2016
Multiple Signals Govern Utilization of a Polysaccharide in the Gut Bacterium Bacteroides thetaiotaomicron
Schwalm ND, Townsend GE, Groisman EA. Multiple Signals Govern Utilization of a Polysaccharide in the Gut Bacterium Bacteroides thetaiotaomicron. MBio 2016, 7: 10.1128/mbio.01342-16. PMID: 27729509, PMCID: PMC5061871, DOI: 10.1128/mbio.01342-16.Peer-Reviewed Original ResearchConceptsMammalian gut microbiotaPolysaccharide utilization genesUtilization genesHost dietGut symbiont Bacteroides thetaiotaomicronComplex polysaccharidesBacteroides thetaiotaomicronPleiotropic transcriptional regulatorDomains of lifeSubset of organismsRegulatory paradigmCritical nutrient sourceTranscriptional activatorTranscriptional regulatorsTranscriptional repressorCentral metabolismGenomic analysisMammalian gutMammalian hostsRegulatory architectureGut BacteroidesPolymeric fructanGut microbiotaGut bacteriumPolysaccharide breakdown
2008
Evolution and Dynamics of Regulatory Architectures Controlling Polymyxin B Resistance in Enteric Bacteria
Mitrophanov AY, Jewett MW, Hadley TJ, Groisman EA. Evolution and Dynamics of Regulatory Architectures Controlling Polymyxin B Resistance in Enteric Bacteria. PLOS Genetics 2008, 4: e1000233. PMID: 18949034, PMCID: PMC2565834, DOI: 10.1371/journal.pgen.1000233.Peer-Reviewed Original ResearchConceptsRegulatory architectureComplex genetic networksDirect transcriptional controlEnteric bacteriaPolymyxin B resistanceEvolutionary historyTranscriptional controlGenetic networksRegulatory proteinsRegulatory pathwaysCellular responsesStructural modulesIndirect regulationRapid activationB resistanceExpression levelsMRNA expression levelsAntibiotic polymyxin BRegulation circuitBacteriaInducible resistanceFunctional propertiesProteinSystem postTransitional stageThe PhoQ/PhoP Regulatory Network of Salmonella enterica
Kato A, Groisman EA. The PhoQ/PhoP Regulatory Network of Salmonella enterica. Advances In Experimental Medicine And Biology 2008, 631: 7-21. PMID: 18792679, DOI: 10.1007/978-0-387-78885-2_2.Peer-Reviewed Original ResearchConceptsTwo-component regulatory systemPathogen Salmonella enterica serovar TyphimuriumEnteric pathogen Salmonella enterica serovar TyphimuriumDistinct expression levelsPhoQ/PhoPTwo-component systemSalmonella enterica serovar TyphimuriumBacterial cell surfacePhoQ proteinPhoP proteinResponse regulatorTranscriptional cascadeConnector proteinEnterica serovar TyphimuriumPromoter structureRegulatory networksTranscription factorsSalmonella genesRegulatory architectureSalmonella lifestyleMajor regulatorExpression propertiesCell surfaceModifies expressionRegulatory system
2007
A connector of two-component regulatory systems promotes signal amplification and persistence of expression
Kato A, Mitrophanov AY, Groisman EA. A connector of two-component regulatory systems promotes signal amplification and persistence of expression. Proceedings Of The National Academy Of Sciences Of The United States Of America 2007, 104: 12063-12068. PMID: 17615238, PMCID: PMC1924540, DOI: 10.1073/pnas.0704462104.Peer-Reviewed Original ResearchConceptsTwo-component regulatory systemBacterial signal transductionRegulatory systemPersistence of expressionSignal transductionGene transcriptionRegulatory architectureSmall proteinsSalmonella entericaPathwayFunctional characteristicsPmrDExpressionFunctional propertiesPhoP.AmplificationTranscriptionSignal amplificationTransductionGenesDominant formOrganismsProteinPersistenceEnterica