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Patterns of Cis regulatory variation in diverse human populations
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نویسنده
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stranger b.e. ,montgomery s.b. ,dimas a.s. ,parts l. ,stegle o. ,ingle c.e. ,sekowska m. ,smith g.d. ,evans d. ,gutierrez-arcelus m. ,price a. ,raj t. ,nisbett j. ,nica a.c. ,beazley c. ,durbin r. ,deloukas p. ,dermitzakis e.t.
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منبع
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plos genetics - 2012 - دوره : 8 - شماره : 4
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چکیده
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The genetic basis of gene expression variation has long been studied with the aim to understand the landscape of regulatory variants,but also more recently to assist in the interpretation and elucidation of disease signals. to date,many studies have looked in specific tissues and population-based samples,but there has been limited assessment of the degree of inter-population variability in regulatory variation. we analyzed genome-wide gene expression in lymphoblastoid cell lines from a total of 726 individuals from 8 global populations from the hapmap3 project and correlated gene expression levels with hapmap3 snps located in cis to the genes. we describe the influence of ancestry on gene expression levels within and between these diverse human populations and uncover a non-negligible impact on global patterns of gene expression. we further dissect the specific functional pathways differentiated between populations. we also identify 5,691 expression quantitative trait loci (eqtls) after controlling for both non-genetic factors and population admixture and observe that half of the cis-eqtls are replicated in one or more of the populations. we highlight patterns of eqtl-sharing between populations,which are partially determined by population genetic relatedness,and discover significant sharing of eqtl effects between asians,european-admixed,and african subpopulations. specifically,we observe that both the effect size and the direction of effect for eqtls are highly conserved across populations. we observe an increasing proximity of eqtls toward the transcription start site as sharing of eqtls among populations increases,highlighting that variants close to tss have stronger effects and therefore are more likely to be detected across a wider panel of populations. together these results offer a unique picture and resource of the degree of differentiation among human populations in functional regulatory variation and provide an estimate for the transferability of complex trait variants across populations. © 2012 stranger et al.
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آدرس
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wellcome trust sanger institute,wellcome trust genome campus,hinxton,united kingdom,department of medicine,division of genetics,brigham and women's hospital,boston,ma,united states,program in medical and population genetics,broad institute of harvard and massachusetts institute of technology,cambridge,ma,united states,harvard medical school,boston,ma, United States, wellcome trust sanger institute,wellcome trust genome campus,hinxton,united kingdom,department of genetic medicine and development,university of geneva medical school,geneva,switzerland,institute of genetics and genomics in geneva (ige3),geneva, Switzerland, wellcome trust sanger institute,wellcome trust genome campus,hinxton,united kingdom,department of genetic medicine and development,university of geneva medical school,geneva,switzerland,institute of genetics and genomics in geneva (ige3),geneva,switzerland,wellcome trust centre for human genetics,oxford,united kingdom,max planck institute intelligent systems and max planck institute for developmental biology,tübingen, Germany, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, max planck institute intelligent systems and max planck institute for developmental biology,tübingen, Germany, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, mrc caite centre,school of social and community medicine,university of bristol,bristol, United Kingdom, mrc caite centre,school of social and community medicine,university of bristol,bristol, United Kingdom, department of genetic medicine and development,university of geneva medical school,geneva,switzerland,institute of genetics and genomics in geneva (ige3),geneva, Switzerland, program in medical and population genetics,broad institute of harvard and massachusetts institute of technology,cambridge,ma,united states,department of epidemiology and department of biostatistics,harvard school of public health,boston,ma, United States, department of medicine,division of genetics,brigham and women's hospital,boston,ma,united states,program in medical and population genetics,broad institute of harvard and massachusetts institute of technology,cambridge,ma,united states,department of neurology,brigham and women's hospital,boston,ma, United States, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, wellcome trust sanger institute,wellcome trust genome campus,hinxton,united kingdom,department of genetic medicine and development,university of geneva medical school,geneva,switzerland,institute of genetics and genomics in geneva (ige3),geneva, Switzerland, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, wellcome trust sanger institute,wellcome trust genome campus,hinxton, United Kingdom, wellcome trust sanger institute,wellcome trust genome campus,hinxton,united kingdom,department of genetic medicine and development,university of geneva medical school,geneva,switzerland,institute of genetics and genomics in geneva (ige3),geneva, Switzerland
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Authors
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