Peroxidases in Acetabularia: their possible role in development

Abstract

Crude enzymatic extracts from Acetabularia exhibit very low peroxidase activity after a lag period. Starch gel electrophoresis of extracts from growing algae shows a single, extremely anodic band. Extracts of small, slow-growing or cap-bearing algae, which do not grow any more, do not exhibit any peroxidase band. Cytochemical staining with benzidine reveals changes in both the quantity and distribution of peroxidase along the polarized Acetabularia cell. The homogenous staining of small algae becomes distributed along a negative apico-basal gradient when the algae initiate their rapid growth phase. This polarized pattern is repeated on the hair whorls. A similar developmental sequence directs cap growth, with an initial intense staining reaction of the primordium, which later leaves only the corona inferior stained blue. Finally, the Acetabularia cell remains slightly blue at the edges of the rhizoidal out-growths and cap rays. Crude extracts of Acetabularia induce a lag in standard horseradish peroxidase (HRP) activity. The inhibitor is always present in small and growing algae; it is sometimes absent or less active in cap-bearing algae. In no case does it change the kinetics of the HRP reaction with guaïacol. The lag is completely suppressed by pretreatment with either H 2O 2 or ascorbate oxidase. The changes in peroxidase activity, correlated with developmental stage and according to a polarized gradient, suggest that the enzyme could be involved in some way in the control of morphogenesis in Acetabularia. An inhibitor of peroxidase activity, which disappears as the cap matures, might, in turn, exert a regulatory function.