Developmental and genetic basis of the androgynophore in Gynandropsis gynandra.

Premise: Flowering plants have evolved a vast array of floral features involved in plant-pollinator interactions. A feature that seemingly increases the chance of pollen transfer is the androgynophore, a stalk-like structure that raises the reproductive organs of the flower. However, little is known about the developmental and genetic basis of this structure despite its presence in multiple, distantly related taxa. Here, we address this gap by investigating Gynandropsis gynandra (Cleomaceae), a species with a prominent androgynophore.
Methods: We combined morphological and anatomical analyses with a comparative transcriptomic study to provide a detailed description of the androgynophore throughout development, examine global gene expression patterns, and identify candidate genes putatively involved in androgynophore elongation.
Results: The radially symmetric androgynophore of G. gynandra rapidly lengthens primarily via cell elongation. Despite its structural uniformity, androgynophore development is characterized by complex gene expression patterns including differential expression of floral organ identity genes and genes associated with organ development and growth in Arabidopsis thaliana.
Conclusions: Our morphological characterizations and high-quality transcriptome for G. gynandra suggest that the androgynophore is a novel structure formed via elaboration of both the receptacle and base of reproductive organs because it is structurally like an elongated internode but expresses the genetic repertoire typically associated with the reproductive organs. The drastic increase in cell length and uniform structure elevates the androgynophore as a potentially powerful model for cell elongation.
(© 2023 The Authors. American Journal of Botany published by Wiley Periodicals LLC on behalf of Botanical Society of America.)