Microarray-based CGH Detects Chromosomal Mosaicism Not Revealed by Conventional Cytogenetics

Overview

Journal Am J Med Genet A

Specialty Genetics

Date 2007 Jul 4

PMID 17607705

Citations 63

Authors

Sau W Cheung

Chad A Shaw

Daryl A Scott

Ankita Patel

Trilochan Sahoo

Carlos A Bacino

Amber Pursley

Jiangzhen Li

Robert Erickson

Andrea L Gropman

David T Miller

Margretta R Seashore

Anne M Summers

Pawel Stankiewicz

A Craig Chinault

James R Lupski

Arthur L Beaudet

V Reid Sutton

Affiliations

Soon will be listed here.

Abstract

Somatic chromosomal mosaicism is a well-established cause for birth defects, mental retardation, and, in some instances, specific genetic syndromes. We have developed a clinically validated, targeted BAC clone array as a platform for comparative genomic hybridization (aCGH) to enable detection of a wide range of pathologic copy number changes in DNA. It is designed to provide high sensitivity to detect well-characterized submicroscopic micro-deletion and duplication disorders while at the same time minimizing detection of variation of uncertain clinical significance. In the course of studying 2,585 samples submitted to our clinical laboratory, chromosomal mosaicism was detected in 12 patient samples; 10 of these cases were reported to have had a normal blood chromosome analysis. This enhanced ability of aCGH to detect mosaicism missed by routine chromosome analysis may be due to some combination of testing multiple cell lineages and/or failure of cytogenetically abnormal T lymphocytes to respond to mitogens. This suggests that aCGH may detect somatic chromosomal mosaicism that would be missed by conventional cytogenetics.

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