2024
CpG island turnover events predict evolutionary changes in enhancer activity
Kocher A, Dutrow E, Uebbing S, Yim K, Rosales Larios M, Baumgartner M, Nottoli T, Noonan J. CpG island turnover events predict evolutionary changes in enhancer activity. Genome Biology 2024, 25: 156. PMID: 38872220, PMCID: PMC11170920, DOI: 10.1186/s13059-024-03300-z.Peer-Reviewed Original ResearchConceptsHuman-gained enhancersCpG islandsFunction of transcriptional enhancersEvolution of biological diversityHuman CpG islandsGene regulatory changesInfluence enhancer activityCpG island contentHistone modification levelsEnhanced activitySpecies-specific activityTrait evolutionNucleotide substitutionsHistone modificationsTranscriptional enhancersMouse orthologEvolutionary changesTurnover eventsModification levelsMammalian speciesMultiple tissuesEmbryonic developmentMouse diencephalonHuman embryonic developmentSpecies
2022
Modeling uniquely human gene regulatory function via targeted humanization of the mouse genome
Dutrow EV, Emera D, Yim K, Uebbing S, Kocher AA, Krenzer M, Nottoli T, Burkhardt DB, Krishnaswamy S, Louvi A, Noonan JP. Modeling uniquely human gene regulatory function via targeted humanization of the mouse genome. Nature Communications 2022, 13: 304. PMID: 35027568, PMCID: PMC8758698, DOI: 10.1038/s41467-021-27899-w.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceCell DifferentiationChondrocytesChondrogenesisEmbryo, MammalianEnhancer Elements, GeneticEpigenesis, GeneticExtremitiesGene Expression ProfilingGene Expression RegulationGene Knock-In TechniquesGenomeHomeodomain ProteinsHomozygoteHumansMesodermMice, Inbred C57BLModels, GeneticPan troglodytesPromoter Regions, GeneticTime FactorsConceptsHuman Accelerated RegionsGene expressionHuman-specific sequence changesDevelopmental gene regulationSingle-cell RNA sequencingGene regulatory functionsHuman evolutionEndogenous gene expressionAlters gene expressionSkeletal patterningMolecular functionsGene regulationChondrogenic mesenchymeMouse genomeRegulatory modificationHomozygous embryosLimb developmentTranscriptional enhancersTranscription factorsRNA sequencingEnhancer activityMouse embryosRegulatory functionsAccelerated regionSequence changes
2020
Massively parallel discovery of human-specific substitutions that alter enhancer activity
Uebbing S, Gockley J, Reilly SK, Kocher AA, Geller E, Gandotra N, Scharfe C, Cotney J, Noonan JP. Massively parallel discovery of human-specific substitutions that alter enhancer activity. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 118: e2007049118. PMID: 33372131, PMCID: PMC7812811, DOI: 10.1073/pnas.2007049118.Peer-Reviewed Original ResearchConceptsHuman-specific substitutionsHuman-gained enhancersGenetic changesEnhancer functionEnhancer activityHuman-specific genetic changesHuman evolutionGene regulatory elementsBackground genetic variationAncestral functionRegulatory evolutionEnhancer assaysGenetic variationRegulatory elementsNeural stem cellsHuman traitsNovel activityNonadditive wayRegulatory activityStem cellsFunctional impactDifferential activityParallel discoveryEnhancerEvolution
2016
Origin and evolution of developmental enhancers in the mammalian neocortex
Emera D, Yin J, Reilly SK, Gockley J, Noonan JP. Origin and evolution of developmental enhancers in the mammalian neocortex. Proceedings Of The National Academy Of Sciences Of The United States Of America 2016, 113: e2617-e2626. PMID: 27114548, PMCID: PMC4868431, DOI: 10.1073/pnas.1603718113.Peer-Reviewed Original ResearchConceptsRegulatory elementsDe novo birthMammalian stem lineageNovel regulatory sequencesWeak evolutionary constraintsMammalian neocortexBackground genomic sequencesDevelopmental enhancersEvolutionary constraintsMorphological innovationsStem lineageEutherian mammalsGenomic sequencesRegulatory sequencesPhylogenetic originComplex enhancerCell signalingGenomic backgroundMouse corticogenesisCell migrationMammalsMammalian forebrainEnhancerGenesLife cycle
2015
The autism-associated chromatin modifier CHD8 regulates other autism risk genes during human neurodevelopment
Cotney J, Muhle RA, Sanders SJ, Liu L, Willsey AJ, Niu W, Liu W, Klei L, Lei J, Yin J, Reilly SK, Tebbenkamp AT, Bichsel C, Pletikos M, Sestan N, Roeder K, State MW, Devlin B, Noonan JP. The autism-associated chromatin modifier CHD8 regulates other autism risk genes during human neurodevelopment. Nature Communications 2015, 6: 6404. PMID: 25752243, PMCID: PMC4355952, DOI: 10.1038/ncomms7404.Peer-Reviewed Original ResearchConceptsASD risk genesRisk genesRegulatory networksAncient gene regulatory networksHuman neural stem cellsLoss of CHD8Specific regulatory networksGene regulatory networksCo-expression networkAutism risk genesEmbryonic mouse cortexChromatin modifiersIdentification of recurrentChromodomain-HelicaseChd8 knockdownNeural stem cellsMouse neurodevelopmentCHD8Human brain developmentFunction mutationsGenesStem cellsHuman neurodevelopmentNovo lossBrain developmentEvolutionary changes in promoter and enhancer activity during human corticogenesis
Reilly SK, Yin J, Ayoub AE, Emera D, Leng J, Cotney J, Sarro R, Rakic P, Noonan JP. Evolutionary changes in promoter and enhancer activity during human corticogenesis. Science 2015, 347: 1155-1159. PMID: 25745175, PMCID: PMC4426903, DOI: 10.1126/science.1260943.Peer-Reviewed Original ResearchConceptsCorrelated gene expression patternsSimilar transcription factorsGene expression patternsCommon regulatory mechanismHuman cortical evolutionPotential regulatory changesEvolutionary changeEpigenetic profilingEvolutionary expansionTranscription factorsGenetic mechanismsSite enrichmentEnhancer activityDevelopmental processesExpression patternsHuman corticogenesisRegulatory mechanismsMouse corticogenesisHuman higher cognitionCortical evolutionPromoterCorticogenesisCoordinated patternNeuronal proliferationEnhancer
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
2010
Genomics of Long-Range Regulatory Elements
Noonan JP, McCallion AS. Genomics of Long-Range Regulatory Elements. Annual Review Of Genomics And Human Genetics 2010, 11: 1-23. PMID: 20438361, DOI: 10.1146/annurev-genom-082509-141651.Peer-Reviewed Original ResearchConceptsRegulatory elementsGene expressionLong-range regulatory elementsCis-acting elementsHuman cell typesVertebrate genomesModel organismsSequence conservationTranscriptional regulationHuman genomeGenomic distanceRegulatory sequencesTransgenic technologyRegulatory potentialBiological functionsRegulatory functionsGenomeBiological significanceCell typesLarge-scale effortsRegulatory controlExpressionCommon setGenomicsGenes
2008
Human-Specific Gain of Function in a Developmental Enhancer
Prabhakar S, Visel A, Akiyama JA, Shoukry M, Lewis KD, Holt A, Plajzer-Frick I, Morrison H, FitzPatrick DR, Afzal V, Pennacchio LA, Rubin EM, Noonan JP. Human-Specific Gain of Function in a Developmental Enhancer. Science 2008, 321: 1346-1350. PMID: 18772437, PMCID: PMC2658639, DOI: 10.1126/science.1159974.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceBinding SitesBody PatterningConserved SequenceEmbryonic DevelopmentEnhancer Elements, GeneticEvolution, MolecularExtremitiesGene Expression ProfilingGene Expression Regulation, DevelopmentalHumansLimb BudsMacaca mulattaMiceMice, TransgenicMolecular Sequence DataMutationPan troglodytesPAX9 Transcription FactorSelection, GeneticTranscription FactorsConceptsExpression domainsHuman-specific substitutionsHuman-specific gainsGain of functionOrthologous elementsDevelopmental enhancersAncestral stateGene regulationNoncoding sequencesTerrestrial vertebratesHuman enhancersSynthetic enhancersEnhancer sequencesGene expressionRegulatory functionsDevelopmental stagesVivo analysisEnhancerVivo evidenceTransgenic miceSequenceVertebratesDomainRegulationSubstitution
2006
Accelerated Evolution of Conserved Noncoding Sequences in Humans
Prabhakar S, Noonan JP, Pääbo S, Rubin EM. Accelerated Evolution of Conserved Noncoding Sequences in Humans. Science 2006, 314: 786-786. PMID: 17082449, DOI: 10.1126/science.1130738.Peer-Reviewed Original ResearchConceptsNoncoding sequencesNeuronal cell adhesionConserved Noncoding SequencesCis-regulatory changesHuman-specific substitutionsCell adhesionHuman regulatory sequencesPhenotypic divergenceAdaptive substitutionsGene regulationAccelerated evolutionIndependent evolutionRegulatory sequencesAdhesion genesHuman evolutionNeuronal phenotypeDifferent neuronal phenotypesGenesSequenceSimilar enrichmentBrain developmentChimpanzeesEvolutionMammalsAdhesion