2022
Denisovan and Neanderthal archaic introgression differentially impacted the genetics of complex traits in modern populations
Koller D, Wendt F, Pathak G, De Lillo A, De Angelis F, Cabrera-Mendoza B, Tucci S, Polimanti R. Denisovan and Neanderthal archaic introgression differentially impacted the genetics of complex traits in modern populations. BMC Biology 2022, 20: 249. PMID: 36344982, PMCID: PMC9641937, DOI: 10.1186/s12915-022-01449-2.Peer-Reviewed Original ResearchConceptsArchaic introgressionComplex traitsDenisovan introgressionNeanderthal allelesNeanderthal introgressionSignatures of admixtureAncestry groupsModern populationsPhenome-wide association studyModern human populationsMajor histocompatibility complex regionIntrogressionEvolutionary pressureGenetic poolDisease heritabilityGenomic signaturesEAS populationsExtinct NeanderthalsAssociation studiesMetabolic traitsDenisovansUK BiobankRed hair colorEuropean descentHuman traits
2021
Cross-ancestry genome-wide association studies identified heterogeneous loci associated with differences of allele frequency and regulome tagging between participants of European descent and other ancestry groups from the UK Biobank
De Lillo A, D'Antona S, Pathak GA, Wendt FR, De Angelis F, Fuciarelli M, Polimanti R. Cross-ancestry genome-wide association studies identified heterogeneous loci associated with differences of allele frequency and regulome tagging between participants of European descent and other ancestry groups from the UK Biobank. Human Molecular Genetics 2021, 30: 1457-1467. PMID: 33890984, PMCID: PMC8283210, DOI: 10.1093/hmg/ddab114.Peer-Reviewed Original ResearchConceptsGWS associationsHeterogeneous lociGenome-wide association studiesEuropean populationsAncestry-specific effectsAllele frequenciesWide significant associationsPhenome-wide analysisAncestry groupsComplex traitsLD variationPhenotypic classesAssociation studiesUK BiobankMapping variantsLociConcordant effectsCentral/South AsianAncestryWorldwide populationTraitsAsian ancestryDiscordant effectsSouth Asian ancestryEuropean descentPleiotropic effects of telomere length loci with brain morphology and brain tissue expression
Pathak GA, Wendt FR, Levey DF, Mecca AP, van Dyck CH, Gelernter J, Polimanti R. Pleiotropic effects of telomere length loci with brain morphology and brain tissue expression. Human Molecular Genetics 2021, 30: 1360-1370. PMID: 33831179, PMCID: PMC8255129, DOI: 10.1093/hmg/ddab102.Peer-Reviewed Original ResearchConceptsMethylation expressionGenetic variantsMapping gene functionTelomere lengthChromatin associationChromatin profilesGene functionGenetic colocalizationGene mappingGenomic relationshipsNeuropsychiatric traitsPleiotropic rolesDrug-gene interactionsCertain lociBrain tissue expressionGenesLociPleiotropic effectsBrain morphology measuresNucleotide polymorphismsAncestry populationsTissue expressionPhenotypic associationsPleiotropyAncestry groups
2017
Population diversity of the genetically determined TTR expression in human tissues and its implications in TTR amyloidosis
Iorio A, De Angelis F, Di Girolamo M, Luigetti M, Pradotto LG, Mazzeo A, Frusconi S, My F, Manfellotto D, Fuciarelli M, Polimanti R. Population diversity of the genetically determined TTR expression in human tissues and its implications in TTR amyloidosis. BMC Genomics 2017, 18: 254. PMID: 28335735, PMCID: PMC5364715, DOI: 10.1186/s12864-017-3646-1.Peer-Reviewed Original ResearchConceptsGenotype-phenotype correlationHuman populationComplex genotype-phenotype correlationsFamilial amyloidotic cardiomyopathyTTR expressionTTR amyloidosisGTEx projectGenome ProjectSkeletal muscle tissueAncestral groupsAncestry diversityRelevant tissuesScandinavian populationsAmyloidotic cardiomyopathyPopulation diversityAncestry groupsExpressionHuman tissuesDiversityMuscle tissueHereditary diseasePolygenic scoresTissueClinical variabilityLesser extent