2018
Effects of Genetic Variants Associated with Familial Hypercholesterolemia on Low-Density Lipoprotein-Cholesterol Levels and Cardiovascular Outcomes in the Million Veteran Program
Sun Y, Damrauer S, Hui Q, Assimes T, Ho Y, Natarajan P, Klarin D, Huang J, Lynch J, DuVall S, Pyarajan S, Honerlaw J, Gaziano J, Cho K, Rader D, O’Donnell C, Tsao P, Wilson P, Ramoni R, Breeling J, Chang K, Huang G, Muralidhar S, Muralidhar S, Moser J, Whitbourne S, Brewer J, Concato J, Warren S, Argyres D, Stephens B, Brophy M, Humphries D, Do N, Shayan S, Nguyen X, Hauser E, Sun Y, Zhao H, Wilson P, McArdle R, Dellitalia L, Harley J, Whittle J, Beckham J, Wells J, Gutierrez S, Gibson G, Kaminsky L, Villareal G, Kinlay S, Xu J, Hamner M, Haddock K, Bhushan S, Iruvanti P, Godschalk M, Ballas Z, Buford M, Mastorides S, Klein J, Ratcliffe N, Florez H, Swann A, Murdoch M, Sriram P, Yeh S, Washburn R, Jhala D, Aguayo S, Cohen D, Sharma S, Callaghan J, Oursler K, Whooley M, Ahuja S, Gutierrez A, Schifman R, Greco J, Rauchman M, Servatius R, Oehlert M, Wallbom A, Fernando R, Morgan T, Stapley T, Sherman S, Anderson G, Tsao P, Sonel E, Boyko E, Meyer L, Gupta S, Fayad J, Hung A, Lichy J, Hurley R, Robey B, Striker R. Effects of Genetic Variants Associated with Familial Hypercholesterolemia on Low-Density Lipoprotein-Cholesterol Levels and Cardiovascular Outcomes in the Million Veteran Program. Circulation Genomic And Precision Medicine 2018, 11 PMID: 31106297, PMCID: PMC6516478, DOI: 10.1161/circgen.118.002192.Peer-Reviewed Original ResearchConceptsCoronary heart diseasePathogenic FH variantsFamilial hypercholesterolemiaFH variantsClinical outcomesHigh prevalenceLow-density lipoprotein cholesterolPremature coronary heart diseasePeripheral artery diseaseLDL-C levelsLow-density lipoproteinMulti-ethnic populationCardiovascular outcomesArtery diseaseLipoprotein cholesterolCholesterol levelsHeart diseaseMillion Veteran ProgramRisk individualsPhenome-wide scanGenetic Variants AssociatedClinical diagnosisClinical encountersHypercholesterolemiaMulti-ethnic participants
2016
Integrative Tissue-Specific Functional Annotations in the Human Genome Provide Novel Insights on Many Complex Traits and Improve Signal Prioritization in Genome Wide Association Studies
Lu Q, Powles RL, Wang Q, He BJ, Zhao H. Integrative Tissue-Specific Functional Annotations in the Human Genome Provide Novel Insights on Many Complex Traits and Improve Signal Prioritization in Genome Wide Association Studies. PLOS Genetics 2016, 12: e1005947. PMID: 27058395, PMCID: PMC4825932, DOI: 10.1371/journal.pgen.1005947.Peer-Reviewed Original ResearchMeSH KeywordsCoronary Artery DiseaseGenome, HumanGenome-Wide Association StudyHumansPolymorphism, Single NucleotideConceptsGenome-wide association studiesGWAS signalsComplex traitsFunctional annotationAssociation studiesHuman complex traitsFunctional regionsNon-coding regionsGWAS p-valuesWide association studyNovel biological insightsRelevant tissue typesEpigenetic annotationsGenomic functionsRegulatory machineryTransposable elementsHuman genomeGenoSkylineRisk lociBiological insightsIntegrative analysisGenetic studiesRegulatory miRNAPrioritization performanceSpecific annotations