Adaptive synergy between catechol and lysine promotes wet adhesion by surface salt displacement
University of California, Santa Barbara
Abstract
In physiological fluids and seawater, adhesion of synthetic polymers to solid surfaces is severely limited by high salt, pH, and hydration, yet these conditions have not deterred the evolution of effective adhesion by mussels. Mussel foot proteins provide insights about adhesive adaptations: Notably, the abundance and proximity of catecholic Dopa (3,4-dihydroxyphenylalanine) and lysine residues hint at a synergistic interplay in adhesion. Certain siderophores—bacterial iron chelators—consist of paired catechol and lysine functionalities, thereby providing a convenient experimental platform to explore molecular synergies in bioadhesion. These siderophores and synthetic analogs exhibit robust adhesion energies…
Citation impact
- FWCI
- 24.74
- Percentile
- 100%
- References
- 30
Authors
5- GPGreg P. MaierCorresponding
University of California, Santa Barbara
- MRM. RappCorresponding
University of California, Santa Barbara
- JHJ. Herbert WaiteCorresponding
University of California, Santa Barbara
- JNJacob N. IsraelachviliCorresponding
University of California, Santa Barbara
- ABAlison ButlerCorresponding
University of California, Santa Barbara
Topics & keywords
- Catechol
- Adhesion
- Chemistry
- Lysine
- Salt (chemistry)
- Siderophore
- Polymer
- Biophysics
- Clean water and sanitation