2011
HapMap-based study of human soluble glutathione S-transferase enzymes
Polimanti R, Piacentini S, Fuciarelli M. HapMap-based study of human soluble glutathione S-transferase enzymes. Pharmacogenetics And Genomics 2011, 21: 665-672. PMID: 21799460, DOI: 10.1097/fpc.0b013e328349da4d.Peer-Reviewed Original ResearchConceptsNatural selectionGST genesGenetic variabilityGlutathione S-transferase enzymesSingle nucleotide polymorphism (SNP) diversityHuman genome regionsHuman demographic historyHuman genetic variabilityGST SNPsInternational HapMap ProjectSingle nucleotide substitutionChromosomal clustersDemographic historyGenome regionsGenome scanCellular detoxificationCandidate genesHapMap projectNucleotide substitutionsGenesHapMap dataComplex diseasesPopulation differencesF-statisticsSNPsHuman GST Loci as Markers of Evolutionary Forces: GSTO1*E155del and GSTO1*E208K Polymorphisms May Be Under Natural Selection Induced by Environmental Arsenic
Polimanti R, Piacentini S, De Angelis F, De Stefano G, Fuciarelli M. Human GST Loci as Markers of Evolutionary Forces: GSTO1*E155del and GSTO1*E208K Polymorphisms May Be Under Natural Selection Induced by Environmental Arsenic. Disease Markers 2011, 31: 231-239. DOI: 10.1155/2011/124169.Peer-Reviewed Original ResearchGST genesPopulation demographic historyGlutatione S-transferasesAllele frequenciesEvolutionary forcesDemographic historyNatural selectionSelective pressureNull phenotypeNeutral polymorphismsPopulation relationshipsHapMap dataS-transferaseGST SNPsGST lociEnvironmental arsenicGenesWorldwide populationPCR-RFLP methodAfrican populationsPolymorphism
2000
Human GST Loci as Markers of Evolutionary Forces: GSTO1*E155del and GSTO1*E208K Polymorphisms May Be Under Natural Selection Induced by Environmental Arsenic
Polimanti R, Piacentini S, De Angelis F, De Stefano GF, Fuciarelli M. Human GST Loci as Markers of Evolutionary Forces: GSTO1*E155del and GSTO1*E208K Polymorphisms May Be Under Natural Selection Induced by Environmental Arsenic. Disease Markers 2000, 31: 231-239. PMID: 22045430, PMCID: PMC3826775, DOI: 10.3233/dma-2011-0821.Peer-Reviewed Original ResearchMeSH KeywordsArsenicBiotransformationBlack PeopleEcuadorEnvironmental ExposureEnvironmental PollutantsEvolution, MolecularGene FrequencyGene-Environment InteractionGenetic MarkersGenotypeGlutathione TransferaseHumansIndians, South AmericanLinkage DisequilibriumMalePolymorphism, Single NucleotideSelection, GeneticConceptsGST genesPopulation demographic historyGlutatione S-transferasesAllele frequenciesEvolutionary forcesDemographic historyNatural selectionSelective pressureNull phenotypeNeutral polymorphismsPopulation relationshipsHapMap dataS-transferaseGST SNPsGST lociEnvironmental arsenicGenesWorldwide populationPCR-RFLP methodAfrican populationsPolymorphism