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Alu RNA fold links splicing with signal recognition particle proteins

Alu RNA fold links splicing with signal recognition particle proteins
Alu RNA fold links splicing with signal recognition particle proteins
Transcriptomic diversity in primates was considerably expanded by exonizations of intronic Alu elements. To better understand their cellular mechanisms we have used structure-based mutagenesis coupled with functional and proteomic assays to study the impact of successive primate mutations and their combinations on inclusion of a sense-oriented AluJ exon in the human F8 gene. We show that the splicing outcome was better predicted by consecutive RNA conformation changes than by computationally derived splicing regulatory motifs. We also demonstrate an involvement of SRP9/14 (signal recognition particle) heterodimer in splicing regulation of Alu-derived exons. Nucleotide substitutions that accumulated during primate evolution relaxed the conserved left-arm AluJ structure including helix H1 and reduced the capacity of SRP9/14 to stabilize the closed Alu conformation. RNA secondary structure-constrained mutations that promoted open Y-shaped conformations of the Alu made the Alu exon inclusion reliant on DHX9. Finally, we identified additional SRP9/14 sensitive Alu exons and predicted their functional roles in the cell. Together, these results provide unique insights into architectural elements required for sense Alu exonization, identify conserved pre-mRNA structures involved in exon selection and point to a possible chaperone activity of SRP9/14 outside the mammalian signal recognition particle.
0305-1048
8199-8216
Borovská, Ivana
1024414a-9bc5-4a1f-84a7-a86ac4064c30
Vořechovský, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Královičová, Jana
fa3a7c4f-f0ea-43e6-b732-758f027a4c76
Borovská, Ivana
1024414a-9bc5-4a1f-84a7-a86ac4064c30
Vořechovský, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Královičová, Jana
fa3a7c4f-f0ea-43e6-b732-758f027a4c76

Borovská, Ivana, Vořechovský, Igor and Královičová, Jana (2023) Alu RNA fold links splicing with signal recognition particle proteins. Nucleic Acids Research, 51 (15), 8199-8216, [gkad500]. (doi:10.1093/nar/gkad500).

Record type: Article

Abstract

Transcriptomic diversity in primates was considerably expanded by exonizations of intronic Alu elements. To better understand their cellular mechanisms we have used structure-based mutagenesis coupled with functional and proteomic assays to study the impact of successive primate mutations and their combinations on inclusion of a sense-oriented AluJ exon in the human F8 gene. We show that the splicing outcome was better predicted by consecutive RNA conformation changes than by computationally derived splicing regulatory motifs. We also demonstrate an involvement of SRP9/14 (signal recognition particle) heterodimer in splicing regulation of Alu-derived exons. Nucleotide substitutions that accumulated during primate evolution relaxed the conserved left-arm AluJ structure including helix H1 and reduced the capacity of SRP9/14 to stabilize the closed Alu conformation. RNA secondary structure-constrained mutations that promoted open Y-shaped conformations of the Alu made the Alu exon inclusion reliant on DHX9. Finally, we identified additional SRP9/14 sensitive Alu exons and predicted their functional roles in the cell. Together, these results provide unique insights into architectural elements required for sense Alu exonization, identify conserved pre-mRNA structures involved in exon selection and point to a possible chaperone activity of SRP9/14 outside the mammalian signal recognition particle.

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2023 NAR Alu gkad500 - Accepted Manuscript
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Accepted/In Press date: 31 May 2023
e-pub ahead of print date: 13 June 2023
Published date: 25 August 2023
Additional Information: Funding Information: We wish to thank Katarna Vondr?a?skova for technical as- sistance and to Peter Barath (Institute of Chemistry, SAS) and members of his group for mass spectrometry analysis. VEGA [2 / 0016 / 22 to J.K.]; Slovak Research and Develop-ment Agency [APVV-18?0096 to J.K.]. Funding for open access charge: Slovak Research and De v elopment Agency [APVV-18-0096]; Vedeck ?a Grantov ?a Agent ?ura M ?SVVa ?S SR a SAV [2 / 0016 / 22]. Funding Information: VEGA [2/0016/22 to J.K.]; Slovak Research and Development Agency [APVV-18–0096 to J.K.]. Funding for open access charge: Slovak Research and Development Agency [APVV-18-0096]; Vedecká Grantová Agentúra MŠVVaŠ SR a SAV [2/0016/22]. Publisher Copyright: © 2023 The Author(s).

Identifiers

Local EPrints ID: 479823
URI: http://eprints.soton.ac.uk/id/eprint/479823
ISSN: 0305-1048
PURE UUID: a6851537-4d0a-41e5-ad71-e5518cbe244b
ORCID for Igor Vořechovský: ORCID iD orcid.org/0000-0002-6740-6502

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Date deposited: 27 Jul 2023 13:45
Last modified: 18 Mar 2024 02:57

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Contributors

Author: Ivana Borovská
Author: Jana Královičová

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