Use of whole genome amplification and comparative genomic hybridisation to detect chromosomal copy number alterations in cell line material and tumour tissue

Use of whole genome amplification and comparative genomic hybridisation to detect chromosomal copy number alterations in cell line material and tumour tissue

We have established that whole genome amplification (WGA), in conjunction with genomic DNA array comparative genomic hybridisation (gaCGH) allows for the identification of genome-wide copy number abnormalities (CNAs) in DNA extracted from both cell line and patient material. To determine the fidelit...

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Bibliographic Details
Published in:Cytogenetic and genome research Vol. 105; no. 1; p. 18
Main Authors: Hughes, S, Lim, G, Beheshti, B, Bayani, J, Marrano, P, Huang, A, Squire, J A
Format: Journal Article
Language:English
Published: Switzerland 2004
Subjects:
Cell Line
Cerebellar Neoplasms - genetics
Child
Chromosomes, Human
DNA Primers
DNA, Neoplasm
Gene Dosage
Genome
Humans
Male
Medulloblastoma - genetics
Nucleic Acid Amplification Techniques
Nucleic Acid Hybridization
Polymerase Chain Reaction - methods
Prostatic Neoplasms - genetics
Tumor Cells, Cultured
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Summary:We have established that whole genome amplification (WGA), in conjunction with genomic DNA array comparative genomic hybridisation (gaCGH) allows for the identification of genome-wide copy number abnormalities (CNAs) in DNA extracted from both cell line and patient material. To determine the fidelity and reproducibility of WGA to detect copy number imbalances using gaCGH, well characterized cell line genomic DNA was analysed. The gaCGH data obtained from non-amplified DNA and amplified DNA for the neuroblastoma cell line NUB7 and a paediatric medulloblastoma patient was almost identical. In addition, laser capture microdissection (LCM) of prostate tumour cells and subsequent WGA allowed for the detection of a number of CNAs that may not have been identified if DNA had been extracted in bulk from heterogeneous tissue. The results presented here demonstrate the use of WGA for generating sufficient DNA for gaCGH analysis without the introduction of significant sequence representation bias. The combination of amplification and gaCGH using DNA extracted from archival patient material has the potential for permitting the studying of DNA from small cancerous or pre-cancerous foci, which may help to identify potential genomic markers for early diagnosis.
ISSN:1424-859X
DOI:10.1159/000078004