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Use of Allele-Specific FAIRE to Determine Functional Regulatory Polymorphism Using Large-Scale Genotyping Arrays
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نویسنده
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smith a.j.p. ,howard p. ,shah s. ,eriksson p. ,stender s. ,giambartolomei c. ,folkersen l. ,tybjærg-hansen a. ,kumari m. ,palmen j. ,hingorani a.d. ,talmud p.j. ,humphries s.e.
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منبع
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plos genetics - 2012 - دوره : 8 - شماره : 8
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چکیده
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Following the widespread use of genome-wide association studies (gwas),focus is turning towards identification of causal variants rather than simply genetic markers of diseases and traits. as a step towards a high-throughput method to identify genome-wide,non-coding,functional regulatory variants,we describe the technique of allele-specific faire,utilising large-scale genotyping technology (faire-gen) to determine allelic effects on chromatin accessibility and regulatory potential. faire-gen was explored using lymphoblastoid cells and the 50,000 snp illumina cvd beadchip. the technique identified an allele-specific regulatory polymorphism within nr1h3 (coding for lxr-α),rs7120118,coinciding with a previously gwas-identified snp for hdl-c levels. this finding was confirmed using faire-gen with the 200,000 snp illumina metabochip and verified with the established method of taqman allelic discrimination. examination of this snp in two prospective caucasian cohorts comprising 15,000 individuals confirmed the association with hdl-c levels (combined beta = 0.016; p = 0.0006),and analysis of gene expression identified an allelic association with lxr-α expression in heart tissue. using increasingly comprehensive genotyping chips and distinct tissues for examination,faire-gen has the potential to aid the identification of many causal snps associated with disease from gwas. © 2012 smith et al.
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آدرس
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centre for cardiovascular genetics,british heart foundation laboratories,institute of cardiovascular sciences,university college london,london, United Kingdom, centre for cardiovascular genetics,british heart foundation laboratories,institute of cardiovascular sciences,university college london,london, United Kingdom, university college london genetics institute,department of genetics,environment,and evolution,university college london,london, United Kingdom, atherosclerosis res unit,department of medicine,karolinska institutet,stockholm, Sweden, department of clinical biochemistry,rigshospitalet,copenhagen university hospital and faculty of health sciences,university of copenhagen,copenhagen, Denmark, university college london genetics institute,department of genetics,environment,and evolution,university college london,london, United Kingdom, atherosclerosis res unit,department of medicine,karolinska institutet,stockholm, Sweden, department of clinical biochemistry,rigshospitalet,copenhagen university hospital and faculty of health sciences,university of copenhagen,copenhagen,denmark,the copenhagen city heart study,bispebjerg hospital,copenhagen university hospital and faculty of health sciences,university of copenhagen,copenhagen, Denmark, genetic epidemiology group,department of epidemiology and public health,university college london,london, United Kingdom, centre for cardiovascular genetics,british heart foundation laboratories,institute of cardiovascular sciences,university college london,london, United Kingdom, centre for clinical pharmacology,department of medicine,university college london,london, United Kingdom, centre for cardiovascular genetics,british heart foundation laboratories,institute of cardiovascular sciences,university college london,london, United Kingdom, centre for cardiovascular genetics,british heart foundation laboratories,institute of cardiovascular sciences,university college london,london, United Kingdom
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Authors
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