High-throughput and efficient multilocus genome-wide association study on longitudinal outcomes | Zendy

Huang Xu | Zendy; Xiang Li | Zendy; Yaning Yang | Zendy; Yi Li | Zendy; José Cirı́aco Pinheiro | Zendy; Kate Sasser | Zendy; Hisham K. Hamadeh | Zendy; Xu Steven | Zendy; Min Yuan | Zendy

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High-throughput and efficient multilocus genome-wide association study on longitudinal outcomes

Author(s) -

Huang Xu,

Xiang Li,

Yaning Yang,

Yi Li,

José Cirı́aco Pinheiro,

Kate Sasser,

Hisham K. Hamadeh,

Xu Steven,

Min Yuan

Publication year - 2020

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btaa120

Subject(s) - genome wide association study , computer science , single nucleotide polymorphism , genetic association , computational biology , false positive paradox , bayesian probability , biology , data mining , machine learning , genetics , artificial intelligence , genotype , gene

With the emerging of high-dimensional genomic data, genetic analysis such as genome-wide association studies (GWAS) have played an important role in identifying disease-related genetic variants and novel treatments. Complex longitudinal phenotypes are commonly collected in medical studies. However, since limited analytical approaches are available for longitudinal traits, these data are often underutilized. In this article, we develop a high-throughput machine learning approach for multilocus GWAS using longitudinal traits by coupling Empirical Bayesian Estimates from mixed-effects modeling with a novel ℓ0-norm algorithm.

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