Identification of the UDP-glucose-binding polypeptide of callose synthase from Beta vulgaris L. by photoaffinity labeling with 5-azido-UDP-glucose

Abstract

The photoaffinity probe 5-azidouridine 5'-[beta-32P]diphosphate glucose (5N3[32P]UDP-Glc) was used to identify a 57-kDa polypeptide as a strong candidate for the UDP-Glc-binding polypeptide of UDP-glucose: (1,3)-beta-glucan (callose) synthase from red beet (Beta vulgaris L.) storage tissue. Unlabeled 5N3UDP-Glc was a competitive inhibitor of callose synthase with a Ki of 310 microM. Callose synthase was purified from plasma membranes by a two-step solubilization with 3-[(3-cholamidopropyl)dimethylammonio]-1-propane-sulfonate, followed by product entrapment, and photoincorporation of radioactivity from 5N3[32P]UDP-Glc was used to identify UDP-Glc-binding polypeptides that copurified with callose synthase activity. Photoinsertion into the 57-kDa band was closely correlated with all catalytic properties examined. Photolabeling of the 57-kDa polypeptide was enriched upon purification of callose synthase by product entrapment, was abolished with increasing levels of unlabeled UDP-Glc, was dependent upon the presence of divalent cations, and the pH dependence of photolabeling correlated with the pH activity profile of callose synthase. In addition, photolabeling of the 57-kDa band did not occur after phospholipase treatment, which destroys enzyme activity. The extent of labeling of this polypeptide thus correlates closely with the activity of callose synthase under a wide variety of conditions. These results imply that the polypeptide at 57 kDa represents the substrate-binding and cation-regulated component of the callose synthase complex of higher plants.