Published in Plant Cell on June 01, 2001
Control of flowering time: interacting pathways as a basis for diversity. Plant Cell (2002) 4.76
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Extension of a genetic network model by iterative experimentation and mathematical analysis. Mol Syst Biol (2005) 3.88
Multiple pathways in the decision to flower: enabling, promoting, and resetting. Plant Cell (2004) 3.74
Distinct roles of GIGANTEA in promoting flowering and regulating circadian rhythms in Arabidopsis. Plant Cell (2005) 3.33
PIF4, a phytochrome-interacting bHLH factor, functions as a negative regulator of phytochrome B signaling in Arabidopsis. EMBO J (2002) 3.19
LUX ARRHYTHMO encodes a Myb domain protein essential for circadian rhythms. Proc Natl Acad Sci U S A (2005) 3.04
The circadian clock regulates auxin signaling and responses in Arabidopsis. PLoS Biol (2007) 3.03
Dual role of TOC1 in the control of circadian and photomorphogenic responses in Arabidopsis. Plant Cell (2003) 2.86
ELF3 encodes a circadian clock-regulated nuclear protein that functions in an Arabidopsis PHYB signal transduction pathway. Plant Cell (2001) 2.59
A novel computational model of the circadian clock in Arabidopsis that incorporates PRR7 and PRR9. Mol Syst Biol (2006) 2.48
COP1 and ELF3 control circadian function and photoperiodic flowering by regulating GI stability. Mol Cell (2008) 2.34
The clock gene circuit in Arabidopsis includes a repressilator with additional feedback loops. Mol Syst Biol (2012) 2.34
Systems approach identifies an organic nitrogen-responsive gene network that is regulated by the master clock control gene CCA1. Proc Natl Acad Sci U S A (2008) 2.17
The TIME FOR COFFEE gene maintains the amplitude and timing of Arabidopsis circadian clocks. Plant Cell (2003) 2.14
Light-regulated translation mediates gated induction of the Arabidopsis clock protein LHY. EMBO J (2003) 1.94
A role for LKP2 in the circadian clock of Arabidopsis. Plant Cell (2001) 1.88
An expanding universe of circadian networks in higher plants. Trends Plant Sci (2010) 1.85
The F-box protein ZEITLUPE confers dosage-dependent control on the circadian clock, photomorphogenesis, and flowering time. Plant Cell (2004) 1.79
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ELF4 is required for oscillatory properties of the circadian clock. Plant Physiol (2007) 1.65
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Ambient temperature response establishes ELF3 as a required component of the core Arabidopsis circadian clock. Proc Natl Acad Sci U S A (2010) 1.50
EARLY FLOWERING4 recruitment of EARLY FLOWERING3 in the nucleus sustains the Arabidopsis circadian clock. Plant Cell (2012) 1.49
A circadian rhythm set by dusk determines the expression of FT homologs and the short-day photoperiodic flowering response in Pharbitis. Plant Cell (2007) 1.48
F-box proteins FKF1 and LKP2 act in concert with ZEITLUPE to control Arabidopsis clock progression. Plant Cell (2010) 1.48
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The PAS/LOV protein VIVID supports a rapidly dampened daytime oscillator that facilitates entrainment of the Neurospora circadian clock. Genes Dev (2005) 1.38
The out of phase 1 mutant defines a role for PHYB in circadian phase control in Arabidopsis. Plant Physiol (2002) 1.33
FIONA1 is essential for regulating period length in the Arabidopsis circadian clock. Plant Cell (2008) 1.30
The Arabidopsis SRR1 gene mediates phyB signaling and is required for normal circadian clock function. Genes Dev (2003) 1.28
Jumonji domain protein JMJD5 functions in both the plant and human circadian systems. Proc Natl Acad Sci U S A (2010) 1.25
The circadian clock. A plant's best friend in a spinning world. Plant Physiol (2003) 1.21
Identification of Evening Complex Associated Proteins in Arabidopsis by Affinity Purification and Mass Spectrometry. Mol Cell Proteomics (2015) 1.21
Independent roles for EARLY FLOWERING 3 and ZEITLUPE in the control of circadian timing, hypocotyl length, and flowering time. Plant Physiol (2005) 1.20
XAP5 CIRCADIAN TIMEKEEPER coordinates light signals for proper timing of photomorphogenesis and the circadian clock in Arabidopsis. Plant Cell (2008) 1.20
Arabidopsis FHY3 specifically gates phytochrome signaling to the circadian clock. Plant Cell (2006) 1.19
Response regulator homologues have complementary, light-dependent functions in the Arabidopsis circadian clock. Planta (2003) 1.19
GIGANTEA regulates phytochrome A-mediated photomorphogenesis independently of its role in the circadian clock. Plant Physiol (2007) 1.17
Novel roles for GIGANTEA revealed under environmental conditions that modify its expression in Arabidopsis and Medicago truncatula. Planta (2006) 1.14
Network analysis identifies ELF3 as a QTL for the shade avoidance response in Arabidopsis. PLoS Genet (2010) 1.14
Testing time: can ethanol-induced pulses of proposed oscillator components phase shift rhythms in Arabidopsis? J Biol Rhythms (2008) 1.14
A reduced-function allele reveals that EARLY FLOWERING3 repressive action on the circadian clock is modulated by phytochrome signals in Arabidopsis. Plant Cell (2011) 1.12
CCA1 and ELF3 Interact in the control of hypocotyl length and flowering time in Arabidopsis. Plant Physiol (2011) 1.07
DIE NEUTRALIS and LATE BLOOMER 1 contribute to regulation of the pea circadian clock. Plant Cell (2009) 1.06
LNK genes integrate light and clock signaling networks at the core of the Arabidopsis oscillator. Proc Natl Acad Sci U S A (2013) 1.06
Two new clock proteins, LWD1 and LWD2, regulate Arabidopsis photoperiodic flowering. Plant Physiol (2008) 1.03
Distinct light and clock modulation of cytosolic free Ca2+ oscillations and rhythmic CHLOROPHYLL A/B BINDING PROTEIN2 promoter activity in Arabidopsis. Plant Cell (2007) 1.03
EARLY FLOWERING3 Regulates Flowering in Spring Barley by Mediating Gibberellin Production and FLOWERING LOCUS T Expression. Plant Cell (2014) 1.01
Background-dependent effects of polyglutamine variation in the Arabidopsis thaliana gene ELF3. Proc Natl Acad Sci U S A (2012) 0.99
Regulation of iron homeostasis in Arabidopsis thaliana by the clock regulator time for coffee. J Biol Chem (2009) 0.97
Functional analysis of amino-terminal domains of the photoreceptor phytochrome B. Plant Physiol (2010) 0.96
LIGHT-REGULATED WD1 and PSEUDO-RESPONSE REGULATOR9 form a positive feedback regulatory loop in the Arabidopsis circadian clock. Plant Cell (2011) 0.96
A role for protein kinase casein kinase2 α-subunits in the Arabidopsis circadian clock. Plant Physiol (2011) 0.95
Does the core circadian clock in the moss Physcomitrella patens (Bryophyta) comprise a single loop? BMC Plant Biol (2010) 0.94
Robust entrainment of circadian oscillators requires specific phase response curves. Biophys J (2011) 0.93
OsELF3-1, an ortholog of Arabidopsis early flowering 3, regulates rice circadian rhythm and photoperiodic flowering. PLoS One (2012) 0.92
Genetic mapping of natural variation in a shade avoidance response: ELF3 is the candidate gene for a QTL in hypocotyl growth regulation. J Exp Bot (2010) 0.92
Molecular mechanism of suppression of circadian rhythms by a critical stimulus. EMBO J (2006) 0.92
Interactions between circadian clocks and photosynthesis for the temporal and spatial coordination of metabolism. Front Plant Sci (2015) 0.91
Functional conservation of clock-related genes in flowering plants: overexpression and RNA interference analyses of the circadian rhythm in the monocotyledon Lemna gibba. Plant Physiol (2008) 0.91
Diurnal and circadian rhythms in the tomato transcriptome and their modulation by cryptochrome photoreceptors. PLoS One (2008) 0.90
Natural variation reveals that intracellular distribution of ELF3 protein is associated with function in the circadian clock. Elife (2014) 0.90
QTL analysis of photoperiod sensitivity in common buckwheat by using markers for expressed sequence tags and photoperiod-sensitivity candidate genes. Breed Sci (2011) 0.85
Probing entrainment of Ostreococcus tauri circadian clock by green and blue light through a mathematical modeling approach. Front Genet (2015) 0.85
Diversification of photoperiodic response patterns in a collection of early-flowering mutants of Arabidopsis. Plant Physiol (2008) 0.84
Controlling circadian rhythms by dark-pulse perturbations in Arabidopsis thaliana. Sci Rep (2013) 0.84
Regulatory properties of ADP glucose pyrophosphorylase are required for adjustment of leaf starch synthesis in different photoperiods. Plant Physiol (2014) 0.83
Robust circadian rhythms of gene expression in Brassica rapa tissue culture. Plant Physiol (2010) 0.82
Chromatin remodeling and the circadian clock: Jumonji C-domain containing proteins. Plant Signal Behav (2011) 0.81
Constructing non-stationary Dynamic Bayesian Networks with a flexible lag choosing mechanism. BMC Bioinformatics (2010) 0.81
Genetic and physical mapping of the earliness per se locus Eps-A (m) 1 in Triticum monococcum identifies EARLY FLOWERING 3 (ELF3) as a candidate gene. Funct Integr Genomics (2016) 0.80
Arabidopsis research 2001. Plant Cell (2001) 0.80
Punctual transcriptional regulation by the rice circadian clock under fluctuating field conditions. Plant Cell (2015) 0.80
TRiP: Tracking Rhythms in Plants, an automated leaf movement analysis program for circadian period estimation. Plant Methods (2015) 0.78
Exploring potential new floral organ morphogenesis genes of Arabidopsis thaliana using systems biology approach. Front Plant Sci (2015) 0.77
Organogenic nodule formation in hop: a tool to study morphogenesis in plants with biotechnological and medicinal applications. J Biomed Biotechnol (2010) 0.77
PIF4 and ELF3 Act Independently in Arabidopsis thaliana Thermoresponsive Flowering. PLoS One (2016) 0.77
Barley (Hordeum vulgare) circadian clock genes can respond rapidly to temperature in an EARLY FLOWERING 3-dependent manner. J Exp Bot (2016) 0.76
Learning by Association in Plants. Sci Rep (2016) 0.76
Development of high-yield autofluorescent protein microarrays using hybrid cell-free expression with combined Escherichia coli S30 and wheat germ extracts. Proteome Sci (2010) 0.76
The Arabidopsis circadian system. Arabidopsis Book (2002) 0.75
NO FLOWERING IN SHORT DAY (NFL) is a bHLH transcription factor that promotes flowering specifically under short-day conditions in Arabidopsis. Development (2016) 0.75
Quantitative Variation in Responses to Root Spatial Constraint within Arabidopsis thaliana. Plant Cell (2015) 0.75
A Novel Role for Banana MaASR in the Regulation of Flowering Time in Transgenic Arabidopsis. PLoS One (2016) 0.75
Plant photobiology 2001: a thousand points of enlightenment from receptor structures to ecological adaptation. Plant Cell (2001) 0.75
Identification of Flowering-Related Genes Responsible for Differences in Bolting Time between Two Radish Inbred Lines. Front Plant Sci (2016) 0.75
Making the clock tick: the transcriptional landscape of the plant circadian clock. F1000Res (2017) 0.75
Cellulose synthesis and cell expansion are regulated by different mechanisms in growing Arabidopsis hypocotyls. Plant Cell (2017) 0.75
The chickpea Early Flowering 1 (Efl1) locus is an ortholog of Arabidopsis ELF3. Plant Physiol (2017) 0.75
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Cloning of the Arabidopsis clock gene TOC1, an autoregulatory response regulator homolog. Science (2000) 5.91
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