β-Aminobutyric acid-mediated enhancement of resistance in tobacco to tobacco mosaic virus depends on the accumulation of salicylic acid

A number of chemical and biological agents are known as inducers of systemic acquired resistance (SAR) to tobacco mosaic virus (TMV) in tobacco plants. In the present study, a local spray application of the non-protein amino acid DL-β-aminobutyric acid (BABA) was effective in enhancing resistance to...

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Bibliographic Details
Published in:Physiological and molecular plant pathology 2000-03, Vol.56 (3), p.95-106
Main Authors: SIEGRIST, J., OROBER, M., BUCHENAUER, H.
Format: Article
Language:English
Subjects:
a-Aminobutyric acid
b-Aminobutyric acid
Biological and medical sciences
BTH
Fundamental and applied biological sciences. Psychology
g-Aminobutyric acid
hypersensitive response
Pathology. Damages, economic importance
Phytopathology. Animal pests. Plant and forest protection
Plant viruses and viroids
reactive oxygen species
salicylic acid
systemic acquired resistance
tobacco
Tobacco mosaic virus
β-Aminobutyric acid
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Summary:A number of chemical and biological agents are known as inducers of systemic acquired resistance (SAR) to tobacco mosaic virus (TMV) in tobacco plants. In the present study, a local spray application of the non-protein amino acid DL-β-aminobutyric acid (BABA) was effective in enhancing resistance to TMV in tobacco plants containing the N gene. In contrast, the isomer α-aminobutyric acid (AABA) showed a much lower activity whereas γ-aminobutyric acid (GABA) was completely inactive, indicating a strong isomer specificity of aminobutyric acid in triggering enhanced virus resistance. Rapid cell death was detected in tobacco leaf tissues after foliar application of BABA, subsequently resulting in the development of macroscopically visible, necrotic lesions. BABA-induced cell death was associated with the rapid generation of superoxide and hydrogen peroxide. As further consequences, the occurrence of lipid peroxidation in treated tissues, a local and systemic increase of salicylic acid (SA) levels and the expression of PR-1a, a molecular marker of SAR in tobacco, could be observed. None of these responses was detectable after treatment with GABA. Enhancement of virus resistance by BABA was found to be strictly dependent on SA-mediated signal transduction since it could not be detected in salicylate hydroxylase (nahG) expressing transgenic tobacco plants. These findings suggest that in tobacco, primary processes triggered by foliar application of BABA, resemble those initiated by microbes during a hypersensitive response (HR) that result in SAR activation.
ISSN:0885-5765
1096-1178
DOI:10.1006/pmpp.1999.0255