Arjen van Bochoven scite author profile

A main challenge in genome-wide association studies (GWAS) is to pinpoint possible causal variants. Results from GWAS typically do not directly translate into causal variants because the majority of hits are in non-coding or intergenic regions, and the presence of linkage disequilibrium leads to effects being statistically spread out across multiple variants. Post-GWAS annotation facilitates the selection of most likely causal variant(s). Multiple resources are available for post-GWAS annotation, yet these can be time consuming and do not provide integrated visual aids for data interpretation. We, therefore, develop FUMA: an integrative web-based platform using information from multiple biological resources to facilitate functional annotation of GWAS results, gene prioritization and interactive visualization. FUMA accommodates positional, expression quantitative trait loci (eQTL) and chromatin interaction mappings, and provides gene-based, pathway and tissue enrichment results. FUMA results directly aid in generating hypotheses that are testable in functional experiments aimed at proving causal relations.

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Meta-analysis of the heritability of human traits based on fifty years of twin studies

Polderman¹,

et al. 2015

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Despite a century of research on complex traits in humans, the relative importance and specific nature of the influences of genes and environment on human traits remain controversial. We report a meta-analysis of twin correlations and reported variance components for 17,804 traits from 2,748 publications including 14,558,903 partly dependent twin pairs, virtually all published twin studies of complex traits. Estimates of heritability cluster strongly within functional domains, and across all traits the reported heritability is 49%. For a majority (69%) of traits, the observed twin correlations are consistent with a simple and parsimonious model where twin resemblance is solely due to additive genetic variation. The data are inconsistent with substantial influences from shared environment or non-additive genetic variation. This study provides the most comprehensive analysis of the causes of individual differences in human traits thus far and will guide future gene-mapping efforts. All the results can be visualized using the MaTCH webtool.

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Fuma: Functional Mapping and Annotation of Genetic Associations

Watanabe

Taskesen

Bochoven

et al. 2019

European Neuropsychopharmacology

749

1,158

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FUMA: Functional mapping and annotation of genetic associations

Watanabe

Taskesen

Bochoven

et al. 2017

Preprint

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A main challenge in genome-wide association studies (GWAS) is to prioritize genetic variants and 1 identify potential causal mechanisms of human diseases. Although multiple bioinformatics 2 resources are available for functional annotation and prioritization, a standard, integrative approach 3 is lacking. We developed FUMA: a web-based platform to facilitate functional annotation of 4 GWAS results, prioritization of genes and interactive visualization of annotated results by 5 incorporating information from multiple state-of-the-art biological databases. 6 7 Subject terms: genome-wide association study (GWAS), prioritization, functional annotation, 8 visualization, expression quantitative trait loci (eQTLs), gene mapping 9

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