A molecular framework for light and gibberellin control of cell elongation

Lucas, Miguel de; Davière, Jean-Michel; Rodríguez-Falcón, Mariana; Pontín, Mariela; Iglesias-Pedraz, Juan Manuel; Lorrain, Séverine; Fankhauser, Christian; Blázquez, Miguel Á.; Titarenko, Elena; Prat, Salomé

doi:10.1038/nature06520

Cited by 1,065 publications

(1,136 citation statements)

References 37 publications

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“…Auxin, GA, and brassinosteroids are reported to mediate Suc-induced hypocotyl elongation, with a role for auxin identified under light/dark cycles and roles for GA and brassinosteroids identified under extended darkness (de Lucas et al, 2008;Zhang et al, 2010Zhang et al, , 2015Zhang et al, , 2016Liu et al, 2011;Stewart et al, 2011;Lilley et al, 2012;). Consistent with this, our data indicate that auxin signaling has a major role in Suc-induced hypocotyl elongation under light/dark cycles (Fig.…”

Section: Involvement Of Phytohormone Signals In Suc-induced Hypocotylmentioning

confidence: 99%

The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation

et al. 2017

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Emerging seedlings respond to environmental conditions such as light and temperature to optimize their establishment. Seedlings grow initially through elongation of the hypocotyl, which is regulated by signaling pathways that integrate environmental information to regulate seedling development. The hypocotyls of Arabidopsis (Arabidopsis thaliana) also elongate in response to sucrose. Here, we investigated the role of cellular sugar-sensing mechanisms in the elongation of hypocotyls in response to Suc. We focused upon the role of SnRK1, which is a sugar-signaling hub that regulates metabolism and transcription in response to cellular energy status. We also investigated the role of TPS1, which synthesizes the signaling sugar trehalose-6-P that is proposed to regulate SnRK1 activity. Under light/dark cycles, we found that Suc-induced hypocotyl elongation did not occur in tps1 mutants and overexpressors of KIN10 (AKIN10/SnRK1.1), a catalytic subunit of SnRK1. We demonstrate that the magnitude of Suc-induced hypocotyl elongation depends on the day length and light intensity. We identified roles for auxin and gibberellin signaling in Suc-induced hypocotyl elongation under short photoperiods. We found that Suc-induced hypocotyl elongation under light/dark cycles does not involve another proposed sugar sensor, HEXOKINASE1, or the circadian oscillator. Our study identifies novel roles for KIN10 and TPS1 in mediating a signal that underlies Suc-induced hypocotyl elongation in light/dark cycles.

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Section: Involvement Of Phytohormone Signals In Suc-induced Hypocotylmentioning

confidence: 99%

The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation

et al. 2017

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“…PIFs thus integrate light and GA signals to control developmental responses. The inhibitory role of DELLA proteins in the regulation of PIFs is particularly prominent in the dark, when phytochromes are inactive, and during the transition from skotomorphogenic to photomorphogenic seedling growth, when DELLA protein levels increase due to decreasing GA levels and reduced DELLA protein turnover (Alabadi et al 2008;de Lucas et al 2008;Feng et al 2008).…”

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confidence: 99%

“…DELLA proteins repress GA responses, at least in part, by interfering with the DNA-binding activity of PHYTO-CHROME-INTERACTING FACTOR (PIF) basic helixloop-helix (bHLH) transcription factors (de Lucas et al 2008;Feng et al 2008). In Arabidopsis, PIFs constitute a multiprotein family with seven members, and the developmental roles of individual PIFs in isolation and in combination with other PIF family members have been elucidated in recent years; e.g., through the analysis of a pif1 pif3 pif4 pif5 quadruple mutant (Castillon et al 2007;Leivar et al 2008).…”

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confidence: 99%

The GATA-type transcription factors GNC and GNL/CGA1 repress gibberellin signaling downstream from DELLA proteins and PHYTOCHROME-INTERACTING FACTORS

Richter

Behringer²,

Müller³

et al. 2010

Genes Dev.

197

309

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The phytohormone gibberellin (GA) regulates various developmental processes in plants such as germination, greening, elongation growth, and flowering time. DELLA proteins, which are degraded in response to GA, repress GA signaling by inhibitory interactions with PHYTOCHROME-INTERACTING FACTOR (PIF) family transcription factors. How GA signaling is controlled downstream from the DELLA and PIF regulators is, at present, unclear. Here, we characterize GNC (GATA, NITRATE-INDUCIBLE, CARBON-METABOLISM INVOLVED) and GNL/CGA1 (GNC-LIKE/CYTOKININ-RESPONSIVE GATA FACTOR1), two homologous GATA-type transcription factors from Arabidopsis thaliana that we initially identified as GA-regulated genes. Our genetic analyses of loss-of-function mutants and overexpression lines establish that GNC and GNL are functionally redundant regulators of germination, greening, elongation growth and flowering time. We further show by chromatin immunoprecipitation that both genes are potentially direct transcription targets of PIF transcription factors, and that their expression is up-regulated in pif mutant backgrounds. In line with a key role of GNC or GNL downstream from DELLA and PIF signaling, we find that their overexpression leads to gene expression changes that largely resemble those observed in a ga1 biosynthesis mutant or a pif quadruple mutant. These findings, together with the fact that gnc and gnl loss-of-function mutations suppress ga1 phenotypes, support the hypothesis that GNC and GNL are important repressors of GA signaling downstream from the DELLA and PIF regulators.[Keywords: Arabidopsis thaliana; DELLA protein; GATA factor; gibberellin; LLM domain; phytochrome-interacting factor; PIF] Supplemental material is available at http://www.genesdev.org.

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“…The GA effect on flowering is genetically mediated by five DELLA proteins, GIBBERELLIC ACID INSENSITIVE (GAI), REPRESSOR OF ga1-3 (RGA), RGA-LIKE1 (RGL1), RGL2 and RGL3, which are key GA signalling repressors whose degradation is triggered by GA 22,23 . As transcriptional regulators, DELLA proteins have been shown to exert their function by recruiting other transcription factors rather than directly binding to their target genes [24][25][26][27] .…”

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confidence: 99%

Nuclear factor Y-mediated H3K27me3 demethylation of the SOC1 locus orchestrates flowering responses of Arabidopsis

et al. 2014

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Nuclear factor Y (NF-Y) is a conserved heterotrimeric transcription factor complex that binds to the CCAAT motifs within the promoter region of many genes. In plants, a large number of genes code for variants of each NF-YA, B or C subunit that can assemble in a combinatorial fashion. Here, we report the discovery of an Arabidopsis NF-Y complex that exerts epigenetic control over flowering time by integrating environmental and developmental signals. We show that NF-Y interacts with CONSTANS in the photoperiod pathway and DELLAs in the gibberellin pathway, to directly regulate the transcription of SOC1, a major floral pathway integrator. This NF-Y complex binds to a unique cis-element within the SOC1 promoter to modulate trimethylated H3K27 levels, partly through a H3K27 demethylase REF6. Our findings establish NF-Y complexes as critical mediators of epigenetic marks that regulate the response to environmental or intrinsic signals in plants.

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A molecular framework for light and gibberellin control of cell elongation

Cited by 1,065 publications

References 37 publications

The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation

The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation

The GATA-type transcription factors GNC and GNL/CGA1 repress gibberellin signaling downstream from DELLA proteins and PHYTOCHROME-INTERACTING FACTORS

Nuclear factor Y-mediated H3K27me3 demethylation of the SOC1 locus orchestrates flowering responses of Arabidopsis

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