A predicted deleterious allele of the essential meiosis gene MND1, present in ~3% of East Asians, does not disrupt reproduction in mice.

Infertility is a major health problem affecting about 15% of couples worldwide. Except for cases involving readily-detectable chromosome aberrations, confident identification of a causative genetic defect is problematic. Despite the advent of genome sequencing for diagnostic purposes, the preponderance of segregating genetic variants complicates identification of culprit genetic alleles or mutations. Many algorithms have been developed to predict the effects of 9variants of unknown significance9 (VUS), typically SNPs (single nucleotide polymorphisms), but these predictions are not sufficiently accurate for clinical action. As part of a project to identify population variants that impact fertility, we have been generating CRISPR-Cas9 edited mouse models of suspect SNPs in genes that are known to be required for fertility in mice. Here, we present data on a non-synonymous (amino acid altering) SNP (rs140107488) in the meiosis gene Mnd1, which is predicted bioinformatically to be deleterious to protein function. We report that when modeled in mice, this allele (MND1 K85M ), which is present allele frequency of about 3% in East Asians, has no discernable effect upon fertility, fecundity, or gametogenesis, although it may cause sex skewing of progeny from homozygous males. In sum, this appears to be a benign allele that can be eliminated or de-prioritized in clinical genomic analyses of infertility patients.