An Organismal CNV Mutator Phenotype Restricted to Early Human Development | Zendy

Pengfei Liu | Zendy; Bo Yuan | Zendy; Claudia M.B. Carvalho | Zendy; Arthur Wüster | Zendy; Klaudia Walter | Zendy; Ling Zhang | Zendy; Tomasz Gambin | Zendy; Zechen Chong | Zendy; Ian M. Campbell | Zendy; Zeynep CobanAkdemir | Zendy; Violet Gelowani | Zendy; Karin Writzl | Zendy; Carlos A. Bacino | Zendy; Sarah Lindsay | Zendy; Marjorie Withers | Zendy; Claudia GonzagaJauregui | Zendy; Joanna Wiszniewska | Zendy; Jennifer Scull | Zendy; Paweł Stankiewicz | Zendy; Shalini N. Jhangiani | Zendy; Donna M. Muzny | Zendy; Feng Zhang | Zendy; Ken Chen | Zendy; Richard A. Gibbs | Zendy; Bernd Rautenstrauß | Zendy; Sau Wai Cheung | Zendy; Janice Smith | Zendy; Amy M. Breman | Zendy; Chad A. Shaw | Zendy; Ankita Patel | Zendy; Matthew E. Hurles | Zendy; James R. Lupski | Zendy

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An Organismal CNV Mutator Phenotype Restricted to Early Human Development

Author(s) -

Pengfei Liu,

Bo Yuan,

Claudia M.B. Carvalho,

Arthur Wüster,

Klaudia Walter,

Ling Zhang,

Tomasz Gambin,

Zechen Chong,

Ian M. Campbell,

Zeynep CobanAkdemir,

Violet Gelowani,

Karin Writzl,

Carlos A. Bacino,

Sarah Lindsay,

Marjorie Withers,

Claudia GonzagaJauregui,

Joanna Wiszniewska,

Jennifer Scull,

Paweł Stankiewicz,

Shalini N. Jhangiani,

Donna M. Muzny,

Feng Zhang,

Ken Chen,

Richard A. Gibbs,

Bernd Rautenstrauß,

Sau Wai Cheung,

Janice Smith,

Amy M. Breman,

Chad A. Shaw,

Ankita Patel,

Matthew E. Hurles,

James R. Lupski

Publication year - 2017

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2017.01.037

Subject(s) - biology , genome instability , genetics , breakpoint , phenotype , point mutation , mutagenesis , chromothripsis , copy number variation , mutation , genome , chromosome instability , gene , chromosome , dna , dna damage

De novo copy number variants (dnCNVs) arising at multiple loci in a personal genome have usually been considered to reflect cancer somatic genomic instabilities. We describe a multiple dnCNV (MdnCNV) phenomenon in which individuals with genomic disorders carry five to ten constitutional dnCNVs. These CNVs originate from independent formation incidences, are predominantly tandem duplications or complex gains, exhibit breakpoint junction features reminiscent of replicative repair, and show increased de novo point mutations flanking the rearrangement junctions. The active CNV mutation shower appears to be restricted to a transient perizygotic period. We propose that a defect in the CNV formation process is responsible for the "CNV-mutator state," and this state is dampened after early embryogenesis. The constitutional MdnCNV phenomenon resembles chromosomal instability in various cancers. Investigations of this phenomenon may provide unique access to understanding genomic disorders, structural variant mutagenesis, human evolution, and cancer biology.

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