Phase Separation and Ageing of Glycine-Rich Protein from Tick Adhesive

Author:

Ganar Ketan A.,Turbina Polina,Nandy Manali,Chen Chang,Suylen Dennis,van der Beelen Stan,Pascoe Emily Louise,Koenraadt Constantianus J.M.,Dijkgraaf Ingrid,Deshpande SiddharthORCID

Abstract

AbstractHard ticks feed on their host for multiple days. To ensure firm attachment, they secrete a protein-rich saliva that eventually forms a solid cement cone. The underlying mechanism of this liquid-to-solid transition is not yet understood. This study focuses on the phase transitions of a disordered glycine-rich protein (GRP) that is prominent in tick saliva. We show that GRP undergoes liquid-liquid phase separation via simple coacervation to form biomolecular condensates in salty environments. Cation-pi and pi-pi interactions near the C-terminus promote coacervation while a negatively charged N-terminus prolongs its onset through electrostatic repulsion. Interestingly, GRP condensates exhibit ageing and undergo liquid-to-gel transition to form viscoelastic networks as well as solid-like condensates. Lastly, we provide evidence for protein-rich condensates in natural tick saliva. Our findings provide a starting point to gain insights into the bioadhesion of ticks, develop novel tick control strategies, and towards biomedical applications such as tissue sealants.

Publisher

Cold Spring Harbor Laboratory

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