2010
The Arabidopsis Floral Homeotic Proteins APETALA3 and PISTILLATA Negatively Regulate the BANQUO Genes Implicated in Light Signaling
Mara CD, Huang T, Irish VF. The Arabidopsis Floral Homeotic Proteins APETALA3 and PISTILLATA Negatively Regulate the BANQUO Genes Implicated in Light Signaling. The Plant Cell 2010, 22: 690-702. PMID: 20305124, PMCID: PMC2861465, DOI: 10.1105/tpc.109.065946.Peer-Reviewed Original ResearchConceptsPetal identityBHLH transcription factorsDevelopmental signaling pathwaysSecond whorl organsBHLH proteinsLight signalingHelix proteinsAPETALA3Light responseTranscription factorsGene productsPistillataChlorophyll levelsSignaling pathwaysGenesRegulatory processesProteinAppropriate regulationHFR1ArabidopsisPhotomorphogenesisMutantsSepalsCarpelsPhytochrome
2006
Functional Analyses of Two Tomato APETALA3 Genes Demonstrate Diversification in Their Roles in Regulating Floral Development
de Martino G, Pan I, Emmanuel E, Levy A, Irish VF. Functional Analyses of Two Tomato APETALA3 Genes Demonstrate Diversification in Their Roles in Regulating Floral Development. The Plant Cell 2006, 18: 1833-1845. PMID: 16844904, PMCID: PMC1533988, DOI: 10.1105/tpc.106.042978.Peer-Reviewed Original ResearchConceptsCore eudicotsFloral developmentMADS-box transcription factorsDifferent expression domainsBox transcription factorFunctional differencesAP3 lineageAPETALA3 (AP3) geneEuAP3 lineageStamen identityAncestral roleStamen developmentHomeotic transformationsLineage genesExpression domainsBiochemical capabilitiesTranscription factorsFunctional analysisFunction mutationsGenesLineagesArabidopsisEudicotsEquivalent domainsExpression contributes
2000
Variations on a theme: flower development and evolution
Irish V. Variations on a theme: flower development and evolution. Genome Biology 2000, 1: reviews1015.1. PMID: 11178237, PMCID: PMC138852, DOI: 10.1186/gb-2000-1-2-reviews1015.Peer-Reviewed Original Research
1999
Evolution of genetic mechanisms controlling petal development
Kramer E, Irish V. Evolution of genetic mechanisms controlling petal development. Nature 1999, 399: 144-148. PMID: 10335842, DOI: 10.1038/20172.Peer-Reviewed Original ResearchConceptsGenetic mechanismsB-class genes APETALA3Expression patternsOrgan identity genesClasses of genesPI homologuesStamen identityMolecular genetic studiesOrgan identityArabidopsis thalianaPetal developmentFloral organsHigher eudicotsFlowering plantsAPETALA3Angiosperm petalsGenetic studiesGenesOrthologuesAngiospermsPetalsExpressionEudicotsThalianaHomologues
1998
Molecular Evolution of Genes Controlling Petal and Stamen Development: Duplication and Divergence Within the APETALA3 and PISTILLATA MADS-Box Gene Lineages
Kramer E, Dorit R, Irish V. Molecular Evolution of Genes Controlling Petal and Stamen Development: Duplication and Divergence Within the APETALA3 and PISTILLATA MADS-Box Gene Lineages. Genetics 1998, 149: 765-783. PMID: 9611190, PMCID: PMC1460198, DOI: 10.1093/genetics/149.2.765.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceArabidopsis ProteinsEvolution, MolecularGenes, PlantHomeodomain ProteinsMADS Domain ProteinsMolecular Sequence DataMultigene FamilyPapaverPhylogenyPlant ProteinsPlant StructuresPlants, MedicinalSequence AlignmentSequence Analysis, DNASequence Homology, Amino AcidSolanum lycopersicumTranscription FactorsConceptsDuplication eventsGene lineagesLower eudicotHigher eudicotsPI genesMADS-box gene familyMajor duplication eventsFloral organ identityMultiple duplication eventsAP3 lineageStamen identityOrgan identityEudicot lineagesHomeotic genesDicot speciesMolecular evolutionStamen developmentGene familyAPETALA3Such genesEudicotsPistillataLineagesGenesSimilar functions