Litcius/Paper detail

Post-GWAS knowledge gap: the how, where, and when

Steven Pierce, Alix Booms, Jordan Prahl, Edwin J. C. Van der Schans, Trevor Tyson, Gerhard A. Coetzee

2020npj Parkinson s Disease28 citationsDOIOpen Access PDF

Abstract

Genetic risk for complex diseases very rarely reflects only Mendelian-inherited phenotypes where single-gene mutations can be followed in families by linkage analysis. More commonly, a large set of low-penetrance, small effect-size variants combine to confer risk; they are normally revealed in genome-wide association studies (GWAS), which compare large population groups. Whereas Mendelian inheritance points toward disease mechanisms arising from the mutated genes, in the case of GWAS signals, the effector proteins and even general risk mechanism are mostly unknown. Instead, the utility of GWAS currently lies primarily in predictive and diagnostic information. Although an amazing body of GWAS-based knowledge now exists, we advocate for more funding towards the exploration of the fundamental biology in post-GWAS studies; this research will bring us closer to causality and risk gene identification. Using Parkinson's Disease as an example, we ask, how, where, and when do risk loci contribute to disease?

Topics & Concepts

Genome-wide association studyMendelian inheritanceGenetic associationPenetranceIdentification (biology)GeneticsCausality (physics)DiseaseBiologyOMIM : Online Mendelian Inheritance in ManPopulationInheritance (genetic algorithm)Computational biologyPhenotypeGeneSingle-nucleotide polymorphismMedicineGenotypeQuantum mechanicsPathologyBotanyPhysicsEnvironmental healthGenetic Associations and EpidemiologyGenomics and Rare DiseasesCRISPR and Genetic Engineering