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Roles for Transcript Leaders in Translation and mRNA Decay Revealed by Transcript Leader Sequencing


ABSTRACT: Transcript leaders (TLs) can have profound effects on mRNA translation and stability. To map TL boundaries genome-wide, we developed TL-Sequencing (TL-Seq), a technique combining enzymatic capture of m7G-capped mRNA 5'-ends with high-throughput sequencing. TL-Seq identified mRNA start sites for the majority of yeast genes and revealed many examples of intragenic TL heterogeneity. Transcription initiation sites occur in at least 5% of protein-coding regions and are concentrated near the 5'ends of ORFs. These truncated mRNAs are translated, based on ribosome density analysis. Translation Associated TL-Seq (TATL-Seq), which combines TL-Seq with polysome fractionation, revealed substantial differences in translation of alternative TL isoforms. Globally, while some TL features are associated with poor translation and nonsense-mediated mRNA decay (uAUGs, very short length), others (secondary structure, long length) have much less impact than predicted from analyses of individual genes. TL-Seq and TATL-Seq can be applied to any eukaryote to investigate TL-mediated regulation of gene expression.

ORGANISM(S): Saccharomyces cerevisiae

PROVIDER: GSE39074 | GEO | 2013/04/03

SECONDARY ACCESSION(S): PRJNA169917

REPOSITORIES: GEO

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