Abstract

U2 is a highly conserved small nuclear RNA essential for pre-mRNA splicing in mammals and yeast and for trans-splicing in trypanosomes. To test the function of variant U2 RNA structures from different organisms, we conducted phylogenetic exchanges of U2 domains. Replacing nucleotides 1-120 of yeast U2 with the corresponding region of human U2 generates a U2 RNA that is correctly folded and functions in yeast. In contrast, replacement of the branchpoint interaction region of yeast U2 with the corresponding region from trypanosome is dominant lethal. Using a GAL-U2 promoter fusion, we show that the dominant phenotype can be made conditional and that the accumulation of mutant U2 is followed rapidly by inhibition of nuclear pre-mRNA splicing. The results suggest that U2 small nuclear ribonucleoprotein particles normally participate in stable complexes with a limiting splicing factor prior to formation of U2-intron branchpoint base pairs.