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Protein-coding repeat polymorphisms strongly shape diverse human phenotypes

Ronen E. Mukamel, Robert E. Handsaker, Maxwell A. Sherman, Alison R. Barton, Yiming Zheng, Steven A. McCarroll, Po‐Ru Loh

2021Science190 citationsDOIOpen Access PDF

Abstract

Many human proteins contain domains that vary in size or copy number because of variable numbers of tandem repeats (VNTRs) in protein-coding exons. However, the relationships of VNTRs to most phenotypes are unknown because of difficulties in measuring such repetitive elements. We developed methods to estimate VNTR lengths from whole-exome sequencing data and impute VNTR alleles into single-nucleotide polymorphism haplotypes. Analyzing 118 protein-altering VNTRs in 415,280 UK Biobank participants for association with 786 phenotypes identified some of the strongest associations of common variants with human phenotypes, including height, hair morphology, and biomarkers of health. Accounting for large-effect VNTRs further enabled fine-mapping of associations to many more protein-coding mutations in the same genes. These results point to cryptic effects of highly polymorphic common structural variants that have eluded molecular analyses to date.

Topics & Concepts

PhenotypeBiologyGeneticsAlleleHuman genomeBiobankHuman geneticsGenetic variationCoding regionGenome-wide association studyGenomeSingle-nucleotide polymorphismGeneGenotypeGenetic Associations and EpidemiologyRNA modifications and cancerRNA Research and Splicing