Abstract
BackgroundHemiascomycetous yeasts have intron-poor genomes with very few cases of alternative splicing. Most of the reported examples result from intron retention in Saccharomyces cerevisiae and some have been shown to be functionally significant. Here we used transcriptome-wide approaches to evaluate the mechanisms underlying the generation of alternative transcripts in Yarrowia lipolytica, a yeast highly divergent from S. cerevisiae.ResultsExperimental investigation of Y. lipolytica gene models identified several cases of alternative splicing, mostly generated by intron retention, principally affecting the first intron of the gene. The retention of introns almost invariably creates a premature termination codon, as a direct consequence of the structure of intron boundaries. An analysis of Y. lipolytica introns revealed that introns of multiples of three nucleotides in length, particularly those without stop codons, were underrepresented. In other organisms, premature termination codon-containing transcripts are targeted for degradation by the nonsense-mediated mRNA decay (NMD) machinery. In Y. lipolytica, homologs of S. cerevisiae UPF1 and UPF2 genes were identified, but not UPF3. The inactivation of Y. lipolytica UPF1 and UPF2 resulted in the accumulation of unspliced transcripts of a test set of genes.ConclusionsY. lipolytica is the hemiascomycete with the most intron-rich genome sequenced to date, and it has several unusual genes with large introns or alternative transcription start sites, or introns in the 5' UTR. Our results suggest Y. lipolytica intron structure is subject to significant constraints, leading to the under-representation of stop-free introns. Consequently, intron-containing transcripts are degraded by a functional NMD pathway.
Highlights
Hemiascomycetous yeasts have intron-poor genomes with very few cases of alternative splicing
Results cDNA sequencing shows Y. lipolytica to have four times as many introns as S. cerevisiae We began our investigation of Y. lipolytica splicing by using cDNA sequencing to revisit the in silico predictions of intron-containing genes in this yeast
We found that 1,659 of the 28,434 cDNA sequences (5.8%) did not match the predicted coding sequence (CDS), with 455 of these sequences not matching the Y. lipolytica chromosome sequence but possibly corresponding to CDS in non-assembled contigs
Summary
Hemiascomycetous yeasts have intron-poor genomes with very few cases of alternative splicing. From a genomic point of view Yarrowia lipolytica is rather atypical among hemiascomycetous yeasts sequenced to date [1]. Its genome is surprisingly large, consisting of six chromosomes, a total of about 20.5 Mb in size, more than one and a half times the size of the Saccharomyces cerevisiae genome and twice that of Kluyveromyces lactis. The total number of introns, first estimated at 742 in the 2004 annotation, has reached 1,119 with the data presented in this study, and this number of introns is larger than that in any other hemiascomycetous genome sequenced to date (287 introns in S. cerevisiae [15]; 415 introns in Candida albicans [16]; 633 intron-containing genes in P. pastoris [9]). About 15% of the genes contain introns and the intron density is about 0.17
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