2013
New Gene Evolution: Little Did We Know
Long M, VanKuren NW, Chen S, Vibranovski MD. New Gene Evolution: Little Did We Know. Annual Review Of Genetics 2013, 47: 307-333. PMID: 24050177, PMCID: PMC4281893, DOI: 10.1146/annurev-genet-111212-133301.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrainDrosophila melanogasterEvolution, MolecularForecastingGene DosageGene DuplicationGene Expression RegulationGene Regulatory NetworksGene Transfer, HorizontalGenesGenes, InsectGenes, PlantGenetic StructuresHumansMammalsModels, GeneticPhenotypePhylogenyRecombination, GeneticRNA, UntranslatedSelection, GeneticSex CharacteristicsTranscription, GeneticConceptsNew gene originationNew genesGene originationGenetic systemNew gene evolutionNew gene structuresGene evolutionPhenotypic evolutionGene structureDifferent organismsBiological diversityPhenotypic functionsGenesGenomeOriginationEvolutionDecades of effortOrganismsDiversityComprehensive pictureCritical componentNew genes as drivers of phenotypic evolution
Chen S, Krinsky BH, Long M. New genes as drivers of phenotypic evolution. Nature Reviews Genetics 2013, 14: 645-660. PMID: 23949544, PMCID: PMC4236023, DOI: 10.1038/nrg3521.Peer-Reviewed Original ResearchConceptsNew genesPhenotypic evolutionLineage-specific essential genesBiological processesUnexpected genetic diversityEvolution of phenotypesFundamental biological processesGene evolutionGenetic circuitryDrosophila sppEssential genesField of geneticsGenetic diversityGenetic systemBiological diversityMolecular explanationGenesIndispensable roleKey PointsThe studySpeciesDiversityEssential componentEvolutionMammalsCentral importance
2012
Frequent Recent Origination of Brain Genes Shaped the Evolution of Foraging Behavior in Drosophila
Chen S, Spletter M, Ni X, White KP, Luo L, Long M. Frequent Recent Origination of Brain Genes Shaped the Evolution of Foraging Behavior in Drosophila. Cell Reports 2012, 1: 118-132. PMID: 22832161, PMCID: PMC4382513, DOI: 10.1016/j.celrep.2011.12.010.Peer-Reviewed Original ResearchMeSH KeywordsAdaptation, PhysiologicalAgingAmino Acid SequenceAnimalsArthropod AntennaeBrainDrosophila melanogasterDrosophila ProteinsEvolution, MolecularFeeding BehaviorFemaleGene Expression ProfilingGene Expression Regulation, DevelopmentalGenes, InsectMaleMolecular Sequence DataMushroom BodiesNeuronsSelection, GeneticSex CharacteristicsSynaptic TransmissionTranscriptomeConceptsNew genesForaging behaviorMushroom bodiesYoung retrogenesAdaptive evolutionPhenotypic evolutionEvolutionary signaturesYoung genesNatural selectionGenetic basisBrain genesExpression profilingComparative behavioral analysisBrain evolutionGenesOlfactory circuitDrosophilaNew functionsAnimal behaviorNeuronal expressionExpressionRetrogenesNeural circuitsEvolutionRecent evolution
2011
Highly Tissue Specific Expression of Sphinx Supports Its Male Courtship Related Role in Drosophila melanogaster
Chen Y, Dai H, Chen S, Zhang L, Long M. Highly Tissue Specific Expression of Sphinx Supports Its Male Courtship Related Role in Drosophila melanogaster. PLOS ONE 2011, 6: e18853. PMID: 21541324, PMCID: PMC3082539, DOI: 10.1371/journal.pone.0018853.Peer-Reviewed Original ResearchMeSH KeywordsAnimal StructuresAnimalsBase PairingBase SequenceBrainConserved SequenceCourtshipDrosophila melanogasterFemaleGene Expression ProfilingGene Expression RegulationGenome, InsectGreen Fluorescent ProteinsMaleMolecular Sequence DataMutationOrgan SpecificityPeripheral Nervous SystemPromoter Regions, GeneticRNA, UntranslatedSexual Behavior, AnimalTransformation, GeneticConceptsDrosophila melanogasterBp regionCourtship behaviorNon-coding RNA genesWhole genome expression profilingBp upstream regionTissue-specific expressionGenome expression profilingMale courtship behaviorMale accessory glandsMelanogaster subgroupDrosophila speciesD. virilisRNA genesGene categoriesProtein functionKnockout mutationsWing hairsMale courtshipTarget genesExpression profilingGFP signalNegative regulatorEnhancer elementsExpression signals