Cross-talk between nitric oxide and Ca (2+) in elevated CO 2-induced lateral root formation.

In site bioimaging of hydrogen sulfide uncovers its pivotal role in regulating nitric oxide-induced lateral root formation. PLoS One (2014) 0.83

Intrinsic and environmental response pathways that regulate root system architecture. Plant Cell Environ (2005) 4.38

Dissecting Arabidopsis lateral root development. Trends Plant Sci (2003) 3.52

Phosphate availability alters architecture and causes changes in hormone sensitivity in the Arabidopsis root system. Plant Physiol (2002) 3.21

Nitrate and phosphate availability and distribution have different effects on root system architecture of Arabidopsis. Plant J (2002) 2.83

An abscisic acid-sensitive checkpoint in lateral root development of Arabidopsis. Plant J (2003) 2.30

Nitric oxide plays a central role in determining lateral root development in tomato. Planta (2004) 2.14

Death don't have no mercy and neither does calcium: Arabidopsis CYCLIC NUCLEOTIDE GATED CHANNEL2 and innate immunity. Plant Cell (2007) 1.95

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Elevated CO2 induces physiological, biochemical and structural changes in leaves of Arabidopsis thaliana. New Phytol (2006) 1.80

Nitric oxide and the regulation of gene expression. Trends Cell Biol (2001) 1.76

Cellular and subcellular localization of endogenous nitric oxide in young and senescent pea plants. Plant Physiol (2004) 1.69

A role for nitrilase 3 in the regulation of root morphology in sulphur-starving Arabidopsis thaliana. Plant J (2002) 1.54

Nitric oxide and nitric oxide synthase activity in plants. Phytochemistry (2004) 1.41

Nitric oxide mediates the indole acetic acid induction activation of a mitogen-activated protein kinase cascade involved in adventitious root development. Plant Physiol (2004) 1.35

Nitric oxide modulates the expression of cell cycle regulatory genes during lateral root formation in tomato. J Exp Bot (2006) 1.29

Constitutive arginine-dependent nitric oxide synthase activity in different organs of pea seedlings during plant development. Planta (2006) 1.27

Calcium and calcium-dependent protein kinases are involved in nitric oxide- and auxin-induced adventitious root formation in cucumber. J Exp Bot (2006) 1.21

Elevated carbon dioxide improves plant iron nutrition through enhancing the iron-deficiency-induced responses under iron-limited conditions in tomato. Plant Physiol (2009) 1.19

Nitric oxide signalling in plants: interplays with Ca2+ and protein kinases. J Exp Bot (2008) 1.18

Spatial and temporal effects of free-air CO2 enrichment (POPFACE) on leaf growth, cell expansion, and cell production in a closed canopy of poplar. Plant Physiol (2003) 1.11

Nitric oxide is required for, and promotes auxin-mediated activation of, cell division and embryogenic cell formation but does not influence cell cycle progression in alfalfa cell cultures. Plant J (2005) 1.08

Calcium is involved in nitric oxide- and auxin-induced lateral root formation in rice. Protoplasma (2011) 1.05

Nitric oxide synthase-mediated phytoalexin accumulation in soybean cotyledons in response to the Diaporthe phaseolorum f. sp. meridionalis elicitor. Plant Physiol (2002) 0.95

Auxin modulates the enhanced development of root hairs in Arabidopsis thaliana (L.) Heynh. under elevated CO(2). Plant Cell Environ (2011) 0.94

NO synthase-generated NO acts downstream of auxin in regulating Fe-deficiency-induced root branching that enhances Fe-deficiency tolerance in tomato plants. J Exp Bot (2011) 0.89

Nitric oxide enhances development of lateral roots in tomato (Solanum lycopersicum L.) under elevated carbon dioxide. Planta (2012) 0.84