Abstract
The timing of the floral transition in Arabidopsis (Arabidopsis thaliana) is influenced by a number of environmental signals. Here, we have focused on acceleration of flowering in response to vegetative shade, a condition that is perceived as a decrease in the ratio of red to far-red radiation. We have investigated the contributions of several known flowering-time pathways to this acceleration. The vernalization pathway promotes flowering in response to extended cold via transcriptional repression of the floral inhibitor FLOWERING LOCUS C (FLC); we found that a low red to far-red ratio, unlike cold treatment, lessened the effects of FLC despite continued FLC expression. A low red to far-red ratio required the photoperiod-pathway genes GIGANTEA (GI) and CONSTANS (CO) to fully accelerate flowering in long days and did not promote flowering in short days. Together, these results suggest a model in which far-red enrichment can bypass FLC-mediated late flowering by shifting the balance between FLC-mediated repression and photoperiodic induction of flowering to favor the latter. The extent of this shift was dependent upon environmental parameters, such as the length of far-red exposure. At the molecular level, we found that far-red enrichment generated a phase delay in GI expression and enhanced CO expression and activity at both dawn and dusk. Finally, our analysis of the contribution of PHYTOCHROME AND FLOWERING TIME1 (PFT1) to shade-mediated rapid flowering has led us to suggest a new model for the involvement of PFT1 in light signaling.
Highlights
The timing of the floral transition in Arabidopsis (Arabidopsis thaliana) is influenced by a number of environmental signals
Far-red enrichment is similar to vernalization in that it can promote rapid flowering in lines that are late flowering due to high FLOWERING LOCUS C (FLC) levels (Martinez-Zapater and Somerville, 1990; Bagnall, 1992, 1993; Lee and Amasino, 1995)
If down-regulation of FLC was sufficient for the rapid-flowering response, flc mutants would show no additional acceleration of flowering in response to far-red enrichment
Summary
The timing of the floral transition in Arabidopsis (Arabidopsis thaliana) is influenced by a number of environmental signals. A low red to far-red ratio required the photoperiod-pathway genes GIGANTEA (GI) and CONSTANS (CO) to fully accelerate flowering in long days and did not promote flowering in short days Together, these results suggest a model in which far-red enrichment can bypass FLC-mediated late flowering by shifting the balance between FLC-mediated repression and photoperiodic induction of flowering to favor the latter. Most Arabidopsis accessions used for laboratory work do not require a long period of cold (vernalization) to promote rapid flowering, many natural accessions are late flowering even in inductive long days unless they are first vernalized (Napp-Zinn, 1961, 1964) This delay is largely due to the action of two genes: FRIGIDA (FRI) leads to up-regulation of the MADS box transcription factor FLOWERING LOCUS C (FLC; Michaels and Amasino, 2001), which is a floral repressor (Michaels and Amasino, 1999; Sheldon et al, 1999). Changes in morphology enable the plant to compete for light, and more rapid flowering may allow the plant to set seed before being outcompeted
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