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Radial or Bilateral? The Molecular Basis of Floral Symmetry

Francesca Lucibelli, Maria Carmen Valoroso, Serena Aceto

2020Genes21 citationsDOIOpen Access PDF

Abstract

In the plant kingdom, the flower is one of the most relevant evolutionary novelties. Floral symmetry has evolved multiple times from the ancestral condition of radial to bilateral symmetry. During evolution, several transcription factors have been recruited by the different developmental pathways in relation to the increase of plant complexity. The MYB proteins are among the most ancient plant transcription factor families and are implicated in different metabolic and developmental processes. In the model plant Antirrhinum majus, three MYB transcription factors (DIVARICATA, DRIF, and RADIALIS) have a pivotal function in the establishment of floral dorsoventral asymmetry. Here, we present an updated report of the role of the DIV, DRIF, and RAD transcription factors in both eudicots and monocots, pointing out their functional changes during plant evolution. In addition, we discuss the molecular models of the establishment of flower symmetry in different flowering plants.

Topics & Concepts

Antirrhinum majusMYBBiologyTranscription factorEvolutionary biologySymmetry in biologyGeneticsTranscription (linguistics)BotanyBilateral symmetryGeneEngineeringMechanical engineeringPhilosophyLinguisticsPlant Gene Expression AnalysisPlant Molecular Biology ResearchPlant biochemistry and biosynthesis
Radial or Bilateral? The Molecular Basis of Floral Symmetry | Litcius