Ion-mediated condensation controls the mechanics of mitotic chromosomes

During mitosis in eukaryotic cells, mechanical forces generated by the mitotic spindle pull the sister chromatids into the nascent daughter cells. How do mitotic chromosomes achieve the necessary mechanical stiffness and stability to maintain their integrity under these forces? Here, we use optical tweezers to show that ions involved in physiological chromosome condensation are crucial for chromosomal stability, stiffness and viscous dissipation. We combine these experiments with high-salt histone-depletion and theory to show that chromosomal elasticity originates from the chromatin fiber behaving as a flexible polymer, whereas energy dissipation can be explained by interactions between chromatin loops. Taken together, we show how collective properties of mitotic chromosomes, a biomaterial of incredible complexity, emerge from molecular properties, and how they are controlled by the physico-chemical environment. ### Competing Interest Statement E.J.G.P. and G.J.L.W. hold shares of LUMICKS