2006
EVIDENCE FOR THE REVERSIBILITY OF DIGIT LOSS: A PHYLOGENETIC STUDY OF LIMB EVOLUTION IN BACHIA (GYMNOPHTHALMIDAE: SQUAMATA)
Kohlsdorf T, Wagner GP. EVIDENCE FOR THE REVERSIBILITY OF DIGIT LOSS: A PHYLOGENETIC STUDY OF LIMB EVOLUTION IN BACHIA (GYMNOPHTHALMIDAE: SQUAMATA). Evolution 2006, 60: 1896-1912. PMID: 17089974, DOI: 10.1111/j.0014-3820.2006.tb00533.x.Peer-Reviewed Original ResearchConceptsDigit lossSouth American genusMolecular phylogenyLimb evolutionComplex traitsPhylogenetic studiesEvolutionary changeBachiaAmerican generaGenetic informationDigit numberReevolutionMost membersSpecific phenotypesTraitsStrong evidencePhylogenyVisible effectTaxaGenusGenesMorphological structurePhenotypeEvolutionLimited numberEVIDENCE FOR THE REVERSIBILITY OF DIGIT LOSS: A PHYLOGENETIC STUDY OF LIMB EVOLUTION IN BACHIA (GYMNOPHTHALMIDAE: SQUAMATA)
Kohlsdorf T, Wagner G. EVIDENCE FOR THE REVERSIBILITY OF DIGIT LOSS: A PHYLOGENETIC STUDY OF LIMB EVOLUTION IN BACHIA (GYMNOPHTHALMIDAE: SQUAMATA). Evolution 2006, 60: 1896-1912. DOI: 10.1554/06-056.1.Peer-Reviewed Original ResearchDigit lossSouth American genusMolecular phylogenyLimb evolutionComplex traitsPhylogenetic studiesEvolutionary changeBachiaAmerican generaGenetic informationDigit numberReevolutionMost membersSpecific phenotypesTraitsStrong evidencePhylogenyVisible effectTaxaGenusGenesMorphological structurePhenotypeEvolutionLimited number
2002
Evolution of functionally conserved enhancers can be accelerated in large populations: a populationgenetic model
Carter A, Wagner G. Evolution of functionally conserved enhancers can be accelerated in large populations: a populationgenetic model. Proceedings Of The Royal Society B 2002, 269: 953-960. PMID: 12028779, PMCID: PMC1690979, DOI: 10.1098/rspb.2002.1968.Peer-Reviewed Original ResearchConceptsPopulation sizeRelated Drosophila speciesCis-regulatory elementsPopulation genetic modelsRate of evolutionModerate population sizesDrosophila speciesDrosophila EnhancerVertebrate enhancersDynamics of fixationDifferent taxaCompensatory mutationsNeutral rateGeneration timeSmall populationEnhancerTaxaSpatial organizationLarge populationSpeciesMutationsSequenceVertebratesEvolutionPopulation