about
Influence of microbial biofilms on the preservation of primary soft tissue in fossil and extant archosaursEnvironmental reservoirs and mechanisms of persistence of Vibrio choleraeBiofilms formed by the archaeon Haloferax volcanii exhibit cellular differentiation and social motility, and facilitate horizontal gene transfer.Megacities as sources for pathogenic bacteria in rivers and their fate downstreamMicrobial biofilms: from ecology to molecular geneticsBiofilms: survival mechanisms of clinically relevant microorganisms.Biocidal efficacy, biofilm-controlling function, and controlled release effect of chloromelamine-based bioresponsive fibrous materialsIsolation of an Escherichia coli K-12 mutant strain able to form biofilms on inert surfaces: involvement of a new ompR allele that increases curli expressionSurface motility of serratia liquefaciens MG1Natural communities of novel archaea and bacteria growing in cold sulfurous springs with a string-of-pearls-like morphologyDepolymerization of beta-1,6-N-acetyl-D-glucosamine disrupts the integrity of diverse bacterial biofilmsEnzymatic detachment of Staphylococcus epidermidis biofilmsPseudomonas aeruginosa-plant root interactions. Pathogenicity, biofilm formation, and root exudationSecretory IgA's complex roles in immunity and mucosal homeostasis in the gutPlants and animals share functionally common bacterial virulence factorsEcology and genomics of Bacillus subtilisEnzymatic removal and disinfection of bacterial biofilmsCharacterization of Campylobacter jejuni biofilms under defined growth conditionsEvidence for production of paralytic shellfish toxins by bacteria associated with Alexandrium spp. (Dinophyta) in cultureStudying slimeMultiple roles of biosurfactants in structural biofilm development by Pseudomonas aeruginosaDispersing biofilms with engineered enzymatic bacteriophageThe genomics and proteomics of biofilm formationMolecular circuits, biological switches, and nonlinear dose-response relationships.Biofilm reactors for industrial bioconversion processes: employing potential of enhanced reaction rates.Bacillus cereus Biofilms-Same, Only DifferentMetabolic Responses of Bacterial Cells to ImmobilizationPlasticity of Candida albicans BiofilmsPseudomonas aeruginosa in premise plumbing of large buildingsExperimental evolution in biofilm populations.Establishing a Role for Bacterial Cellulose in Environmental Interactions: Lessons Learned from Diverse Biofilm-Producing Proteobacteria.Nanotechnology in dentistry: prevention, diagnosis, and therapyNew Technologies for Studying BiofilmsCandida Biofilms: Development, Architecture, and ResistanceEcology of Anti-Biofilm Agents II: Bacteriophage Exploitation and Biocontrol of Biofilm BacteriaThe Three Bacterial Lines of Defense against Antimicrobial AgentsPathogens protection against the action of disinfectants in multispecies biofilmsAnalysis of bacterial biofilms using NMR-based metabolomicsCombating pathogenic microorganisms using plant-derived antimicrobials: a minireview of the mechanistic basisExploiting dendrimer multivalency to combat emerging and re-emerging infectious diseases
P2860
Q21091100-D69B3329-6A93-480D-90C6-2B2F74751C0FQ21131113-1DCB1B1A-3864-4AE6-9719-494E1B4471E4Q21146693-A977F8DF-7F18-4905-BC9B-50BCB676039BQ21296756-00A2273F-EA79-4D0A-BA7C-09736BFCD7ECQ21999032-45466AF8-41C7-4565-8C21-DE22269CBC5BQ22299328-00DC3AB4-9847-440B-BAF1-B3663DA06CD6Q23924181-2DBED7F1-904D-46E5-8AA0-187796E42BB6Q24520852-30F2AC04-8A00-480F-879A-3B182845F522Q24549510-7D80F386-9B1C-4392-8FC6-9856C9706F40Q24550104-33D36A0D-631D-4FB2-B5C3-0E1BE431D4BEQ24558687-6BFF7C1F-6905-4255-A971-F6D10D39C011Q24564021-508107FA-DE7E-493F-BCC7-483FC7812F64Q24611111-18EBB0A6-61B9-4816-A5AA-5F9E2A537A3BQ24620817-257D2660-FCFF-406A-B116-B16407B55B46Q24630477-10BBA607-F280-4839-BAC6-07C94F88FBAFQ24650696-39BCA59F-166C-4844-AA7F-C5ADC952A7A0Q24673662-C8D26D12-E0ED-4A1A-8234-BB395CAFA676Q24678404-9B9E01D5-5AEC-494B-9D7D-8450A9767889Q24678634-159D2555-98AC-4C62-8970-198886E97777Q24682478-382901DF-5C8C-49CE-90E3-D2B0F569BC4AQ24683834-83D3E71C-DCE3-477F-BD2D-D253D825F815Q24684087-332FF677-873D-4762-A49A-3B31111AF173Q24796049-9F466B1C-C622-4A4B-ADB8-BF0151F5BD6BQ24812860-05E2814B-8CC7-4D91-B1EA-56F3261EC9EBQ24816998-CFD91EC7-3B0A-45DD-A667-31316E92FFB7Q26741574-52F4F30A-4AFF-4888-B827-C1BFBFA26C94Q26741850-DDAA0CA0-9ED8-40C3-8D56-87CF7192BE79Q26744150-F8C06A88-00F7-4CAC-91D3-654B5A7302C2Q26746248-BA532AA0-297F-456F-B203-932F7016378DQ26768691-F84122ED-05D4-4BC4-89FA-BCE070BA2ED7Q26774707-906473CD-1322-417C-994D-0FA8869EE741Q26778689-97ABB51A-DF6F-4A83-A2FD-E7B32DBB3B2CQ26782595-68556FFD-4A2E-4ECB-A186-671CA466B53EQ26782611-F2B07066-62BD-451D-B225-ACE150D07989Q26786947-EE497C10-39C5-4221-800C-302906A056B4Q26786956-7F1E9C2B-0610-4E04-B539-A45D90924658Q26800012-898F0A22-570D-4A31-8E4A-3115064C2179Q26851303-59482937-FCA7-4BB8-A8CD-9DDAF32908A6Q26851551-6E38EFE3-B6EE-4972-8B1D-48FE0EF82F95Q26852693-28E5E7A1-F02D-4E6B-8163-2541B6E7D51E
P2860
description
1995 nî lūn-bûn
@nan
1995 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
Microbial biofilms
@ast
Microbial biofilms
@en
Microbial biofilms
@en-gb
Microbial biofilms
@nl
type
label
Microbial biofilms
@ast
Microbial biofilms
@en
Microbial biofilms
@en-gb
Microbial biofilms
@nl
prefLabel
Microbial biofilms
@ast
Microbial biofilms
@en
Microbial biofilms
@en-gb
Microbial biofilms
@nl
P2093
P3181
P1476
Microbial Biofilms
@en
P2093
D E Caldwell
D R Korber
H M Lappin-Scott
J W Costerton
Z Lewandowski
P304
P3181
P356
10.1146/ANNUREV.MI.49.100195.003431
P407
P577
1995-10-01T00:00:00Z