Ozone and ultraviolet B effects on the defense-related proteins beta-1,3-glucanase and chitinase in tobacco

The air pollutant ozone is a potent abiotic inducer of defense-related enzymes such as pathogenesis-related proteins. Here we report on the accumulation of beta-1,3-glucanase and chitinase in Nicotiana tabacum L. treated with ozone and ultraviolet B radiation, singly and in combination, under a simulated sunlight spectrum. Ozone (0.16 mu L . L(-1), 2 x 5 h) induced the basic isoforms of beta-1,3-glucanase in both, ozone-sensitive (Eel W3) and -tolerant (Bel B) cultivars, while chitinase was only affected in cv. Bel W3. Ultraviolet B radiation (7.5 MED) alone did not lead to beta-1,3-glucanase or chitinase induction. In combined treatments ultraviolet B increased the ozone-dependent lesion formation and reduced chitinase accumulation in the sensitive cv. Bel W3. Analysis of the intercellular washing fluid of ozone-treated plants revealed the accumulation of a major ozone-related protein (O(3)R-1) of 28 kDa within 32 h. Microsequence analysis of two tryptic peptides showed 100 % homology to acidic chitinase PR-3b. These results indicate that basic beta-1,3-glucanase and chitinase are distinctly regulated in ozone and ultraviolet B treated tobacco, and that ultraviolet B radiation with a similar UV edge as the solar spectrum does not lead to an accumulation of basic pathogenesis-related proteins.