TY - JOUR T1 - Inferring the correlated fitness effects of nonsynonymous mutations at the same site using triallelic population genomics JF - bioRxiv DO - 10.1101/029546 SP - 029546 AU - Aaron P. Ragsdale AU - Alec J. Coffman AU - PingHsun Hsieh AU - Travis J. Struck AU - Ryan N. Gutenkunst Y1 - 2015/01/01 UR - http://biorxiv.org/content/early/2015/10/21/029546.abstract N2 - The distribution of mutation fitness effects is central to evolutionary genetics. Typical univariate distributions, however, cannot model the effects of multiple mutations at the same site, so we introduce a model in which mutations at the same site have correlated fitness effects. To infer the strength of that correlation, we developed a diffusion approximation to the triallelic frequency spectrum, which we applied to data from D. melanogaster. We found a moderate correlation between the fitness effects of nonsynonymous mutations at the same codon, suggesting that both mutation identity and location are important for determining fitness effects in proteins. We validated our approach by comparing with biochemical mutational scanning experiments, finding strong quantitative agreement, even between different organisms. We also found that the correlation of mutation fitness effects was not affected by protein solvent exposure or structural disorder. Together, our results suggest that the correlation of fitness effects at the same site is a previously overlooked yet fundamental property of protein evolution. ER -