TY - JOUR
T1 - Circadian Waves of Transcriptional Repression Shape PIF-Regulated Photoperiod-Responsive Growth in Arabidopsis
AU - Martín, Guiomar
AU - Rovira, Arnau
AU - Veciana, Nil
AU - Soy, Judit
AU - Toledo-Ortiz, Gabriela
AU - Gommers, Charlotte M.M.
AU - Boix, Marc
AU - Henriques, Rossana
AU - Minguet, Eugenio G.
AU - Alabadí, David
AU - Halliday, Karen J.
AU - Leivar, Pablo
AU - Monte, Elena
N1 - Funding Information:
We thank D. Somers, S. Prat, G. Coupland, and R. McClung for sharing seed and plasmid resources. We thank G. Steele for generating double and triple prr mutants and the prrpif mutant combinations. The work in this manuscript was supported by grants from the Spanish “Ministerio de Economía y Competitividad” (MINECO) ( BIO2012-31672 and BIO2015-68460-P ) and the Generalitat de Catalunya ( 2014-SGR-1406 ) to E.M.; by Marie Curie IRG grant PIRG06-GA-2009-256420 to P.L.; by the European Commission ( PCIG2012-GA-2012-334052 ) and MINECO ( BIO2015-70812-ERC and RYC-2011-09220 ) to R.H.; by Royal Society grant RG2016R1 to G.T.-O.; by MINECO BIO2013-43184-P to D.A.; and by MINECO AGL2014-57200-JIN to E.G.M. We acknowledge financial support by the CERCA programme/ Generalitat de Catalunya and from MINECO through the “Severo Ochoa Programme for Centers of Excellence in R&D” 2016-2019 ( SEV-2015-0533 ).
Publisher Copyright:
© 2017 Elsevier Ltd
PY - 2018/1/22
Y1 - 2018/1/22
N2 - Plants coordinate their growth and development with the environment through integration of circadian clock and photosensory pathways. In Arabidopsis thaliana, rhythmic hypocotyl elongation in short days (SD) is enhanced at dawn by the basic-helix-loop-helix (bHLH) transcription factors PHYTOCHROME-INTERACTING FACTORS (PIFs) directly inducing expression of growth-related genes [1–6]. PIFs accumulate progressively during the night and are targeted for degradation by active phytochromes in the light, when growth is reduced. Although PIF proteins are also detected during the day hours [7–10], their growth-promoting activity is inhibited through unknown mechanisms. Recently, the core clock components and transcriptional repressors PSEUDO-RESPONSE REGULATORS PRR9/7/5 [11, 12], negative regulators of hypocotyl elongation [13, 14], were described to associate to G boxes [15], the DNA motifs recognized by the PIFs [16, 17], suggesting that PRR and PIF function might converge antagonistically to regulate growth. Here we report that PRR9/7/5 and PIFs physically interact and bind to the same promoter region of pre-dawn-phased, growth-related genes, and we identify the transcription factor CDF5 [18, 19] as target of this interplay. In SD, CDF5 expression is sequentially repressed from morning to dusk by PRRs and induced pre-dawn by PIFs. Consequently, CDF5 accumulates specifically at dawn, when it induces cell elongation. Our findings provide a framework for recent TIMING OF CAB EXPRESSION 1 (TOC1/PRR1) data [5, 20] and reveal that the long described circadian morning-to-midnight waves of the PRR transcriptional repressors (PRR9, PRR7, PRR5, and TOC1) [21] jointly gate PIF activity to dawn to prevent overgrowth through sequential regulation of common PIF-PRR target genes such as CDF5. Martín et al. show that the clock components PRRs dynamically antagonize the phytochrome/PIF-regulated transcriptional network across the diurnal cycle. Sequential morning-to-midnight repression of PIF function by waves of PRRs gate growth to dawn, and the authors identify CDF5 as a co-target necessary to optimize fitness.
AB - Plants coordinate their growth and development with the environment through integration of circadian clock and photosensory pathways. In Arabidopsis thaliana, rhythmic hypocotyl elongation in short days (SD) is enhanced at dawn by the basic-helix-loop-helix (bHLH) transcription factors PHYTOCHROME-INTERACTING FACTORS (PIFs) directly inducing expression of growth-related genes [1–6]. PIFs accumulate progressively during the night and are targeted for degradation by active phytochromes in the light, when growth is reduced. Although PIF proteins are also detected during the day hours [7–10], their growth-promoting activity is inhibited through unknown mechanisms. Recently, the core clock components and transcriptional repressors PSEUDO-RESPONSE REGULATORS PRR9/7/5 [11, 12], negative regulators of hypocotyl elongation [13, 14], were described to associate to G boxes [15], the DNA motifs recognized by the PIFs [16, 17], suggesting that PRR and PIF function might converge antagonistically to regulate growth. Here we report that PRR9/7/5 and PIFs physically interact and bind to the same promoter region of pre-dawn-phased, growth-related genes, and we identify the transcription factor CDF5 [18, 19] as target of this interplay. In SD, CDF5 expression is sequentially repressed from morning to dusk by PRRs and induced pre-dawn by PIFs. Consequently, CDF5 accumulates specifically at dawn, when it induces cell elongation. Our findings provide a framework for recent TIMING OF CAB EXPRESSION 1 (TOC1/PRR1) data [5, 20] and reveal that the long described circadian morning-to-midnight waves of the PRR transcriptional repressors (PRR9, PRR7, PRR5, and TOC1) [21] jointly gate PIF activity to dawn to prevent overgrowth through sequential regulation of common PIF-PRR target genes such as CDF5. Martín et al. show that the clock components PRRs dynamically antagonize the phytochrome/PIF-regulated transcriptional network across the diurnal cycle. Sequential morning-to-midnight repression of PIF function by waves of PRRs gate growth to dawn, and the authors identify CDF5 as a co-target necessary to optimize fitness.
KW - Arabidopsis
KW - TOC1
KW - circadian clock
KW - cycling DOF factor CDF5
KW - gating of plant responses
KW - hypocotyl elongation
KW - phytochrome-interacting factors PIFs
KW - plant diurnal growth
KW - pseudo-response regulators PRRs
KW - transcriptional regulation
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UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=pure_univeritat_ramon_llull&SrcAuth=WosAPI&KeyUT=WOS:000423742600030&DestLinkType=FullRecord&DestApp=WOS_CPL
U2 - 10.1016/j.cub.2017.12.021
DO - 10.1016/j.cub.2017.12.021
M3 - Article
C2 - 29337078
AN - SCOPUS:85040454712
SN - 0960-9822
VL - 28
SP - 311-318.e5
JO - Current Biology
JF - Current Biology
IS - 2
ER -