TY - JOUR
T1 - Screening for copy-number alterations and loss of heterozygosity in chronic lymphocytic leukemia--a comparative study of four differently designed, high resolution microarray platforms
AU - Gunnarsson, Rebeqa
AU - Staaf, Johan
AU - Jansson, Mattias
AU - Ottesen, Anne Marie
AU - Göransson, Hanna
AU - Liljedahl, Ulrika
AU - Ralfkiaer, Ulrik
AU - Mansouri, Mahmoud
AU - Buhl, Anne Mette
AU - Smedby, Karin Ekström
AU - Hjalgrim, Henrik
AU - Syvänen, Ann-Christine
AU - Borg, Ake
AU - Isaksson, Anders
AU - Jurlander, Jesper
AU - Juliusson, Gunnar
AU - Rosenquist, Richard
N1 - (c) 2008 Wiley-Liss, Inc.
PY - 2008/8
Y1 - 2008/8
N2 - Screening for gene copy-number alterations (CNAs) has improved by applying genome-wide microarrays, where SNP arrays also allow analysis of loss of heterozygozity (LOH). We here analyzed 10 chronic lymphocytic leukemia (CLL) samples using four different high-resolution platforms: BAC arrays (32K), oligonucleotide arrays (185K, Agilent), and two SNP arrays (250K, Affymetrix and 317K, Illumina). Cross-platform comparison revealed 29 concordantly detected CNAs, including known recurrent alterations, which confirmed that all platforms are powerful tools when screening for large aberrations. However, detection of 32 additional regions present in 2-3 platforms illustrated a discrepancy in detection of small CNAs, which often involved reported copy-number variations. LOH analysis using dChip revealed concordance of mainly large regions, but showed numerous, small nonoverlapping regions and LOH escaping detection. Evaluation of baseline variation and copy-number ratio response showed the best performance for the Agilent platform and confirmed the robustness of BAC arrays. Accordingly, these platforms demonstrated a higher degree of platform-specific CNAs. The SNP arrays displayed higher technical variation, although this was compensated by high density of elements. Affymetrix detected a higher degree of CNAs compared to Illumina, while the latter showed a lower noise level and higher detection rate in the LOH analysis. Large-scale studies of genomic aberrations are now feasible, but new tools for LOH analysis are requested.
AB - Screening for gene copy-number alterations (CNAs) has improved by applying genome-wide microarrays, where SNP arrays also allow analysis of loss of heterozygozity (LOH). We here analyzed 10 chronic lymphocytic leukemia (CLL) samples using four different high-resolution platforms: BAC arrays (32K), oligonucleotide arrays (185K, Agilent), and two SNP arrays (250K, Affymetrix and 317K, Illumina). Cross-platform comparison revealed 29 concordantly detected CNAs, including known recurrent alterations, which confirmed that all platforms are powerful tools when screening for large aberrations. However, detection of 32 additional regions present in 2-3 platforms illustrated a discrepancy in detection of small CNAs, which often involved reported copy-number variations. LOH analysis using dChip revealed concordance of mainly large regions, but showed numerous, small nonoverlapping regions and LOH escaping detection. Evaluation of baseline variation and copy-number ratio response showed the best performance for the Agilent platform and confirmed the robustness of BAC arrays. Accordingly, these platforms demonstrated a higher degree of platform-specific CNAs. The SNP arrays displayed higher technical variation, although this was compensated by high density of elements. Affymetrix detected a higher degree of CNAs compared to Illumina, while the latter showed a lower noise level and higher detection rate in the LOH analysis. Large-scale studies of genomic aberrations are now feasible, but new tools for LOH analysis are requested.
KW - Chromosomes, Artificial, Bacterial
KW - Gene Dosage
KW - Humans
KW - Leukemia, Lymphocytic, Chronic, B-Cell
KW - Loss of Heterozygosity
KW - Microchip Analytical Procedures
KW - Oligonucleotide Array Sequence Analysis
KW - Polymorphism, Single Nucleotide
U2 - 10.1002/gcc.20575
DO - 10.1002/gcc.20575
M3 - Journal article
C2 - 18484635
SN - 1045-2257
VL - 47
SP - 697
EP - 711
JO - Genes, Chromosomes & Cancer
JF - Genes, Chromosomes & Cancer
IS - 8
ER -