2019
New Twists and Turns in Bacterial Locomotion and Signal Transduction
Watts KJ, Vaknin A, Fuqua C, Kazmierczak BI. New Twists and Turns in Bacterial Locomotion and Signal Transduction. Journal Of Bacteriology 2019, 201: 10.1128/jb.00439-19. PMID: 31358610, PMCID: PMC6755736, DOI: 10.1128/jb.00439-19.Peer-Reviewed Original ResearchConceptsSignal transductionTwo-component signal transduction pathwayTwo-component signal transduction systemBacterial locomotionContribution of motilityCryo-electron tomographySignal transduction systemSystems biology approachSignal transduction pathwaysIndividual bacterial cellsMulticellular organismsProkaryotic organismsBiology approachChemosensory receptorsFlagellar motorPathogenic interactionsTransduction pathwaysTransduction systemIndividual proteinsSensing pathwaysProtein labelingBehavior of thousandsComplex ecosystemsProtein spaceLiving cells
2016
ORDB, HORDE, ODORactor and other on-line knowledge resources of olfactory receptor-odorant interactions
Marenco L, Wang R, McDougal R, Olender T, Twik M, Bruford E, Liu X, Zhang J, Lancet D, Shepherd G, Crasto C. ORDB, HORDE, ODORactor and other on-line knowledge resources of olfactory receptor-odorant interactions. Database 2016, 2016: baw132. PMID: 27694208, PMCID: PMC5045865, DOI: 10.1093/database/baw132.Peer-Reviewed Original Research
2015
Molecular and neuronal homology between the olfactory systems of zebrafish and mouse
Saraiva L, Ahuja G, Ivandic I, Syed A, Marioni J, Korsching S, Logan D. Molecular and neuronal homology between the olfactory systems of zebrafish and mouse. Scientific Reports 2015, 5: 11487. PMID: 26108469, PMCID: PMC4480006, DOI: 10.1038/srep11487.Peer-Reviewed Original ResearchConceptsDegree of molecular conservationYears of evolutionary divergenceVomeronasal organOlfactory mucosaOlfactory organChemosensory receptor genesOlfactory systemTranscriptome of miceDual olfactory systemEvolutionary divergenceMolecular conservationNeuronal homologRepertoire sizeRNA abundanceMolecular relationshipsCell-specific markersClasses of neuronsMolecular basisChemosensory receptorsMarker genesOrgans of rodentsAbsolute abundanceZebrafishReceptor geneVertebrates
2014
Olfactory Receptor Patterning in a Higher Primate
Horowitz L, Saraiva L, Kuang D, Yoon K, Buck L. Olfactory Receptor Patterning in a Higher Primate. Journal Of Neuroscience 2014, 34: 12241-12252. PMID: 25209267, PMCID: PMC4160765, DOI: 10.1523/jneurosci.1779-14.2014.Peer-Reviewed Original ResearchConceptsTrace amine-associated receptorsHuman trace amine-associated receptorDetect social cuesHuman olfactory perceptionOdorant receptorsMammalian olfactory systemOrganization of sensory inputsSocial cuesOlfactory perceptionOlfactory bulbOlfactory systemSensory inputInstinctive behaviorMouse nosePrimatesDifferent domainsOrganizational strategiesReceptor patternsMacaquesReceptorsCuesChemosensory receptorsMiceOlfactionBrain
2012
Synchronous Evolution of an Odor Biosynthesis Pathway and Behavioral Response
Li Q, Korzan W, Ferrero D, Chang R, Roy D, Buchi M, Lemon J, Kaur A, Stowers L, Fendt M, Liberles S. Synchronous Evolution of an Odor Biosynthesis Pathway and Behavioral Response. Current Biology 2012, 23: 11-20. PMID: 23177478, PMCID: PMC3543494, DOI: 10.1016/j.cub.2012.10.047.Peer-Reviewed Original ResearchConceptsTrace amine-associated receptor 5Species-specific behaviorsFlavin-Containing Monooxygenase 3Biosynthesis pathwayOdor-evoked behaviorsOlfactory receptorsSocial communicationBehavioral responsesMus lineageOlfactory cuesSocial interactionGene repressionMus caroliOlfactory signalsEvolutionary alterationsOxidize trimethylamineTrimethylamine productionChemosensory receptorsCommensal microfloraOdorEnzymatic depletionKnockout miceReceptor 5MusPathway
2007
The molecular basis of CO2 reception in Drosophila
Kwon JY, Dahanukar A, Weiss LA, Carlson JR. The molecular basis of CO2 reception in Drosophila. Proceedings Of The National Academy Of Sciences Of The United States Of America 2007, 104: 3574-3578. PMID: 17360684, PMCID: PMC1805529, DOI: 10.1073/pnas.0700079104.Peer-Reviewed Original ResearchConceptsMolecular basisVivo expression systemChemoreceptor genesHigher eukaryotesChemosensory receptorsInsect pestsChemosensory neuronsGene confersExpression systemLarge familyGr63aDrosophilaCO2 receptionGr21aInsectsMosquito vectorsIdentification of agentsEukaryotesPestsReceptorsGenesLarvaeIdentificationYellow feverConfers
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