Heritability Estimation Approaches Utilizing Genome-Wide Data

Prior to the development of genome-wide arrays and whole genome sequencing technologies, heritability estimation mainly relied on the study of related individuals. Over the past decade, various approaches have been developed to estimate SNP-based narrow-sense heritability (hSNP2${\rm{h}}_{{\rm{SNP}}}<^>2$) in unrelated individuals. These latter approaches use either individual-level genetic variations or summary results from genome-wide association studies (GWAS). Recently, several studies compared these approaches using extensive simulations and empirical datasets. However, sparse information on hands-on training necessitates revisiting these approaches from the perspective of a stepwise guide for practical applications. Here, we provide an overview of the commonly used SNP-heritability estimation approaches utilizing genome-wide array, imputed or whole genome data from unrelated individuals, or summary results. We not only discuss these approaches based on their statistical concepts, utility, advantages, and limitations, but also provide step-by-step protocols to apply these approaches. For illustration purposes, we estimate hSNP2${\rm{h}}_{{\rm{SNP}}}<^>2$ of height and BMI utilizing individual-level data from The Northern Finland Birth Cohort (NFBC) and summary results from the Genetic Investigation of ANthropometric Traits (GIANT;) consortium. We present this review as a template for the researchers who estimate and use heritability in their studies and as a reference for geneticists who develop or extend heritability estimation approaches. (c) 2023 The Authors. Current Protocols published by Wiley Periodicals LLC.Basic Protocol 1: GREML (GCTA)Alternate Protocol 1: Stratified GREMLBasic Protocol 2: LDAKAlternate Protocol 2: Stratified LDAKBasic Protocol 3: Threshold GREMLBasic Protocol 4: LD score (LDSC) regressionBasic Protocol 5: SumHer