Abstract
Studies on the function of circular RNA and RNA topology in vivo have been limited by the difficulty in expressing circular RNA of desired sequence. To overcome this, the group I intron from the phage T4 td gene was split in a peripheral loop (L6a) and rearranged so that the 3' half intron and 3' splice site are upstream and a 5' splice site and 5' half intron are downstream of a single exon. The group I splicing reactions excise the internal exon RNA as a circle (RNA cyclase ribozyme activity). We show that foreign sequences can be placed in the exon and made circular in vitro. Expression of such constructs (RNA cyclase ribozymes) in Escherichia coli and yeast results in the accumulation of circular RNA in these organisms. In yeast, RNA cyclase ribozymes can be expressed from a regulated promoter like an mRNA, containing 5' leader and 3' trailer regions, and a nuclear pre-mRNA intron. RNA cyclase ribozymes have broad application to questions of RNA structure and function including end requirements for RNA transport or function, RNA topology, efficacy of antisense or ribozyme gene control elements, and the biosynthesis of extremely long polypeptides.