Abstract
Trans-splicing introduces a common 5' 22-nucleotide sequence with an N-2,2,7-trimethylguanosine cap (m (2,2,7)(3)GpppG or TMG-cap) to more than 70% of transcripts in the nematodes Caenorhabditis elegans and Ascaris suum. Using an Ascaris embryo cell-free translation system, we found that the TMG-cap and spliced leader sequence synergistically collaborate to promote efficient translation, whereas addition of either a TMG-cap or spliced leader sequence alone decreased reporter activity. We cloned an A. suum embryo eIF4E homolog and demonstrate that this recombinant protein can bind m(7)G- and TMG-capped mRNAs in cross-linking assays and that binding is enhanced by eIF4G. Both the cap structure and the spliced leader (SL) sequence affect levels of A. suum eIF4E cross-linking to mRNA. Furthermore, the differential binding of eIF4E to a TMG-cap and to trans-spliced and non-trans-spliced RNAs is commensurate with the translational activity of reporter RNAs observed in the cell-free extract. Together, these binding data and translation assays with competitor cap analogs suggest that A. suum eIF4E-3 activity may be sufficient to mediate translation of both trans-spliced and non-trans-spliced mRNAs. Bioinformatic analyses demonstrate the SL sequence tends to trans-splice close to the start codon in a diversity of nematodes. This evolutionary conservation is functionally reflected in the optimal SL to AUG distance for reporter mRNA translation in the cell-free system. Therefore, trans-splicing of the SL1 leader sequence may serve at least two functions in nematodes, generation of an optimal 5'-untranslated region length and a specific sequence context (SL1) for optimal translation of trimethylguanosine capped transcripts.
Highlights
Spliced leader (SL)1 trans-splicing is present in diverse metazoan phyla including the chordates, cnidarians, platyhelminths, and nematodes
The A. suum in Vitro Translation Extract Is Cap-dependent and Shows Synergy between the Cap and Poly(A)-tail—A. suum embryonic extracts have previously been used to study translation in vitro [14]. These experiments were carried out following micrococcal nuclease treatment of endogenous mRNAs and several characteristics of the cell-free system, including potential cap dependence and cap/poly(A)-tail synergism, were not described
Insights into Nematode Translation and the Role of the Spliced Leader Sequence—We have described a nematode in vitro translation system that displays attributes of in vivo translation
Summary
Spliced leader (SL)1 trans-splicing is present in diverse metazoan phyla including the chordates, cnidarians, platyhelminths, and nematodes (reviewed in Ref. 1). The positive effect of the SL sequence on translation of TMG-capped transcripts is independent of mRNA identity as it is consistently seen in the context of at least two different luciferase reporters, as well as with both an Ascaris gene 12 3Ј-UTR and the SV40 3Ј-UTR (data not shown).
Sign-in/Register to view highlights & summary 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.
