Published in Plant Physiol on July 06, 2015
Physiological controls of chrysanthemum DgD27 gene expression in regulation of shoot branching. Plant Cell Rep (2016) 0.76
Abscisic acid signaling is controlled by a BRANCHED1/HD-ZIP I cascade in Arabidopsis axillary buds. Proc Natl Acad Sci U S A (2016) 0.75
The Role of Endogenous Strigolactones and Their Interaction with ABA during the Infection Process of the Parasitic Weed Phelipanche ramosa in Tomato Plants. Front Plant Sci (2017) 0.75
Seed Production Affects Maternal Growth and Senescence in Arabidopsis. Plant Physiol (2016) 0.75
A Conserved Carbon Starvation Response Underlies Bud Dormancy in Woody and Herbaceous Species. Front Plant Sci (2017) 0.75
ABA Represses the Expression of Cell Cycle Genes and May Modulate the Development of Endodormancy in Grapevine Buds. Front Plant Sci (2017) 0.75
Growth and development of the axr1 mutants of Arabidopsis. Plant Cell (1990) 8.73
Strigolactone inhibition of shoot branching. Nature (2008) 6.86
Inhibition of shoot branching by new terpenoid plant hormones. Nature (2008) 5.89
Alterations of Endogenous Cytokinins in Transgenic Plants Using a Chimeric Isopentenyl Transferase Gene. Plant Cell (1989) 4.41
Sugars and circadian regulation make major contributions to the global regulation of diurnal gene expression in Arabidopsis. Plant Cell (2005) 4.13
High temperature promotes auxin-mediated hypocotyl elongation in Arabidopsis. Proc Natl Acad Sci U S A (1998) 3.94
Type-A Arabidopsis response regulators are partially redundant negative regulators of cytokinin signaling. Plant Cell (2004) 3.56
AREB1 is a transcription activator of novel ABRE-dependent ABA signaling that enhances drought stress tolerance in Arabidopsis. Plant Cell (2005) 2.97
Keeping up with the neighbours: phytochrome sensing and other signalling mechanisms. Trends Plant Sci (1999) 2.91
DAD2 is an α/β hydrolase likely to be involved in the perception of the plant branching hormone, strigolactone. Curr Biol (2012) 2.89
The Arabidopsis MAX pathway controls shoot branching by regulating auxin transport. Curr Biol (2006) 2.80
Phytochromes and shade-avoidance responses in plants. Ann Bot (2005) 2.77
Sugar and hormone connections. Trends Plant Sci (2003) 2.77
The OsTB1 gene negatively regulates lateral branching in rice. Plant J (2003) 2.69
Arabidopsis BRANCHED1 acts as an integrator of branching signals within axillary buds. Plant Cell (2007) 2.49
Signal integration in the control of shoot branching. Nat Rev Mol Cell Biol (2011) 2.29
Functional analysis of AHK1/ATHK1 and cytokinin receptor histidine kinases in response to abscisic acid, drought, and salt stress in Arabidopsis. Proc Natl Acad Sci U S A (2007) 2.22
Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane. PLoS Biol (2013) 2.18
Auxin controls local cytokinin biosynthesis in the nodal stem in apical dominance. Plant J (2006) 2.02
Strigolactone acts downstream of auxin to regulate bud outgrowth in pea and Arabidopsis. Plant Physiol (2009) 2.02
Control of bud activation by an auxin transport switch. Proc Natl Acad Sci U S A (2009) 1.97
Characterization of the ABA-regulated global responses to dehydration in Arabidopsis by metabolomics. Plant J (2008) 1.91
F-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana. Proc Natl Acad Sci U S A (2011) 1.89
Proliferating cell nuclear antigen (PCNA): a key factor in DNA replication and cell cycle regulation. Ann Bot (2010) 1.81
Strigolactones enhance competition between shoot branches by dampening auxin transport. Development (2010) 1.75
Auxin acts in xylem-associated or medullary cells to mediate apical dominance. Plant Cell (2003) 1.75
The hormonal regulation of axillary bud growth in Arabidopsis. Plant J (2000) 1.75
Something on the side: axillary meristems and plant development. Plant Mol Biol (2006) 1.69
Arabidopsis PYR/PYL/RCAR receptors play a major role in quantitative regulation of stomatal aperture and transcriptional response to abscisic acid. Plant Cell (2012) 1.67
Analysis of cytokinin mutants and regulation of cytokinin metabolic genes reveals important regulatory roles of cytokinins in drought, salt and abscisic acid responses, and abscisic acid biosynthesis. Plant Cell (2011) 1.66
Effect of Fruits on Dormancy and Abscisic Acid Concentration in the Axillary Buds of Phaseolus vulgaris L. Plant Physiol (1979) 1.64
The evolution of compensation to herbivory in scarlet gilia, Ipomopsis aggregata: herbivore-imposed natural selection and the quantitative genetics of tolerance. Evolution (2000) 1.61
Photosynthetic leaf area modulates tiller bud outgrowth in sorghum. Plant Cell Environ (2015) 1.57
Phytochrome B represses Teosinte Branched1 expression and induces sorghum axillary bud outgrowth in response to light signals. Plant Physiol (2006) 1.46
A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching. Nature (2012) 1.44
Arabidopsis Teosinte Branched1-like 1 regulates axillary bud outgrowth and is homologous to monocot Teosinte Branched1. Plant Cell Physiol (2007) 1.43
Sugar demand, not auxin, is the initial regulator of apical dominance. Proc Natl Acad Sci U S A (2014) 1.41
ABI4 mediates abscisic acid and cytokinin inhibition of lateral root formation by reducing polar auxin transport in Arabidopsis. Plant Cell (2010) 1.39
The pea TCP transcription factor PsBRC1 acts downstream of Strigolactones to control shoot branching. Plant Physiol (2011) 1.38
Antagonistic action of strigolactone and cytokinin in bud outgrowth control. Plant Physiol (2011) 1.36
FINE CULM1 (FC1) works downstream of strigolactones to inhibit the outgrowth of axillary buds in rice. Plant Cell Physiol (2010) 1.33
Shade avoidance. Arabidopsis Book (2012) 1.26
Involvement of indole-3-acetic acid in the circadian growth of the first internode of Arabidopsis. Planta (1999) 1.24
Positive regulatory role of strigolactone in plant responses to drought and salt stress. Proc Natl Acad Sci U S A (2013) 1.23
Evolutionary genetics of resistance and tolerance to natural herbivory in Arabidopsis thaliana. Evolution (2003) 1.21
Phytochrome regulation of branching in Arabidopsis. Plant Physiol (2010) 1.20
BRANCHED1 promotes axillary bud dormancy in response to shade in Arabidopsis. Plant Cell (2013) 1.18
Suppression of sorghum axillary bud outgrowth by shade, phyB and defoliation signalling pathways. Plant Cell Environ (2009) 1.16
The heterozygous abp1/ABP1 insertional mutant has defects in functions requiring polar auxin transport and in regulation of early auxin-regulated genes. Plant J (2011) 1.16
Does abscisic acid affect strigolactone biosynthesis? New Phytol (2010) 1.15
Regulation of axillary shoot development. Curr Opin Plant Biol (2013) 1.15
Allometry and development in herbaceous plants: functional responses of meristem allocation to light and nutrient availability. Am J Bot (2003) 1.13
Cell cycle regulation during growth-dormancy cycles in pea axillary buds. Plant Mol Biol (1995) 1.13
Overproduction of cytokinins in petunia flowers transformed with P(SAG12)-IPT delays corolla senescence and decreases sensitivity to ethylene. Plant Physiol (2003) 1.12
A direct interaction between proliferating cell nuclear antigen (PCNA) and Cdk2 targets PCNA-interacting proteins for phosphorylation. J Biol Chem (2000) 1.11
Inhibition of tiller bud outgrowth in the tin mutant of wheat is associated with precocious internode development. Plant Physiol (2012) 1.09
Carlactone is converted to carlactonoic acid by MAX1 in Arabidopsis and its methyl ester can directly interact with AtD14 in vitro. Proc Natl Acad Sci U S A (2014) 1.08
Changes after Decapitation in Concentrations of Indole-3-Acetic Acid and Abscisic Acid in the Larger Axillary Bud of Phaseolus vulgaris L. cv Tender Green. Plant Physiol (1991) 1.07
Abscisic acid regulates axillary bud outgrowth responses to the ratio of red to far-red light. Plant Physiol (2013) 1.07
Thermoinhibition uncovers a role for strigolactones in Arabidopsis seed germination. Plant Cell Physiol (2011) 1.05
Abscisic acid accumulation modulates auxin transport in the root tip to enhance proton secretion for maintaining root growth under moderate water stress. New Phytol (2012) 1.05
Insight into the role of sugars in bud burst under light in the rose. Plant Cell Physiol (2012) 1.02
Analysis of cycles of dormancy and growth in pea axillary buds based on mRNA accumulation patterns of cell cycle-related genes. Plant Cell Physiol (1998) 1.01
A tomato strigolactone-impaired mutant displays aberrant shoot morphology and plant interactions. J Exp Bot (2010) 0.99
Axillary bud outgrowth in herbaceous shoots: how do strigolactones fit into the picture? Plant Mol Biol (2010) 0.96
MAX2 affects multiple hormones to promote photomorphogenesis. Mol Plant (2012) 0.96
Role of tomato BRANCHED1-like genes in the control of shoot branching. Plant J (2011) 0.96
Regulation of RhSUC2, a sucrose transporter, is correlated with the light control of bud burst in Rosa sp. Plant Cell Environ (2011) 0.96
Diverse roles of strigolactone signaling in maize architecture and the uncoupling of a branching-specific subnetwork. Plant Physiol (2012) 0.94
PrCYP707A1, an ABA catabolic gene, is a key component of Phelipanche ramosa seed germination in response to the strigolactone analogue GR24. J Exp Bot (2012) 0.94
Sugars are under light control during bud burst in Rosa sp. Plant Cell Environ (2010) 0.94
Dynamics of strigolactone function and shoot branching responses in Pisum sativum. Mol Plant (2012) 0.94
Regulation of drought tolerance by the F-box protein MAX2 in Arabidopsis. Plant Physiol (2013) 0.93
Roles of DgBRC1 in regulation of lateral branching in chrysanthemum (Dendranthema ×grandiflora cv. Jinba). PLoS One (2013) 0.93
Expression of the Arabidopsis mutant ABI1 gene alters abscisic acid sensitivity, stomatal development, and growth morphology in gray poplars. Plant Physiol (2009) 0.91
Global analysis of the sugarcane microtranscriptome reveals a unique composition of small RNAs associated with axillary bud outgrowth. J Exp Bot (2013) 0.90
Photosynthetic photon flux density and phytochrome B interact to regulate branching in Arabidopsis. Plant Cell Environ (2011) 0.90
A reappraisal of the role of abscisic acid and its interaction with auxin in apical dominance. Ann Bot (2006) 0.88
Fitness consequences of branching in Verbascum thapsus (Scrophulariaceae). Am J Bot (2000) 0.87
Phytochrome B promotes branching in Arabidopsis by suppressing auxin signaling. Plant Physiol (2014) 0.85
Mutation of the cytosolic ribosomal protein-encoding RPS10B gene affects shoot meristematic function in Arabidopsis. BMC Plant Biol (2012) 0.84
Effects of light quality on apical dominance in Xanthium strumarium and the associated changes in endogenous levels of abscisic acid and cytokinins. Planta (1971) 0.84
Glucose inhibits root meristem growth via ABA INSENSITIVE 5, which represses PIN1 accumulation and auxin activity in Arabidopsis. Plant Cell Environ (2013) 0.83
Proteome analysis in Arabidopsis reveals shoot- and root-specific targets of cytokinin action and differential regulation of hormonal homeostasis. Plant Physiol (2012) 0.81
Genome-wide identification and transcription analysis of soybean carotenoid oxygenase genes during abiotic stress treatments. Mol Biol Rep (2013) 0.79
The timing of low R:FR exposure profoundly affects Arabidopsis branching responses. Plant Signal Behav (2014) 0.75