St-Sauveur VG, Soucek S, Corbett AH, Bachand F

The 3' end of most eukaryotic transcripts is decorated by poly(A)-binding proteins (PABPs), which influence the fate of mRNAs throughout gene expression. However, despite the fact that multiple PABPs coexist in the nucleus of most eukaryotes, how functional interplay between these nuclear PABPs controls gene expression remains unclear. By characterizing ...

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the ortholog of the Nab2/ZC3H14 zinc finger PABP in S .pombe, we show here that the two major fission yeast nuclear PABPs, Pab2 and Nab2, have opposing roles in post-transcriptional gene regulation. Notably, we find that Nab2 functions in gene-specific regulation in a manner opposite to Pab2. By studying the ribosomal protein-coding gene, rpl30-2, which is negatively regulated by Pab2 via a nuclear pre-mRNA decay pathway that depends on the nuclear exosome subunit Rrp6, we show that Nab2 promotes rpl30-2 expression by acting at the level of the unspliced pre-mRNA. Our data support a model in which Nab2 impedes Pab2/Rrp6-mediated decay by competing with Pab2 for polyadenylated transcripts in the nucleus. The opposing roles of Pab2 and Nab2 reveal that interplay between nuclear PABPs can influence gene regulation.

Date: Sep. 30, 2013

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