CLEAVAGE OF CHITINOUS ELICITORS FROM THE ECTOMYCORRHIZAL FUNGUS HEBELOMA-CRUSTULINIFORME BY HOST CHITINASES PREVENTS INDUCTION OF K- RELEASE, EXTRACELLULAR ALKALINIZATION AND H2O2 SYNTHESIS OF PICEA-ABIES CELLS( AND CL)
P. Salzer et al., CLEAVAGE OF CHITINOUS ELICITORS FROM THE ECTOMYCORRHIZAL FUNGUS HEBELOMA-CRUSTULINIFORME BY HOST CHITINASES PREVENTS INDUCTION OF K- RELEASE, EXTRACELLULAR ALKALINIZATION AND H2O2 SYNTHESIS OF PICEA-ABIES CELLS( AND CL), Planta, 203(4), 1997, pp. 470-479
Rapid reactions comprising efflux of K+ and Cl-, phosphorylation of a
63-kDa protein (pp63), extracellular alkalinization and synthesis of H
2O2 are equally induced in cells of Picea abies (L.) Karst. by chitote
traose, colloidal chitin and cell wall elicitors from the ectomycorrhi
zal fungus Hebeloma crustuliniforme (Bull. ex Fries.) Quel. an ectomyc
orrhizal partner of spruce. Cleavage of fungal cell wall elicitors and
of artificial chitin elicitors to monomeric and dimeric fragments by
apoplasmic spruce chitinases (36-kDa class I chitinase, pi 8.0, and 28
-kDa chitinase, pi 8.7; EC 3.2.1.14) equally prevented induction of th
ese rapid reactions. Also, N-acetylglucosamine oligomers and elicitors
from the fungal cell walls showed a similar dependence of their activ
ity on the degree of polymerisation. From these results it is suggeste
d that, during ectomycorrhiza formation, only some of the chitin-deriv
ed elicitors reach their receptors at the plant plasma membrane, initi
ating reactions of the hypersensitive response in the host cells. The
remaining fungal elicitors will be degraded to varying extents by wall
-localized chitinases of the host root, reducing the defence reactions
of the plant and allowing symbiotic interactions of both organisms.