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Differences in 5'untranslated regions highlight the importance of translational regulation of dosage sensitive genes

Differences in 5'untranslated regions highlight the importance of translational regulation of dosage sensitive genes
Differences in 5'untranslated regions highlight the importance of translational regulation of dosage sensitive genes
Background: untranslated regions (UTRs) are important mediators of post-transcriptional regulation. The length of UTRs and the composition of regulatory elements within them are known to vary substantially across genes, but little is known about the reasons for this variation in humans. Here, we set out to determine whether this variation, specifically in 5’UTRs, correlates with gene dosage sensitivity.

Results: we investigate 5’UTR length, the number of alternative transcription start sites, the potential for alternative splicing, the number and type of upstream open reading frames (uORFs) and the propensity of 5’UTRs to form secondary structures. We explore how these elements vary by gene tolerance to loss-of-function (LoF; using the LOEUF metric), and in genes where changes in dosage are known to cause disease. We show that LOEUF correlates with 5’UTR length and complexity. Genes that are most intolerant to LoF have longer 5’UTRs, greater TSS diversity, and more upstream regulatory elements than their LoF tolerant counterparts. We show that these differences are evident in disease gene-sets, but not in recessive developmental disorder genes where LoF of a single allele is tolerated.

Conclusions: our results confirm the importance of post-transcriptional regulation through 5'UTRs in tight regulation of mRNA and protein levels, particularly for genes where changes in dosage are deleterious and lead to disease. Finally, to support gene-based investigation we release a web-based browser tool, VuTR, that supports exploration of the composition of individual 5'UTRs and the impact of genetic variation within them.
1465-6906
Wieder, Nechama
87f4455c-e844-4159-a065-49dd7e293827
D’Souza, Elston N.
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Martin-Geary, Alexandra C.
488f676d-10bb-4d65-8ceb-6f5e9808f024
Lassen, Frederik H.
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Talbot-Martin, Jonathan
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Fernande, Maria
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Chothani, Sonia P.
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Rackham, Owen J.L.
8122eb1f-6e9f-4da5-90e1-ce108ccbbcbf
Schafer, Sebastian
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Aspden, Julie L.
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MacArthur, Daniel G.
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Davies, Robert W.
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Whiffin, Nicola
a12b021c-3330-4a73-9dc2-dea3d79ba9a8
Wieder, Nechama
87f4455c-e844-4159-a065-49dd7e293827
D’Souza, Elston N.
ae2110bb-bf0c-4ea5-ba3b-28bf544f428b
Martin-Geary, Alexandra C.
488f676d-10bb-4d65-8ceb-6f5e9808f024
Lassen, Frederik H.
eefea451-c6bc-4659-80fd-09c76c087b52
Talbot-Martin, Jonathan
e4ef08f6-5b17-4e52-90b9-c9ff9ff7806c
Fernande, Maria
2c64dc88-bf99-46ab-9ed2-3ca0b42e4de3
Chothani, Sonia P.
8d64ecf3-6918-446a-997a-e0f14ef1a974
Rackham, Owen J.L.
8122eb1f-6e9f-4da5-90e1-ce108ccbbcbf
Schafer, Sebastian
6946786d-17c8-4c35-a6ac-871cc7a82cf2
Aspden, Julie L.
25a536ee-5800-4407-b99a-645f4c9b0479
MacArthur, Daniel G.
0a124b41-7471-42ca-a1d8-008ff4094b36
Davies, Robert W.
43741326-7dbb-471c-9f05-065312a6f6b9
Whiffin, Nicola
a12b021c-3330-4a73-9dc2-dea3d79ba9a8

Wieder, Nechama, D’Souza, Elston N., Martin-Geary, Alexandra C., Lassen, Frederik H., Talbot-Martin, Jonathan, Fernande, Maria, Chothani, Sonia P., Rackham, Owen J.L., Schafer, Sebastian, Aspden, Julie L., MacArthur, Daniel G., Davies, Robert W. and Whiffin, Nicola (2024) Differences in 5'untranslated regions highlight the importance of translational regulation of dosage sensitive genes. Genome Biology, 25, [111]. (doi:10.1186/s13059-024-03248-0).

Record type: Article

Abstract

Background: untranslated regions (UTRs) are important mediators of post-transcriptional regulation. The length of UTRs and the composition of regulatory elements within them are known to vary substantially across genes, but little is known about the reasons for this variation in humans. Here, we set out to determine whether this variation, specifically in 5’UTRs, correlates with gene dosage sensitivity.

Results: we investigate 5’UTR length, the number of alternative transcription start sites, the potential for alternative splicing, the number and type of upstream open reading frames (uORFs) and the propensity of 5’UTRs to form secondary structures. We explore how these elements vary by gene tolerance to loss-of-function (LoF; using the LOEUF metric), and in genes where changes in dosage are known to cause disease. We show that LOEUF correlates with 5’UTR length and complexity. Genes that are most intolerant to LoF have longer 5’UTRs, greater TSS diversity, and more upstream regulatory elements than their LoF tolerant counterparts. We show that these differences are evident in disease gene-sets, but not in recessive developmental disorder genes where LoF of a single allele is tolerated.

Conclusions: our results confirm the importance of post-transcriptional regulation through 5'UTRs in tight regulation of mRNA and protein levels, particularly for genes where changes in dosage are deleterious and lead to disease. Finally, to support gene-based investigation we release a web-based browser tool, VuTR, that supports exploration of the composition of individual 5'UTRs and the impact of genetic variation within them.

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Accepted/In Press date: 15 April 2024
Published date: 29 April 2024
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Identifiers

Local EPrints ID: 501095
URI: http://eprints.soton.ac.uk/id/eprint/501095
DOI: doi:10.1186/s13059-024-03248-0
ISSN: 1465-6906
PURE UUID: e0329106-e825-4af3-901a-07961a699fef
ORCID for Owen J.L. Rackham: ORCID iD orcid.org/0000-0002-4390-0872

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Date deposited: 23 May 2025 16:47
Last modified: 22 Aug 2025 02:30

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Contributors

Author: Nechama Wieder
Author: Elston N. D’Souza
Author: Alexandra C. Martin-Geary
Author: Frederik H. Lassen
Author: Jonathan Talbot-Martin
Author: Maria Fernande
Author: Sonia P. Chothani
Author: Owen J.L. Rackham ORCID iD
Author: Sebastian Schafer
Author: Julie L. Aspden
Author: Daniel G. MacArthur
Author: Robert W. Davies
Author: Nicola Whiffin

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