Functional evolutionary developmental biology (evo‐devo) of morphological novelties in plants

Abstract The origin of morphological and ecological novelties is a long‐standing problem in evolutionary biology. Understanding these processes requires investigation from both the development and evolution standpoints, which promotes a new research field called “evolutionary developmental biology” (evo‐devo). The fundamental mechanism for the origin of a novel structure may involve heterotopy, heterochrony, ectopic expression, or loss of an existing regulatory factor. Accordingly, the morphological and ecological traits controlled by the regulatory genes may be gained, lost, or regained during evolution. Floral morphological novelties, for example, include homeotic alterations (related to organ identity), symmetric diversity, and changes in the size and morphology of the floral organs. These gains and losses can potentially arise through modification of the existing regulatory networks. Here, we review current knowledge concerning the origin of novel floral structures, such as “evolutionary homeotic mutated flowers”, floral symmetry in various plant species, and inflated calyx syndrome (ICS) within Solanaceae. Functional evo‐devo of the morphological novelties is a central theme of plant evolutionary biology. In addition, the discussion is extended to consider agronomic or domestication‐related traits, including the type, size, and morphology of fruits (berries), within Solanaceae.