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Detection of clinically relevant exonic copy-number changes by array CGH

✍ Scribed by Philip M. Boone; Carlos A. Bacino; Chad A. Shaw; Patricia A. Eng; Patricia M. Hixson; Amber N. Pursley; Sung-Hae L. Kang; Yaping Yang; Joanna Wiszniewska; Beata A. Nowakowska; Daniela del Gaudio; Zhilian Xia; Gayle Simpson-Patel; LaDonna L. Immken; James B. Gibson; Anne C.-H. Tsai; Jennifer A. Bowers; Tyler E. Reimschisel; Christian P. Schaaf; Lorraine Potocki; Fernando Scaglia; Tomasz Gambin; Maciej Sykulski; Magdalena Bartnik; Katarzyna Derwinska; Barbara Wisniowiecka-Kowalnik; Seema R. Lalani; Frank J. Probst; Weimin Bi; Arthur L. Beaudet; Ankita Patel; James R. Lupski; Sau Wai Cheung; Pawel Stankiewicz

Book ID
102859930
Publisher
John Wiley and Sons
Year
2010
Tongue
English
Weight
895 KB
Volume
31
Category
Article
ISSN
1059-7794

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✦ Synopsis

Array comparative genomic hybridization (aCGH) is a powerful tool for the molecular elucidation and diagnosis of disorders resulting from genomic copynumber variation (CNV). However, intragenic deletions or duplications-those including genomic intervals of a size smaller than a gene-have remained beyond the detection limit of most clinical aCGH analyses. Increasing array probe number improves genomic resolution, although higher cost may limit implementation, and enhanced detection of benign CNV can confound clinical interpretation. We designed an array with exonic coverage of selected disease and candidate genes and used it clinically to identify losses or gains throughout the genome involving at least one exon and as small as several hundred base pairs in size. In some patients, the detected copy-number change occurs within a gene known to be causative of the observed clinical phenotype, demonstrating the ability of this array to detect clinically relevant CNVs with subkilobase resolution. In summary, we demonstrate the utility of a custom-designed, exon-targeted oligonucleotide array to detect intragenic copy-number changes in patients with various clinical phenotypes.

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Detection of exonic copy-number changes
Detection of exonic copy-number changes using a highly efficient oligonucleotide-based comparative genomic hybridization-array method
✍ Yoann Saillour; Mireille CossΓ©e; France Leturcq; AurΓ©lie Vasson; Caroline Beugne πŸ“‚ Article πŸ“… 2008 πŸ› John Wiley and Sons 🌐 English βš– 517 KB

Genomic copy-number variations (CNVs) involving large DNA segments are known to cause many genetic disorders. Depending on the changes, they are predicted to lead either to decreased or an increased gene expression. However, the ability to detect smaller exonic copy-number changes has not been explo