SUMO modulates meiotic crossover rates between and within vertebrate species

Crossing over during meiosis drives genetic diversity and ensures the accurate segregation of homologous chromosomes. Variation in the rate of crossing over has been linked to evolutionary divergence and environmental adaptability, shaping fitness and responses to selective pressures. Despite its significance, the molecular mechanisms underlying this variation remain poorly understood. Crossover sites are selected from a large pool of potential sites initiated by programmed DNA double-strand breaks. Post-translational modification by SUMO (Small Ubiquitin-like Modifier) has been implicated in this process. Here, we show that crossover rate, chromosome length, and abundance of chromosome-associated SUMO are positively correlated across a range of vertebrate species, including mouse, chicken, pig, cattle, sheep, and goat. Crossover variation between goat breeds across the Indian subcontinent was also positively correlated with chromosomal SUMO level. Furthermore, modulating SUMO levels in cultured goat spermatocytes altered crossover frequency. Cumulatively, these observations point to a central role for SUMO in mediating crossover variation both between and within vertebrate species.