SECRETION OF CELL-WALL POLYSACCHARIDES IN VICIA ROOT HAIRS

Root hairs of hairy winter vetch (Vicia villosa Roth) synthesize and secrete abundant cell wall matrix polysaccharides, making this an excellent system for the study of secretion during tip growth. Roots with newly formed hairs were preserved by cryofixation and freeze substitution. Cryofixed root hairs showed excellent structural and antigenic preservation. Ultrastructural analyses showed numerous vesicles near the tip and a concentration of Golgi bodies in the subapical region of the hair. The distribution of polygalacturonic acid and xyloglucan in the endomembrane system and cell wall were revealed by immunolabeling, using previously characterized monoclonal antibodies. De-esterified polygalacturonic acid was present on the external surface of the cell wall, but was not detected within the cell, although chemical de-esterification revealed abundant antigen in Golgi bodies and secretory vesicles. Methyl-esterified polygalacturonic acid epitopes were detected within the medial and trans cisternae of Golgi bodies, in secretory vesicles, and throughout the wall, indicating that pectin is secreted in a neutral form and may then be de-esterified in mure. Xyloglucan was also detected within the trans cisternae of Golgi bodies, secretory vesicles and throughout the cell wall. Double labeling experiments demonstrated that both polysaccharides occur simultaneously in the same Golgi bodies, and that secretory vesicles containing both polygalacturonic acid and xyloglucan deliver the polysaccharides to the cell wall at the growing tip.