Discovery of selective, small-molecule inhibitors of RNA complexes--II. Self-splicing group I intron ribozyme

Abstract

Self-splicing group I intron RNA was chosen as a potential therapeutic target for small-molecule intervention. High-throughput screening methodologies have been developed to identify small organic molecules that regulate the activities of these catalytic introns. Group introns derived from pathogenic Pneumocystis carinii and phage T4 were used as model systems. Inhibitors identified from a library of approximately equal to 150,000 compounds were shown to regulate biochemical reactions including the two-step intron splicing and an RNA ligation catalyzed by the group I introns. These inhibitors provide a unique opportunity to understand small-molecule recognition of the self-splicing RNA. The methodologies developed for group I introns should be applicable to studies of other RNA systems.