2021
Genomic analyses of new genes and their phenotypic effects reveal rapid evolution of essential functions in Drosophila development
Xia S, VanKuren NW, Chen C, Zhang L, Kemkemer C, Shao Y, Jia H, Lee U, Advani AS, Gschwend A, Vibranovski MD, Chen S, Zhang YE, Long M. Genomic analyses of new genes and their phenotypic effects reveal rapid evolution of essential functions in Drosophila development. PLOS Genetics 2021, 17: e1009654. PMID: 34242211, PMCID: PMC8270118, DOI: 10.1371/journal.pgen.1009654.Peer-Reviewed Original ResearchConceptsNew genesPhenotypic effectsEssential functionsLong evolutionary time scalesDevelopment of DrosophilaEvolutionary time scalesDrosophila developmentDrosophila genusEssential genesGene essentialityRNAi libraryYoung genesGenomic analysisCRISPR knockoutKnockout approachGenetic basisKnockdown experimentsComputational identificationGene effectsGenesDuplicate copiesRapid evolutionDrosophilaKnockdown efficiencyDistant ancestors
2016
Signal Transduction and Regulation: Insights into Evolution
Yi S, Chen S, Zhang L, Sahni N. Signal Transduction and Regulation: Insights into Evolution. BioMed Research International 2016, 2016: 8604245. PMID: 27525280, PMCID: PMC4971294, DOI: 10.1155/2016/8604245.Peer-Reviewed Original Research
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
Adaptive Evolution and the Birth of CTCF Binding Sites in the Drosophila Genome
Ni X, Zhang YE, Nègre N, Chen S, Long M, White KP. Adaptive Evolution and the Birth of CTCF Binding Sites in the Drosophila Genome. PLOS Biology 2012, 10: e1001420. PMID: 23139640, PMCID: PMC3491045, DOI: 10.1371/journal.pbio.1001420.Peer-Reviewed Original ResearchMeSH KeywordsAdaptation, BiologicalAnimalsBase SequenceBinding SitesCCCTC-Binding FactorConserved SequenceDrosophilaDrosophila ProteinsEvolution, MolecularGenetic DriftGenetics, PopulationGenome, InsectOligonucleotide Array Sequence AnalysisPhylogenyProtein BindingRepressor ProteinsSelection, GeneticSpecies SpecificityTime FactorsConceptsCTCF binding siteDrosophila melanogasterNew genesCis-regulatory DNA sequencesGene expressionSpecies of DrosophilaGenome-wide bindingSignatures of selectionGenomes of humansComparative gene expression profilingGenome sequence dataRecent common ancestorGene expression profilingBinding sitesExpression divergenceGenome evolutionAdaptive evolutionDrosophila genomeDrosophila simulansEvolutionary ratesCTCF bindingCTCF proteinEvolutionary distanceNew CTCFCommon ancestorReshaping of global gene expression networks and sex‐biased gene expression by integration of a young gene
Chen S, Ni X, Krinsky BH, Zhang YE, Vibranovski MD, White KP, Long M. Reshaping of global gene expression networks and sex‐biased gene expression by integration of a young gene. The EMBO Journal 2012, 31: 2798-2809. PMID: 22543869, PMCID: PMC3380208, DOI: 10.1038/emboj.2012.108.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDrosophilaEvolution, MolecularFertilityGene Expression ProfilingGene Expression RegulationGene Regulatory NetworksConceptsSex-biased gene expressionNew genesGene expressionPre-existing genesCo-evolved interactionsGenomic binding profileNew gene networksComparative expression profilingOrgan expression patternsGene expression networksEssential biological processesDiverse taxaYoung genesExpression networksGene networksRelated speciesGenetic networksDownstream genesGenomic levelExpression profilingExpression patternsBiological processesGenesMale fecundityCAF40Frequent 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
Roles of young serine-endopeptidase genes in survival and reproduction revealed rapid evolution of phenotypic effects at adult stages
Chen S, Yang H, Krinsky BH, Zhang A, Long M. Roles of young serine-endopeptidase genes in survival and reproduction revealed rapid evolution of phenotypic effects at adult stages. Fly 2011, 5: 345-351. PMID: 21946255, PMCID: PMC3266076, DOI: 10.4161/fly.5.4.17808.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDrosophila melanogasterDrosophila ProteinsEvolution, MolecularGene DuplicationLongevityPhenotypeReproductionSerine EndopeptidasesConceptsYoung genesConstitutive knockdownAdult stageD. melanogaster subgroupEvolution of developmentImportant functional roleMelanogaster subgroupDrosophila melanogasterLethal phenotypeNew genesCommon ancestorImportant traitsNatural selectionEndopeptidase genePhenotypic effectsLife historyWildtype levelsMultiple phenotypesGenesFunctional roleGenetic componentRapid evolutionMale fertilityFemale fertilityKnockdown
2010
New Genes in Drosophila Quickly Become Essential
Chen S, Zhang YE, Long M. New Genes in Drosophila Quickly Become Essential. Science 2010, 330: 1682-1685. PMID: 21164016, PMCID: PMC7211344, DOI: 10.1126/science.1196380.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SubstitutionAnimalsBody PatterningDrosophilaDrosophila melanogasterDrosophila ProteinsEvolution, MolecularGene DuplicationGene Expression ProfilingGene Expression Regulation, DevelopmentalGenes, EssentialGenes, InsectLarvaMetamorphosis, BiologicalPhenotypePhylogenyPupaRNA InterferenceTime FactorsWings, Animal