Novel deletion variants of 9q13–q21.12 and classical euchromatic variants of 9q12/qh involve deletion, duplication and triplication of large tracts of segmentally duplicated pericentromeric euchromatin
Novel deletion variants of 9q13–q21.12 and classical euchromatic variants of 9q12/qh involve deletion, duplication and triplication of large tracts of segmentally duplicated pericentromeric euchromatin
Large-scale copy number variation that is cytogenetically visible in normal individuals has been described as euchromatic variation but needs to be distinguished from pathogenic euchromatic deletion or duplication. Here, we report eight patients (three families and two individuals) with interstitial deletions of 9q13-q21.12. Fluorescence in situ hybridisation with a large panel of BACs showed that all the deleted clones were from extensive tracts of segmentally duplicated euchromatin, copies of which map to both the long and short arms of chromosome 9. The variety of reasons for which these patients were ascertained, and the phenotypically normal parents, indicates that this is a novel euchromatic variant with no phenotypic effect. Further, four patients with classical euchromatic variants of 9q12/qh or 9p12 were also shown to have duplications or triplications of this segmentally duplicated material common to both 9p and 9q. The cytogenetic boundaries between the segmentally duplicated regions and flanking unique sequences were mapped to 9p13.1 in the short arm (BAC RP11-402N8 at 38.7 Mb) and to 9q21.12 in the long arm (BAC RP11-88I18 at 70.3 Mb). The BACs identified in this study should in future make it possible to differentiate between clinically significant deletions or duplications and euchromatic variants with no established phenotypic consequences
segmental duplication, euchromatic variants, var(9)del(9)(q13q21.12), var(9)dup(9)(q13q21.12), var(9)dup(9)(p11.2p13.1), NAHR
45-52
Willatt, Lionel R.
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Barber, John C. K.
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Clarkson, Amanda
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Simonic, Ingrid
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Raymond, F. Lucy
01cc4734-e22a-4945-9f96-3ea305db9215
Docherty, Zoe
36c00f25-1e9a-433f-b971-126135c3893c
Ogilvie, Caroline Mackie
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September 2007
Willatt, Lionel R.
7fa280d8-3d4b-4a3b-b62a-09ab7af99cee
Barber, John C. K.
4785a6e4-bd63-4230-ab61-41a0ae12c761
Clarkson, Amanda
f718ee76-04b4-4c7d-94ab-53468ff943d4
Simonic, Ingrid
1e92b99d-780e-4d07-b7df-688950d0a257
Raymond, F. Lucy
01cc4734-e22a-4945-9f96-3ea305db9215
Docherty, Zoe
36c00f25-1e9a-433f-b971-126135c3893c
Ogilvie, Caroline Mackie
8633a3b9-3b57-45c6-818a-be3256d3e747
Willatt, Lionel R., Barber, John C. K., Clarkson, Amanda, Simonic, Ingrid, Raymond, F. Lucy, Docherty, Zoe and Ogilvie, Caroline Mackie
(2007)
Novel deletion variants of 9q13–q21.12 and classical euchromatic variants of 9q12/qh involve deletion, duplication and triplication of large tracts of segmentally duplicated pericentromeric euchromatin.
European Journal of Human Genetics, 15 (1), .
(doi:10.1038/sj.ejhg.5201720).
Abstract
Large-scale copy number variation that is cytogenetically visible in normal individuals has been described as euchromatic variation but needs to be distinguished from pathogenic euchromatic deletion or duplication. Here, we report eight patients (three families and two individuals) with interstitial deletions of 9q13-q21.12. Fluorescence in situ hybridisation with a large panel of BACs showed that all the deleted clones were from extensive tracts of segmentally duplicated euchromatin, copies of which map to both the long and short arms of chromosome 9. The variety of reasons for which these patients were ascertained, and the phenotypically normal parents, indicates that this is a novel euchromatic variant with no phenotypic effect. Further, four patients with classical euchromatic variants of 9q12/qh or 9p12 were also shown to have duplications or triplications of this segmentally duplicated material common to both 9p and 9q. The cytogenetic boundaries between the segmentally duplicated regions and flanking unique sequences were mapped to 9p13.1 in the short arm (BAC RP11-402N8 at 38.7 Mb) and to 9q21.12 in the long arm (BAC RP11-88I18 at 70.3 Mb). The BACs identified in this study should in future make it possible to differentiate between clinically significant deletions or duplications and euchromatic variants with no established phenotypic consequences
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Published date: September 2007
Keywords:
segmental duplication, euchromatic variants, var(9)del(9)(q13q21.12), var(9)dup(9)(q13q21.12), var(9)dup(9)(p11.2p13.1), NAHR
Identifiers
Local EPrints ID: 60431
URI: http://eprints.soton.ac.uk/id/eprint/60431
ISSN: 1018-4813
PURE UUID: adee9ea6-756c-4131-bed7-1d6167796c5c
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Date deposited: 05 Sep 2008
Last modified: 15 Mar 2024 11:20
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Contributors
Author:
Lionel R. Willatt
Author:
John C. K. Barber
Author:
Amanda Clarkson
Author:
Ingrid Simonic
Author:
F. Lucy Raymond
Author:
Zoe Docherty
Author:
Caroline Mackie Ogilvie
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