A transcriptomic atlas of mammalian olfactory mucosae reveals an evolutionary influence on food odor detection in humans
Saraiva L, Riveros-McKay F, Mezzavilla M, Abou-Moussa E, Arayata C, Makhlouf M, Trimmer C, Ibarra-Soria X, Khan M, Van Gerven L, Jorissen M, Gibbs M, O'Flynn C, McGrane S, Mombaerts P, Marioni J, Mainland J, Logan D. A transcriptomic atlas of mammalian olfactory mucosae reveals an evolutionary influence on food odor detection in humans. Science Advances 2019, 5: eaax0396. PMID: 31392275, PMCID: PMC6669018, DOI: 10.1126/sciadv.aax0396.Peer-Reviewed Original ResearchConceptsOlfactory sensory neuronsChemosensory receptor gene familiesSpecies-specific adaptationsOlfactory sensory neurons subtypesCanonical olfactory receptorsReceptor gene familyOlfactory mucosa samplesMammalian olfactory mucosaGene familyEcological nichesMammalian evolutionTranscriptomic atlasAnalyzed speciesEvolutionary dynamicsRNA sequencingMammalian olfactory systemEvolutionary influencesOlfactory mucosaHomologous subtypesSensory neuronsOlfactory receptorsMucosa samplesOlfactory systemSubtypesMammalian olfactionCombinatorial effects of odorants on mouse behavior
Saraiva L, Kondoh K, Ye X, Yoon K, Hernandez M, Buck L. Combinatorial effects of odorants on mouse behavior. Proceedings Of The National Academy Of Sciences Of The United States Of America 2016, 113: e3300-e3306. PMID: 27208093, PMCID: PMC4988607, DOI: 10.1073/pnas.1605973113.Peer-Reviewed Original ResearchConceptsTrace amine-associated receptorsOdor aversionBehavioral effectsInstinctive behavioral responsesBinary odor mixturesEffects of odorsOdorant receptorsAversive responsesPredator odorMouse behaviorOdor stimuliOdor mixturesOdor responsesOdor perceptionReceptor antagonismBehavioral responsesOdor detectionSingle receptorSensory inputInstinctive behaviorAversionOdorStereotyped natureReceptor inputMouse nose