Prediction of single-nucleotide substitutions that result in exon skipping: identification of a splicing silencer in BRCA1 exon 6
Prediction of single-nucleotide substitutions that result in exon skipping: identification of a splicing silencer in BRCA1 exon 6
Missense, nonsense and translationally silent mutations can inactivate genes by altering the inclusion of mutant exons in mRNA, but their overall frequency amongst disease-causing exonic substitutions is unknown. Here, we have tested missense and silent mutations deposited in the BRCA1 mutation databases of unclassified variants for their effects on exon inclusion. Analysis of 21 BRCA1 variants using minigene assays revealed a single exon-skipping mutation c.231G>T. Comprehensive mutagenesis of an adjacent 12-nt segment showed that this silent mutation resulted in a higher level of exon skipping than 35 other single-nucleotide substitutions. Exon inclusion levels of mutant constructs correlated significantly with predicted splicing enhancers/silencers, prompting the development of two online utilities freely available at http://www.dbass.org.uk. EX-SKIP quickly estimates which allele is more susceptible to exon skipping whereas HOT-SKIP examines all possible mutations at each exon position and identifies candidate exon-skipping positions/substitutions. We demonstrate that the distribution of exon-skipping and disease-associated substitutions previously identified in coding regions was biased toward top-ranking HOT-SKIP mutations. Finally, we show that proteins 9G8, SC35, SF2/ASF, Tra2 and hnRNP A1 were associated with significant alterations of BRCA1 exon 6 inclusion in the mRNA. Together, these results facilitate prediction of exonic substitutions that reduce exon inclusion in mature transcripts.
rna, brca1, splicing, gene
436-444
Raponi, Michela
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Kralovicova, Jana
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Copson, Ellen
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Divina, Petr
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Eccles, Diana
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Johnson, Peter
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Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
April 2011
Raponi, Michela
f465e77f-b9bf-4c32-80d6-43c0787542b9
Kralovicova, Jana
b3e0c1e7-05ed-445d-b3d9-ace11e3b4878
Copson, Ellen
a94cdbd6-f6e2-429d-a7c0-462c7da0e92b
Divina, Petr
12563f84-24b2-4855-9429-890816fcf9dc
Eccles, Diana
5b59bc73-11c9-4cf0-a9d5-7a8e523eee23
Johnson, Peter
3f6068ce-171e-4c2c-aca9-dc9b6a37413f
Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91
Vorechovsky, Igor
7245de2f-8c9b-4034-8935-9a451d9b682e
Raponi, Michela, Kralovicova, Jana, Copson, Ellen, Divina, Petr, Eccles, Diana, Johnson, Peter, Baralle, Diana and Vorechovsky, Igor
(2011)
Prediction of single-nucleotide substitutions that result in exon skipping: identification of a splicing silencer in BRCA1 exon 6.
Human Mutation, 32 (4), .
(doi:10.1002/humu.21458).
(PMID:21309043)
Abstract
Missense, nonsense and translationally silent mutations can inactivate genes by altering the inclusion of mutant exons in mRNA, but their overall frequency amongst disease-causing exonic substitutions is unknown. Here, we have tested missense and silent mutations deposited in the BRCA1 mutation databases of unclassified variants for their effects on exon inclusion. Analysis of 21 BRCA1 variants using minigene assays revealed a single exon-skipping mutation c.231G>T. Comprehensive mutagenesis of an adjacent 12-nt segment showed that this silent mutation resulted in a higher level of exon skipping than 35 other single-nucleotide substitutions. Exon inclusion levels of mutant constructs correlated significantly with predicted splicing enhancers/silencers, prompting the development of two online utilities freely available at http://www.dbass.org.uk. EX-SKIP quickly estimates which allele is more susceptible to exon skipping whereas HOT-SKIP examines all possible mutations at each exon position and identifies candidate exon-skipping positions/substitutions. We demonstrate that the distribution of exon-skipping and disease-associated substitutions previously identified in coding regions was biased toward top-ranking HOT-SKIP mutations. Finally, we show that proteins 9G8, SC35, SF2/ASF, Tra2 and hnRNP A1 were associated with significant alterations of BRCA1 exon 6 inclusion in the mRNA. Together, these results facilitate prediction of exonic substitutions that reduce exon inclusion in mature transcripts.
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e-pub ahead of print date: 8 March 2011
Published date: April 2011
Keywords:
rna, brca1, splicing, gene
Organisations:
Human Genetics, Cancer Sciences
Identifiers
Local EPrints ID: 175277
URI: http://eprints.soton.ac.uk/id/eprint/175277
ISSN: 1059-7794
PURE UUID: 08a152fa-38d6-4003-93e4-aa05868e560e
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Date deposited: 22 Feb 2011 13:38
Last modified: 15 Mar 2024 02:40
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Contributors
Author:
Michela Raponi
Author:
Jana Kralovicova
Author:
Petr Divina
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