Remote stimulation by heat induces characteristic membrane-potential responses in the veins of wild-type and abscisic acid-deficient tomato plants

The systemic induction of proteinase inhibitor genes in tomato plants is either mediated by fast electrical signals or alternatively by chemical messengers. In the present study we analyzed the pathway of the electrical signal. The question of which cell types are involved in this pathway of long-distance signaling within plants is still controversial. To identify these we inserted microelectrodes into the veins of tomato leaves (Lycopersicon esculentum Mill. cv. Moneymaker). A newly developed computer program and microcomputer interface enabled us to position these microelectrodes inside the vein with an accuracy of I mu m. Due to this precision in positioning we were able to demonstrate that the pathway of the electrical signal is not restricted to a specific tissue type, e.g. the phloem. In particular, the entire vein contributes to the propagation of the electrical wave along the plant. Therefore, an apoplastic contribution to the long-distance signal transduction mechanism appears most likely. To furthermore investigate the involvement of cis-abscisic acid (ABA) in this long-distance signal transduction pathway, ABA-deficient tomato mutants (Lycopersicon esculentum cv. Sitiens) were used in comparison to the wild type. Significant differences between the membrane-potential relaxation kinetics of the wild type and the mutants could be detected. Wild-type tomato plants exhibited six characteristic classes of membrane-potential relaxation kinetics following heat treatment. In contrast, the ABA-deficient mutants were more restricted in terms of their relaxation upon heat stimulation. The responses in the membrane potential of all cells within a vein consisted of only three categories. In conclusion, ABA did not affect all cells within the vein in a similar manner. Single cells exhibited different response patterns to systemic heat application in the presence of ABA. Moreover, ABA had a pronounced effect on the resting potentials of individual cells within the veins of tomato.