Hormonal control of the floral transition: Can one catch them all?

•Modulation of flowering affects the adaptation of plants to different environments.•Plant hormones constitute a major signaling network that relay external or internal variations.•Several hormonal pathways contribute to the extraordinary plasticity of the flowering process.•The gibberellic acid-regulated DELLA proteins connect multiple hormonal signals with floral pathways to activate reproductive development.

The transition to flowering marks a key adaptive developmental switch in plants which impacts on their survival and fitness. Different signaling pathways control the floral transition, conveying both endogenous and environmental cues. These cues are often relayed and/or modulated by different hormones, which might confer additional developmental flexibility to the floral process in the face of varying conditions. Among the different hormonal pathways, the phytohormone gibberellic acid (GA) plays a dominant role. GA is connected with the other floral pathways through the GA-regulated DELLA proteins, acting as versatile interacting modules for different signaling proteins. In this review, I will highlight the role of DELLAs as spatial and temporal modulators of different consolidated floral pathways. Next, building on recent data, I will provide an update on some emerging themes connecting other hormone signaling cascades to flowering time control. I will finally provide examples for some established as well as potential cross-regulatory mechanisms between hormonal pathways mediated by the DELLA proteins.