Abstract
The maternally expressed Drosophila melanogaster DEAD-box helicase Vasa (Vas) is necessary for many cellular and developmental processes, including specification of primordial germ cells (pole cells), posterior patterning of the embryo, piRNA-mediated repression of transposon-encoded mRNAs, translational activation of gurken (grk) mRNA, and completion of oogenesis itself. Vas protein accumulates in the perinuclear nuage in nurse cells soon after their specification, and then at stage 10 Vas translocates to the posterior pole plasm of the oocyte. We produced a series of transgenic constructs encoding eGFP-Vas proteins carrying mutations affecting different regions of the protein, and analyzed in vivo which Vas functions each could support. We identified novel domains in the N- and C-terminal regions of the protein that are essential for localization, transposon repression, posterior patterning, and pole cell specification. One such functional region, the most C-terminal seven amino acids, is specific to Vas orthologues and is thus critical to distinguishing Vas from other closely related DEAD-box helicases. Surprisingly, we also found that many eGFP-Vas proteins carrying mutations that would be expected to abrogate DEAD-box helicase function localized to the nuage and posterior pole, and retained the capacity to support oogenesis, although they did not function in embryonic patterning, pole cell specification, grk activation, or transposon repression. We conclude from these experiments that Vas, a multifunctional protein, uses different domains and different molecular associations to carry out its various cellular and developmental roles.
Highlights
The maternally-expressed Drosophila melanogaster gene vasa encodes a DEAD-box RNA binding protein that is required for posterior patterning and germ cell specification (Hay et al, 1988b; Lasko and Ashburner, 1990)
R378A impacts DEAD-box helicase motif Ib, which in eIF4A is essential for RNA binding (Rogers et al, 2002), while T546A affects motif V, which is shown to couple the ATPase and helicase activities in other DEAD-box helicases (Caruthers et al, 2000; Sengoku et al, 2006). These results indicate that mutant forms of Vas with non-conservative amino acid substitutions in motifs implicated in ATP binding, and in its RNA helicase activity that depends on ATP hydrolysis, can rescue oogenesis to vas-null females to a substantial degree
Mutant forms of Vas with abrogated DEAD-box motifs can support oogenesis and can localize to the posterior pole of the stage-10 oocyte, but RNA helicase activity of Vas is required for most of its cellular and developmental functions. This comprehensive analysis of the in vivo activities of a series of eGFP-Vas proteins allows us to draw several conclusions as to how its various functions are related to different motifs within the protein
Summary
The maternally-expressed Drosophila melanogaster gene vasa (vas) encodes a DEAD-box RNA binding protein that is required for posterior patterning and germ cell specification (Hay et al, 1988b; Lasko and Ashburner, 1990). A mutant form of Vas, VasD617, that has a greatly reduced ability to interact with eIF5B does not activate translation of grk (Johnstone and Lasko, 2004) or of mei-P26, the product of a gene involved in differentiation of germ line stem cells whose expression is dependent on Vas (Liu et al, 2009). These results suggest a model whereby Vas activates translation of target mRNAs through preferential recruitment of this initiation factor (Lasko, 2013)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
