U6 snRNA function in nuclear pre-mRNA splicing: a phosphorothioate interference analysis of the U6 phosphate backbone

Abstract

U6 snRNA is essential for and may participate in the catalysis of pre-mRNA splicing. Extensive mutational analyses in several systems have identified nucleotides essential for U6 function in splicing; however, relatively little is known regarding the role of the U6 phosphate backbone. We previously described a mutation in a nematode U6 snRNA that causes it to be used as a splicing substrate within the spliceosome. This unusual reaction has made it possible to apply modification interference analysis to U6 function. Here, we have used phosphorothioate substitution to identify pro-R oxygens throughout the U6 backbone that are necessary for the first and/or second catalytic steps of splicing. Four pro-R oxygens are important for the first step; of these only two appear to be required. One additional pro-R oxygen is uniquely required for the second step. The two pro-R oxygens critical for the first step of splicing are in the helix 1b U2/U6 interaction region and the intramolecular stem-loop of U6, respectively. A comparison of the positions of these two pro-R oxygens with those found to be critical for autocatalytic excision of a group II intron suggests a possible functional similarity between U6 snRNA and domain V of group II introns.