Project description:Advanced prostate cancer is a highly heterogenous disease with few in vitro models. We report generation of seven novel 3D organoid lines of patient-derived prostate cancer. We determine the copy number alterations of these lines using array CGH. They contain may classic alterations of prostate cancer such as lost of the short arm of chromosome 8 and gain of the long arm of chromosome 8. In addition, we found homozygous deleteion of tumor suppressor PTEN and CHD1 as well as the TMPRSS2-ERG interstitial deletion. Prostate cancer organoid lines, ~2 months after in vitro propagation, were used for profiling on Agilent 1M aCGH arrays per manufacturer's instructions. A pooled reference normal DNA was used as the reference.

Project description:Copy number profiling of 1000 Genomes Phase 3 inidividuals using the Agilent 1M aCGH arrays

Project description:Copy number alteration burden predicts prostate cancer relapse: Agilent 1M aCGH data for human primary prostate cancer samples

Project description:Copy number profiling of 1000 Genomes Phase 3 inidividuals using the Agilent 1M aCGH arrays Two color experiment. NA10851 used as reference against 2534 other individuals from the phase 3 of the 1000 Genomes project

Project description:Formalin-fixed, paraffin-embedded (FFPE) archival tissue is an important source of DNA material. The most commonly used technique to identify copy number aberrations from chromosomal DNA in tumorigenesis is array comparative genomic hybridization (aCGH). Although copy number analysis using DNA from FFPE archival tissue is challenging, several research groups have reported high quality and reproducible DNA copy number results using aCGH. Aim of the present study is to compare aCGH platforms suitable for copy number analysis using FFPE derived DNA. Two dual channel aCGH platforms (Agilent and NimbleGen) and a single channel SNP based platform (Affymetrix), were evaluated using seven FFPE colon cancer samples, median absolute deviation (MAD), deflection, signal-to-noise ratio (SNR) and DNA input requirements were used as quality criteria. Large differences were observed in MAD values and deflection between platforms; Agilent and NimbleGen showed better MAD values (0.13 for both) compared to Affymetrix (0.22). Contrary, Affymetrix showed a better deflection of 0.94, followed by 0.71 for Agilent and 0.51 for NimbleGen. Since the deflection compensates for the MAD the Signal to Noise Ratios (SNR) were comparable; Agilent ranks first, Affymetrix second and NimbleGen third with SNRs of 3.9, 3.6 and 3.3 respectively. DNA input amounts of 40ng are sufficient for high quality profiles with Affymetrix. For Agilent DNA input amounts of 50ng are sufficient for high quality profiles. For results of similar quality NimbleGen requires at least 100ng. Copy number analysis using DNA derived from FFPE archival material is feasible and shows reproducible results on high-resolution copy number platforms. Input amounts of DNA from FFPE material lower than recommended still yield high quality profiles without additional amplification steps.

Project description:Formalin-fixed, paraffin-embedded (FFPE) archival tissue is an important source of DNA material. The most commonly used technique to identify copy number aberrations from chromosomal DNA in tumorigenesis is array comparative genomic hybridization (aCGH). Although copy number analysis using DNA from FFPE archival tissue is challenging, several research groups have reported high quality and reproducible DNA copy number results using aCGH. Aim of the present study is to compare aCGH platforms suitable for copy number analysis using FFPE derived DNA. Two dual channel aCGH platforms (Agilent and NimbleGen) and a single channel SNP based platform (Affymetrix), were evaluated using seven FFPE colon cancer samples, median absolute deviation (MAD), deflection, signal-to-noise ratio (SNR) and DNA input requirements were used as quality criteria. Large differences were observed in MAD values and deflection between platforms; Agilent and NimbleGen showed better MAD values (0.13 for both) compared to Affymetrix (0.22). Contrary, Affymetrix showed a better deflection of 0.94, followed by 0.71 for Agilent and 0.51 for NimbleGen. Since the deflection compensates for the MAD the Signal to Noise Ratios (SNR) were comparable; Agilent ranks first, Affymetrix second and NimbleGen third with SNRs of 3.9, 3.6 and 3.3 respectively. DNA input amounts of 40ng are sufficient for high quality profiles with Affymetrix. For Agilent DNA input amounts of 50ng are sufficient for high quality profiles. For results of similar quality NimbleGen requires at least 100ng. Copy number analysis using DNA derived from FFPE archival material is feasible and shows reproducible results on high-resolution copy number platforms. Input amounts of DNA from FFPE material lower than recommended still yield high quality profiles without additional amplification steps.

Project description:Sixteen individual rhesus macaque genomes were compared to a reference macaque genome (R354) on custom-designed sure-print 1M oligonucleotide microarray Agilent (Agilent Technologies) aCGH slide per manufacturer’s recommendations.

Project description:373 tumors were profiled for copy-number alterations with the high-resolution Agilent 244A aCGH Array.

Project description:RIVUR Trial participants had Agilent 1M probe and or Nimblegen 2.1M probe aCGH performed on genomic DNA. The study was designed to discover DNA copy number variations in genes critical in kidney/urinary tract development and urinary tract infection susceptibility. Reference DNA used is a single male sample

Project description:1 lung tumor was profiled for copy-number alterations with the high-resolution Agilent 244A aCGH Array.