A directed approach for the identification of transcripts harbouring the spliced leader sequence and the effect of trans-splicing knockdown in Schistosoma mansoni

Trans-splicing introduces a common 5′ 22-nucleotide sequence with anN-2,2,7-trimethylguanosine cap (m2,2,73GpppG or TMG-cap) to more than 70% of transcripts in the nematodesCaenorhabditis elegansandAscaris suum. Using anAscarisembryo 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 anA. suumembryoeIF4Ehomolog and demonstrate that this recombinant protein can bind m7G- 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 ofA. suumeIF4E 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 thatA. suumeIF4E-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.

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Faculty Opinions recommendation of New components of the spliced leader RNP required for nematode trans-splicing.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1007589.95659 ◽

2002 ◽

Author(s):

Thomas Blumenthal

Keyword(s):

Spliced Leader ◽

Trans Splicing

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An in vivo genetic screen for genes involved in spliced leader trans-splicing indicates a crucial role for continuous de novo spliced leader RNP assembly

Nucleic Acids Research ◽

10.1093/nar/gkx500 ◽

2017 ◽

Vol 45 (14) ◽

pp. 8474-8483 ◽

Cited By ~ 6

Author(s):

Lucas Philippe ◽

George C. Pandarakalam ◽

Rotimi Fasimoye ◽

Neale Harrison ◽

Bernadette Connolly ◽

...

Keyword(s):

Crucial Role ◽

De Novo ◽

Genetic Screen ◽

Spliced Leader ◽

Trans Splicing

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The nematode spliced leader RNA participates in trans-splicing as an Sm snRNP.

The EMBO Journal ◽

10.1002/j.1460-2075.1990.tb07578.x ◽

1990 ◽

Vol 9 (11) ◽

pp. 3667-3673 ◽

Cited By ~ 20

Author(s):

P. A. Maroney ◽

G. J. Hannon ◽

J. A. Denker ◽

T. W. Nilsen

Keyword(s):

Spliced Leader ◽

Trans Splicing ◽

In Trans ◽

Spliced Leader Rna

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Spliced leader RNA trans-splicing in metazoa

Parasitology Today ◽

10.1016/0169-4758(96)80643-0 ◽

1996 ◽

Vol 12 (1) ◽

pp. 33-40 ◽

Cited By ~ 37

Author(s):

R.E. Davis

Keyword(s):

Spliced Leader ◽

Trans Splicing ◽

Spliced Leader Rna

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Temporal order of RNA-processing reactions in trypanosomes: rapid trans splicing precedes polyadenylation of newly synthesized tubulin transcripts.

Molecular and Cellular Biology ◽

10.1128/mcb.13.1.720 ◽

1993 ◽

Vol 13 (1) ◽

pp. 720-725 ◽

Cited By ~ 108

Author(s):

E Ullu ◽

K R Matthews ◽

C Tschudi

Keyword(s):

Rna Processing ◽

Temporal Order ◽

Kinetic Studies ◽

Splice Acceptor ◽

Mrna Synthesis ◽

Alpha Tubulin ◽

Spliced Leader ◽

Polycistronic Transcription ◽

Trans Splicing

Many trypanosome genes are expressed as part of large polycistronic transcription units. This finding suggests that regulation of mRNA biogenesis may emphasize RNA-processing reactions more so than in other organisms. This study was undertaken to understand the temporal order of two RNA-processing reactions, trans splicing and polyadenylation, in the maturation of trypanosome mRNAs in vivo. Kinetic studies revealed rapid trans splicing of alpha-tubulin, beta-tubulin, and actin pre-mRNAs within 1 to 2 min after synthesis of the 3' splice site. Furthermore, following blockage of pre-mRNA synthesis, newly synthesized spliced leader RNA cannot be used for trans splicing, suggesting that trypanosomes do not accumulate substantial amounts of pre-mRNA which can provide splice acceptor sites. Thus, trans splicing is cotranscriptional. In addition, we show that trans splicing precedes polyadenylation in the processing of trypanosome tubulin pre-mRNAs.

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Minimum free energy predicted base pairing in the 39 nt spliced leader and 5’ UTR of calmodulin mRNA from Trypanosoma cruzi: influence of the multiple trans-splicing sites

Anais da Academia Brasileira de Ciências ◽

10.1590/0001-3765201720170082 ◽

2018 ◽

Vol 90 (2 suppl 1) ◽

pp. 2311-2316

Author(s):

FRANKLYN SAMUDIO ◽

ADEILTON BRANDÃO

Keyword(s):

Free Energy ◽

Trypanosoma Cruzi ◽

Minimum Free Energy ◽

Base Pairing ◽

Spliced Leader ◽

Trans Splicing

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A trans-spliced leader sequence on actin mRNA in C. elegans

Cell ◽

10.1016/0092-8674(87)90613-1 ◽

1987 ◽

Vol 49 (6) ◽

pp. 753-761 ◽

Cited By ~ 342

Author(s):

Michael Krause ◽

David Hirsh

Keyword(s):

Leader Sequence ◽

Spliced Leader ◽

C Elegans ◽

Actin Mrna

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Evaluation of various RNA-seq approaches for identification of gene outrons in the flatworm Opisthorchis felineus

Vavilov Journal of Genetics and Breeding ◽

10.18699/vj20.688 ◽

2020 ◽

Vol 24 (8) ◽

pp. 897-904

Author(s):

N. I. Ershov ◽

D. E. Maslov ◽

N. P. Bondar

Keyword(s):

High Efficiency ◽

The Other ◽

Opisthorchis Felineus ◽

Transcription Start Sites ◽

Spliced Leader ◽

Trans Splicing ◽

Rrna Depletion ◽

Causative Agents ◽

Bona Fide ◽

Nascent Transcripts

The parasitic flatworm Opisthorchis felineus is one of the causative agents of opisthorchiasis in humans. Recently, we assembled the O. felineus genome, but the correct genome annotation by means of standard methods was hampered by the presence of spliced leader trans-splicing (SLTS). As a result of SLTS, the original 5’-end (outron) of the transcripts is replaced by a short spliced leader sequence donated from a specialized SL RNA. SLTS is involved in the RNA processing of more than half of O. felineus genes, making it hard to determine the structure of outrons and bona fide transcription start sites of the corresponding genes and operons, being based solely on mRNA-seq data. In the current study, we tested various experimental approaches for identifying the sequences of outrons in O. felineus using massive parallel sequencing. Two of them were developed by us for targeted sequencing of already processed branched outrons. One was based on sequence-specific reverse transcription from the SL intron toward the 5’-end of the Y-branched outron. The other used outron hybridization with an immobilized single-stranded DNA probe complementary to the SL intron. Additionally, two approaches to the sequencing of rRNA-depleted total RNA were used, allowing the identification of a wider range of transcripts compared to mRNAseq. One is based on the enzymatic elimination of overrepresented cDNAs, the other utilizes exonucleolytic degradation of uncapped RNA by Terminator enzyme. By using the outron-targeting methods, we were not able to obtain the enrichment of RNA preparations by processed outrons, which is most likely indicative of a rapid turnover of these trans-splicing intermediate products. Of the two rRNA depletion methods, a method based on the enzymatic normalization of cDNA (Zymo-Seq RiboFree) showed high efficiency. Compared to mRNA-seq, it provides an approximately twofold increase in the fraction of reads originating from outrons and introns. The results suggest that unprocessed nascent transcripts are the main source of outron sequences in the RNA pool of O. felineus.

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