Are there connections between phenol metabolism, ascorbate metabolism and membrane integrity in leaves of boron‐deficient sunflower plants?

Abstract

The influence of soluble phenol concentration and polyphenoloxidase activity in leaves of both B‐deficient and B‐sufficient sunflower plants (Helianthus annuus L. cv. Frankasol) on plasma membrane permeability was investigated, A study was also undertaken as to whether or not the incubation of B‐deficient leaves in ascorbate‐ and calcium‐containing solutions has a beneficial effect on plasma membrane integrity. Plants were cultivated under controlled environmental conditions with deficient and sufficient B supply and different light intensity to provoke changes in phenol metabolism. Analysis of membrane permeability (measured by potassium efflux), soluble phenol concentration and polyphenoloxidase (EC 1.10.3.1) activity of leaves showed that there was no correlation between these parameters. Furthermore, incubation in solutions containing ascorbate and calcium did not decrease the enhanced membrane permeability due to B deficiency, which could, however, be lowered by boric acid application. In summary, the results suggest that B does not maintain plasma membrane integrity by complexing phenols or inhibiting polyphenoloxidase activity, thereby preventing damage by oxygen free radicals. Ascorbate metabolism or calcium‐related disorders seem also not to be involved. It is therefore likely that B has a direct function at the membrane, possibly by stimulating membrane‐related enzymes, or in a structural role similar to that reported for the cell wall.