Regulation of Plant Immunity through Modulation of Phytoalexin synthesis: electronic resource

Regulation of Plant Immunity through Modulation of Phytoalexin synthesis electronic resource

Soybean hairy roots transformed with the resveratrol synthase and resveratrol oxymethyl transferase genes driven by constitutive Arabidopsis actin and CsVMV promoters were characterized. Transformed hairy roots accumulated glycoside conjugates of the stilbenic compound resveratrol and the related co...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 19; no. 6; pp. 7480 - 7496
Main Authors: Zernova, Olga V, Lygin, Anatoli V, Pawlowski, Michelle L, Hill, Curtis B, Hartman, Glen L, Widholm, Jack M, Lozovaya, Vera V
Format: Journal Article
Language:English
Published: 2014
Subjects:
actin
Arabidopsis
disease resistance
gene expression regulation
gene overexpression
genes
genetic resistance
genetic transformation
Glycine max
necrosis
phytoalexins
resveratrol
roots
soybeans
Thanatephorus cucumeris
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Summary:Soybean hairy roots transformed with the resveratrol synthase and resveratrol oxymethyl transferase genes driven by constitutive Arabidopsis actin and CsVMV promoters were characterized. Transformed hairy roots accumulated glycoside conjugates of the stilbenic compound resveratrol and the related compound pterostilbene, which are normally not synthesized by soybean plants. Expression of the non-native stilbenic phytoalexin synthesis in soybean hairy roots increased their resistance to the soybean pathogen Rhizoctonia solani. The expression of the AhRS3 gene resulted in 20% to 50% decreased root necrosis compared to that of untransformed hairy roots. The expression of two genes, the AhRS3 and ROMT, required for pterostilbene synthesis in soybean, resulted in significantly lower root necrosis (ranging from 0% to 7%) in transgenic roots than in untransformed hairy roots that had about 84% necrosis. Overexpression of the soybean prenyltransferase (dimethylallyltransferase) G4DT gene in soybean hairy roots increased accumulation of the native phytoalexin glyceollin resulting in decreased root necrosis.
Bibliography:http://dx.doi.org/10.3390/molecules19067480
http://handle.nal.usda.gov/10113/59013
ISSN:1420-3049
1420-3049