Probing the mechanisms of silicon-mediated pathogen resistance.
about
Functional analysis of light-regulated promoter region of AtPolλ gene.Identification and characterization of resistance to cowpea aphid (Aphis craccivora Koch) in Medicago truncatula.Deactivation of the Arabidopsis BRASSINOSTEROID INSENSITIVE 1 (BRI1) receptor kinase by autophosphorylation within the glycine-rich loop.Calcium/calmodulin inhibition of the Arabidopsis BRASSINOSTEROID-INSENSITIVE 1 receptor kinase provides a possible link between calcium and brassinosteroid signallingIn low transpiring conditions, uncoupling the BnNrt2.1 and BnNrt1.1 NO 3(-) transporters by glutamate treatment reveals the essential role of BnNRT2.1 for nitrate uptake and the nitrate-signaling cascade during growth.Arsenic uptake, accumulation and toxicity in rice plants: Possible remedies for its detoxification: A review.Three MADS-box genes of Hevea brasiliensis expressed during somatic embryogenesis and in the laticifer cells.Molecular characterization of a novel 14-3-3 protein gene (Hb14-3-3c) from Hevea brasiliensis.An ABC Transporter Is Involved in the Silicon-Induced Formation of Casparian Bands in the Exodermis of Rice.Plants and Light Manipulation: The Integrated Mineral System in Okra Leaves.MINERAL DEPOSITS IN FICUS LEAVES: MORPHOLOGIES AND LOCATIONS IN RELATION TO FUNCTION.Identification, distribution, and quantification of biominerals in a deciduous forest.Pea aphid biotype performance on diverse Medicago host genotypes indicates highly specific virulence and resistance functions.QTLs for agronomic and cell wall traits in a maize RIL progeny derived from a cross between an old Minnesota13 line and a modern Iodent line.How do plants balance multiple mutualists? Correlations among traits for attracting protective bodyguards and pollinators in cotton (Gossypium)A review of the arsenic concentration in paddy rice from the perspective of geoscience
P2860
Q34030579-4D452CA6-BC84-4D9D-8B7D-9DB738A2977BQ34325046-85D05C74-809C-4177-B455-48B0BDD040C8Q35657521-D5994918-439D-4E8C-8592-C099B529F683Q35862447-B1D43039-7E32-44C0-9F7E-BC274439E777Q36852207-C4997CEA-8AC5-4BC8-B3CF-F6DDFD2EA2C0Q39119120-6D7A6FFE-872C-431F-B3CB-4777912FDDE5Q39175363-CE3DF397-51E3-48FF-90E7-9E77224EA015Q39614075-434C3A2E-E792-4E93-813D-BD7C5B88B5D6Q41937516-3E5F7DE2-3C9B-4424-8B7A-2CDC8A1116F4Q42249752-ED723982-E056-4398-A1F5-C9E7E781EBD4Q46241009-9AD165D4-38A7-4968-8623-8B4D7D2D8C52Q46275818-E57DB7AB-0391-4DB5-AB4E-B5AD62A24B55Q46817402-23A761AB-533D-4CAD-96E5-21B0AE10DE33Q53809399-BE78605B-D50E-438D-8412-2E5D2FBF3229Q55967674-A9675612-2547-4DCA-982E-A9C82898FB2BQ57712029-662938BA-57D9-476C-B9B5-39DB5D592E0C
P2860
Probing the mechanisms of silicon-mediated pathogen resistance.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Probing the mechanisms of silicon-mediated pathogen resistance.
@en
Probing the mechanisms of silicon-mediated pathogen resistance.
@nl
type
label
Probing the mechanisms of silicon-mediated pathogen resistance.
@en
Probing the mechanisms of silicon-mediated pathogen resistance.
@nl
prefLabel
Probing the mechanisms of silicon-mediated pathogen resistance.
@en
Probing the mechanisms of silicon-mediated pathogen resistance.
@nl
P2093
P2860
P356
P1476
Probing the mechanisms of silicon-mediated pathogen resistance.
@en
P2093
Jining Chen
Kunzheng Cai
Shiming Luo
P2860
P356
10.4161/PSB.4.1.7280
P577
2009-01-01T00:00:00Z