Landscape of Conditional eQTL in Dorsolateral Prefrontal Cortex and Co-localization with Schizophrenia GWAS
Dobbyn A, Huckins L, Boocock J, Sloofman L, Glicksberg B, Giambartolomei C, Hoffman G, Perumal T, Girdhar K, Jiang Y, Raj T, Ruderfer D, Kramer R, Pinto D, Akbarian S, Roussos P, Domenici E, Devlin B, Sklar P, Stahl E, Sieberts S, Sklar P, Buxbaum J, Devlin B, Lewis D, Gur R, Hahn C, Hirai K, Toyoshiba H, Domenici E, Essioux L, Mangravite L, Peters M, Lehner T, Lipska B, Cicek A, Lu C, Roeder K, Xie L, Talbot K, Hemby S, Essioux L, Browne A, Chess A, Topol A, Charney A, Dobbyn A, Readhead B, Zhang B, Pinto D, Bennett D, Kavanagh D, Ruderfer D, Stahl E, Schadt E, Hoffman G, Shah H, Zhu J, Johnson J, Fullard J, Dudley J, Girdhar K, Brennand K, Sloofman L, Huckins L, Fromer M, Mahajan M, Roussos P, Akbarian S, Purcell S, Hamamsy T, Raj T, Haroutunian V, Wang Y, Gümüş Z, Senthil G, Kramer R, Logsdon B, Derry J, Dang K, Sieberts S, Perumal T, Visintainer R, Shinobu L, Sullivan P, Klei L. Landscape of Conditional eQTL in Dorsolateral Prefrontal Cortex and Co-localization with Schizophrenia GWAS. American Journal Of Human Genetics 2018, 102: 1169-1184. PMID: 29805045, PMCID: PMC5993513, DOI: 10.1016/j.ajhg.2018.04.011.Peer-Reviewed Original ResearchConceptsExpression quantitative trait lociConditional expression quantitative trait lociCommonMind ConsortiumEQTL signalsGenome-wide association study (GWAS) lociSchizophrenia GWASContext-specific regulationQuantitative trait lociCo-localization analysisGene expression levelsGWAS associationsNovel genesTrait lociStudy lociCausal genesEQTL dataFine mappingGenomic featuresGWAS statisticsGene expressionGenesGWASLociExpression levelsHuman brain samplesCommon schizophrenia alleles are enriched in mutation-intolerant genes and in regions under strong background selection
Pardiñas A, Holmans P, Pocklington A, Escott-Price V, Ripke S, Carrera N, Legge S, Bishop S, Cameron D, Hamshere M, Han J, Hubbard L, Lynham A, Mantripragada K, Rees E, MacCabe J, McCarroll S, Baune B, Breen G, Byrne E, Dannlowski U, Eley T, Hayward C, Martin N, McIntosh A, Plomin R, Porteous D, Wray N, Caballero A, Geschwind D, Huckins L, Ruderfer D, Santiago E, Sklar P, Stahl E, Won H, Agerbo E, Als T, Andreassen O, Bækvad-Hansen M, Mortensen P, Pedersen C, Børglum A, Bybjerg-Grauholm J, Djurovic S, Durmishi N, Pedersen M, Golimbet V, Grove J, Hougaard D, Mattheisen M, Molden E, Mors O, Nordentoft M, Pejovic-Milovancevic M, Sigurdsson E, Silagadze T, Hansen C, Stefansson K, Stefansson H, Steinberg S, Tosato S, Werge T, GERAD1 Consortium, CRESTAR Consortium, Collier D, Rujescu D, Kirov G, Owen M, O’Donovan M, Walters J. Common schizophrenia alleles are enriched in mutation-intolerant genes and in regions under strong background selection. Nature Genetics 2018, 50: 381-389. PMID: 29483656, PMCID: PMC5918692, DOI: 10.1038/s41588-018-0059-2.Peer-Reviewed Original ResearchConceptsMutation-intolerant genesGenetic architecture of schizophreniaGenome-wide association studiesChromosome conformation dataGenome fine mappingVariant association signalsAssociation signalsFine-mappingGenetic architectureCausal genesGenomic studiesAssociation studiesRisk variantsSelection pressureGenesLociBrain expressionAssociated with poor qualityBiologyConformational dataDecreased life expectancyChromosomeDebilitating psychiatric conditionAllelesLife expectancy