2023
Multi‐omics cannot replace sample size in genome‐wide association studies
Baranger D, Hatoum A, Polimanti R, Gelernter J, Edenberg H, Bogdan R, Agrawal A. Multi‐omics cannot replace sample size in genome‐wide association studies. Genes Brain & Behavior 2023, 22: e12846. PMID: 36977197, PMCID: PMC10733567, DOI: 10.1111/gbb.12846.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesLarge genome-wide association studiesNovel genesMulti-omics dataMulti-omics informationAssociation studiesGenome-wide significant lociSmall genome-wide association studyBrain-related traitsGWAS sample sizesEarly genome-wide association studiesNovel gene discoveryGene discoverySignificant lociAdditional genesPositional mappingHeritable traitVariant discoverySimilar traitsGenesNovel variant discoveryTraitsDisease biologyLociDiscovery
2017
Whole exome sequencing: a state-of-the-art approach for defining (and exploring!) genetic landscapes in pediatric nephrology
Gulati A, Somlo S. Whole exome sequencing: a state-of-the-art approach for defining (and exploring!) genetic landscapes in pediatric nephrology. Pediatric Nephrology 2017, 33: 745-761. PMID: 28660367, DOI: 10.1007/s00467-017-3698-0.Peer-Reviewed Original ResearchConceptsWhole-exome sequencingNew high-throughput sequencing techniquesHigh-throughput sequencing techniquesConventional genomic approachesNovel gene discoveryNext-generation sequencing technologiesNovel genetic findingsHuman reference genomeExome sequencingGenomic approachesGene discoveryReference genomeHuman genomeSequencing technologiesSequencing techniquesGenetic landscapeLinkage analysisGenomeBiological dataGenetic findingsSequencingPhenotypic misclassificationRecent studiesComprehensive genomic testingPowerful tool
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