De novo deletions and duplications detected by array CGH: a study of parental origin in relation to mechanisms of formation and size of imbalance
De novo deletions and duplications detected by array CGH: a study of parental origin in relation to mechanisms of formation and size of imbalance
We report a large series of 173 patients with physical and/or neurological abnormalities and a de novo imbalance identified by array CGH. Breakpoint intervals were screened for the presence of low copy repeats (LCRs) to distinguish between rearrangements formed by non-allelic homologous recombination (NAHR) and rearrangements formed by other mechanisms. We identified significant differences in size and parental origin between the LCR-mediated and non-LCR groups. Non-LCR imbalances were evenly distributed among the four size intervals we defined, whereas LCR-mediated rearrangements had a narrow size distribution, predominantly between 1 and 5?Mb (P=0.001). Among the LCR-mediated rearrangements there were equal numbers of maternally and paternally derived cases. In contrast, for the non-LCR rearrangements there was a significant excess of paternal cases (P=0.024) over a wide size range including below 1?Mb. Our results provide novel evidence that unbalanced chromosome rearrangements are not only more frequent in males, but may also arise through different mechanisms than those seen in females. Although the paternal imbalances identified in our study are evenly distributed throughout the four size groups, there are very few maternal imbalances either <1?Mb or >10?Mb. Furthermore, a lower proportion of paternal imbalances are LCR mediated (13/71) compared with the maternal imbalances (12/30). We hypothesise that imbalances of maternal origin arise predominantly through NAHR during meiosis, while the majority of imbalances of paternal origin arise through male-specific mechanisms other than NAHR. Our data suggest that mitotic mechanisms could be important for the formation of chromosome imbalances; however, we found no association with increased paternal age.
155-160
Sibbons, Charlene
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Morris, Joan K.
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Crolla, John A.
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Jacobs, Patricia A.
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Thomas, N. Simon
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February 2012
Sibbons, Charlene
e613c761-bc82-4511-afd6-2d7e3cccc038
Morris, Joan K.
166e8a8b-5205-4819-b52b-96edfda3e68b
Crolla, John A.
c5f23751-8de9-4a55-9cc5-ca2fb635769c
Jacobs, Patricia A.
d87ec15b-13c3-4868-96f1-b4b99030fa5b
Thomas, N. Simon
1a601957-288d-4f12-a9f7-4f4279b7f9b3
Sibbons, Charlene, Morris, Joan K., Crolla, John A., Jacobs, Patricia A. and Thomas, N. Simon
(2012)
De novo deletions and duplications detected by array CGH: a study of parental origin in relation to mechanisms of formation and size of imbalance.
European Journal of Human Genetics, 20 (2), .
(doi:10.1038/ejhg.2011.182).
(PMID:21952720)
Abstract
We report a large series of 173 patients with physical and/or neurological abnormalities and a de novo imbalance identified by array CGH. Breakpoint intervals were screened for the presence of low copy repeats (LCRs) to distinguish between rearrangements formed by non-allelic homologous recombination (NAHR) and rearrangements formed by other mechanisms. We identified significant differences in size and parental origin between the LCR-mediated and non-LCR groups. Non-LCR imbalances were evenly distributed among the four size intervals we defined, whereas LCR-mediated rearrangements had a narrow size distribution, predominantly between 1 and 5?Mb (P=0.001). Among the LCR-mediated rearrangements there were equal numbers of maternally and paternally derived cases. In contrast, for the non-LCR rearrangements there was a significant excess of paternal cases (P=0.024) over a wide size range including below 1?Mb. Our results provide novel evidence that unbalanced chromosome rearrangements are not only more frequent in males, but may also arise through different mechanisms than those seen in females. Although the paternal imbalances identified in our study are evenly distributed throughout the four size groups, there are very few maternal imbalances either <1?Mb or >10?Mb. Furthermore, a lower proportion of paternal imbalances are LCR mediated (13/71) compared with the maternal imbalances (12/30). We hypothesise that imbalances of maternal origin arise predominantly through NAHR during meiosis, while the majority of imbalances of paternal origin arise through male-specific mechanisms other than NAHR. Our data suggest that mitotic mechanisms could be important for the formation of chromosome imbalances; however, we found no association with increased paternal age.
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e-pub ahead of print date: 28 September 2011
Published date: February 2012
Organisations:
Human Development & Health
Identifiers
Local EPrints ID: 202453
URI: http://eprints.soton.ac.uk/id/eprint/202453
ISSN: 1018-4813
PURE UUID: 3cf4361a-775d-4581-b4ef-cdef79a421c9
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Date deposited: 08 Nov 2011 11:32
Last modified: 14 Mar 2024 04:24
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Author:
Charlene Sibbons
Author:
Joan K. Morris
Author:
John A. Crolla
Author:
Patricia A. Jacobs
Author:
N. Simon Thomas
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