Novel mechanistic insights into the role of Mer2 as the keystone of meiotic DNA break formation

In meiosis, DNA double-strand break (DSB) formation by Spo11 initiates recombination and enables chromosome segregation. Numerous factors are required for Spo11 activity, and couple the DSB machinery to the development of a meiosis-specific 'axis-tethered loop' chromosome organisation. Through in vitro reconstitution and budding yeast genetics, we here provide architectural insight into the DSB machinery by focussing on a foundational DSB factor, Mer2. We characterise the interaction of Mer2 with the histone reader Spp1, and show that Mer2 directly associates with nucleosomes, likely highlighting a contribution of Mer2 to tethering DSB factors to chromatin. We reveal the biochemical basis of Mer2 association with Hop1, a HORMA domain-containing chromosomal axis factor. Finally, we identify a conserved region within Mer2 crucial for DSB activity, and show that this region of Mer2 interacts with the DSB factor Mre11. In combination with previous work, we establish Mer2 as a keystone of the DSB machinery by bridging key protein complexes involved in the initiation of meiotic recombination.

Automated summary

This study focuses on the foundational DSB factor Mer2 and reveals its interaction with nucleosomes and a chromosomal axis factor, as well as its crucial role in DSB activity. By bridging key protein complexes involved in the initiation of meiotic recombination, Mer2 is established as a keystone of the DSB machinery.