Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications

Pengfei Liu; Ayelet Erez; Sandesh C Sreenath Nagamani; Weimin Bi; Claudia M B Carvalho; Alexandra D. Simmons; Joanna Wiszniewska; Ping Fang; Patricia A. Eng; M. Lance Cooper; V. Reid Sutton; Elizabeth R. Roeder; John B. Bodensteiner; Mauricio R. Delgado; Siddharth K. Prakash; John W. Belmont; Pawel Stankiewicz; Jonathan S. Berg; Marwan Shinawi; Ankita Patel; Sau Wai Cheung; James R. Lupski

doi:10.1093/hmg/ddr078

Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications

Pengfei Liu, Ayelet Erez, Sandesh C Sreenath Nagamani, Weimin Bi, Claudia M B Carvalho, Alexandra D. Simmons, Joanna Wiszniewska, Ping Fang, Patricia A. Eng, M. Lance Cooper, V. Reid Sutton, Elizabeth R. Roeder, John B. Bodensteiner, Mauricio R. Delgado, Siddharth K. Prakash, John W. Belmont, Pawel Stankiewicz, Jonathan S. Berg, Marwan Shinawi, Ankita PatelSau Wai Cheung, James R. Lupski

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Abstract

Genomic instability is a feature of the human Xp22.31 region wherein deletions are associated with X-linked ichthyosis, mental retardation and attention deficit hyperactivity disorder. A putative homologous recombination hotspot motif is enriched in low copy repeats that mediate recurrent deletion at this locus. To date, few efforts have focused on copy number gain at Xp22.31. However, clinical testing revealed a high incidence of duplication of Xp22.31 in subjects ascertained and referred with neurobehavioral phenotypes. We systematically studied 61 unrelated subjects with rearrangements revealing gain in copy number, using multiple molecular assays. We detected not only the anticipated recurrent and simple nonrecurrent duplications, but also unexpectedly identified recurrent triplications and other complex rearrangements. Breakpoint analyses enabled us to surmise the mechanisms for many of these rearrangements. The clinical significance of the recurrent duplications and triplications were assessed using different approaches. We cannot find any evidence to support pathogenicity of the Xp22.31 duplication. However, our data suggest that the Xp22.31 duplication may serve as a risk factor for abnormal phenotypes. Our findings highlight the need for more robust Xp22.31 triplication detection in that such further gain may be more penetrant than the duplications. Our findings reveal the distribution of different mechanisms for genomic duplication rearrangements at a given locus, and provide insights into aspects of strand exchange events between paralogous sequences in the human genome.

Original language	English (US)
Article number	ddr078
Pages (from-to)	1975-1988
Number of pages	14
Journal	Human molecular genetics
Volume	20
Issue number	10
DOIs	https://doi.org/10.1093/hmg/ddr078
State	Published - May 2011

ASJC Scopus subject areas

Molecular Biology
Genetics
Genetics(clinical)

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Liu, P., Erez, A., Nagamani, S. C. S., Bi, W., Carvalho, C. M. B., Simmons, A. D., Wiszniewska, J., Fang, P., Eng, P. A., Cooper, M. L., Sutton, V. R., Roeder, E. R., Bodensteiner, J. B., Delgado, M. R., Prakash, S. K., Belmont, J. W., Stankiewicz, P., Berg, J. S., Shinawi, M., ... Lupski, J. R. (2011). Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications. Human molecular genetics, 20(10), 1975-1988. Article ddr078. https://doi.org/10.1093/hmg/ddr078

Liu, P, Erez, A, Nagamani, SCS, Bi, W, Carvalho, CMB, Simmons, AD, Wiszniewska, J, Fang, P, Eng, PA, Cooper, ML, Sutton, VR, Roeder, ER, Bodensteiner, JB, Delgado, MR, Prakash, SK, Belmont, JW, Stankiewicz, P, Berg, JS, Shinawi, M, Patel, A, Cheung, SW & Lupski, JR 2011, 'Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications', Human molecular genetics, vol. 20, no. 10, ddr078, pp. 1975-1988. https://doi.org/10.1093/hmg/ddr078

@article{e47ebd62f4ec487396dfcd9e99b1c4af,

title = "Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications",

abstract = "Genomic instability is a feature of the human Xp22.31 region wherein deletions are associated with X-linked ichthyosis, mental retardation and attention deficit hyperactivity disorder. A putative homologous recombination hotspot motif is enriched in low copy repeats that mediate recurrent deletion at this locus. To date, few efforts have focused on copy number gain at Xp22.31. However, clinical testing revealed a high incidence of duplication of Xp22.31 in subjects ascertained and referred with neurobehavioral phenotypes. We systematically studied 61 unrelated subjects with rearrangements revealing gain in copy number, using multiple molecular assays. We detected not only the anticipated recurrent and simple nonrecurrent duplications, but also unexpectedly identified recurrent triplications and other complex rearrangements. Breakpoint analyses enabled us to surmise the mechanisms for many of these rearrangements. The clinical significance of the recurrent duplications and triplications were assessed using different approaches. We cannot find any evidence to support pathogenicity of the Xp22.31 duplication. However, our data suggest that the Xp22.31 duplication may serve as a risk factor for abnormal phenotypes. Our findings highlight the need for more robust Xp22.31 triplication detection in that such further gain may be more penetrant than the duplications. Our findings reveal the distribution of different mechanisms for genomic duplication rearrangements at a given locus, and provide insights into aspects of strand exchange events between paralogous sequences in the human genome.",

author = "Pengfei Liu and Ayelet Erez and Nagamani, {Sandesh C Sreenath} and Weimin Bi and Carvalho, {Claudia M B} and Simmons, {Alexandra D.} and Joanna Wiszniewska and Ping Fang and Eng, {Patricia A.} and Cooper, {M. Lance} and Sutton, {V. Reid} and Roeder, {Elizabeth R.} and Bodensteiner, {John B.} and Delgado, {Mauricio R.} and Prakash, {Siddharth K.} and Belmont, {John W.} and Pawel Stankiewicz and Berg, {Jonathan S.} and Marwan Shinawi and Ankita Patel and Cheung, {Sau Wai} and Lupski, {James R.}",

note = "Funding Information: This work was supported in part by the National Institute of Neurological Disorders and Stroke (National Institutes of Health, grant R01NS058529) to J.R.L., Texas Children{\textquoteright}s Hospital General Clinical Research Center (grant M01RR00188) and Intellectual and Developmental Disabilities Research Centers (grant P30HD024064). A.E. is supported by NIH 5K08DK081735. P.S. is supported in part by grant R13-0005-04/2008 from the Polish Ministry of Science and Higher Education.",

year = "2011",

month = may,

doi = "10.1093/hmg/ddr078",

language = "English (US)",

volume = "20",

pages = "1975--1988",

journal = "Human molecular genetics",

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T1 - Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications

AU - Liu, Pengfei

AU - Erez, Ayelet

AU - Nagamani, Sandesh C Sreenath

AU - Bi, Weimin

AU - Carvalho, Claudia M B

AU - Simmons, Alexandra D.

AU - Wiszniewska, Joanna

AU - Fang, Ping

AU - Eng, Patricia A.

AU - Cooper, M. Lance

AU - Sutton, V. Reid

AU - Roeder, Elizabeth R.

AU - Bodensteiner, John B.

AU - Delgado, Mauricio R.

AU - Prakash, Siddharth K.

AU - Belmont, John W.

AU - Stankiewicz, Pawel

AU - Berg, Jonathan S.

AU - Shinawi, Marwan

AU - Patel, Ankita

AU - Cheung, Sau Wai

AU - Lupski, James R.

N1 - Funding Information: This work was supported in part by the National Institute of Neurological Disorders and Stroke (National Institutes of Health, grant R01NS058529) to J.R.L., Texas Children’s Hospital General Clinical Research Center (grant M01RR00188) and Intellectual and Developmental Disabilities Research Centers (grant P30HD024064). A.E. is supported by NIH 5K08DK081735. P.S. is supported in part by grant R13-0005-04/2008 from the Polish Ministry of Science and Higher Education.

PY - 2011/5

Y1 - 2011/5

N2 - Genomic instability is a feature of the human Xp22.31 region wherein deletions are associated with X-linked ichthyosis, mental retardation and attention deficit hyperactivity disorder. A putative homologous recombination hotspot motif is enriched in low copy repeats that mediate recurrent deletion at this locus. To date, few efforts have focused on copy number gain at Xp22.31. However, clinical testing revealed a high incidence of duplication of Xp22.31 in subjects ascertained and referred with neurobehavioral phenotypes. We systematically studied 61 unrelated subjects with rearrangements revealing gain in copy number, using multiple molecular assays. We detected not only the anticipated recurrent and simple nonrecurrent duplications, but also unexpectedly identified recurrent triplications and other complex rearrangements. Breakpoint analyses enabled us to surmise the mechanisms for many of these rearrangements. The clinical significance of the recurrent duplications and triplications were assessed using different approaches. We cannot find any evidence to support pathogenicity of the Xp22.31 duplication. However, our data suggest that the Xp22.31 duplication may serve as a risk factor for abnormal phenotypes. Our findings highlight the need for more robust Xp22.31 triplication detection in that such further gain may be more penetrant than the duplications. Our findings reveal the distribution of different mechanisms for genomic duplication rearrangements at a given locus, and provide insights into aspects of strand exchange events between paralogous sequences in the human genome.

AB - Genomic instability is a feature of the human Xp22.31 region wherein deletions are associated with X-linked ichthyosis, mental retardation and attention deficit hyperactivity disorder. A putative homologous recombination hotspot motif is enriched in low copy repeats that mediate recurrent deletion at this locus. To date, few efforts have focused on copy number gain at Xp22.31. However, clinical testing revealed a high incidence of duplication of Xp22.31 in subjects ascertained and referred with neurobehavioral phenotypes. We systematically studied 61 unrelated subjects with rearrangements revealing gain in copy number, using multiple molecular assays. We detected not only the anticipated recurrent and simple nonrecurrent duplications, but also unexpectedly identified recurrent triplications and other complex rearrangements. Breakpoint analyses enabled us to surmise the mechanisms for many of these rearrangements. The clinical significance of the recurrent duplications and triplications were assessed using different approaches. We cannot find any evidence to support pathogenicity of the Xp22.31 duplication. However, our data suggest that the Xp22.31 duplication may serve as a risk factor for abnormal phenotypes. Our findings highlight the need for more robust Xp22.31 triplication detection in that such further gain may be more penetrant than the duplications. Our findings reveal the distribution of different mechanisms for genomic duplication rearrangements at a given locus, and provide insights into aspects of strand exchange events between paralogous sequences in the human genome.

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JO - Human molecular genetics

JF - Human molecular genetics

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Copy number gain at Xp22.31 includes complex duplication rearrangements and recurrent triplications

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