A palindrome-like structure on 16p13.3 is associated with the formation of complex structural variations and SRRM3 haploinsufficiency
A palindrome-like structure on 16p13.3 is associated with the formation of complex structural variations and SRRM3 haploinsufficiency
SRRM2 encodes a splicing factor recently implicated in developmental disorders due to a statistical enrichment of de novo mutations. Using data from the 100,000 Genomes Project, four unrelated individuals with intellectual disability (ID) were identified, each harbouring de novo whole gene deletions of SRRM2. Deletions ranged between 248 and 482 kb in size and all distal breakpoints clustered within a complex 144 kb palindrome situated 75 kb upstream of SRRM2. Strikingly, three of the deletions were complex, with inverted internal segments of 45-94 kb. In one proband-mother duo, de novo status was inferred by haplotype analysis. Together with two additional patients who harboured smaller predicted protein-truncating variants (p.Arg632∗ and p.Ala2223Leufs∗13), we estimate the prevalence of this condition in cohorts of patients with unexplained ID to be 1/1300. Phenotypic blending, present for two cases with additional pathogenic variants in CASR/PKD1 and SLC17A5, hampered the phenotypic delineation of this recently described condition. Our data highlights the benefits of genome sequencing for resolving structural complexity and inferring de novo status. The genomic architecture of 16p13.3 may give rise to relatively high rates of complex rearrangements, adding to the list of loci associated with recurrent genomic disorders.
Pagnamenta, Alistair T.
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Jing, Yu
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Willis, Tracey A.
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Hashim, Mona
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Seaby, Eleanor Grace
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Walker, Susan
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Xian, Katrina
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Cheng, Emily W.Y.
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Tavares, Ana Lisa Taylor
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Forzano, Francesca
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Cox, Helen
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Brady, Angela F
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Dabir, Tabib
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Ghali, Neeti
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Antanur, Santosh S.
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Ennis, Sarah
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Baralle, Diana
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Taylor, Jenny C.
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Genomics England Research Consortium
11 April 2023
Pagnamenta, Alistair T.
cf9e635c-16dc-4a10-a385-73e9171cb152
Jing, Yu
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Willis, Tracey A.
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Hashim, Mona
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Seaby, Eleanor Grace
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Walker, Susan
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Xian, Katrina
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Cheng, Emily W.Y.
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Tavares, Ana Lisa Taylor
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Forzano, Francesca
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Cox, Helen
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Brady, Angela F
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Dabir, Tabib
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Ghali, Neeti
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Antanur, Santosh S.
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Ennis, Sarah
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Baralle, Diana
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Taylor, Jenny C.
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Pagnamenta, Alistair T., Jing, Yu, Willis, Tracey A., Hashim, Mona, Seaby, Eleanor Grace, Walker, Susan, Xian, Katrina, Cheng, Emily W.Y., Tavares, Ana Lisa Taylor, Forzano, Francesca, Cox, Helen, Brady, Angela F, Dabir, Tabib, Ghali, Neeti, Antanur, Santosh S., Ennis, Sarah, Baralle, Diana and Taylor, Jenny C.
,
Genomics England Research Consortium
(2023)
A palindrome-like structure on 16p13.3 is associated with the formation of complex structural variations and SRRM3 haploinsufficiency.
Human Mutation, 2023, [6633248].
(doi:10.1155/2023/6633248).
Abstract
SRRM2 encodes a splicing factor recently implicated in developmental disorders due to a statistical enrichment of de novo mutations. Using data from the 100,000 Genomes Project, four unrelated individuals with intellectual disability (ID) were identified, each harbouring de novo whole gene deletions of SRRM2. Deletions ranged between 248 and 482 kb in size and all distal breakpoints clustered within a complex 144 kb palindrome situated 75 kb upstream of SRRM2. Strikingly, three of the deletions were complex, with inverted internal segments of 45-94 kb. In one proband-mother duo, de novo status was inferred by haplotype analysis. Together with two additional patients who harboured smaller predicted protein-truncating variants (p.Arg632∗ and p.Ala2223Leufs∗13), we estimate the prevalence of this condition in cohorts of patients with unexplained ID to be 1/1300. Phenotypic blending, present for two cases with additional pathogenic variants in CASR/PKD1 and SLC17A5, hampered the phenotypic delineation of this recently described condition. Our data highlights the benefits of genome sequencing for resolving structural complexity and inferring de novo status. The genomic architecture of 16p13.3 may give rise to relatively high rates of complex rearrangements, adding to the list of loci associated with recurrent genomic disorders.
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SRRM2_REVISION_CLEAN
- Accepted Manuscript
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SRRM2_supplementary_figures
- Accepted Manuscript
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Table S1_revision
- Accepted Manuscript
More information
Accepted/In Press date: 15 February 2023
Published date: 11 April 2023
Additional Information:
Acknowledgments: We thank the families for their involvement in this study and members of the Genomics England Research Consortium (updated list at http://www.genomicsengland.co.uk/research/publications/publication-policy). This work was supported by the Wellcome Trust (203141/Z/16/Z) and the Oxford NIHR Biomedical Research Centre and was made possible through access to the data and findings generated by the 100kGP. The 100kGP is managed by Genomics England Limited (a wholly owned company of the Department of Health and Social Care). The 100kGP is funded by the National Institute for Health Research and NHS England. The Wellcome Trust, Cancer Research UK, and the Medical Research Council have also funded the research infrastructure. The 100kGP uses data provided by patients and collected by the National Health Service as part of their care and support.
Publisher Copyright:
© 2023 Alistair T. Pagnamenta et al.
Identifiers
Local EPrints ID: 475940
URI: http://eprints.soton.ac.uk/id/eprint/475940
ISSN: 1059-7794
PURE UUID: fb6866e3-2ab2-4f6e-90d3-e78686792aeb
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Date deposited: 31 Mar 2023 16:43
Last modified: 17 Mar 2024 03:13
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Contributors
Author:
Alistair T. Pagnamenta
Author:
Yu Jing
Author:
Tracey A. Willis
Author:
Mona Hashim
Author:
Eleanor Grace Seaby
Author:
Susan Walker
Author:
Katrina Xian
Author:
Emily W.Y. Cheng
Author:
Ana Lisa Taylor Tavares
Author:
Francesca Forzano
Author:
Helen Cox
Author:
Angela F Brady
Author:
Tabib Dabir
Author:
Neeti Ghali
Author:
Santosh S. Antanur
Author:
Jenny C. Taylor
Corporate Author: Genomics England Research Consortium
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