A helicase that gets Oskar's message across

In vivo colocalisation of oskar mRNA and trans-acting proteins revealed by quantitative imaging of the Drosophila oocyte

Efficient mRNA transport in eukaryotes requires highly orchestrated relationships between nuclear and cytoplasmic proteins. For oskar mRNA, the Drosophila posterior determinant, these spatio-temporal requirements remain opaque during its multi-step transport process. By in vivo covisualization of oskar mRNA with Staufen, its putative trafficking protein, we find oskar mRNA to be present in particles distinct from Staufen for part of its transport. oskar mRNA stably associated with Staufen near the posterior pole. We observe oskar mRNA to oligomerize as hundreds of copies forming large particles which are necessary for its long range transport and localization. We show the formation of these particles occurs in the nurse cell nucleus in an Hrp48-dependent manner. We present a more refined model of oskar mRNA transport in the Drosophila oocyte.

Atomic force microscopy reveals binding of mRNA to microtubules mediated by two major mRNP proteins YB-1 and PABP

A significant fraction of mRNAs is known to be associated in the form of mRNPs with microtubules for active transport. However, little is known about the interaction between mRNPs and microtubules and most of previous works were focused on molecular motor:microtubule interactions. Here, we have identified, via high resolution atomic force microscopy imaging, a significant binding of mRNA to microtubules mediated by two major mRNP proteins, YB-1 and PABP. This interaction with microtubules could be of critical importance for active mRNP traffic and for mRNP granule formation. A similar role may be fulfilled by other cationic mRNA partners.

Squid is required for efficient posterior localization of oskar mRNA during Drosophila oogenesis

The nuclear-cytoplasmic shuttling heterogeneous nuclear RNA-binding protein (hnRNP) Squid (Sqd) is required during Drosophila melanogaster oogenesis, where it plays a critical role in the regulation of the TGFalpha-like molecule Gurken (Grk). Three Sqd isoforms have been described, SqdA, S and B, and two of these, SqdA and SqdS, differentially function in grk mRNA nuclear export, cytoplasmic transport and translational control during oogenesis. Here, we report that Sqd is also required for the regulation of oskar (osk) mRNA, functioning in the cytoplasmic localization of the osk transcript. In oocytes from sqd females, osk mRNA is not efficiently localized to the posterior pole, but rather accumulates at the anterior cortex. Furthermore, anterior patterning defects observed in embryos from sqd females expressing only the SqdS protein isoform suggest that Sqd may also play a role in the translational regulation of the mislocalized osk mRNA. These findings provide additional support for models of mRNA regulation in which cytoplasmic events, such as localization and translational regulation, are coupled. These results also place Sqd among an emerging class of proteins, including such other members as Bruno (Bru) and Hrb27C/Hrp48, which function in multiple aspects of both grk and osk mRNA regulation during Drosophila oogenesis.