Stuctural and putative regulatory sequences of Kluyveromyces ribosomal protein genes

Abstract

The transcription of the majority of the ribosomal protein (rp) genes of Saccharmoyces cerevisiae is activated by cis‐acting elements, designated RPG boxes, which specifically bind the multifunctional protein RAPI in vitro. To investigate to what extent this global system of tanscription regulation has been conserved, we have isolated a number of rp genes of the related yeast species Kluyveromyces lactis and Kluyveromyces marxianus, whose counterparts in Saccharomyces are controlled by RAPI. The coding regions of these genes showed a sequence similarity of about 90% when compared to their Saccharomyces counterparts. In contrast, little or no sequence similarity was found between the upstream regions and the intervening sequences of Kluyveromyces and Saccharomyces homologs. However, the occurrence and the position of the introns is conserved. The sequence data also show that the physical linkage that exists in S. cerevisiae between the rp genes encoding RP59 (CRY1), S24 and L46 is conserved in Kluyveromyces. Northern analysis demonstrated that each of the isolated Kluyveromyces genes is transcriptionally active. By sequence comparison we idetified a number of conseerved sequences in the upstream region of each of the Kluyveromyces rp genes, which we designated the X, Z and RPG_K boxes. The last one is highly similar, though not identical, to the S. cerevisiae RPG box. Functional analysis of the intergenic region between the genes encoding Kluyveromyces ribosomal proteins S24 and L46 showed that the RPG_K box (+Z box) functions as a transcriptional activator, while the X box acts as a trascriptional repressor. Band‐shift assays confirmed the existence of a RAP1‐like protein in Kluyveromyces that binds to the RPG_K box but not to the S. cerevisiae RPG box. In contrast, S. cerevisiae RAP1 did recognize the RPG_K box.