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Résumé :
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Lap A RNAs, proteins, and activities increased in response to systemin, methyl jasmonate, abscisic acid (ABA), ethylene, water deficit, and salinity in tomato (Lycopersicon esculentum). Salicylic acid inhibited wound-induced increases of Lap A RNAs. Experiments using the ABA-deficient flacca mutant indicated that ABA was essential for wound and systemin induction of Lap A, and ABA and systemin acted synergistically to induce Lap A gene expression. in contrast, pin2 (proteinase inhibitor 2) was not dependent on exogenous ABA. Whereas both Lap A and le4 (L. esculentum dehydrin) were up-regulated by increases in ABA, salinity, and water deficit, only Lap A was regulated by octadecanoid pathway signals. Comparison of Lap A expression with that of the PR-1 (pathogenesis-related 1) and Glu B (basic beta-1,3-glucanase) genes indicated that these PR protein genes were modulated by a systemin-independent jasmonic acid-signaling pathway. These studies showed that at least four signaling pathways were utilized during tomato wound and defense responses. Analysis of the expression of a Lap A1:GUS gene in transgenic plants indicated that the Lap A I promoter was active during floral and fruit development and was used during vegetative growth only in response to wounding, Pseudomonas syringae pv tomato infection, or wound signals. This comprehensive understanding of the regulation of Lap A genes indicated that this regulatory program is distinct from the wound-induced pin2, ABA-responsive le4, and PR protein genes.
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