Abstract
One strategy deployed by plants to endure water scarcity is to accelerate the transition to flowering adaptively via the drought escape (DE) response. In Arabidopsis thaliana, activation of the DE response requires the photoperiodic response gene GIGANTEA (GI) and the florigen genes FLOWERING LOCUS T (FT) and TWIN SISTER OF FT (TSF). The phytohormone abscisic acid (ABA) is also required for the DE response, by promoting the transcriptional up-regulation of the florigen genes. The mode of interaction between ABA and the photoperiodic genes remains obscure. In this work we use a genetic approach to demonstrate that ABA modulates GI signalling and consequently its ability to activate the florigen genes. We also reveal that the ABA-dependent activation of FT, but not TSF, requires CONSTANS (CO) and that impairing ABA signalling dramatically reduces the expression of florigen genes with little effect on the CO transcript profile. ABA signalling thus has an impact on the core genes of photoperiodic signalling GI and CO by modulating their downstream function and/or activities rather than their transcript accumulation. In addition, we show that as well as promoting flowering, ABA simultaneously represses flowering, independent of the florigen genes. Genetic analysis indicates that the target of the repressive function of ABA is the flowering-promoting gene SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1 (SOC1), a transcription factor integrating floral cues in the shoot meristem. Our study suggests that variations in ABA signalling provide different developmental information that allows plants to co-ordinate the onset of the reproductive phase according to the available water resources.
Highlights
Water deprivation triggers several physiological adjustments at the cellular and organ levels (Shinozaki and YamaguchiShinozaki, 2007)
We have previously demonstrated that abscisic acid (ABA) activates flowering under LDs but not short day (SD) and that ABA affects photoperiodic signalling upstream of FLOWERING LOCUS T (FT) expression (Riboni et al, 2013)
A fundamental question related to the drought escape (DE) mechanism is how ABA signals are integrated in the photoperiodic flowering network
Summary
Water deprivation triggers several physiological adjustments at the cellular and organ levels (Shinozaki and YamaguchiShinozaki, 2007). Depending on the intensity and duration of drought episodes, some plants can respond adaptively, by activating the drought escape (DE) response (Franks, 2011; Riboni et al, 2013, 2014; Kazan and Lyons, 2016). The potentially lethal effects of drought, plants undergoing DE usually produce fewer fruits and seeds, indicating a tradeoff between plant survival and successful seed set (Su et al, 2013; Kenney et al, 2014). A more precise understanding of the mechanisms leading to DE is of fundamental importance to assess the diverse modes of adaptations of natural plant populations as well as to produce crops with increased productivity under water deprivation (Lovell et al, 2013; Kooyers, 2015)
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