The role of short RNA loops in recognition of a single-hairpin exon derived from a mammalian-wide interspersed repeat
The role of short RNA loops in recognition of a single-hairpin exon derived from a mammalian-wide interspersed repeat
Splice-site selection is controlled by secondary structure through sequestration or approximation of splicing signals in primary transcripts but the exact role of even the simplest and most prevalent structural motifs in exon recognition remains poorly understood. Here we took advantage of a single-hairpin exon that was activated in a mammalian-wide interspersed repeat (MIR) by a mutation stabilizing a terminal triloop, with splice sites positioned close to each other in a lower stem of the hairpin. We first show that the MIR exon inclusion in mRNA correlated inversely with hairpin stabilities. Employing a systematic manipulation of unpaired regions without altering splice-site configuration, we demonstrate a high correlation between exon inclusion of terminal tri- and tetraloop mutants and matching tri-/tetramers in splicing silencers/enhancers. Loop-specific exon inclusion levels and enhancer/silencer associations were preserved across primate cell lines, in 4 hybrid transcripts and also in the context of a distinct stem, but only if its loop-closing base pairs were shared with the MIR hairpin. Unlike terminal loops, splicing activities of internal loop mutants were predicted by their intramolecular Watson-Crick interactions with the antiparallel strand of the MIR hairpin rather than by frequencies of corresponding trinucleotides in splicing silencers/enhancers. We also show that splicing outcome of oligonucleotides targeting the MIR exon depend on the identity of the triloop adjacent to their antisense target. Finally, we identify proteins regulating MIR exon recognition and reveal a distinct requirement of adjacent exons for C-terminal extensions of Tra2? and Tra2? RNA recognition motifs.
bulge, exon, hairpin, mutation, splicing enhancers and silencers, tetraloop, transposable elements, triloop, TE, transposable element, SINE, Short INterspersed Element, MIR, mammalian-wide interspersed repeat, SSO, splice-switching oligonucleotides, FGB, gene for fibrinogen, ESE, exonic splicing enhancer, ESS, exonic splicing silencer
54-69
Kralovicova, Jana
b3e0c1e7-05ed-445d-b3d9-ace11e3b4878
Patel, Alpa
05de5f1a-8d83-4928-801d-6d8d9a520231
Searle, Mark
62527bcd-3856-406d-82ab-206aae3e6732
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
2015
Kralovicova, Jana
b3e0c1e7-05ed-445d-b3d9-ace11e3b4878
Patel, Alpa
05de5f1a-8d83-4928-801d-6d8d9a520231
Searle, Mark
62527bcd-3856-406d-82ab-206aae3e6732
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Kralovicova, Jana, Patel, Alpa, Searle, Mark and Vorechovsky, Igor
(2015)
The role of short RNA loops in recognition of a single-hairpin exon derived from a mammalian-wide interspersed repeat.
RNA Biology, 12 (1), .
(doi:10.1080/15476286.2015.1017207).
(PMID:25826413)
Abstract
Splice-site selection is controlled by secondary structure through sequestration or approximation of splicing signals in primary transcripts but the exact role of even the simplest and most prevalent structural motifs in exon recognition remains poorly understood. Here we took advantage of a single-hairpin exon that was activated in a mammalian-wide interspersed repeat (MIR) by a mutation stabilizing a terminal triloop, with splice sites positioned close to each other in a lower stem of the hairpin. We first show that the MIR exon inclusion in mRNA correlated inversely with hairpin stabilities. Employing a systematic manipulation of unpaired regions without altering splice-site configuration, we demonstrate a high correlation between exon inclusion of terminal tri- and tetraloop mutants and matching tri-/tetramers in splicing silencers/enhancers. Loop-specific exon inclusion levels and enhancer/silencer associations were preserved across primate cell lines, in 4 hybrid transcripts and also in the context of a distinct stem, but only if its loop-closing base pairs were shared with the MIR hairpin. Unlike terminal loops, splicing activities of internal loop mutants were predicted by their intramolecular Watson-Crick interactions with the antiparallel strand of the MIR hairpin rather than by frequencies of corresponding trinucleotides in splicing silencers/enhancers. We also show that splicing outcome of oligonucleotides targeting the MIR exon depend on the identity of the triloop adjacent to their antisense target. Finally, we identify proteins regulating MIR exon recognition and reveal a distinct requirement of adjacent exons for C-terminal extensions of Tra2? and Tra2? RNA recognition motifs.
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Accepted/In Press date: 20 November 2014
e-pub ahead of print date: 31 March 2015
Published date: 2015
Keywords:
bulge, exon, hairpin, mutation, splicing enhancers and silencers, tetraloop, transposable elements, triloop, TE, transposable element, SINE, Short INterspersed Element, MIR, mammalian-wide interspersed repeat, SSO, splice-switching oligonucleotides, FGB, gene for fibrinogen, ESE, exonic splicing enhancer, ESS, exonic splicing silencer
Organisations:
Human Development & Health
Identifiers
Local EPrints ID: 377209
URI: http://eprints.soton.ac.uk/id/eprint/377209
ISSN: 1547-6286
PURE UUID: 0179eb13-ece4-4037-8d5c-33e205c3f7af
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Date deposited: 02 Jun 2015 14:28
Last modified: 15 Mar 2024 03:16
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Author:
Jana Kralovicova
Author:
Alpa Patel
Author:
Mark Searle
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