Rapid, transcript-specific changes in splicing in response to environmental stress
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ABSTRACT: While the core splicing machinery is highly conserved between budding yeast and mammals, the absence of alternative splicing in Saccharomyces cerevisiae raises the fundamental question of why introns have been retained in ~5% of the 6,000 genes. Because Ribosomal Protein-encoding Genes (RPGs) are highly over-represented in the set of intron-containing genes, we tested the hypothesis that splicing of these transcripts would be regulated under conditions where translation is impaired. Using a microarraybased strategy, we find that within minutes after the induction of amino acid starvation the splicing of the majority of RPGs is specifically inhibited. In response to an unrelated stress, exposure to toxic levels of ethanol, splicing of a different group of transcripts is inhibited, while the splicing of a third set is actually improved. We propose that regulation of splicing, like transcription, can afford rapid and specific changes in gene expression in response to the environment. Keywords: stress, environmental stress, time course, splicing, splicing-specific microarray
ORGANISM(S): Saccharomyces cerevisiae
PROVIDER: GSE8817 | GEO | 2007/09/17
SECONDARY ACCESSION(S): PRJNA102135
REPOSITORIES: GEO
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