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Optimization of experimental design parameters for high-throughput chromatin immunoprecipitation studies.

Nucleic acids research (2008-10-23)
Romina Ponzielli, Paul C Boutros, Sigal Katz, Angelina Stojanova, Adam P Hanley, Fereshteh Khosravi, Christina Bros, Igor Jurisica, Linda Z Penn
ABSTRAKT

High-throughput, microarray-based chromatin immunoprecipitation (ChIP-chip) technology allows in vivo elucidation of transcriptional networks. However this complex is not yet readily accessible, in part because its many parameters have not been systematically evaluated and optimized. We address this gap by systematically assessing experimental-design parameters including antibody purity, dye-bias, array-batch, inter-day hybridization bias, amplification method and choice of hybridization control. The combined performance of these optimized parameters shows a 90% validation rate in ChIP-chip analysis of Myc genomic binding in HL60 cells using two different microarray platforms. Increased sensitivity and decreased noise in ChIP-chip assays will enable wider use of this methodology to accurately and affordably elucidate transcriptional networks.

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Sigma-Aldrich
Ribonuclease A from bovine pancreas, Type XII-A, ≥90% (SDS-PAGE), 75-125 Kunitz units/mg protein
Sigma-Aldrich
Deoxyribonucleic acid solution from calf thymus, For hybridization
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GenomePlex® WGA Reamplification Kit, Reamplification of WGA product with minimal bias
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GenomePlex® Complete Whole Genome Amplification (WGA) Kit, Optimized kit with enzyme for amplifying a variety of DNA including FFPE tissue