Abstract
BackgroundAdjacent gene pairs in the yeast genome have a tendency to express concurrently. Sharing of regulatory elements within the intergenic region of those adjacent gene pairs was often considered the major mechanism responsible for such co-expression. However, it is still in debate to what extent that common transcription factors (TFs) contribute to the co-expression of adjacent genes. In order to resolve the evolutionary aspect of this issue, we investigated the conservation of adjacent pairs in five yeast species. By using the information for TF binding sites in promoter regions available from the MYBS database , the ratios of TF-sharing pairs among all the adjacent pairs in yeast genomes were analyzed. The levels of co-expression in different adjacent patterns were also compared.ResultsOur analyses showed that the proportion of adjacent pairs conserved in five yeast species is relatively low compared to that in the mammalian lineage. The proportion was also low for adjacent gene pairs with shared TFs. Particularly, the statistical analysis suggested that co-expression of adjacent gene pairs was not noticeably associated with the sharing of TFs in these pairs. We further proposed a case of the PAC (polymerase A and C) and RRPE (rRNA processing element) motifs which co-regulate divergent/bidirectional pairs, and found that the shared TFs were not significantly relevant to co-expression of divergent promoters among adjacent genes.ConclusionOur findings suggested that the commonly shared cis-regulatory system does not solely contribute to the co-expression of adjacent gene pairs in yeast genome. Therefore we believe that during evolution yeasts have developed a sophisticated regulatory system that integrates both TF-based and non-TF based mechanisms(s) for concurrent regulation of neighboring genes in response to various environmental changes.
Highlights
Adjacent gene pairs in the yeast genome have a tendency to express concurrently
S. cerevisiae S. castellii S. bayanus S. kudriavzevii S. mikatae Stringently conserved pairsc Loosely conserved pairsd aFor analysis, the annotated ORFs exclude dubious and silent ORFS as well as overlapping genes. bThe orthologous adjacent pairs of the sensu stricto species are determined based on conservation of the orthologs as well as their adjacency relationship in S. cerevisiae. cGene pairs with adjacency relationship preserved in all five species for the orthologous pairs. dGene pairs with adjacency relationship preserved in any three species, or in S. castelli with at least one another yeast species used in this study. eThe proportions of conservation for different adjacent patterns are similar to those for random sampling composition (p > 0.05, chi-square test)
The purpose of this study arose from speculating on the impact that sharing of transcription factors (TFs) might have on driving concurrent expression of adjacent gene pairs
Summary
Adjacent gene pairs in the yeast genome have a tendency to express concurrently. Sharing of regulatory elements within the intergenic region of those adjacent gene pairs was often considered the major mechanism responsible for such co-expression. Several studies indicate that adjacent genes in human seem to co-express regardless of their intergenic distance [9,10,11]. Similar phenomena have been observed in Drosophila, nematode, and yeast [12,13,14,15,16] Among these observations, the co-expression of adjacent pairs is crucial because changes in such genome organization could alter the co-regulated transcription over the pairs [11,12]
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