about
Sharing the sandbox: Evolutionary mechanisms that maintain bacterial cooperationHuman microbiomes and their roles in dysbiosis, common diseases, and novel therapeutic approachesMicrobial Surface Colonization and Biofilm Development in Marine EnvironmentsQuorum Quenching of Nitrobacter winogradskyi Suggests that Quorum Sensing Regulates Fluxes of Nitrogen Oxide(s) during NitrificationWhy Quorum Sensing Controls Private GoodsWhy do bacteria regulate public goods by quorum sensing?-How the shapes of cost and benefit functions determine the form of optimal regulation.Chemical Genetics Reveals Environment-Specific Roles for Quorum Sensing Circuits in Pseudomonas aeruginosa.Nitrite-Oxidizing Bacterium Nitrobacter winogradskyi Produces N-Acyl-Homoserine Lactone Autoinducers.Pneumococcal Competence Coordination Relies on a Cell-Contact Sensing Mechanism.Adaptive Significance of Quorum Sensing-Dependent Regulation of Rhamnolipids by Integration of Growth Rate in Burkholderia glumae: A Trade-Off between Survival and Efficiency.Diverse Profiles of AI-1 Type Quorum Sensing Molecules in Cultivable Bacteria from the Mangrove (Kandelia obovata) Rhizosphere Environment.Modeling quorum sensing trade-offs between bacterial cell density and system extension from open boundariesQuorum-quenching limits quorum-sensing exploitation by signal-negative invaders.New insights on molecular regulation of biofilm formation in plant-associated bacteria.Beneficial effects of bacteria-plant communication based on quorum sensing molecules of the N-acyl homoserine lactone group.Mathematical Modelling of Bacterial Quorum Sensing: A Review.Chemical probes of quorum sensing: from compound development to biological discoverySocial interactions in bacterial cell-cell signaling.Total synthesis and functional analysis of microbial signalling molecules.Cooperation and competition shape ecological resistance during periodic spatial disturbance of engineered bacteria.Prospects for Anti-Biofilm Pharmaceuticals.Ecological feedback in quorum-sensing microbial populations can induce heterogeneous production of autoinducers.Bacterial Quorum Sensing Stabilizes Cooperation by Optimizing Growth Strategies.Investment in secreted enzymes during nutrient-limited growth is utility dependent.Quorum sensing integrates environmental cues, cell density and cell history to control bacterial competence.Analysis of a strategy for cooperating cells to survive the presence of cheaters.Acyl-Homoserine Lactone Production in Nitrifying Bacteria of the Genera Nitrosospira, Nitrobacter, and Nitrospira Identified via a Survey of Putative Quorum-Sensing Genes.Bacterial bioluminescence onset and quenching: a dynamical model for a quorum sensing-mediated property.Differential Equations Models to Study Quorum Sensing.Chemical signaling involved in plant-microbe interactions.Additive Effects of Quorum Sensing Anti-Activators on Pseudomonas aeruginosa Virulence Traits and Transcriptome.Genomic Analysis of Two Phylogenetically Distinct Nitrospira Species Reveals Their Genomic Plasticity and Functional Diversity.ComX-Induced Exoproteases Degrade ComX in Bacillus subtilis PS-216.Information transmission in microbial and fungal communication: from classical to quantum.Could Positive Feedback Enable Bacterial Pheromone Signaling To Coordinate Behaviors in Response to Heterogeneous Environmental Cues?
P2860
Q26766227-321894C3-D0FE-4F29-84DD-6D47052DF592Q26779242-64ECC8F5-D285-4A43-8E24-87E8887A0F75Q28083033-A28C6365-8331-4A43-BD4E-91A0F76AB112Q28821046-44EC6608-5E9A-40A5-9709-837C1DC20704Q33707113-684E72D4-34CF-482A-8974-80C8085EA43FQ35896221-5AC6D64B-AA19-44AB-8BE8-A8378B1B2759Q35932241-22D66B52-11F0-425D-8004-724F73EA83F1Q36000573-34369F18-E151-4192-B304-E3607C8349E7Q36063877-4432E470-554B-4713-8DD9-098A15907EDBQ37150378-7C1E47F5-80C7-442D-821C-1A8033BD992FQ37471213-2448CBB4-B100-4E05-9D37-A2295AEC2C37Q37501871-5815AEC0-409B-48B6-8038-7DCC32EDA4CAQ37560328-A193D659-0F69-447C-9EDA-0B50B3E4118AQ38588199-B7585359-28B1-4374-AFB8-E79410B045EAQ38742549-0EF06D59-EAFD-4156-91DA-61343C7C5802Q38827884-E311CE2F-AF17-4ADC-8096-8FE1B65A8EDCQ38857135-12CF1ADA-BFD6-412D-A1C9-FB680F76CBDEQ38966277-C9BD312B-8FE8-419B-9B2F-0FD5246F3A5EQ40049358-96548170-8EE0-4993-AD16-8D38AABEC8B7Q40276459-D3AB59E4-1437-4330-BC13-2F39C7224E28Q41013386-86FC0A90-0F4D-483F-9272-309D660E1867Q41121869-CC68F2B2-CF34-4104-B244-C9B1615664B6Q41620016-8D85F087-8EBE-4932-8AD7-E61A4C2BF4DBQ41687018-3255E36D-192E-44F4-B3CD-FA893EA7C09AQ42106817-3CCBDF83-534D-47E0-B2E3-608BABB0770DQ45950430-713C72A9-09D5-46EE-89CA-DCDD4E0FA0C8Q46309922-51152BCF-51BE-456A-B32E-D9CC78445B6EQ47199963-4EC337DB-80B7-4DC8-B7A1-1A26FB92D452Q47611513-33689618-C24F-4534-B60C-DE842F0A4DB0Q47794467-383C36EE-044F-447E-96A3-C6CF5A36B4D1Q49184178-F1E4304E-1995-4E69-8778-EEA7C2DF8B17Q49187182-30D076DA-42AA-4A6A-8E0B-9697CB190D42Q49957004-A2296487-1CCD-45E9-B26D-471A1945D0EFQ52687617-EEF404A0-2353-4F9B-8013-77F95CA4A135Q55347326-5E533C9F-FB78-44D8-AA3B-49F44E2581E7
P2860
description
2015 nî lūn-bûn
@nan
2015 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մարտին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Core principles of bacterial autoinducer systems.
@ast
Core principles of bacterial autoinducer systems.
@en
type
label
Core principles of bacterial autoinducer systems.
@ast
Core principles of bacterial autoinducer systems.
@en
prefLabel
Core principles of bacterial autoinducer systems.
@ast
Core principles of bacterial autoinducer systems.
@en
P2860
P356
P1476
Core principles of bacterial autoinducer systems.
@en
P2093
Martin Schuster
P2860
P304
P356
10.1128/MMBR.00024-14
P577
2015-03-01T00:00:00Z