Abstract
Suspension-cultured carrot cells and intact leaves respond to crude and purified protein elicitors from the non-host fungus Pythium aphanidermatum by activating the general phenylpropanoid pathway and incorporating de-novo-synthesized 4-hydroxybenzoic acid (4-HBA) into the cell wall. The cultured cells undergo a very rapid elicitor-induced cell death. Both reactions are directly correlated in their time course and their dose dependency. Cell death in elicitor-treated protoplasts resulted in early membrane damage and the digestion of DNA into oligonucleosomal fragments. The same pattern of DNA degradation could be induced in protoplasts by the G-protein activators Mas-7 or mastoparan. In cell cultures, both activators induced a rapid loss of viability without the activation of the general phenylpropanoid pathway. The elicitor-induced reactions, the loss of viability and the induction of 4-HBA biosynthesis were blocked by the calcium-channel blocker nifedipine. Neomycin and U73122, two inhibitors of phospholipase C, blocked the induction of 4-HBA biosynthesis but did not affect the loss in viability. The injection of the elicitor into the leaves of intact carrot plants confirmed the results obtained with cell cultures with regard to the induction of the hypersensitive response. The purification of the active compound revealed a 25-kDa protein which triggers both cell death and 4-HBA synthesis. The signalling pathways to both reactions could be independently blocked or induced.
Published Version
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