Nicolas Pereira Ciochetti, Beatriz Lugli-Moraes, Bruna Santos da Silva, Diego Luiz Rovaris
The Journal of physiology 2023 JulPhysiological systems are subject to interindividual variation encoded by genetics. Genome-wide association studies (GWAS) operate by surveying thousands of genetic variants from a substantial number of individuals and assessing their association to a trait of interest, be it a physiological variable, a molecular phenotype (e.g. gene expression), or even a disease or condition. Through a myriad of methods, GWAS downstream analyses then explore the functional consequences of each variant and attempt to ascertain a causal relationship to the phenotype of interest, as well as to delve into its links to other traits. This type of investigation allows mechanistic insights into physiological functions, pathological disturbances and shared biological processes between traits (i.e. pleiotropy). An exciting example is the discovery of a new thyroid hormone transporter (SLC17A4) and hormone metabolising enzyme (AADAT) from a GWAS on free thyroxine levels. Therefore, GWAS have substantially contributed with insights into physiology and have been shown to be useful in unveiling the genetic control underlying complex traits and pathological conditions; they will continue to do so with global collaborations and advances in genotyping technology. Finally, the increasing number of trans-ancestry GWAS and initiatives to include ancestry diversity in genomics will boost the power for discoveries, making them also applicable to non-European populations. © 2023 The Authors. The Journal of Physiology © 2023 The Physiological Society.
Nicolas Pereira Ciochetti, Beatriz Lugli-Moraes, Bruna Santos da Silva, Diego Luiz Rovaris. Genome-wide association studies: utility and limitations for research in physiology. The Journal of physiology. 2023 Jul;601(14):2771-2799
PMID: 37208942
View Full Text