860
Role of commensal relationships on the spatial structure of a surface-attached microbial consortium.
description
2000 nî lūn-bûn
@nan
2000 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Role of commensal relationship ...... attached microbial consortium.
@ast
Role of commensal relationship ...... attached microbial consortium.
@en
type
label
Role of commensal relationship ...... attached microbial consortium.
@ast
Role of commensal relationship ...... attached microbial consortium.
@en
prefLabel
Role of commensal relationship ...... attached microbial consortium.
@ast
Role of commensal relationship ...... attached microbial consortium.
@en
P50
P1476
Role of commensal relationship ...... attached microbial consortium.
@en
P2093
K B Barken
P356
10.1046/J.1462-2920.2000.00084.X
P577
2000-02-01T00:00:00Z