Local aromatic interactions define temperature sensitivity of phase separation in an intrinsically disordered protein.

Liquid-liquid phase separation (LLPS) of intrinsically disordered proteins is highly sensitive to environmental conditions, yet the molecular basis of sharp temperature responsiveness remains poorly understood. Here, we investigate a sequence-encoded mechanism underlying the pronounced temperature sensitivity of phase separation using Sup35NM, the intrinsically disordered domain of the yeast prion Sup35. We show that a tyrosine-rich local structural region within this domain encodes strong temperature responsiveness of droplet formation. Mutational analyses reveal that tyrosine residues mediate both intramolecular interactions that stabilize local structure and intermolecular interactions re