AI Article Synopsis
- - Hard ticks use a protein-rich saliva to attach securely to their hosts, forming a solid cement cone, but the process behind this transformation is not yet understood.
- - This study investigates a glycine-rich protein (GRP) in tick saliva, revealing that it can undergo liquid-liquid phase separation to form sticky biomolecular condensates in salty conditions.
- - The research identifies key interactions in GRP that drive this phase separation and suggests that understanding these mechanisms could lead to new tick control methods and innovative biomedical applications like tissue sealants.
Article Abstract
Hard 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 currently not understood. This study focuses on the phase transitions of a disordered glycine-rich protein (GRP) found in tick saliva. We show that GRP undergoes liquid-liquid phase separation via simple coacervation to form biomolecular condensates in salty environments. Cation-π and π-π interactions mediated by periodically placed arginine and aromatic amino-acid residues are the primary driving forces that promote phase separation. Interestingly, GRP condensates exhibit ageing by undergoing liquid-to-gel transition over time and exhibit adhesive properties, similar to the naturally occurring cement cone. Finally, we provide evidence for protein-rich condensates in natural tick saliva. Our findings provide a starting point to gain further insights into the bioadhesion of ticks, to develop novel tick control strategies, and towards achieving biomedical applications such as tissue sealants.
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| http://dx.doi.org/10.1038/s41557-024-01686-8 | DOI Listing |
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