Analysis of cytochrome P450 contribution to evolved plant toxin resistance in Drosophila sechellia
Peyser R, Lanno S, Shimshak S, Coolon J. Analysis of cytochrome P450 contribution to evolved plant toxin resistance in Drosophila sechellia. Insect Molecular Biology 2017, 26: 715-720. PMID: 28703934, DOI: 10.1111/imb.12329.Peer-Reviewed Original ResearchConceptsD. sechelliaDrosophila sechelliaToxin resistanceCytochrome P450 enzymatic activityEnzymatic activityCytochrome P450 gene familyP450 gene familyM. citrifolia fruitDrosophila simulansGenetic mapDrosophila melanogasterDefence compoundsGene familyBasal resistanceHost plantsGenetic basisSpecies of fruit fliesFruit flyFunctional studiesSechelliaGenesLociCytochromePrimary toxinToxinGenetic basis of octanoic acid resistance in Drosophila sechellia: functional analysis of a fine‐mapped region
López J, Lanno S, Auerbach J, Moskowitz E, Sligar L, Wittkopp P, Coolon J. Genetic basis of octanoic acid resistance in Drosophila sechellia: functional analysis of a fine‐mapped region. Molecular Ecology 2017, 26: 1148-1160. PMID: 28035709, PMCID: PMC5330365, DOI: 10.1111/mec.14001.Peer-Reviewed Original ResearchConceptsD. sechelliaOA resistanceDrosophila sechelliaRNA interferenceGenetic basisEvolutionary changesTissue-specific RNA interferenceFine-mapped regionKnock down expressionGene expression analysisD. simulansSister speciesChromosome 3RGenomic regionsD. melanogasterDefence compoundsLevel of expressionToxic fruitsFat bodySpecies of fruit fliesEnvironmental plasticityGenesSeychelles IslandsFruit flyFunctional analysis