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Multiple mechanisms are implicated in the generation of 5q35 microdeletions in Sotos syndrome

Multiple mechanisms are implicated in the generation of 5q35 microdeletions in Sotos syndrome
Multiple mechanisms are implicated in the generation of 5q35 microdeletions in Sotos syndrome
Background: Sotos syndrome (MIM 117550) is characterised by learning difficulties, overgrowth, and a typical facial appearance. Microdeletions at 5q35.3, encompassing NSD1, are responsible for 10% of non-Japanese cases of Sotos. In contrast, a recurrent 2 Mb microdeletion has been reported as responsible for 50% of Japanese cases of Sotos.
Methods: We screened 471 cases for NSD1 mutations and deletions and identified 23 with 5q35 microdeletions. We investigated the deletion size, parent of origin, and mechanism of generation in these and a further 10 cases identified from published reports. We used "in silico" analyses to investigate whether repetitive elements that could generate microdeletions flank NSD1.
Results: Three repetitive elements flanking NSD1, designated REPcen, REPmid, and REPtel, were identified. Up to 18 cases may have the same sized deletion, but at least eight unique deletion sizes were identified, ranging from 0.4 to 5 Mb. In most instances, the microdeletion arose through interchromosomal rearrangements of the paternally inherited chromosome.
Conclusions: Frequency, size, and mechanism of generation of 5q35 microdeletions differ between Japanese and non-Japanese cases of Sotos. Our microdeletions were identified from a large case series with a broad range of phenotypes, suggesting that sample selection variability is unlikely as a sole explanation for these differences and that variation in genomic architecture might be a contributory factor. Non-allelic homologous recombination between REPcen and REPtel may have generated up to 18 microdeletion cases in our series. However, at least 15 cannot be mediated by these repeats, including at least seven deletions of different sizes, implicating multiple mechanisms in the generation of 5q35 microdeletions.
cancer, methods, report, mutation, phenotype, genetics, research, syndrome
0022-2593
307-313
Tatton-Brown, K.
587a8117-77e4-4869-ba22-913c536a77f2
Douglas, J.
060a8293-4c69-46a6-953e-9333d20c61f3
Coleman, K.
dfdbcae1-4ea8-49c1-a523-563d568b0094
Baujat, G.K.
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Clarke, A.
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Collins, A.
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Davies, S.
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Faravelli, F.
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Firth, H.
401028d6-a23f-4a42-bdd9-a632d2f60c52
Garrett, C.
6a120358-1e43-45df-9601-270f288ba3db
Hughes, H.
1d8ae536-2b0a-4c97-af8a-9fffe5cb42a4
Kerr, B.
76738d37-23f4-4397-b04b-9748f73c1442
Liebelt, J.
2dbe3855-d85e-4795-ac90-1258ef5e189a
Reardon, W.
ba3446e4-2f89-4f92-838d-34656b774e0e
Schaefer, G.B.
55bfce6f-7219-412d-9412-fecf4b4d4716
Splitt, M.
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Temple, I.K.
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Waggoner, D.
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Weaver, D.D.
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Wilson, L.
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Cole, T.
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Cormier-Daire, V.
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Irrthum, A.
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Rahman, N.
6b59a4f8-b2c5-46a3-a660-66baab614029
Childhood Overgrowth Collaboration
Tatton-Brown, K.
587a8117-77e4-4869-ba22-913c536a77f2
Douglas, J.
060a8293-4c69-46a6-953e-9333d20c61f3
Coleman, K.
dfdbcae1-4ea8-49c1-a523-563d568b0094
Baujat, G.K.
56d80774-9f3e-42e8-aa1e-73757aa61c29
Clarke, A.
b31fc15c-f640-42d9-a8f0-fc9852109164
Collins, A.
b57bb1d2-6440-4c15-a4e9-5f3492f6121f
Davies, S.
5b030b81-3805-489a-bb2a-96d9dff61b07
Faravelli, F.
7d899af2-5d44-4b89-921d-53becc4d3aea
Firth, H.
401028d6-a23f-4a42-bdd9-a632d2f60c52
Garrett, C.
6a120358-1e43-45df-9601-270f288ba3db
Hughes, H.
1d8ae536-2b0a-4c97-af8a-9fffe5cb42a4
Kerr, B.
76738d37-23f4-4397-b04b-9748f73c1442
Liebelt, J.
2dbe3855-d85e-4795-ac90-1258ef5e189a
Reardon, W.
ba3446e4-2f89-4f92-838d-34656b774e0e
Schaefer, G.B.
55bfce6f-7219-412d-9412-fecf4b4d4716
Splitt, M.
97d74d33-6917-47e6-94eb-01bfd6a9c417
Temple, I.K.
b73f3e36-589a-4743-8c17-4634d536b71b
Waggoner, D.
d1bee965-f2f6-4293-9860-1010d8802baa
Weaver, D.D.
ee1e88e8-3ae1-413c-8ea7-64edf08eaaa1
Wilson, L.
435c7f16-bcda-4b98-a664-c72a1af0f98d
Cole, T.
5330af8b-76ec-4957-87b2-3aa3580a74c0
Cormier-Daire, V.
c24e8d31-92b1-4cae-88d5-733a0ca11767
Irrthum, A.
2ffd6da1-0ec3-4a6c-bf67-790aa88b8cc5
Rahman, N.
6b59a4f8-b2c5-46a3-a660-66baab614029

Tatton-Brown, K., Douglas, J., Coleman, K., Baujat, G.K., Clarke, A., Collins, A., Davies, S., Faravelli, F., Firth, H., Garrett, C., Hughes, H., Kerr, B., Liebelt, J., Reardon, W., Schaefer, G.B., Splitt, M., Temple, I.K., Waggoner, D., Weaver, D.D., Wilson, L., Cole, T., Cormier-Daire, V., Irrthum, A. and Rahman, N. , Childhood Overgrowth Collaboration (2005) Multiple mechanisms are implicated in the generation of 5q35 microdeletions in Sotos syndrome. Journal of Medical Genetics, 42 (4), 307-313. (doi:10.1136/jmg.2004.027755).

Record type: Article

Abstract

Background: Sotos syndrome (MIM 117550) is characterised by learning difficulties, overgrowth, and a typical facial appearance. Microdeletions at 5q35.3, encompassing NSD1, are responsible for 10% of non-Japanese cases of Sotos. In contrast, a recurrent 2 Mb microdeletion has been reported as responsible for 50% of Japanese cases of Sotos.
Methods: We screened 471 cases for NSD1 mutations and deletions and identified 23 with 5q35 microdeletions. We investigated the deletion size, parent of origin, and mechanism of generation in these and a further 10 cases identified from published reports. We used "in silico" analyses to investigate whether repetitive elements that could generate microdeletions flank NSD1.
Results: Three repetitive elements flanking NSD1, designated REPcen, REPmid, and REPtel, were identified. Up to 18 cases may have the same sized deletion, but at least eight unique deletion sizes were identified, ranging from 0.4 to 5 Mb. In most instances, the microdeletion arose through interchromosomal rearrangements of the paternally inherited chromosome.
Conclusions: Frequency, size, and mechanism of generation of 5q35 microdeletions differ between Japanese and non-Japanese cases of Sotos. Our microdeletions were identified from a large case series with a broad range of phenotypes, suggesting that sample selection variability is unlikely as a sole explanation for these differences and that variation in genomic architecture might be a contributory factor. Non-allelic homologous recombination between REPcen and REPtel may have generated up to 18 microdeletion cases in our series. However, at least 15 cannot be mediated by these repeats, including at least seven deletions of different sizes, implicating multiple mechanisms in the generation of 5q35 microdeletions.

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More information

Published date: April 2005
Keywords: cancer, methods, report, mutation, phenotype, genetics, research, syndrome

Identifiers

Local EPrints ID: 24981
URI: http://eprints.soton.ac.uk/id/eprint/24981
ISSN: 0022-2593
PURE UUID: ecc468c0-fdf2-4ccb-9469-983ffe8d45ce

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Date deposited: 04 Apr 2006
Last modified: 15 Mar 2024 06:59

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Contributors

Author: K. Tatton-Brown
Author: J. Douglas
Author: K. Coleman
Author: G.K. Baujat
Author: A. Clarke
Author: A. Collins
Author: S. Davies
Author: F. Faravelli
Author: H. Firth
Author: C. Garrett
Author: H. Hughes
Author: B. Kerr
Author: J. Liebelt
Author: W. Reardon
Author: G.B. Schaefer
Author: M. Splitt
Author: I.K. Temple
Author: D. Waggoner
Author: D.D. Weaver
Author: L. Wilson
Author: T. Cole
Author: V. Cormier-Daire
Author: A. Irrthum
Author: N. Rahman
Corporate Author: Childhood Overgrowth Collaboration

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