Rapid variance components–based method for whole-genome association analysis

Svishcheva, G. R.; Axenovich, Tatiana I.; Belonogova, Nadezhda M.; Duijn, Cornelia M. van; Aulchenko, Yurii S.

doi:10.1038/ng.2410

Cited by 203 publications

(237 citation statements)

References 18 publications

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“…New Analysis Methodology Underpinning New Discovery GWAS data have led to new analysis methods that fall into a number of categories depending on their purpose: (1) methods of better modeling population structure and relatedness between individuals in a sample during association analyses, [28][29][30][31][32][33][34] (2) methods of detecting novel variants and gene loci on the basis of GWAS summary statistics, [35][36][37] (3) methods of estimating and partitioning genetic (co)variance, 38,39 and (4) methods of inferring causality. [40][41][42] In addition, GWAS discoveries and interpretation have benefited substantially from improved algorithms in statistical imputation of unobserved genotypes and statistical imputation of human leukocyte antigen (HLA) genes and amino acid polymorphisms.…”

Section: Pleiotropy Is Pervasivementioning

confidence: 99%

10 Years of GWAS Discovery: Biology, Function, and Translation

Visscher

Wray

Zhang

et al. 2017

The American Journal of Human Genetics

2,913

2,536

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Section: Pleiotropy Is Pervasivementioning

confidence: 99%

10 Years of GWAS Discovery: Biology, Function, and Translation

Visscher

Wray

Zhang

et al. 2017

The American Journal of Human Genetics

2,913

2,536

View full text Add to dashboard Cite

“…The only statistical method that appears to be effective for this purpose in A. thaliana is a mixed model that takes population structure into account using a genetic relatedness matrix (Yu et al, 2006;Zhao et al, 2007). Software that implements these models exists (Bradbury et al, 2007;Kang et al, 2010;Zhang et al, 2010;Lipka et al, 2011;Lippert et al, 2011;Zhou and Stephens, 2012;Svishcheva et al, 2012), but requires the user to provide both the genotype and phenotype data, as well as filtering and ordering the data appropriately. In addition, they provide little or no help in analyzing the results.…”

Section: Introductionmentioning

confidence: 99%

GWAPP: A Web Application for Genome-Wide Association Mapping in Arabidopsis

et al. 2012

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Arabidopsis thaliana is an important model organism for understanding the genetics and molecular biology of plants. Its highly selfing nature, small size, short generation time, small genome size, and wide geographic distribution make it an ideal model organism for understanding natural variation. Genome-wide association studies (GWAS) have proven a useful technique for identifying genetic loci responsible for natural variation in A. thaliana. Previously genotyped accessions (natural inbred lines) can be grown in replicate under different conditions and phenotyped for different traits. These important features greatly simplify association mapping of traits and allow for systematic dissection of the genetics of natural variation by the entire A. thaliana community. To facilitate this, we present GWAPP, an interactive Web-based application for conducting GWAS in A. thaliana. Using an efficient implementation of a linear mixed model, traits measured for a subset of 1386 publicly available ecotypes can be uploaded and mapped with a mixed model and other methods in just a couple of minutes. GWAPP features an extensive, interactive, and user-friendly interface that includes interactive Manhattan plots and linkage disequilibrium plots. It also facilitates exploratory data analysis by implementing features such as the inclusion of candidate polymorphisms in the model as cofactors.

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“…The pressure on computation leads to the development of the score test based variance components methods (Fast association score test based analysis (FASTA [50]) and genome-wide rapid association mixed model and regression with GRAMMAR Gamma factor (GRAMMAR-Gamma [38])). FASTA is a two-stage approach where the population parameters and genetic similarity matrix are estimated once in the first step, and the score test with the previously computed population parameters and kinship matrix are applied to each marker to detect its effect, moreover, the likelihood ratio test is applied again to few candidate markers from previous score test to achieve more accurate significance in the second step.…”

Section: The Development Of Lmm-based Approachesmentioning

confidence: 99%

“…However, variance components models cannot be applied to the genomic data with millions of SNPs and thousands of individuals owing to the heavy burden on estimating random parameters. Motivated by this limitation of variance components model, some efficient LMM-based approaches in GWAS have been proposed (Yu's model [23], compressed MLM with P3D [35], EMMAX [36], FaST-LMM [37] and GRAMMAR-Gamma [38]) recently. The model of linear mixed model based methods is set as,…”

Section: The Linear Mixed Modelmentioning

confidence: 99%

Genetic Studies: The Linear Mixed Models in Genome-wide Association Studies

Zhu

2013

TOBIOIJ

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Abstract:With the availability of high-density genomic data containing millions of single nucleotide polymorphisms and tens or hundreds of thousands of individuals, genetic association study is likely to identify the variants contributing to complex traits in a genome-wide scale. However, genome-wide association studies are confounded by some spurious associations due to not properly interpreting sample structure (containing population structure, family structure and cryptic relatedness). The absence of complete genealogy of population in the genome-wide association studies model greatly motivates the development of new methods to correct the inflation of false positive. In this process, linear mixed model based approaches with the advantage of capturing multilevel relatedness have gained large ground. We summarize current literatures dealing with sample structure, and our review focuses on the following four areas: (i) The approaches handling population structure in genome-wide association studies; (ii) The linear mixed model based approaches in genome-wide association studies; (iii) The performance of linear mixed model based approaches in genome-wide association studies and (iv) The unsolved issues and future work of linear mixed model based approaches.

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Rapid variance components–based method for whole-genome association analysis

Cited by 203 publications

References 18 publications

10 Years of GWAS Discovery: Biology, Function, and Translation

10 Years of GWAS Discovery: Biology, Function, and Translation

GWAPP: A Web Application for Genome-Wide Association Mapping in Arabidopsis

Genetic Studies: The Linear Mixed Models in Genome-wide Association Studies

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