Published in Plant Physiol on March 07, 2012
The role of plants in the effects of global change on nutrient availability and stoichiometry in the plant-soil system. Plant Physiol (2012) 1.36
Auxin and strigolactone signaling are required for modulation of Arabidopsis shoot branching by nitrogen supply. Plant Physiol (2014) 0.92
Nitrogen modulation of legume root architecture signaling pathways involves phytohormones and small regulatory molecules. Front Plant Sci (2013) 0.85
The impact of beneficial plant-associated microbes on plant phenotypic plasticity. J Chem Ecol (2013) 0.84
Unexpectedly low nitrogen acquisition and absence of root architecture adaptation to nitrate supply in a Medicago truncatula highly branched root mutant. J Exp Bot (2014) 0.81
Different Pathways Act Downstream of the CEP Peptide Receptor CRA2 to Regulate Lateral Root and Nodule Development. Plant Physiol (2016) 0.80
Molecular Signals Controlling the Inhibition of Nodulation by Nitrate in Medicago truncatula. Int J Mol Sci (2016) 0.80
Role of ethylene in responses of plants to nitrogen availability. Front Plant Sci (2015) 0.79
The potential roles of strigolactones and brassinosteroids in the autoregulation of nodulation pathway. Ann Bot (2014) 0.79
The nitrate transporter MtNPF6.8 (MtNRT1.3) transports abscisic acid and mediates nitrate regulation of primary root growth in Medicago truncatula. Plant Physiol (2014) 0.79
The Control of Auxin Transport in Parasitic and Symbiotic Root-Microbe Interactions. Plants (Basel) (2015) 0.76
Hormonal Control of Lateral Root and Nodule Development in Legumes. Plants (Basel) (2015) 0.76
Abiotic Stress Responses and Microbe-Mediated Mitigation in Plants: The Omics Strategies. Front Plant Sci (2017) 0.75
The microRNA390/TAS3 pathway mediates in symbiotic nodulation and lateral root growth. Plant Physiol (2017) 0.75
The infection of clover root hairs by nodule bacteria studied by a simple glass slide technique. J Gen Microbiol (1957) 11.37
Auxin transport promotes Arabidopsis lateral root initiation. Plant Cell (2001) 5.82
An Arabidopsis MADS box gene that controls nutrient-induced changes in root architecture. Science (1998) 5.80
Suppression of nodule development of one side of a split-root system of soybeans caused by prior inoculation of the other side. Plant Physiol (1984) 4.53
Inhibition of auxin movement from the shoot into the root inhibits lateral root development in Arabidopsis. Plant Physiol (1998) 4.01
Dual pathways for regulation of root branching by nitrate. Proc Natl Acad Sci U S A (1999) 3.89
Auxin transport - shaping the plant. Curr Opin Plant Biol (2003) 3.67
Nitrate-regulated auxin transport by NRT1.1 defines a mechanism for nutrient sensing in plants. Dev Cell (2010) 3.44
Shoot-derived auxin is essential for early lateral root emergence in Arabidopsis seedlings. Plant J (2002) 3.38
Isolation and properties of soybean [Glycine max (L.) Merr.] mutants that nodulate in the presence of high nitrate concentrations. Proc Natl Acad Sci U S A (1985) 3.27
Cell-specific nitrogen responses mediate developmental plasticity. Proc Natl Acad Sci U S A (2008) 3.17
Shoot control of root development and nodulation is mediated by a receptor-like kinase. Nature (2002) 3.04
HAR1 mediates systemic regulation of symbiotic organ development. Nature (2002) 3.01
Long-distance signaling in nodulation directed by a CLAVATA1-like receptor kinase. Science (2002) 2.99
A Supernodulation and Nitrate-Tolerant Symbiotic (nts) Soybean Mutant. Plant Physiol (1985) 2.88
Nitrate and phosphate availability and distribution have different effects on root system architecture of Arabidopsis. Plant J (2002) 2.83
Regulation of the soybean-Rhizobium nodule symbiosis by shoot and root factors. Plant Physiol (1986) 2.80
Local and long-range signaling pathways regulating plant responses to nitrate. Annu Rev Plant Biol (2002) 2.63
Qualitative network models and genome-wide expression data define carbon/nitrogen-responsive molecular machines in Arabidopsis. Genome Biol (2007) 2.45
The Medicago truncatula SUNN gene encodes a CLV1-like leucine-rich repeat receptor kinase that regulates nodule number and root length. Plant Mol Biol (2005) 2.12
Environmental regulation of lateral root initiation in Arabidopsis. Plant Physiol (2001) 2.02
Short root mutant of Lotus japonicus with a dramatically altered symbiotic phenotype. Plant J (2000) 1.89
Nitrogen regulation of root branching. Ann Bot (2005) 1.75
Dual genetic pathways controlling nodule number in Medicago truncatula. Plant Physiol (2003) 1.63
Auxin-mediated lateral root formation in higher plants. Int Rev Cytol (2007) 1.59
Why are nitrogen concentrations in plant tissues lower under elevated CO2? A critical examination of the hypotheses. J Integr Plant Biol (2008) 1.52
Root based approaches to improving nitrogen use efficiency in plants. Plant Cell Environ (2009) 1.50
Inoculation- and nitrate-induced CLE peptides of soybean control NARK-dependent nodule formation. Mol Plant Microbe Interact (2011) 1.47
Defective long-distance auxin transport regulation in the Medicago truncatula super numeric nodules mutant. Plant Physiol (2006) 1.42
Nutrient sharing between symbionts. Plant Physiol (2007) 1.32
Molecular mechanisms controlling legume autoregulation of nodulation. Ann Bot (2011) 1.29
Auxin distribution in Lotus japonicus during root nodule development. Plant Mol Biol (2003) 1.27
Inhibition of maize root growth by high nitrate supply is correlated with reduced IAA levels in roots. J Plant Physiol (2007) 1.23
Auxin minimum defines a developmental window for lateral root initiation. New Phytol (2011) 1.21
Inoculation and nitrate alter phytohormone levels in soybean roots: differences between a supernodulating mutant and the wild type. Planta (2000) 1.17
Signaling mechanisms integrating root and shoot responses to changes in the nitrogen supply. Photosynth Res (2005) 1.13
Overlap of proteome changes in Medicago truncatula in response to auxin and Sinorhizobium meliloti. Plant Physiol (2007) 1.10
The LATD gene of Medicago truncatula is required for both nodule and root development. Mol Plant Microbe Interact (2005) 1.08
The lss supernodulation mutant of Medicago truncatula reduces expression of the SUNN gene. Plant Physiol (2010) 1.08
A putative transporter is essential for integrating nutrient and hormone signaling with lateral root growth and nodule development in Medicago truncatula. Plant J (2010) 1.05
Adaptation of Medicago truncatula to nitrogen limitation is modulated via local and systemic nodule developmental responses. New Phytol (2009) 1.02
Elevated CO2 concentration around alfalfa nodules increases N2 fixation. J Exp Bot (2010) 0.93
Auxin transport in maize roots in response to localized nitrate supply. Ann Bot (2010) 0.87
Cytokinins and auxin communicate nitrogen availability as long-distance signal molecules in pineapple (Ananas comosus). J Plant Physiol (2007) 0.81
Knockdown of CELL DIVISION CYCLE16 reveals an inverse relationship between lateral root and nodule numbers and a link to auxin in Medicago truncatula. Plant Physiol (2009) 0.81
Brachypodium as a model for the grasses: today and the future. Plant Physiol (2011) 1.93
Silencing the flavonoid pathway in Medicago truncatula inhibits root nodule formation and prevents auxin transport regulation by rhizobia. Plant Cell (2006) 1.76
Bioinformatic analysis of the CLE signaling peptide family. BMC Plant Biol (2008) 1.66
The role of flavonoids in root-rhizosphere signalling: opportunities and challenges for improving plant-microbe interactions. J Exp Bot (2012) 1.46
Defective long-distance auxin transport regulation in the Medicago truncatula super numeric nodules mutant. Plant Physiol (2006) 1.42
Non-destructive quantification of cereal roots in soil using high-resolution X-ray tomography. J Exp Bot (2012) 1.41
Common regulatory themes in meristem development and whole-plant homeostasis. Curr Opin Plant Biol (2006) 1.39
MtCRE1-dependent cytokinin signaling integrates bacterial and plant cues to coordinate symbiotic nodule organogenesis in Medicago truncatula. Plant J (2011) 1.35
Plant responses to bacterial quorum sensing signals. Curr Opin Plant Biol (2004) 1.32
Perception and degradation of N-acyl homoserine lactone quorum sensing signals by mammalian and plant cells. Chem Rev (2010) 1.28
Soil conditions and cereal root system architecture: review and considerations for linking Darwin and Weaver. J Exp Bot (2013) 1.25
Age-related differences in plasma proteins: how plasma proteins change from neonates to adults. PLoS One (2011) 1.22
Flavonoids: their structure, biosynthesis and role in the rhizosphere, including allelopathy. J Chem Ecol (2013) 1.18
The Ethylene-insensitive sickle mutant of Medicago truncatula shows altered auxin transport regulation during nodulation. Plant Physiol (2006) 1.13
Overlap of proteome changes in Medicago truncatula in response to auxin and Sinorhizobium meliloti. Plant Physiol (2007) 1.10
A screening method to identify genetic variation in root growth response to a salinity gradient. J Exp Bot (2011) 1.05
Manipulation of auxin transport in plant roots during Rhizobium symbiosis and nematode parasitism. Plant Cell (2009) 1.03
Evolution of bacterial communities in the wheat crop rhizosphere. Environ Microbiol (2014) 1.00
Phytohormone regulation of legume-rhizobia interactions. J Chem Ecol (2014) 0.98
Proteome reference maps of Medicago truncatula embryogenic cell cultures generated from single protoplasts. Proteomics (2004) 0.94
A functional genomics approach to dissect the mode of action of the Stagonospora nodorum effector protein SnToxA in wheat. Mol Plant Pathol (2011) 0.90
The compact root architecture1 gene regulates lignification, flavonoid production, and polar auxin transport in Medicago truncatula. Plant Physiol (2010) 0.89
Role of LONELY GUY genes in indeterminate nodulation on Medicago truncatula. New Phytol (2014) 0.87
Differing requirements for flavonoids during the formation of lateral roots, nodules and root knot nematode galls in Medicago truncatula. New Phytol (2009) 0.86
Comparative proteomics of high light stress in the model alga Chlamydomonas reinhardtii. Proteomics (2006) 0.86
Summer dormancy and winter growth: root survival strategy in a perennial monocotyledon. New Phytol (2009) 0.85
Pathways of infection of Brassica napus roots by Leptosphaeria maculans. New Phytol (2007) 0.84
Digital imaging approaches for phenotyping whole plant nitrogen and phosphorus response in Brachypodium distachyon. J Integr Plant Biol (2014) 0.84
The impact of beneficial plant-associated microbes on plant phenotypic plasticity. J Chem Ecol (2013) 0.84
Mechanisms for cellular transport and release of allelochemicals from plant roots into the rhizosphere. J Exp Bot (2012) 0.84
Clinical effectiveness of a critical care nursing outreach service in facilitating discharge from the intensive care unit. Am J Crit Care (2010) 0.83
Role of the Arabidopsis PIN6 auxin transporter in auxin homeostasis and auxin-mediated development. PLoS One (2013) 0.83
Frozen in time: a new method using cryo-scanning electron microscopy to visualize root-fungal interactions. New Phytol (2006) 0.81
Application of Brachypodium to the genetic improvement of wheat roots. J Exp Bot (2012) 0.80
Identification of ethylene-mediated protein changes during nodulation in Medicago truncatula using proteome analysis. J Proteome Res (2006) 0.80
A proteome study of the proliferation of cultured Medicago truncatula protoplasts. Proteomics (2007) 0.79
Proteomic analysis of legume-microbe interactions. Comp Funct Genomics (2003) 0.78
The 2HA line of Medicago truncatula has characteristics of an epigenetic mutant that is weakly ethylene insensitive. BMC Plant Biol (2014) 0.76
A qualitative exploration of nurse's perception of Critical Outreach Service: a before and after study. Aust Crit Care (2010) 0.75
Mobile phones may be useful tools but are banned on wards for a reason. Nurs Stand (2009) 0.75
11th International Congress on Molecular Plant-Microbe Interactions held at St. Petersburg--a report. Indian J Exp Biol (2003) 0.75
The quadrupole moment of substituted cyclopentadienyl anions. J Phys Chem A (2010) 0.75