2019
SU11 GENETICALLY PREDICTED GENE EXPRESSION IN THE BRAIN AND PERIPHERAL TISSUES ASSOCIATES WITH PTSD
Huckins L, Girdhar K, Dobbyn A, Jovanovic T, Nievergelt C, Hoffman G, Maihofer A, Stein M, Sklar P, Ressler K, Buxbaum J, Stahl E, Daskalakis N, Consortium T, Group P. SU11 GENETICALLY PREDICTED GENE EXPRESSION IN THE BRAIN AND PERIPHERAL TISSUES ASSOCIATES WITH PTSD. European Neuropsychopharmacology 2019, 29: s892-s893. DOI: 10.1016/j.euroneuro.2017.08.200.Peer-Reviewed Original ResearchPost-traumatic stress disorderPsychiatric disordersBrain regionsPost-traumatic stress disorder patientsPost-traumatic stress disorder developmentGenotype-Tissue ExpressionCommonMind ConsortiumIndividuals exposed to traumaDebilitating psychiatric disorderPeripheral tissuesGene expression prediction modelsGene expressionGene-tissue associationsPGC-PTSDStress disorderPTSD riskExpression prediction modelsTrauma typesMulti-system dysregulationImmune dysregulationGenotype dataDisordersGene associationsReference panelGenetic heterogeneity63 TRANSCRIPTOMIC IMPUTATION ANALYSIS IN ANOREXIA NERVOSA IDENTIFIES BOTH METABOLIC AND PSYCHIATRIC AETIOLOGIES
Huckins L, Dobbyn A, Thornton L, Group of the PGC E, Devlin B, Sieberts S, Cox N, Im H, Breen G, Sklar P, Bulik C, Stahl E. 63 TRANSCRIPTOMIC IMPUTATION ANALYSIS IN ANOREXIA NERVOSA IDENTIFIES BOTH METABOLIC AND PSYCHIATRIC AETIOLOGIES. European Neuropsychopharmacology 2019, 29: s818. DOI: 10.1016/j.euroneuro.2017.08.064.Peer-Reviewed Original ResearchGene-tissue associationsTranscriptome imputationCommonMind ConsortiumGene expression prediction modelsGenome-wide significant lociTissue-specific gene expressionExpression prediction modelsMetabolic tissuesCaudate basal gangliaSignificant lociGenotype dataCharacterization of AnGene associationsReference panelGene expressionAetiology of ANMetabolic phenotypeMolecular pathwaysGenetic correlationsAssociation TestPsychiatric disordersAN riskMetabolic systemsImputation analysisBackground Anorexia nervosa
2018
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 samples