Massive variation of short tandem repeats with functional consequences across strains of Arabidopsis thaliana

Abstract

Short tandem repeat (STR) mutations may comprise more than half of the mutations in eukaryotic coding DNA, yet STR variation is rarely examined as a contributor to complex traits. We assessed this contribution across a collection of 96 strains of Arabidopsis thaliana, genotyping 2,046 STR loci each using highly parallel STR sequencing with molecular inversion probes. We found that 95% of examined STRs are polymorphic, with a median of six alleles per STR across these strains. STR expansions (large copy number increases) are found in most strains, several of which have evident functional effects. These include three of six intronic STR expansions we found to be associated with intron retention. Coding STRs are depleted of variation relative to non-coding STRs, and we detected a total of 56 coding STRs (11%) showing low variation consistent with the action of purifying selection. In contrast, some STRs show hypervariable patterns consistent with diversifying selection. Finally, we detect 133 novel STR-phenotype associations under stringent criteria, most of which could not be detected with SNPs alone, and validating some with follow-up experiments. Our results support the conclusion that STRs comprise a large, unascertained reservoir of functionally relevant genomic variation.