Partially acetylated chitosan oligo- and polymers induce an oxidative burst in suspension cultured cells of the gymnosperm Araucaria angustifolia.

Suspension-cultured cells were used to analyze the activation of defense responses in the conifer A. angustifolia , using as an elicitor purified chitosan polymers of different degrees of acetylation (DA 1-69%), chitin oligomers of different degrees of polymerization (DP 3-6), and chitosan oligomer of different DA (0-91%). Suspension cultured cells elicited with chitosan polymers reacted with a rapid and transient generation of H2O2, with chitosans of high DA (60 and 69%) being the most active ones. Chitosan oligomers of high DA (78 and 91%) induced substantial levels of H2O2, but fully acetylated chitin oligomers did not. When cultivated for 24-72 h in the presence of 1-10 microg mL(-1) chitosan (DA 69%), cell cultures did not show alterations in the levels of enzymes related to defense responses, suggesting that, in A. angustifolia , the induction of an oxidative burst is not directly coupled to the induction of other defense reactions.