Sub-lethal Levels of Electric Current Elicit the Biosynthesis of Plant Secondary Metabolites

Sub-lethal Levels of Electric Current Elicit the Biosynthesis of Plant Secondary Metabolites

Many secondary metabolites that are normally undetectable or in low amounts in healthy plant tissue are synthesized in high amounts in response to microbial infection. Various abiotic and biotic agents have been shown to mimic microorganisms and act as elicitors of the synthesis of these plant compo...

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Bibliographic Details
Published in:Biotechnology progress Vol. 24; no. 2; pp. 377 - 384
Main Authors: Kaimoyo, E, Farag, M.A, Sumner, L.W, Wasmann, C, Cuello, J.L, VanEtten, H
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-03-2008
American Chemical Society
American Institute of Chemical Engineers
Subjects:
Arabidopsis - metabolism
Arabidopsis thaliana
Biological and medical sciences
biosynthesis
Biotechnology
cell suspension culture
Cells, Cultured
chickpeas
Chromatography, High Pressure Liquid
Cicer
Cicer arietinum
electric current
Electric Stimulation
electrical treatment
fenugreek
Fundamental and applied biological sciences. Psychology
Hydroponics
Medicago truncatula
peas
phytoalexins
pisatin
Pisum sativum
Plant Roots - chemistry
Plant Roots - cytology
Plant Roots - metabolism
Plants - chemistry
Plants - metabolism
Pterocarpans - biosynthesis
roots
secondary metabolites
seedlings
Seedlings - metabolism
Sorghum
Trifolium
Trifolium pratense
Trigonella
Trigonella foenum-graecum
Metabolite
Electric current
Biosynthesis
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Summary:Many secondary metabolites that are normally undetectable or in low amounts in healthy plant tissue are synthesized in high amounts in response to microbial infection. Various abiotic and biotic agents have been shown to mimic microorganisms and act as elicitors of the synthesis of these plant compounds. In the present study, sub‐lethal levels of electric current are shown to elicit the biosynthesis of secondary metabolites in transgenic and non‐transgenic plant tissue. The production of the phytoalexin (+)‐pisatin by pea was used as the main model system. Non‐transgenic pea hairy roots treated with 30–100 mA of electric current produced 13 times higher amounts of (+)‐pisatin than did the non‐elicited controls. Electrically elicited transgenic pea hairy root cultures blocked at various enzymatic steps in the (+)‐pisatin biosynthetic pathway also accumulated intermediates preceding the blocked enzymatic step. Secondary metabolites not usually produced by pea accumulated in some of the transgenic root cultures after electric elicitation due to the diversion of the intermediates into new pathways. The amount of pisatin in the medium bathing the roots of electro‐elicited roots of hydroponically cultivated pea plants was 10 times higher 24 h after elicitation than in the medium surrounding the roots of non‐elicited control plants, showing not only that the electric current elicited (+)‐pisatin biosynthesis but also that the (+)‐pisatin was released from the roots. Seedlings, intact roots or cell suspension cultures of fenugreek ( Trigonella foenum‐graecum), barrel medic, ( Medicago truncatula), Arabidopsis thaliana, red clover ( Trifolium pratense) and chickpea ( Cicer arietinum) also produced increased levels of secondary metabolites in response to electro‐elicitation. On the basis of our results, electric current would appear to be a general elicitor of plant secondary metabolites and to have potential for application in both basic and commercial research.
Bibliography:http://dx.doi.org/10.1021/bp0703329
ArticleID:BTPR703329
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ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:8756-7938
1520-6033
DOI:10.1021/bp0703329