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Partial NSD1 deletions cause 5% of Sotos syndrome and are readily identifiable by multiplex ligation dependent probe amplification

Partial NSD1 deletions cause 5% of Sotos syndrome and are readily identifiable by multiplex ligation dependent probe amplification
Partial NSD1 deletions cause 5% of Sotos syndrome and are readily identifiable by multiplex ligation dependent probe amplification
BACKGROUND: Most cases of Sotos syndrome are caused by intragenic NSD1 mutations or 5q35 microdeletions. It is uncertain whether allelic or genetic heterogeneity underlies the residual cases and it has been proposed that other mechanisms, such as 11p15 defects, might be responsible for Sotos cases without NSD1 mutations or 5q35 microdeletions.
OBJECTIVE: To develop a multiplex ligation dependent probe amplification (MLPA) assay to screen NSD1 for exonic deletions/duplications.
METHODS: Analysis was undertaken of 18 classic Sotos syndrome cases in which NSD1 mutations and 5q35 microdeletions were excluded. Long range polymerase chain reaction (PCR) was used to characterise the mechanism of generation of the partial NSD1 deletions.
RESULTS: Eight unique partial NSD1 deletions were identified: exons 1-2 (n = 4), exons 3-5, exons 9-13, exons 19-21, and exon 22. Using long range PCR six of the deletions were confirmed and the precise breakpoints in five cases characterised. This showed that three had arisen through Alu-Alu recombination and two from non-homologous end joining.
CONCLUSIONS: MLPA is a robust, inexpensive, simple technique that reliably detects both 5q35 microdeletions and partial NSD1 deletions that together account for approximately 15% of Sotos syndrome.
genetic heterogeneity, mutation, analysis, exons, letter, methods, polymerase chain reaction, syndrome
0022-2593
Douglas, J.
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Tatton-Brown, K.
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Coleman, K.
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Guerrero, S.
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Berg, J.
2ba2b1b4-08a3-455b-b2b0-3c6f2d425f44
Cole, T.R.
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Fitzpatrick, D.
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Gillerot, Y.
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Hughes, H.E.
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Pilz, D.
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Raymond, F.L.
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Temple, I.K.
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Irrthum, A.
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Schouten, J.P.
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Rahman, N.
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Douglas, J.
060a8293-4c69-46a6-953e-9333d20c61f3
Tatton-Brown, K.
587a8117-77e4-4869-ba22-913c536a77f2
Coleman, K.
dfdbcae1-4ea8-49c1-a523-563d568b0094
Guerrero, S.
88ebd836-00a2-4f28-bc16-579f077869a2
Berg, J.
2ba2b1b4-08a3-455b-b2b0-3c6f2d425f44
Cole, T.R.
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Fitzpatrick, D.
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Gillerot, Y.
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Hughes, H.E.
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Pilz, D.
74c8f533-6d9e-4f4c-b7e5-d88d588539e8
Raymond, F.L.
c6247c75-486e-4534-b202-7727933c96cd
Temple, I.K.
d63e7c66-9fb0-46c8-855d-ee2607e6c226
Irrthum, A.
2ffd6da1-0ec3-4a6c-bf67-790aa88b8cc5
Schouten, J.P.
7d5fe271-9352-48d7-9108-d4a5a3f80d11
Rahman, N.
6b59a4f8-b2c5-46a3-a660-66baab614029

Douglas, J., Tatton-Brown, K., Coleman, K., Guerrero, S., Berg, J., Cole, T.R., Fitzpatrick, D., Gillerot, Y., Hughes, H.E., Pilz, D., Raymond, F.L., Temple, I.K., Irrthum, A., Schouten, J.P. and Rahman, N. (2005) Partial NSD1 deletions cause 5% of Sotos syndrome and are readily identifiable by multiplex ligation dependent probe amplification. Journal of Medical Genetics, 42 (9). (doi:10.1136/jmg.2005.031930).

Record type: Article

Abstract

BACKGROUND: Most cases of Sotos syndrome are caused by intragenic NSD1 mutations or 5q35 microdeletions. It is uncertain whether allelic or genetic heterogeneity underlies the residual cases and it has been proposed that other mechanisms, such as 11p15 defects, might be responsible for Sotos cases without NSD1 mutations or 5q35 microdeletions.
OBJECTIVE: To develop a multiplex ligation dependent probe amplification (MLPA) assay to screen NSD1 for exonic deletions/duplications.
METHODS: Analysis was undertaken of 18 classic Sotos syndrome cases in which NSD1 mutations and 5q35 microdeletions were excluded. Long range polymerase chain reaction (PCR) was used to characterise the mechanism of generation of the partial NSD1 deletions.
RESULTS: Eight unique partial NSD1 deletions were identified: exons 1-2 (n = 4), exons 3-5, exons 9-13, exons 19-21, and exon 22. Using long range PCR six of the deletions were confirmed and the precise breakpoints in five cases characterised. This showed that three had arisen through Alu-Alu recombination and two from non-homologous end joining.
CONCLUSIONS: MLPA is a robust, inexpensive, simple technique that reliably detects both 5q35 microdeletions and partial NSD1 deletions that together account for approximately 15% of Sotos syndrome.

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Published date: 2005
Keywords: genetic heterogeneity, mutation, analysis, exons, letter, methods, polymerase chain reaction, syndrome
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Identifiers

Local EPrints ID: 59684
URI: http://eprints.soton.ac.uk/id/eprint/59684
DOI: doi:10.1136/jmg.2005.031930
ISSN: 0022-2593
PURE UUID: ae54246c-d01b-4864-b487-d73f9393a09c
ORCID for I.K. Temple: ORCID iD orcid.org/0000-0002-6045-1781

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Date deposited: 04 Sep 2008
Last modified: 16 Mar 2024 03:03

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Contributors

Author: J. Douglas
Author: K. Tatton-Brown
Author: K. Coleman
Author: S. Guerrero
Author: J. Berg
Author: T.R. Cole
Author: D. Fitzpatrick
Author: Y. Gillerot
Author: H.E. Hughes
Author: D. Pilz
Author: F.L. Raymond
Author: I.K. Temple ORCID iD
Author: A. Irrthum
Author: J.P. Schouten
Author: N. Rahman

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