has dual roles in the limiting of meiotic crossovers and germ cell maintenance in mammals.

Meiotic crossovers are required for accurate chromosome segregation and producing new allelic combinations. Meiotic crossover numbers are tightly regulated within a narrow range, despite an excess of initiating DNA double-strand breaks. Here, we reveal the tumor suppressor FANCM as a meiotic anti-crossover factor in mammals. We use unique large-scale crossover analyses with both single-gamete sequencing and pedigree-based bulk-sequencing datasets to identify a genome-wide increase in crossover frequencies in -deficient mice. Gametogenesis is heavily perturbed in loss-of-function mice, which is consistent with the reproductive defects reported in humans with biallelic mutations. A portion of the gametogenesis defects can be attributed to the cGAS-STING pathway after birth. Despite the gametogenesis phenotypes in mutants, both sexes are capable of producing offspring. We propose that the anti-crossover function and role in gametogenesis of are separable and will inform diagnostic pathways for human genomic instability disorders.