Early Events Prior to Visual Symptoms in the Apoplectic Form of Grapevine Esca Disease
Autor: | G. Perrot, Christophe Clément, Florence Fontaine, Nathalie Vaillant-Gaveau, Fanja Rabenoelina, Patricia Letousey, M. Boulay, Fabienne Baillieul |
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Rok vydání: | 2010 |
Předmět: |
Chlorophyll
Water transport Chlorophyll A Fungi Defence mechanisms Plant physiology Xylem Wilting Plant Science Biology Fluorescence Microbiology Plant Leaves chemistry.chemical_compound chemistry Gene Expression Regulation Plant Botany Vitis Photosynthesis Agronomy and Crop Science Chlorophyll fluorescence Incubation Plant Diseases |
Zdroj: | Phytopathology®. 100:424-431 |
ISSN: | 1943-7684 0031-949X |
Popis: | Plant infection by pathogens generates various forms of symptoms. Most of them have been described as soon as they become visible, whereas preceding, discrete signs during incubation are poorly or not understood. In Vitis vinifera, esca-related pathogenic fungi inhabit living trunk wood and induce the so-called apoplexy, a sudden wilting of leaves within a few days. To further understand the apoplexy expression, the period preceding symptom appearance was investigated by following physiological and molecular markers associated with photosynthetic mechanisms and stress responses. Within the week preceding symptoms, drastic physiological alterations of photosynthesis were registered in pre-apoplectic vines, as revealed by a decrease in gas exchange, changes in chlorophyll fluorescence, and repression of photosynthesis-related genes. In the meantime, expression of defense-related genes was induced and amplified during symptom expression. Water-stress-related genes were specifically investigated because water transport may be impeded by clogging xylem vessels due to esca-causing fungi. Neither of the tested water-stress-related genes was affected in pre-apoplectic grapevine leaves whereas these genes were downregulated in drying leaves. Our results suggest that, during incubation of esca apoplexy, grapevine perceives some signals (likely fungi-originated toxins) and reacts by reducing photosynthesis and triggering defense mechanisms. |
Databáze: | OpenAIRE |
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