Arabidopsis DOF Transcription Factors Act Redundantly to Reduce CONSTANS Expression and Are Essential for a Photoperiodic Flowering Response

Fornara, Fabio; Panigrahi, Kishore C. S.; Gissot, Lionel; Sauerbrunn, Nicolas; Rühl, Mark; Jarillo, José A.; Coupland, George

doi:10.1016/j.devcel.2009.06.015

Cited by 499 publications

(579 citation statements)

References 56 publications

Supporting

Mentioning

561

Contrasting

Unclassified

Order By: Relevance

“…Genetic analyses have confirmed that several AtCDFs of Arabidopsis function redundantly to suppress CO activity, inhibit FT transcription, and repress the floral transition (Fornara et al, 2009). These CDFs, in turn, are removed by the GI/FKF1/CDF complex that targets the CDFs for degradation.…”

Section: Atcdf1 Functions In the Leaf As A Regulator Of Floweringmentioning

confidence: 99%

The Multiple Signals That Control Tuber Formation

Hannapel

Sharma²,

Lin³

et al. 2017

Plant Physiol.

View full text Add to dashboard Cite

Section: Atcdf1 Functions In the Leaf As A Regulator Of Floweringmentioning

confidence: 99%

The Multiple Signals That Control Tuber Formation

Hannapel

Sharma²,

Lin³

et al. 2017

Plant Physiol.

View full text Add to dashboard Cite

“…For example, the transcriptional expression of FT is positively regulated by CONSTANS (CO), which encodes a putative zinc finger transcription factor (TF) (Putterill et al, 1995). Under favorable conditions, light signaling and the circadian clock coordinately control the activity of CO, which directly regulates the transcription of FT to promote flowering (Suárez-López et al, 2001;An et al, 2004;Imaizumi et al, 2005;Sawa et al, 2007;Fornara et al, 2009). On the other hand, the expression of FT is also negatively regulated by several transcriptional repressors, such as FLOWERING LOCUS C (Helliwell et al, 2006;Searle et al, 2006), SHORT VEGETATIVE PHASE (Lee et al, 2007), TEMPRANILLO1 (Castillejo and Pelaz, 2008), and SCHLAFMŰTZE (SMZ) (Mathieu et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Transcriptional Mechanism of Jasmonate Receptor COI1-Mediated Delay of Flowering Time in Arabidopsis

Zhai¹,

Zhang²,

Wu³

et al. 2015

Plant Cell

155

162

View full text Add to dashboard Cite

Flowering time of plants must be tightly regulated to maximize reproductive success. Plants have evolved sophisticated signaling network to coordinate the timing of flowering in response to their ever-changing environmental conditions. Besides being a key immune signal, the lipid-derived plant hormone jasmonate (JA) also regulates a wide range of developmental processes including flowering time. Here, we report that the CORONATINE INSENSITIVE1 (COI1)-dependent signaling pathway delays the flowering time of Arabidopsis thaliana by inhibiting the expression of the florigen gene FLOWERING LOCUS T (FT). We provide genetic and biochemical evidence that the APETALA2 transcription factors (TFs) TARGET OF EAT1 (TOE1) and TOE2 interact with a subset of JAZ (jasmonate-ZIM domain) proteins and repress the transcription of FT. Our results support a scenario that, when plants encounter stress conditions, bioactive JA promotes COI1-dependent degradation of JAZs. Degradation of the JAZ repressors liberates the transcriptional function of the TOEs to repress the expression of FT and thereby triggers the signaling cascades to delay flowering. Our study identified interacting pairs of TF and JAZ transcriptional regulators that underlie JA-mediated regulation of flowering, suggesting that JA signals are converted into specific context-dependent responses by matching pairs of TF and JAZ proteins.

show abstract

“…The highest similarity of Pn FKF1 is to Arabidopsis FKF1 rather than to other FKF1-related proteins including the Arabidopsis paralogs such as ZEITLUPE (ZTL) and LKP2, which are mainly involved in the control of clock functions in this plant. 16,26–28 The deduced amino acid sequence of the protein encoded by PnCDF2 was also most similar to those of Arabidopsis CDFs and related proteins, that also contain the conserved DOF DNA-binding domain in their deduced amino acid sequence 14,29 (Supplementary fig. 3).…”

mentioning

confidence: 78%

“…14,29 Also, expression of both of these genes began to rise constantly from transfer to LL regardless of when plants were shifted to DD (Figure 1C, F, I, L, Supplementary Figure 1E, F, G, H). This indicates that despite dusk-set circadian expression of Pn FT , circadian expression of PnFKF1 and PnCDF2 is not affected by light-to-dark transitions.…”

mentioning

confidence: 94%

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

View full text Add to dashboard Cite

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.

show abstract

Arabidopsis DOF Transcription Factors Act Redundantly to Reduce CONSTANS Expression and Are Essential for a Photoperiodic Flowering Response

Cited by 499 publications

References 56 publications

The Multiple Signals That Control Tuber Formation

The Multiple Signals That Control Tuber Formation

Transcriptional Mechanism of Jasmonate Receptor COI1-Mediated Delay of Flowering Time in Arabidopsis

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

Contact Info

Product

Resources

About