| scholarly article | Q13442814 |
| review article | Q7318358 |
| P6179 | Dimensions Publication ID | 1033644367 |
| P356 | DOI | 10.1038/NRMICRO1916 |
| P698 | PubMed publication ID | 18536728 |
| P50 | author | Kim R Hardie | Q40411557 |
| P2093 | author name string | Karin Heurlier | |
| P2860 | cites work | Modulation of enteropathogenic Escherichia coli virulence by quorum sensing | Q40705449 |
| Ecological behavior of Lactobacillus reuteri 100-23 is affected by mutation of the luxS gene. | Q40717749 | ||
| LuxS-mediated signaling in Streptococcus mutans is involved in regulation of acid and oxidative stress tolerance and biofilm formation | Q40763497 | ||
| The transcriptional antiterminator RfaH represses biofilm formation in Escherichia coli. | Q41765999 | ||
| Functional analysis of luxS in Staphylococcus aureus reveals a role in metabolism but not quorum sensing | Q41827885 | ||
| YliH (BssR) and YceP (BssS) regulate Escherichia coli K-12 biofilm formation by influencing cell signaling | Q42122269 | ||
| LuxS-based signaling affects Streptococcus mutans biofilm formation | Q42122665 | ||
| Functional analysis of luxS in the probiotic strain Lactobacillus rhamnosus GG reveals a central metabolic role important for growth and biofilm formation | Q42125989 | ||
| The quorum-sensing molecule autoinducer 2 regulates motility and flagellar morphogenesis in Helicobacter pylori. | Q42412402 | ||
| Global effects of the cell-to-cell signaling molecules autoinducer-2, autoinducer-3, and epinephrine in a luxS mutant of enterohemorrhagic Escherichia coli | Q42634023 | ||
| Quorum sensing Escherichia coli regulators B and C (QseBC): a novel two-component regulatory system involved in the regulation of flagella and motility by quorum sensing in E. coli. | Q42673580 | ||
| Assessment of the roles of LuxS, S-ribosyl homocysteine, and autoinducer 2 in cell attachment during biofilm formation by Listeria monocytogenes EGD-e | Q42904841 | ||
| Autoinducer 2 affects biofilm formation by Bacillus cereus | Q43187006 | ||
| Detection and mutation of a luxS-encoded autoinducer in Proteus mirabilis | Q43908403 | ||
| LuxS: its role in central metabolism and the in vitro synthesis of 4-hydroxy-5-methyl-3(2H)-furanone. | Q43946966 | ||
| Chemical synthesis of (S)-4,5-dihydroxy-2,3-pentanedione, a bacterial signal molecule precursor, and validation of its activity in Salmonella typhimurium. | Q46404123 | ||
| Autoinducer-2-like activity on vegetable produce and its potential involvement in bacterial biofilm formation on tomatoes | Q46698194 | ||
| Global gene expression in Escherichia coli biofilms | Q46766802 | ||
| Phosphorylation and processing of the quorum-sensing molecule autoinducer-2 in enteric bacteria | Q50073839 | ||
| LuxS-mediated signalling in Streptococcus anginosus and its role in biofilm formation | Q51149104 | ||
| Global impact of mature biofilm lifestyle on Escherichia coli K-12 gene expression. | Q52004921 | ||
| Magnetic nanofactories: localized synthesis and delivery of quorum-sensing signaling molecule autoinducer-2 to bacterial cell surfaces. | Q53580378 | ||
| Quorum sensing in Campylobacter jejuni: detection of a luxS encoded signalling molecule. | Q53670647 | ||
| Effects of quorum sensing on flaA transcription and autoagglutination in Campylobacter jejuni | Q79324090 | ||
| Autoinducer 2: a concentration-dependent signal for mutualistic bacterial biofilm growth | Q79780157 | ||
| Role of the luxS quorum-sensing system in biofilm formation and virulence of Staphylococcus epidermidis. | Q24537572 | ||
| Characterization of Campylobacter jejuni biofilms under defined growth conditions | Q24678404 | ||
| Bacterial biofilms: a common cause of persistent infections | Q27861033 | ||
| Characterization of autoinducer 2 signal in Eikenella corrodens and its role in biofilm formation | Q28267480 | ||
| A Mutation in the luxS gene influences Listeria monocytogenes biofilm formation | Q28485621 | ||
| Mutualism versus independence: strategies of mixed-species oral biofilms in vitro using saliva as the sole nutrient source | Q31000674 | ||
| Interspecies communication in Streptococcus gordonii-Veillonella atypica biofilms: signaling in flow conditions requires juxtaposition | Q31128928 | ||
| Correlated biofilm imaging, transport and metabolism measurements via combined nuclear magnetic resonance and confocal microscopy | Q31145597 | ||
| Does efficiency sensing unify diffusion and quorum sensing? | Q33274074 | ||
| Enterohemorrhagic Escherichia coli biofilms are inhibited by 7-hydroxyindole and stimulated by isatin | Q33283839 | ||
| Characterization of type 2 quorum sensing in Klebsiella pneumoniae and relationship with biofilm formation | Q33726869 | ||
| Autoinducer 2 controls biofilm formation in Escherichia coli through a novel motility quorum-sensing regulator (MqsR, B3022) | Q34233333 | ||
| YdgG (TqsA) controls biofilm formation in Escherichia coli K-12 through autoinducer 2 transport. | Q34303335 | ||
| LuxS-based signaling in Streptococcus gordonii: autoinducer 2 controls carbohydrate metabolism and biofilm formation with Porphyromonas gingivalis | Q34493259 | ||
| Isolation and functional analysis of luxS in Serratia plymuthica RVH1. | Q34559189 | ||
| Bacterial cell-to-cell communication: sorry, can't talk now - gone to lunch! | Q34588902 | ||
| A LuxS-dependent cell-to-cell language regulates social behavior and development in Bacillus subtilis. | Q34697605 | ||
| Mutation of luxS affects biofilm formation in Streptococcus mutans | Q34853180 | ||
| Pleiotropic role of quorum-sensing autoinducer 2 in Photorhabdus luminescens | Q35091864 | ||
| Autoinducer 2 production by Streptococcus gordonii DL1 and the biofilm phenotype of a luxS mutant are influenced by nutritional conditions | Q35172063 | ||
| A movable surface: formation of Yersinia sp. biofilms on motile Caenorhabditis elegans | Q35893870 | ||
| Autoinducer 2 is required for biofilm growth of Aggregatibacter (Actinobacillus) actinomycetemcomitans | Q35947247 | ||
| Quorum sensing in Escherichia coli is signaled by AI-2/LsrR: effects on small RNA and biofilm architecture. | Q35949964 | ||
| Making 'sense' of metabolism: autoinducer-2, LuxS and pathogenic bacteria. | Q36111883 | ||
| Quorum sensing and DNA release in bacterial biofilms | Q36418307 | ||
| Bacterially speaking | Q36456225 | ||
| Autoinducer-2 triggers the oxidative stress response in Mycobacterium avium, leading to biofilm formation | Q36497761 | ||
| Look who's talking: communication and quorum sensing in the bacterial world. | Q36759802 | ||
| Characterization of monospecies biofilm formation by Helicobacter pylori | Q37734935 | ||
| Functional genomics approach to identifying genes required for biofilm development by Streptococcus mutans. | Q39639225 | ||
| Haemophilus influenzae luxS mutants form a biofilm and have increased virulence | Q40385702 | ||
| P433 | issue | 8 | |
| P921 | main subject | biofilm | Q467410 |
| bacterial community | Q129982151 | ||
| P304 | page(s) | 635-643 | |
| P577 | publication date | 2008-06-09 | |
| P1433 | published in | Nature Reviews Microbiology | Q1071797 |
| P1476 | title | Establishing bacterial communities by 'word of mouth': LuxS and autoinducer 2 in biofilm development | |
| P478 | volume | 6 |
| Q33503418 | 2D proteome analysis initiates new insights on the Salmonella Typhimurium LuxS protein |
| Q33509387 | AI-2 does not function as a quorum sensing molecule in Campylobacter jejuni during exponential growth in vitro |
| Q35220721 | AI-2 of Aggregatibacter actinomycetemcomitans inhibits Candida albicans biofilm formation. |
| Q92381212 | Agent-Based Modeling Demonstrates How Local Chemotactic Behavior Can Shape Biofilm Architecture |
| Q90705058 | Arsenic Response of Three Altiplanic Exiguobacterium Strains With Different Tolerance Levels Against the Metalloid Species: A Proteomics Study |
| Q91700942 | Autoinducer 2 (AI-2) Production by Nontypeable Haemophilus influenzae 86-028NP Promotes Expression of a Predicted Glycosyltransferase That Is a Determinant of Biofilm Maturation, Prevention of Dispersal, and Persistence In Vivo |
| Q46515252 | Autoinducer-2 Facilitates Pseudomonas aeruginosa PAO1 Pathogenicity in Vitro and in Vivo |
| Q92650222 | Bacterial-Fungal Interactions in the Kelp Endomicrobiota Drive Autoinducer-2 Quorum Sensing |
| Q34151921 | Biofilm formation and dispersal in Gram-positive bacteria |
| Q41956031 | Biofilm formation by Clostridium difficile. |
| Q54230391 | Biofilm formation, host-cell adherence, and virulence genes regulation of Streptococcus suis in response to autoinducer-2 signaling. |
| Q42845093 | Biological Nanofactories Target and Activate Epithelial Cell Surfaces for Modulating Bacterial Quorum Sensing and Interspecies Signaling |
| Q27006003 | Biologically inspired strategies for combating bacterial biofilms |
| Q57191764 | Characterization and Salt Response in Recurrent Halotolerant sp. SH31 Isolated From Sediments of Salar de Huasco, Chilean Altiplano |
| Q91754438 | Clostridioides difficile LuxS mediates inter-bacterial interactions within biofilms |
| Q33396372 | DNA-microarrays identification of Streptococcus mutans genes associated with biofilm thickness |
| Q48286097 | Electronic modulation of biochemical signal generation |
| Q43191483 | Engineered biological nanofactories trigger quorum sensing response in targeted bacteria. |
| Q39389402 | FabR regulates Salmonella biofilm formation via its direct target FabB. |
| Q43192633 | Growth deficiencies of Neisseria meningitidis pfs and luxS mutants are not due to inactivation of quorum sensing |
| Q42108971 | Heterologous expression of sahH reveals that biofilm formation is autoinducer-2-independent in Streptococcus sanguinis but is associated with an intact activated methionine cycle |
| Q27330188 | How Escherichia coli lands and forms cell clusters on a surface: a new role of surface topography |
| Q42069638 | Identification of functional LsrB-like autoinducer-2 receptors |
| Q33651670 | In Helicobacter pylori auto-inducer-2, but not LuxS/MccAB catalysed reverse transsulphuration, regulates motility through modulation of flagellar gene transcription |
| Q55283690 | In Silico Analysis of the Quorum Sensing Metagenome in Environmental Biofilm Samples. |
| Q34077467 | Indirect pathogenicity of Haemophilus influenzae and Moraxella catarrhalis in polymicrobial otitis media occurs via interspecies quorum signaling. |
| Q37363220 | Insights on Escherichia coli biofilm formation and inhibition from whole-transcriptome profiling |
| Q35100354 | Integration of untargeted metabolomics with transcriptomics reveals active metabolic pathways |
| Q38234933 | Intercellular communications in multispecies oral microbial communities |
| Q64236686 | Interference With Quorum-Sensing Signal Biosynthesis as a Promising Therapeutic Strategy Against Multidrug-Resistant Pathogens |
| Q42748256 | Interspecies bacterial communication as a target for therapy in otitis media |
| Q37110448 | Involvement of Shewanella oneidensis MR-1 LuxS in biofilm development and sulfur metabolism |
| Q42089994 | LuxS promotes biofilm maturation and persistence of nontypeable haemophilus influenzae in vivo via modulation of lipooligosaccharides on the bacterial surface |
| Q41015455 | LuxS-dependent AI-2 production is not involved in global regulation of natural product biosynthesis in Photorhabdus and Xenorhabdus |
| Q33615266 | Microbial relevant fouling in membrane bioreactors: influencing factors, characterization, and fouling control |
| Q37398754 | Microbial telesensing: probing the environment for friends, foes, and food |
| Q36046449 | Molecular analysis of biofilms on the surface of neonatal endotracheal tubes based on 16S rRNA PCR-DGGE and species-specific PCR |
| Q42958466 | Multiple factors modulate biofilm formation by the anaerobic pathogen Clostridium difficile |
| Q36676963 | Natural genome diversity of AI-2 quorum sensing in Escherichia coli: conserved signal production but labile signal reception |
| Q36208226 | Oldenlandia diffusa Extract Inhibits Biofilm Formation by Haemophilus influenzae Clinical Isolates |
| Q37761826 | Oral multispecies biofilm development and the key role of cell-cell distance. |
| Q54232344 | Overexpression of luxS cannot increase autoinducer-2 production, only affect the growth and biofilm formation in Streptococcus suis. |
| Q33352676 | Pathway engineering via quorum sensing and sRNA riboregulators-interconnected networks and controllers |
| Q38220972 | Polybacterial human disease: the ills of social networking. |
| Q27667391 | Processing the Interspecies Quorum-sensing Signal Autoinducer-2 (AI-2): CHARACTERIZATION OF PHOSPHO-(S)-4,5-DIHYDROXY-2,3-PENTANEDIONE ISOMERIZATION BY LsrG PROTEIN |
| Q33985815 | Production of cell-cell signalling molecules by bacteria isolated from human chronic wounds |
| Q41494117 | Progress in study of oral biofilm dispersal-inducing agents |
| Q37578893 | Quorum sensing and social networking in the microbial world. |
| Q37382632 | Quorum sensing in veterinary pathogens: mechanisms, clinical importance and future perspectives |
| Q35004955 | Quorum sensing inhibitors increase the susceptibility of bacterial biofilms to antibiotics in vitro and in vivo. |
| Q34249338 | Quorum sensing signaling molecules produced by reference and emerging soft-rot bacteria (Dickeya and Pectobacterium spp.). |
| Q39343241 | RbsB (NTHI_0632) mediates quorum signal uptake in nontypeable Haemophilus influenzae strain 86-028NP. |
| Q33626996 | Robustness analysis of culturing perturbations on Escherichia coli colony biofilm beta-lactam and aminoglycoside antibiotic tolerance. |
| Q27652802 | Sinorhizobium meliloti, a bacterium lacking the autoinducer-2 (AI-2) synthase, responds to AI-2 supplied by other bacteria |
| Q28269575 | Small molecule control of bacterial biofilms |
| Q38133222 | Small molecule inhibitors of AI-2 signaling in bacteria: state-of-the-art and future perspectives for anti-quorum sensing agents |
| Q34502700 | Staphylococcus aureus autoinducer-2 quorum sensing decreases biofilm formation in an icaR-dependent manner. |
| Q37333704 | Streptococcus adherence and colonization. |
| Q51287837 | Subtilosin Prevents Biofilm Formation by Inhibiting Bacterial Quorum Sensing |
| Q48312289 | Survival of an Aggregatibacter actinomycetemcomitans quorum sensing luxS mutant in the mouths of Rhesus monkeys: insights into ecological adaptation |
| Q64074942 | The AI-2/ Quorum Sensing System Affects the Growth Characteristics, Biofilm Formation, and Virulence of |
| Q27657209 | The Crystal Structure of the Escherichia coli Autoinducer-2 Processing Protein LsrF |
| Q92759162 | The complete genome sequence of the algicidal bacterium Bacillus subtilis strain JA and the use of quorum sensing to evaluate its antialgal ability |
| Q30374337 | The fitness burden imposed by synthesising quorum sensing signals. |
| Q21263115 | The small regulatory RNA molecule MicA is involved in Salmonella enterica serovar Typhimurium biofilm formation |
| Q38372415 | What's in a name? The semantics of quorum sensing |
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