Group II introns are well recognized for their remarkable catalytic capabilities, but little is known about their three-dimensional structures. In order to obtain a global view of an active enzyme, hydroxyl radical cleavage was used to de®ne the solvent accessibility along the backbone of a ribozyme derived from group II intron ai5g. These studies show that a highly homogeneous ribozyme population folds into a catalytically compact structure with an extensively internalized catalytic core. In parallel, a model of the intron core was built based on known tertiary contacts. Although constructed independently of the footprinting data, the model implicates the same elements for involvement in the catalytic core of the intron.
The mechanism for demethylation of DNA in rat myoblasts has recently been studied using a new in vitro system that monitors demethylation in whole cell extracts. Previous investigations using this system had indicated that demethylation is resistant to conditions that are normally assumed to denature or digest proteins. Remarkably, it was reported that the activity appeared to be sensitive to the action of ribonuclease, suggesting a role for RNA in the demethylation of DNA. This manuscript reports that, upon further purification of the extract, demethylation activity has properties that are different. When subjected to more rigorous procedures for digestion of proteins, the demethylase activity disappears. Furthermore, RNase sensitivity of the extract disappears when a quantity of unmethylated competitor DNA is added to the reaction mix or when extracts treated with RNase are subsequently treated with protease. Although a role for RNA cannot be completely discounted, it is unlikely that this demethyl-ation reaction involves RNA cofactors or ribozyme components. These results have important implications for the mechanism of DNA demethylation and they exemplify the potential pitfalls of experiments in which new biological roles for RNA are evaluated using RNase sensitivity experiments.
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