Search results for "Asterids"

showing 3 items of 3 documents

Introduction to the Orders and Families of Uncertain Placement of this Volume

2016

The present volume of this book series is the first of two to (almost) complete the treatment of the Asterids which started with Vol. VI (Cornales, Ericales, 2004), Vol. VII (Lamiales, 2004) and Vol. VIII (Asterales, 2007). It contains the orders Boraginales, Garryales and Solanales of the Lamiids (Asterids I) as well as three unplaced families of that clade, i.e. Vahliaceae, Icacinaceae and Metteniusaceae, and the orders Aquifoliales, Escalloniales, Bruniales, Dipsacales and Paracryphiales of the Campanulids (Asterids II).

0106 biological sciencesbiologyCornalesAsteridsDipsacalesbiology.organism_classification010603 evolutionary biology01 natural sciencesSolanalesAsteralesBoraginalesGarryalesBotanyEricales010606 plant biology & botany
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Introduction to the Orders of this Volume

2018

The present volume of this book series completes the treatment of the Asterids. Asterids are now contained in Vols. VI (Cornales, Ericales, 2004), VII (Lamiales, 2004), VIII (Asterales, 2007), XIV (Aquifoliales, Boraginales, Bruniales, Dipsacales, Escalloniales, Garryales, Paracryphiales, Solanales, Icacinaceae, Metteniusaceae, Vahliaceae, 2016) and the present volume, which contains the orders Apiales and Gentianales (except Rubiaceae). The only families of Asterids not treated in the series are Acanthaceae (Lamiales), Convolvulaceae (Solanales) and Rubiaceae (Gentianales).

SolanalesbiologyApialesGarryalesCornalesBoraginalesBotanyAsteridsLamialesbiology.organism_classificationGentianales
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Diversification of CYCLOIDEA-like TCP genes in the basal eudicot families Fumariaceae and Papaveraceae s.str.

2006

CYCLOIDEA-like genes belong to the TCP family of transcriptional regulators and have been shown to control different aspects of shoot development in various angiosperm lineages, including flower monosymmetry in asterids and axillary meristem growth in monocots. Genes related to the CYC gene from ANTIRRHINUM show independent duplications in both asterids and rosids. However, it remains unclear to what extent this affected the evolution of flower symmetry and shoot branching in these and other eudicot lineages. Here, we show that CYC-like genes have also undergone duplications in two related Ranunculales families, Fumariaceae and Papaveraceae s.str. These families exhibit morphological divers…

AquilegiaAsteridsMolecular Sequence DataPlant ScienceFlowersBiologyGenes PlantEvolution MolecularPhylogeneticsPapaveraceaeGene duplicationPapaveraceaeAmino Acid SequenceEcology Evolution Behavior and SystematicsPhylogenyPlant ProteinsGeneticsPhylogenetic treefungiAntirrhinumfood and beveragesGenetic VariationGeneral Medicinebiology.organism_classificationDNA-Binding ProteinsRanunculalesOrgan SpecificityFumariaceaeTranscription FactorsPlant biology (Stuttgart, Germany)
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