2018
Intrinsic cooperativity potentiates parallel cis-regulatory evolution
Sorrells T, Johnson A, Howard C, Britton C, Fowler K, Feigerle J, Weil P, Johnson A. Intrinsic cooperativity potentiates parallel cis-regulatory evolution. ELife 2018, 7: e37563. PMID: 30198843, PMCID: PMC6173580, DOI: 10.7554/elife.37563.Peer-Reviewed Original ResearchConceptsRegulatory sequencesGeneral transcription factor TFIIDCis-regulatory evolutionRibosomal protein genesTranscription factor TFIIDCommon interaction partnersFungal lineagesAncestral regulatorFactor TFIIDIndependent lineagesEvolutionary eventsGenomic scaleTranscription regulatorsTranscriptional activationParallel evolutionProtein geneRegulatory proteinsSecond regulatorInteraction partnersRandom mutationsFunctional sitesIntrinsic cooperativityMcm1Rap1Regulator
2013
The Evolution of Lineage-Specific Regulatory Activities in the Human Embryonic Limb
Cotney J, Leng J, Yin J, Reilly SK, DeMare LE, Emera D, Ayoub AE, Rakic P, Noonan JP. The Evolution of Lineage-Specific Regulatory Activities in the Human Embryonic Limb. Cell 2013, 154: 185-196. PMID: 23827682, PMCID: PMC3785101, DOI: 10.1016/j.cell.2013.05.056.Peer-Reviewed Original ResearchConceptsCis-regulatory evolutionHistone modification H3K27acGenome-wide viewMouse limb developmentRegulatory activityGain of activityMost enhancersGene regulationEmbryonic limbLimb developmentHuman lineageEnhancer activityHuman embryonic tissuesGene expressionEmbryonic tissuesRegulatory functionsPromoterH3K27acMolecular driversGenetic causeHeterogeneous genetic causesEnhancerQuantitative readoutMorphological evolutionAnatomical features
2008
Adaptive changes in the transcription factor HoxA-11 are essential for the evolution of pregnancy in mammals
Lynch VJ, Tanzer A, Wang Y, Leung FC, Gellersen B, Emera D, Wagner GP. Adaptive changes in the transcription factor HoxA-11 are essential for the evolution of pregnancy in mammals. Proceedings Of The National Academy Of Sciences Of The United States Of America 2008, 105: 14928-14933. PMID: 18809929, PMCID: PMC2567470, DOI: 10.1073/pnas.0802355105.Peer-Reviewed Original ResearchConceptsCis-regulatory elementsHoxa-11Evolutionary changePlacental mammalsEutherian mammalsTranscription factorsCis-regulatory evolutionDirect regulatory targetsGene expression domainsStrong positive selectionNovel developmental pathwayPRL expressionTherian ancestorGene regulationExpression domainsPositive selectionRegulatory targetsNovel functionDevelopmental pathwaysMammalsSpatial expressionProlactin expressionGenesExpressionAdaptive changes
2004
Adaptive evolution of HoxA11 and HoxA13 at the origin of the uterus in mammals
Lynch V, Roth J, Takahashi K, Dunn C, Nonaka D, Stopper G, Wagner G. Adaptive evolution of HoxA11 and HoxA13 at the origin of the uterus in mammals. Proceedings Of The Royal Society B 2004, 271: 2201-2207. PMID: 15539344, PMCID: PMC1691855, DOI: 10.1098/rspb.2004.2848.Peer-Reviewed Original ResearchConceptsAdaptive evolutionTranscription factorsMolecular evolutionHoxa-11Hoxa-13Cis-regulatory evolutionAdaptive molecular evolutionEvolution of developmentMammalian female reproductive systemStrong positive selectionCis-regulatory elementsAmniote taxaDevelopmental genesStem lineageDevelopmental evolutionEvolutionary changeEutherian mammalsSpatial regulationPositive selectionMorphological charactersFemale reproductive organsGenesFemale reproductive systemReproductive organsMammals
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