The yeast hnRNP-Like proteins Yra1p and Yra2p participate in mRNA export through interaction with Mex67p

Yra1p is an essential nuclear protein which belongs to the evolutionarily conserved REF (RNA and export factor binding proteins) family of hnRNP-like proteins. Yra1p contributes to mRNA export in vivo and directly interacts with RNA and the shuttling mRNP export receptor Mex67p in vitro. Here we describe a second nonessential Saccharomyces cerevisiae family member, called Yra2p, which is able to complement a YRA1 deletion when overexpressed. Like other REF proteins, Yra1p and Yra2p consist of two highly conserved N- and C-terminal boxes and a central RNP-like RNA-binding domain (RBD). These conserved regions are separated by two more variable regions, N-vr and C-vr. Surprisingly, the deletion of a single conserved box or the deletion of the RBD in Yra1p does not affect viability. Consistently, neither the conserved N and C boxes nor the RBD is required for Mex67p and RNA binding in vitro. Instead, the N-vr and C-vr regions both interact with Mex67p and RNA. We further show that Yra1 deletion mutants which poorly interact with Mex67p in vitro affect the association of Mex67p with mRNP complexes in vivo and are paralleled by poly(A)(+) RNA export defects. These observations support the idea that Yra1p promotes mRNA export by facilitating the recruitment of Mex67p to the mRNP.     

The nuclear export signal of splicing factor Uap56p interacts with nuclear pore-associated protein Rae1p for mRNA export in Schizosaccharomyces pombe

Mammalian UAP56 or its homolog Sub2p in Saccharomyces cerevisiae are members of the ATP-dependent RNA helicase family and are required for splicing and nuclear export of mRNA. Previously we showed that in Schizosaccharomyces pombe Uap56p is critical for mRNA export. It links the mRNA adapter Mlo3p, a homolog of Yra1p in S. cerevisiae or Aly in mammals, to nuclear pore-associated mRNA export factor Rae1p. In this study we show that, in contrast to S. cerevisiae, Uap56p in S. pombe is not required for pre-mRNA splicing. The putative RNA helicase function of Uap56p is not required for mRNA export. However, the RNA-binding motif of Uap56p is critical for nuclear export of mRNA. Within Uap56p we identified nuclear import and export signals that may allow it to shuttle between the nucleus and the cytoplasm. We found that Uap56p interacts with Rae1p directly via its nuclear export signal, and this interaction is critical for the nuclear export activity of Uap56p as well as for exporting mRNA. RNA binding and the ability to shuttle between the nucleus and cytoplasm are important features of mRNA export carriers such as HIV-Rev. Our results suggest that Uap56p could function similarly as an export carrier of mRNA in S. pombe.     

The DEAD-box protein Dbp5p is required to dissociate Mex67p from exported mRNPs at the nuclear rim

Eukaryotic mRNAs are exported from the nucleus to the cytoplasm as complex mRNA-protein particles (mRNPs), and translocation through the nuclear pore complex (NPC) is accompanied by extensive structural changes of the mRNP. We have tested the hypothesis that the DEAD-box ATPase Dbp5p is required for such an mRNP rearrangement. In dbp5 mutant cells, the mRNA export receptor Mex67p accumulates on mRNA. This aberrant accumulation of Mex67p with RNA and the cold-sensitive growth phenotype of a dbp5 allele are suppressed by a mex67 mutation. Moreover, Mex67 bound mRNA accumulates at the nuclear rim in a temperature-sensitive dbp5 mutant when the nuclear exosome is impaired. Importantly, although accumulation of Mex67p-containing mRNPs is also observed when a nuclear basket component is mutated, these mRNPs still contain the nuclear export factor Yra1p. In contrast, the dbp5-trapped mRNPs lack Yra1p. We propose that Dbp5p's function is specifically required to displace Mex67p from exported mRNPs, thus terminating export.