Pbp1 mediates the aberrant expression of genes involved in growth defect of ccr4∆ and pop2∆ mutants in yeast Saccharomyces cerevisiae.

Abstract

CCR4 and POP2 genes encode the catalytic subunit of the Ccr4-Not complex involved in shortening mRNA poly(A) tail in Saccharomyces cerevisiae. The ccr4Δ and pop2∆ mutants exhibit pleiotropic phenotypes such as slow and temperature-sensitive growth, aberrant expression of glucose repression genes and abnormal cell wall synthesis. We previously found that the growth defect of the ccr4Δ and pop2∆ mutants is suppressed by deletion of the PBP1 gene, which encodes poly(A)-binding protein (Pab1)-binding protein 1. In this study, we investigated the functional relationship between Ccr4/Pop2 and Pbp1 by measuring changes in gene expression in ccr4Δ and pop2∆ single mutants and ccr4Δ pbp1∆ and pop2∆ pbp1∆ double mutants. We found that expression of HSP12, HSP26, PIR3, FUS1 and GPH1 was increased in ccr4Δ and pop2∆ single mutants. The pbp1∆ mutation not only restored the growth defect but also reduced the increased expression of those genes found in the ccr4Δ and pop2∆ mutants. Over-expression of PBP1 in the ccr4Δ mutant further increased the expression of HSP12, HSP26, PIR3 and FUS1 and exacerbated the cell growth. These results suggest that the aberrant expression of a subset of genes, which is facilitated by Pbp1, contributes to the pleiotropic phenotypes of the ccr4Δ and pop2∆ mutants.