Abstract
The membrane-bound UDP-glucose-beta-(1,3)-glucan synthase from Daucus carota L. was characterized and a solubilization procedure was developed. The enzyme exhibited maximal activity in the presence of 0.75 millimolar Ca(2+), 0.5 millimolar EGTA, and 5 millimolar cellobiose at pH 7.5 and 30 degrees C at 1 millimolar UDPG. Reaction products were confirmed to be (1,3)-linked glucan. Polypeptides of 150, 57, and 43 kilodaltons were labeled with the photoactivatible affinity label 5-azido-uridine 5'-beta-[(32)P] diphosphateglucose. Labeling of the 150 and 57 kilodalton polypeptides was completely protected against by 1 millimolar non-radioactive UDPG suggesting that one or both of these polypeptides may represent the UDPG binding subunit of glucan synthase. Carrot glucan synthase was solubilized with the detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS) in the absence of divalent cations and chelators; however, the percentage of enzyme which could be solubilized showed variability with membrane source. With microsomal membranes, up to 80% of the enzyme was released with 0.7% CHAPS. Solubilized enzyme was stable for at least 9 hours at 4 degrees C. When more highly purified membrane fractions were isolated from sucrose step gradients a slightly different picture emerged. Activity from the 20/30% interface (Golgi and tonoplast enriched) was readily solubilized and expressed. Activity from the 30/40% interface (plasma membrane enriched) was also solubilized; however, it was necessary to add heat inactivated microsomes to assay mixtures for full activity to be expressed. A requirement for endogenous activators is suggested.