Published in Science on January 16, 1998
The FLF MADS box gene: a repressor of flowering in Arabidopsis regulated by vernalization and methylation. Plant Cell (1999) 9.18
Highly specific gene silencing by artificial microRNAs in Arabidopsis. Plant Cell (2006) 7.06
Genome-wide reprogramming of primary and secondary metabolism, protein synthesis, cellular growth processes, and the regulatory infrastructure of Arabidopsis in response to nitrogen. Plant Physiol (2004) 4.99
Dual pathways for regulation of root branching by nitrate. Proc Natl Acad Sci U S A (1999) 3.89
Genomic analysis of a nutrient response in Arabidopsis reveals diverse expression patterns and novel metabolic and potential regulatory genes induced by nitrate. Plant Cell (2000) 3.43
Phosphate availability alters architecture and causes changes in hormone sensitivity in the Arabidopsis root system. Plant Physiol (2002) 3.21
Phosphate availability regulates root system architecture in Arabidopsis. Plant Physiol (2001) 3.19
Comprehensive interaction map of the Arabidopsis MADS Box transcription factors. Plant Cell (2005) 3.12
AUX1 promotes lateral root formation by facilitating indole-3-acetic acid distribution between sink and source tissues in the Arabidopsis seedling. Plant Cell (2002) 2.95
An ancestral MADS-box gene duplication occurred before the divergence of plants and animals. Proc Natl Acad Sci U S A (2000) 2.49
Three functional transporters for constitutive, diurnally regulated, and starvation-induced uptake of ammonium into Arabidopsis roots. Plant Cell (1999) 2.47
The Arabidopsis NRT1.1 transporter participates in the signaling pathway triggering root colonization of nitrate-rich patches. Proc Natl Acad Sci U S A (2006) 2.41
Nitrate-responsive miR393/AFB3 regulatory module controls root system architecture in Arabidopsis thaliana. Proc Natl Acad Sci U S A (2010) 2.03
The bHLH transcription factor POPEYE regulates response to iron deficiency in Arabidopsis roots. Plant Cell (2010) 1.98
Conservation of Arabidopsis flowering genes in model legumes. Plant Physiol (2005) 1.98
Plasticity of the Arabidopsis root system under nutrient deficiencies. Plant Physiol (2013) 1.97
Global transcription profiling reveals comprehensive insights into hypoxic response in Arabidopsis. Plant Physiol (2005) 1.94
The Arabidopsis transcription factor MYB77 modulates auxin signal transduction. Plant Cell (2007) 1.88
Nitrate-induced genes in tomato roots. Array analysis reveals novel genes that may play a role in nitrogen nutrition. Plant Physiol (2001) 1.86
A central role for the nitrate transporter NRT2.1 in the integrated morphological and physiological responses of the root system to nitrogen limitation in Arabidopsis. Plant Physiol (2006) 1.80
A role for auxin redistribution in the responses of the root system architecture to phosphate starvation in Arabidopsis. Plant Physiol (2005) 1.76
Auxin acts in xylem-associated or medullary cells to mediate apical dominance. Plant Cell (2003) 1.75
Nitrogen regulation of root branching. Ann Bot (2005) 1.75
The embryo MADS domain factor AGL15 acts postembryonically. Inhibition of perianth senescence and abscission via constitutive expression. Plant Cell (2000) 1.72
Quantitative trait loci analysis of nitrogen use efficiency in Arabidopsis. Plant Physiol (2003) 1.69
Natural genetic variation in Arabidopsis identifies BREVIS RADIX, a novel regulator of cell proliferation and elongation in the root. Genes Dev (2004) 1.66
Members of the LBD family of transcription factors repress anthocyanin synthesis and affect additional nitrogen responses in Arabidopsis. Plant Cell (2009) 1.66
Genome-wide classification and evolutionary analysis of the bHLH family of transcription factors in Arabidopsis, poplar, rice, moss, and algae. Plant Physiol (2010) 1.66
Type I MADS-box genes have experienced faster birth-and-death evolution than type II MADS-box genes in angiosperms. Proc Natl Acad Sci U S A (2004) 1.62
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Breeding crop plants with deep roots: their role in sustainable carbon, nutrient and water sequestration. Ann Bot (2011) 1.60
Transcript profiling of early lateral root initiation. Proc Natl Acad Sci U S A (2004) 1.58
ARC6 is a J-domain plastid division protein and an evolutionary descendant of the cyanobacterial cell division protein Ftn2. Plant Cell (2003) 1.54
cDNA microarray analysis of developing grape (Vitis vinifera cv. Shiraz) berry skin. Funct Integr Genomics (2004) 1.48
Adaptive evolution in the Arabidopsis MADS-box gene family inferred from its complete resolved phylogeny. Proc Natl Acad Sci U S A (2003) 1.48
Nitrogen economics of root foraging: transitive closure of the nitrate-cytokinin relay and distinct systemic signaling for N supply vs. demand. Proc Natl Acad Sci U S A (2011) 1.46
Endodermal ABA signaling promotes lateral root quiescence during salt stress in Arabidopsis seedlings. Plant Cell (2013) 1.46
Ammonium triggers lateral root branching in Arabidopsis in an AMMONIUM TRANSPORTER1;3-dependent manner. Plant Cell (2010) 1.44
Involvement of miR169 in the nitrogen-starvation responses in Arabidopsis. New Phytol (2011) 1.41
Mild salinity stimulates a stress-induced morphogenic response in Arabidopsis thaliana roots. J Exp Bot (2010) 1.41
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Global transcription profiling reveals differential responses to chronic nitrogen stress and putative nitrogen regulatory components in Arabidopsis. BMC Genomics (2007) 1.37
Predictive network modeling of the high-resolution dynamic plant transcriptome in response to nitrate. Genome Biol (2010) 1.34
Regulating the regulators: the future prospects for transcription-factor-based agricultural biotechnology products. Plant Physiol (2008) 1.32
Localized iron supply triggers lateral root elongation in Arabidopsis by altering the AUX1-mediated auxin distribution. Plant Cell (2012) 1.26
Quantitative analysis of lateral root development: pitfalls and how to avoid them. Plant Cell (2012) 1.24
Nutritional regulation of ANR1 and other root-expressed MADS-box genes in Arabidopsis thaliana. Planta (2005) 1.24
Patterns of plant biomass partitioning depend on nitrogen source. PLoS One (2011) 1.20
Effect of regulated overexpression of the MADS domain factor AGL15 on flower senescence and fruit maturation. Plant Physiol (2002) 1.19
Determination of the motif responsible for interaction between the rice APETALA1/AGAMOUS-LIKE9 family proteins using a yeast two-hybrid system. Plant Physiol (1999) 1.19
Apparent genetic redundancy facilitates ecological plasticity for nitrate transport. EMBO J (2001) 1.18
Characterization of Arabidopsis acid phosphatase promoter and regulation of acid phosphatase expression. Plant Physiol (2000) 1.18
The emerging importance of type I MADS box transcription factors for plant reproduction. Plant Cell (2011) 1.18
A genetic screen for nitrate regulatory mutants captures the nitrate transporter gene NRT1.1. Plant Physiol (2009) 1.17
Cloning and characterization of maize miRNAs involved in responses to nitrogen deficiency. PLoS One (2012) 1.17
Nitrate-specific and cytokinin-mediated nitrogen signaling pathways in plants. J Plant Res (2003) 1.16
Root system architecture determines fitness in an Arabidopsis mutant in competition for immobile phosphate ions but not for nitrate ions. Proc Biol Sci (2002) 1.14
Overexpression of OsRAA1 causes pleiotropic phenotypes in transgenic rice plants, including altered leaf, flower, and root development and root response to gravity. Plant Physiol (2004) 1.13
Reduced frequency of lateral root branching improves N capture from low-N soils in maize. J Exp Bot (2015) 1.13
CLE-CLAVATA1 peptide-receptor signaling module regulates the expansion of plant root systems in a nitrogen-dependent manner. Proc Natl Acad Sci U S A (2014) 1.13
Systemic signaling of the plant nitrogen status triggers specific transcriptome responses depending on the nitrogen source in Medicago truncatula. Plant Physiol (2008) 1.13
Nitrate signaling by the regulatory gene NIT2 in Chlamydomonas. Plant Cell (2007) 1.12
A holistic view of nitrogen acquisition in plants. J Exp Bot (2011) 1.11
Arabidopsis NIN-like transcription factors have a central role in nitrate signalling. Nat Commun (2013) 1.11
Decreased mitochondrial activities of malate dehydrogenase and fumarase in tomato lead to altered root growth and architecture via diverse mechanisms. Plant Physiol (2008) 1.10
Nuclear retention of the transcription factor NLP7 orchestrates the early response to nitrate in plants. Nat Commun (2013) 1.09
Ectopic expression of the petunia MADS box gene UNSHAVEN accelerates flowering and confers leaf-like characteristics to floral organs in a dominant-negative manner. Plant Cell (2004) 1.09
Systems approaches map regulatory networks downstream of the auxin receptor AFB3 in the nitrate response of Arabidopsis thaliana roots. Proc Natl Acad Sci U S A (2013) 1.08
Getting to the roots of it: Genetic and hormonal control of root architecture. Front Plant Sci (2013) 1.08
Molecular and developmental biology of inorganic nitrogen nutrition. Arabidopsis Book (2002) 1.06
Nitrate assimilation in Chlamydomonas. Eukaryot Cell (2008) 1.05
Chemical stimulation of the Arabidopsis thaliana root using multi-laminar flow on a microfluidic chip. Lab Chip (2010) 1.04
Nitrate control of root hydraulic properties in plants: translating local information to whole plant response. Plant Physiol (2008) 1.04
Fine-mapping of qRL6.1, a major QTL for root length of rice seedlings grown under a wide range of NH4(+) concentrations in hydroponic conditions. Theor Appl Genet (2010) 1.03
Armadillo-related proteins promote lateral root development in Arabidopsis. Proc Natl Acad Sci U S A (2006) 1.03
Two perfectly conserved arginine residues are required for substrate binding in a high-affinity nitrate transporter. Proc Natl Acad Sci U S A (2004) 1.03
The response and recovery of the Arabidopsis thaliana transcriptome to phosphate starvation. BMC Plant Biol (2012) 1.03
Effects of earthworms and organic litter distribution on plant performance and aphid reproduction. Oecologia (2003) 1.02
Cooperative action of SLR1 and SLR2 is required for lateral root-specific cell elongation in maize. Plant Physiol (2001) 1.02
Phenotypic plasticity of the maize root system in response to heterogeneous nitrogen availability. Planta (2014) 1.02
Analysis of the Root System Architecture of Arabidopsis Provides a Quantitative Readout of Crosstalk between Nutritional Signals. Plant Cell (2014) 1.01
Carbon and nitrogen nutrient balance signaling in plants. Plant Signal Behav (2009) 1.01
Computational identification and analysis of novel sugarcane microRNAs. BMC Genomics (2012) 1.00
Nitrate-dependent control of root architecture and N nutrition are altered by a plant growth-promoting Phyllobacterium sp. Planta (2005) 1.00
Mitochondrial respiratory pathways modulate nitrate sensing and nitrogen-dependent regulation of plant architecture in Nicotiana sylvestris. Plant J (2008) 1.00
Strigolactones are involved in phosphate- and nitrate-deficiency-induced root development and auxin transport in rice. J Exp Bot (2014) 1.00
An efficient petiole-feeding bioassay for introducing aqueous solutions into dicotyledonous plants. Nat Protoc (2010) 1.00
Chitinase-like protein CTL1 plays a role in altering root system architecture in response to multiple environmental conditions. Plant Physiol (2009) 0.99
Nitric oxide mediates humic acids-induced root development and plasma membrane H+-ATPase activation. Planta (2010) 0.99
Environmental Nitrate Stimulates Abscisic Acid Accumulation in Arabidopsis Root Tips by Releasing It from Inactive Stores. Plant Cell (2016) 0.98
Transcription factor networks. Pathways to the knowledge of root development. Plant Physiol (2004) 0.97
Dissecting the effects of nitrate, sucrose and osmotic potential on Arabidopsis root and shoot system growth in laboratory assays. Philos Trans R Soc Lond B Biol Sci (2012) 0.97
Nitric oxide is involved in nitrate-induced inhibition of root elongation in Zea mays. Ann Bot (2007) 0.97
Interacting glutamate receptor-like proteins in Phloem regulate lateral root initiation in Arabidopsis. Plant Cell (2013) 0.95
Identification of differentially expressed genes between sorghum genotypes with contrasting nitrogen stress tolerance by genome-wide transcriptional profiling. BMC Genomics (2014) 0.95
Nitrate regulates floral induction in Arabidopsis, acting independently of light, gibberellin and autonomous pathways. Planta (2010) 0.94
Molecular and phylogenetic analysis of MADS-box genes of MIKC type and chromosome location of SEP-like genes in wheat (Triticum aestivum L.). Mol Genet Genomics (2007) 0.94
NPK macronutrients and microRNA homeostasis. Front Plant Sci (2015) 0.94
MADS goes genomic in conifers: towards determining the ancestral set of MADS-box genes in seed plants. Ann Bot (2014) 0.93
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