Basic amino acid calix[8]arene receptors for tryptase surface recognition have been synthesized. The tetrameric arrangement and the negative charge distribution close to the active sites of the enzyme, have suggested the design of complementary multifunctional receptors that might bind to the active region of the protein blocking the approach of the substrate. Kinetic inhibition analysis on recombinant lung tryptase have showed a time-dependent competitive inhibition with both initial and steady-state rate constants in the nanomolar range.
Designed calix[8]arene-based ligand for selective tryptase surface recognition
Mecca T;Geraci C;Cunsolo F
2004
Abstract
Basic amino acid calix[8]arene receptors for tryptase surface recognition have been synthesized. The tetrameric arrangement and the negative charge distribution close to the active sites of the enzyme, have suggested the design of complementary multifunctional receptors that might bind to the active region of the protein blocking the approach of the substrate. Kinetic inhibition analysis on recombinant lung tryptase have showed a time-dependent competitive inhibition with both initial and steady-state rate constants in the nanomolar range.File in questo prodotto:
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