about
Transcriptional and post-transcriptional regulation of the Escherichia coli luxS mRNA; involvement of the sRNA MicABacterial landlines: contact-dependent signaling in bacterial populationsGene dosage compensation calibrates four regulatory RNAs to control Vibrio cholerae quorum sensingEnvironmental signal integration by a modular AND gateIdentification of 22 candidate structured RNAs in bacteria using the CMfinder comparative genomics pipelineRelationships between the Regulatory Systems of Quorum Sensing and Multidrug Resistance"With a Little Help from My Friends"-Social Motility in Trypanosoma bruceiStructure, function, and biology of the Enterococcus faecalis cytolysinThe cognitive cell: bacterial behavior reconsideredCulture history and population heterogeneity as determinants of bacterial adaptation: the adaptomics of a single environmental transitionPrimer on agar-based microbial imaging mass spectrometrySocial parasitesBiofilms and Inflammation in Chronic WoundsSmart swarms of bacteria-inspired agents with performance adaptable interactionsThe evolution of quorum sensing in bacterial biofilmsCell contact-dependent outer membrane exchange in myxobacteria: genetic determinants and mechanismA structural and biochemical basis for PAPS-independent sulfuryl transfer by aryl sulfotransferase from uropathogenic Escherichia coliThe quorum-quenching N-acyl homoserine lactone acylase PvdQ is an Ntn-hydrolase with an unusual substrate-binding pocketCrystal Structure of SmcR, a Quorum-sensing Master Regulator ofVibrio vulnificus, Provides Insight into Its Regulation of TranscriptionStructural Basis of Rap Phosphatase Inhibition by Phr PeptidesBslA is a self-assembling bacterial hydrophobin that coats the Bacillus subtilis biofilm.Structural and functional basis of transcriptional regulation by TetR family protein CprB from S. coelicolor A3(2)Intracellular demography and the dynamics of Salmonella enterica infectionsHypervirulent K. pneumoniae secretes more and more active iron-acquisition molecules than "classical" K. pneumoniae thereby enhancing its virulenceA eukaryotic-like Ser/Thr kinase signals bacteria to exit dormancy in response to peptidoglycan fragmentsInsect stage-specific adenylate cyclases regulate social motility in African trypanosomesdPABBs: A Novel in silico Approach for Predicting and Designing Anti-biofilm PeptidesDistribution patterns of small-molecule ligands in the protein universe and implications for origin of life and drug discoveryBiology by design: reduction and synthesis of cellular components and behaviourQuorum Sensing N-acyl Homoserine Lactones-SdiA Suppresses Escherichia coli-Pseudomonas aeruginosa Conjugation through Inhibiting traI ExpressionLocal and global consequences of flow on bacterial quorum sensingThe iron-dependent regulator fur controls pheromone signaling systems and luminescence in the squid symbiont Vibrio fischeri ES114.A mutational analysis defines Vibrio fischeri LuxR binding sitesSynergistic activation of the pathogenicity-related proline iminopeptidase gene in Xanthomonas campestris pv. campestris by HrpX and a LuxR homologContact- and Protein Transfer-Dependent Stimulation of Assembly of the Gliding Motility Machinery in Myxococcus xanthus.Contact-dependent growth inhibition requires the essential outer membrane protein BamA (YaeT) as the receptor and the inner membrane transport protein AcrB.The Myxobacterium Myxococcus xanthus Can Sense and Respond to the Quorum Signals Secreted by Potential Prey Organisms.Deep evolutionary origins of neurobiology: Turning the essence of 'neural' upside-down.Can mathematics explain the evolution of human language?Deadly competition between sibling bacterial colonies.
P2860
Q21091098-E5FA00F3-24A6-4CEC-B92D-E8113C2F8F18Q24642714-7178177B-EC4C-4064-A05C-A1DF271E8D55Q24642890-BF32E197-C716-43CF-B429-33FB7591122FQ24670375-62AE94D5-B0EF-40E5-BFAA-6FC63B1A5D93Q24678454-5E3AB36C-B512-4190-AAB6-1D0C6AF511C9Q26744574-F6D35CDB-BD64-4F16-8C99-54D16AD3A7D8Q26775021-F4281803-C5A3-42BF-97C3-C1050C9E38CEQ26823094-9D995122-8C1F-4E18-BECD-09A1501448ABQ26824926-C949E3BB-4253-4A7F-BD23-78FD43C40618Q26825267-C9B5175A-6BD3-4BB2-A41E-B882C9892948Q26828476-F09D3888-CFF9-42A5-96CE-20FD4F65C304Q26853695-A3CA2DBF-8942-4150-9D21-6F3FD92CFECDQ26864788-78C87D55-F7D6-4F38-A8D7-6D2C1819D116Q27332448-8C60E394-D0A5-4BA7-A60C-9E0B2F888F90Q27333799-5FECD53E-B183-485D-8118-0A25F7C1C723Q27334250-453C1A43-9B9C-42C4-A316-6F7D2A9155F7Q27653001-0FDB5446-4A28-4289-870B-3966DFFB11E3Q27659007-04498DB0-1862-445B-8F60-F2FC148CDA6AQ27660022-AB857D82-B238-48F9-BBB4-62F3F9B34667Q27677033-13C7ABCE-ED87-4184-AEA3-D9A838D010D7Q27679313-313B0D09-BD59-468C-A5F2-E4057AF0363FQ27684942-21D2584A-991C-4940-B8B3-B377574632CCQ28469060-57A7FDF5-02F4-4876-85ED-93209EC3C594Q28477598-31A0ADB2-3C57-4140-A4E6-5EF333C8AF70Q28488857-F6142D29-4B1E-4F6C-8AF9-5F15304AA19AQ28542918-C675C767-3A0F-4DAF-ABFA-00D486088422Q28603750-BEE5B5DB-1E55-418A-905F-800239C5DFB3Q28754659-69FB52B3-2E1A-4E03-BE72-F7668CD916EFQ28754680-583F7DEB-EC8A-4473-89FA-43F06D5A160CQ28818725-04946901-AA80-4E98-B1AE-C12ABBF21F25Q28831427-730ED8DA-1B5A-41AC-A9BA-8EAF805A9C1FQ29346654-2BD37B47-FB29-4C79-A44C-5A3F7017A19CQ29346656-A62E8D6B-F348-4A9C-85D7-23964280C05BQ29346673-59FBC56A-5803-4923-B9FA-4E59DE695072Q30152903-95B0197D-86AD-4D2D-9233-28A9F2E2FC7CQ30157534-23DE692C-DFDA-464E-BBBB-CA44AB28EDA7Q30360284-00158ADE-F2F4-49FE-843A-E97173CA9D5DQ30377929-23658113-5929-4F83-812E-44BE27F2FF1AQ30408882-B9A1558D-6DF9-41AD-AC26-4679329AC857Q30485476-F88B89A7-AC97-47FD-B55B-D2C3AD214454
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Bacterially speaking.
@ast
Bacterially speaking.
@en
type
label
Bacterially speaking.
@ast
Bacterially speaking.
@en
prefLabel
Bacterially speaking.
@ast
Bacterially speaking.
@en
P1433
P1476
Bacterially speaking.
@en
P2093
Bonnie L Bassler
P304
P356
10.1016/J.CELL.2006.04.001
P407
P577
2006-04-01T00:00:00Z