Engineered viruses act as scaffolds to bind porphyrins on their surfaces, exploiting mainly electrostatic interactions. The close proximity between porphyrins and tryptophan residues, exposed on the solvent-accessible surface, leads to an efficient resonant energy transfer, which makes these systems suitable for developing noncovalent antenna systems.
Supramolecular binding of cationic porphyrins on a filamentous bacteriophage template: Toward a noncovalent antenna system
MONSU' SCOLARO, Luigi;CASTRICIANO M.;ROMEO, Andrea;LO PASSO, Carla;
2006-01-01
Abstract
Engineered viruses act as scaffolds to bind porphyrins on their surfaces, exploiting mainly electrostatic interactions. The close proximity between porphyrins and tryptophan residues, exposed on the solvent-accessible surface, leads to an efficient resonant energy transfer, which makes these systems suitable for developing noncovalent antenna systems.File in questo prodotto:
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