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Fine mapping with epigenetic information and 3D structure

Gisela Orozco

2022Seminars in Immunopathology14 citationsDOIOpen Access PDF

Abstract

Since 2005, thousands of genome-wide association studies (GWAS) have been published, identifying hundreds of thousands of genetic variants that increase risk of complex traits such as autoimmune diseases. This wealth of data has the potential to improve patient care, through personalized medicine and the identification of novel drug targets. However, the potential of GWAS for clinical translation has not been fully achieved yet, due to the fact that the functional interpretation of risk variants and the identification of causal variants and genes are challenging. The past decade has seen the development of great advances that are facilitating the overcoming of these limitations, by utilizing a plethora of genomics and epigenomics tools to map and characterize regulatory elements and chromatin interactions, which can be used to fine map GWAS loci, and advance our understanding of the biological mechanisms that cause disease.

Topics & Concepts

EpigenomicsComputational biologyIdentification (biology)Genome-wide association studyGenomicsChromatinGenetic associationBiologyEpigeneticsGenetic variantsPrecision medicinePersonalized medicineEpigenomeFunctional genomicsGeneticsBioinformaticsEpigenesisGenomeComputer scienceData scienceHuman geneticsDrug developmentAssociation (psychology)Systems biologyHuman genomeGene mappingMultifactorial InheritanceENCODETranslation (biology)Gene regulatory networkDrug discoveryGenetic Associations and EpidemiologyGenomics and Rare DiseasesGenomics and Chromatin Dynamics
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