Extract of Hedera helix induces resistance on apple rootstock M26 similar to acibenzolar-S-methyl against fire blight (Erwinia amylovora)

The potential of acibenzolar-S-methyl (Benzo [1,2,3]thiadiazole-7-carbothioic acid-S-methyl ester, ASM; Bion 50 WG) and of an extract of Hedera helix, to protect M26 apple rootstocks against fire blight was determined under controlled conditions. Marked differences were observed in the rate and extent of multiplication as well as in pathogen cell viability between control and ASM and H. helix-treated rootstocks. Although the pathogen multiplied abundantly in the plant tissue of water-treated rootstocks and showed severe damage, ASM and the plant extract of H. helix applied prior to inoculation with the causal agent of fire blight, E. amylovora (strain 7/74), suppressed disease development and bacterial multiplication. Physiological observations of ASM and plant extract-treated rootstocks indicated that restriction of pathogen colonization in plant tissue was correlated with a pronounced increase of peroxidase (POX) and chitinase activity. Furthermore, physiological changes caused by these treatments in host cells were characterized by POX labeling methods with SDS-Page electrophoresis. Differences in expression of the POX and protein bands were observed in tissues of plants treated with different inducers. POX activity was determined by the presence of three strong bands in plant extract-treated leaves, two strong bands and one very weak band of about 20.1 and 43 kDa were visible in ASM-treated leaves. Evidence is provided that ASM, as well as extract of H. helix are equally capable of inducing of resistance responses in M26 apple rootstock, which result in an increased resistance to E. amylovora-the fire blight pathogen. These findings demonstrate that both treatments have the ability to induce the activation of defense genes leading to the accumulation of structural and biochemical activities at strategic sites, and these can be associated with induction of resistance against fire-blight. (c) 2005 Elsevier Ltd. All rights reserved.