Characterisation of interstitial duplications and triplications of chromosome 15q11-q13
Characterisation of interstitial duplications and triplications of chromosome 15q11-q13
Chromosome 15 is frequently involved in the formation of structural rearrangements. We report the molecular characterisation of 16 independent interstitial duplications, including those of one individual who carried a duplication on both of her chromosomes 15, and three interstitial triplications of the Prader-Willi/Angelman syndrome critical region (PWACR). In all probands except one, the rearrangement was maternal in origin. In one family, the duplication was paternal in origin, yet appeared to segregate in a sibship of three with an abnormal phenotype that included developmental delay and a behavioural disorder. Ten duplications were familial, five de novo and one unknown. All 16 duplications, including two not visible by routine G-banding, were of an almost uniform size and shared the common deletion breakpoints of Prader-Willi syndrome and Angelman syndrome. Like deletions, the formation of duplications can occur in both male and female meiosis and involve both inter- and intrachromosomal events. This implies that at least some deletions and duplications are the reciprocal products of each other. We observed no instances of meiotic instability in the transmission of a duplication, although recombination within the PWACR occurred in two members of the same family between the normal and the duplicated chromosome 15 homologues. All three triplications arose de novo and included alleles from both maternal chromosomes 15. Triplication breakpoints were more variable and extended distally beyond the PWACR. The molecular characteristics of duplications and triplications suggest that they are formed by different mechanisms.
227-234
Roberts, Sian E.
276e085c-847b-4134-9083-da8fce1f8122
Dennis, Nicholas R.
154aa617-52e2-4711-98ef-89fef8610de7
Browne, Caroline E.
46d899d9-3e5f-412d-9c03-cf9987a5c0d4
Willatt, Lionel
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Woods, Geoffrey C.
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Cross, Ian
402d8daf-95c0-44eb-89da-1171327fa2fd
Jacobs, Patricia A.
d87ec15b-13c3-4868-96f1-b4b99030fa5b
Thomas, Simon N.
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2002
Roberts, Sian E.
276e085c-847b-4134-9083-da8fce1f8122
Dennis, Nicholas R.
154aa617-52e2-4711-98ef-89fef8610de7
Browne, Caroline E.
46d899d9-3e5f-412d-9c03-cf9987a5c0d4
Willatt, Lionel
8bcb2c89-bb9b-46c9-a354-f395986cbd69
Woods, Geoffrey C.
f4d5152a-e1f8-4593-ae8f-628fa8cd527e
Cross, Ian
402d8daf-95c0-44eb-89da-1171327fa2fd
Jacobs, Patricia A.
d87ec15b-13c3-4868-96f1-b4b99030fa5b
Thomas, Simon N.
6aac3e46-688d-4ad8-81ed-b7a667f4f20d
Roberts, Sian E., Dennis, Nicholas R., Browne, Caroline E., Willatt, Lionel, Woods, Geoffrey C., Cross, Ian, Jacobs, Patricia A. and Thomas, Simon N.
(2002)
Characterisation of interstitial duplications and triplications of chromosome 15q11-q13.
Human Genetics, 110 (3), .
(doi:10.1007/s00439-002-0678-6).
Abstract
Chromosome 15 is frequently involved in the formation of structural rearrangements. We report the molecular characterisation of 16 independent interstitial duplications, including those of one individual who carried a duplication on both of her chromosomes 15, and three interstitial triplications of the Prader-Willi/Angelman syndrome critical region (PWACR). In all probands except one, the rearrangement was maternal in origin. In one family, the duplication was paternal in origin, yet appeared to segregate in a sibship of three with an abnormal phenotype that included developmental delay and a behavioural disorder. Ten duplications were familial, five de novo and one unknown. All 16 duplications, including two not visible by routine G-banding, were of an almost uniform size and shared the common deletion breakpoints of Prader-Willi syndrome and Angelman syndrome. Like deletions, the formation of duplications can occur in both male and female meiosis and involve both inter- and intrachromosomal events. This implies that at least some deletions and duplications are the reciprocal products of each other. We observed no instances of meiotic instability in the transmission of a duplication, although recombination within the PWACR occurred in two members of the same family between the normal and the duplicated chromosome 15 homologues. All three triplications arose de novo and included alleles from both maternal chromosomes 15. Triplication breakpoints were more variable and extended distally beyond the PWACR. The molecular characteristics of duplications and triplications suggest that they are formed by different mechanisms.
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Published date: 2002
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Local EPrints ID: 24920
URI: http://eprints.soton.ac.uk/id/eprint/24920
ISSN: 0340-6717
PURE UUID: ee61a531-a25f-4577-b3b3-0245feb3dc8c
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Date deposited: 04 Apr 2006
Last modified: 15 Mar 2024 06:59
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Author:
Sian E. Roberts
Author:
Nicholas R. Dennis
Author:
Caroline E. Browne
Author:
Lionel Willatt
Author:
Geoffrey C. Woods
Author:
Ian Cross
Author:
Patricia A. Jacobs
Author:
Simon N. Thomas
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