Mutational Analysis of pre-mRNA Splicing in Saccharomyces cerevisiae Using a Sensitive New Reporter Gene, CUP1

INVESTIGATIONS

Mutational Analysis of pre-mRNA Splicing in Saccharomyces cerevisiae Using a Sensitive New Reporter Gene, CUP1

C. F. Lesser and C. Guthrie
Department of Biochemistry and Biophysics, University of California at San Francisco, California 94143-0448

We have developed a new reporter gene fusion to monitor mRNA splicing in yeast. An intron-containing fragment from the Saccharomyces cerevisiae ACT1 gene has been fused to CUP1, the yeast metallothionein homolog. CUP1 is a nonessential gene that allows cells to grow in the presence of copper in a dosage-dependent manner. By inserting previously characterized intron mutations into the fusion construct, we have established that the efficiency of splicing correlates with the level of copper resistance of these strains. A highly sensitive assay for 5' splice site usage was designed by engineering an ACT1-CUP1 construct with duplicated 5' splice sites; mutations were introduced into the upstream splice site in order to evaluate the roles of these highly conserved nucleotides in intron recognition. Almost all mutations in the intron portion of the 5' consensus sequence abolish recognition of the mutated site, while mutations in the exon portion of the consensus sequence have variable affects on cleavage at the mutated site. Interestingly, mutations at intron position 4 demonstrate that this nucleotide plays a role in 5' splice site recognition other than by base pairing with U1 snRNA. The use of CUP1 as a reporter gene may be generally applicable for monitoring cellular processes in yeast.

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