Evolution of 5' Untranslated Region Length and Gene Expression Reprogramming in Yeasts

Abstract

The sequences of the untranslated regions (UTRs) of mRNAs play important roles in posttranscriptional regulation, but whether a change in UTR length can significantly affect the regulation of gene expression is not clear. In this study, we examined the connection between UTR length and Expression Correlation with cytosolic ribosomal proteins (CRP) genes (ECC), which measures the level of expression similarity of a group of genes with CRP genes under various growth conditions. We used data from the aerobic fermentation yeast Saccharomyces cerevisiae and the aerobic respiration yeast Candida albicans. To reduce statistical fluctuations, we computed the ECC for the genes in a Gene Ontology (GO) functional group. We found that in both species, ECC is strongly correlated with the 5' UTR length but not with the 3' UTR length and that the 5' UTR length is evolutionarily better conserved than the 3' UTR length. Interestingly, we found 11 GO groups that have had a substantial increase in 5' UTR length in the S. cerevisiae lineage and that the length increase was associated with a substantial decrease in ECC. Moreover, 9 of the 11 GO groups of genes are involved in mitochondrial respiration function, whose expression reprogramming has been shown to be a major factor for the evolution of aerobic fermentation. Finally, we found that an increase in 5' UTR length may decrease the +1 nucleosome occupancy. This study provides a new angle to understand the role of 5' UTR in gene expression regulation and evolution.