Photoreceptor Regulation of CONSTANS Protein in Photoperiodic Flowering

Valverde, Federico; Mouradov, Aidyn; Soppe, Wim J. J.; Ravenscroft, Dean; Samach, Alon; Coupland, George

doi:10.1126/science.1091761

Cited by 1,091 publications

(1,233 citation statements)

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“…Thus, signalling appears to converge to several parallel transcription factors and not to concentrate on a single player. The photoperiodic and low red to far-red signals converge upstream FT by stabilizing CO [29]. The shape of the network emerges as a consequence of multiple points of parallel and sequential signalling convergence.…”

Section: Integration Of Pathways Controlling Floweringmentioning

confidence: 99%

“…In Arabidopsis plants grown under long days, the presence of light perceived by photoreceptors such as cry2 and phyA coincides with high mRNA levels of the CONSTANS (CO) gene (Accession number X94937), whose expression is under circadian control [26,27]. Light is required for the stabilization of CO, which in darkness undergoes proteasome-mediated degradation [29]. As a result of this coincidence, the expression of the FLOWERING LOCUS T (FT) gene (Accession number AB027504) is dramatically increased and this leads to the promotion of flowering.…”

Section: Integration Of Pathways Controlling Floweringmentioning

confidence: 99%

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Signalling for developmental plasticity

Casal

Fankhauser²,

Coupland

et al. 2004

Trends in Plant Science

116

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Section: Integration Of Pathways Controlling Floweringmentioning

confidence: 99%

Section: Integration Of Pathways Controlling Floweringmentioning

confidence: 99%

Signalling for developmental plasticity

Casal

Fankhauser²,

Coupland

et al. 2004

Trends in Plant Science

116

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“…Through this regulation, transcripts of CO accumulate in the afternoon under LDs when plants are exposed to light. This coincidence between CO mRNA and light exposure allows stabilization of translated CO protein at these times, causing CO to accumulate under LDs and achieving recognition of LDs (Appendix Fig S1; Valverde et al , 2004). CO then directly promotes floral transition through its capacity to activate transcription of the “florigen” gene FLOWERING LOCUS T ( FT ) specifically under LDs (Andres & Coupland, 2012; Song et al , 2014).…”

Section: Introductionmentioning

confidence: 99%

“…CO then directly promotes floral transition through its capacity to activate transcription of the “florigen” gene FLOWERING LOCUS T ( FT ) specifically under LDs (Andres & Coupland, 2012; Song et al , 2014). By contrast, under SDs, CO transcription occurs only in the dark, and under these conditions, CO protein does not accumulate (Valverde et al , 2004). …”

Section: Introductionmentioning

confidence: 99%

PSEUDO RESPONSE REGULATORs stabilize CONSTANS protein to promote flowering in response to day length

et al. 2017

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Seasonal reproduction in many organisms requires detection of day length. This is achieved by integrating information on the light environment with an internal photoperiodic time‐keeping mechanism. Arabidopsis thaliana promotes flowering in response to long days (LDs), and CONSTANS (CO) transcription factor represents a photoperiodic timer whose stability is higher when plants are exposed to light under LDs. Here, we show that PSEUDO RESPONSE REGULATOR (PRR) proteins directly mediate this stabilization. PRRs interact with and stabilize CO at specific times during the day, thereby mediating its accumulation under LDs. PRR‐mediated stabilization increases binding of CO to the promoter of FLOWERING LOCUS T (FT), leading to enhanced FT transcription and early flowering under these conditions. PRRs were previously reported to contribute to timekeeping by regulating CO transcription through their roles in the circadian clock. We propose an additional role for PRRs in which they act upon CO protein to promote flowering, directly coupling information on light exposure to the timekeeper and allowing recognition of LDs.

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“…9,10 Information on light exposure is thereby integrated at CO, leading to its accumulation under LDs and accomplishing measurement of day length. 7,8,10–12 Temporal regulation of CO transcription through the clock-controlled blue light photoreceptor FLAVIN-BINDING, KELCH REPEAT, F-BOX1 (FKF1), clock-controlled flowering regulators CYCLING DOF FACTORs (CDFs), and the clock protein GIGANTEA (GI) determines the proper daily accumulation pattern of CO transcript, ensuring that its accumulation coincides with light exposure only under LDs and CO accumulation occurs specifically under these conditions. 13-15 These proteins thereby link CO transcription and the circadian clock, which comprises transcriptional negative feedback-loops with particular clock genes such as LATE ELONGATED HYPOCOTYL ( LHY ) and TIMING OF CAB EXPRESSION 1 ( TOC1 ) in Arabidopsis.…”

mentioning

confidence: 99%

Differential effects of light-to-dark transitions on phase setting in circadian expression among clock-controlled genes in Pharbitis nil

Hayama

Mizoguchi

Coupland

2018

Plant Signaling & Behavior

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The circadian clock is synchronized by the day-night cycle to allow plants to anticipate daily environmental changes and to recognize annual changes in day length enabling seasonal flowering. This clock system has been extensively studied in Arabidopsis thaliana and was found to be reset by the dark to light transition at dawn. By contrast, studies on photoperiodic flowering of Pharbitis nil revealed the presence of a clock system reset by the transition from light to dark at dusk to measure the duration of the night. However, a Pharbitis photosynthetic gene was also shown to be insensitive to this dusk transition and to be set by dawn. Thus Pharbitis appeared to have two clock systems, one set by dusk that controls photoperiodic flowering and a second controlling photosynthetic gene expression similar to that of Arabidopsis. Here, we show that circadian mRNA expression of Pharbitis homologs of a series of Arabidopsis clock or clock-controlled genes are insensitive to the dusk transition. These data further define the presence in Pharbitis of a clock system that is analogous to the Arabidopsis system, which co-exists and functions with the dusk-set system dedicated to the control of photoperiodic flowering.

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Photoreceptor Regulation of CONSTANS Protein in Photoperiodic Flowering

Cited by 1,091 publications

References 20 publications

Signalling for developmental plasticity

Signalling for developmental plasticity

PSEUDO RESPONSE REGULATORs stabilize CONSTANS protein to promote flowering in response to day length

Differential effects of light-to-dark transitions on phase setting in circadian expression among clock-controlled genes in Pharbitis nil

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