A series of Fmoc-Phe(4-aza-C60)-OH of fullerene amino acid derived peptides have been prepared by solid phase peptide synthesis, in which the terminal amino acid, Phe(4-aza-C60)-OH, is derived from the dipolar addition to C60 of the Fmoc-Nα-protected azido amino acids derived from phenylalanine: Fmoc-Phe(4-aza-C60)-Lys3-OH (1), Fmoc-Phe(4-aza-C60)-Pro-Hyp-Lys-OH (2), and Fmoc-Phe(4-aza-C60)-Hyp-Hyp-Lys-OH (3). The inhibition constant of our fullerene aspartic protease PRIs utilized FRET-based assay to evaluate the enzyme kinetics of HIV-1 PR at various concentrations of inhibitors. Simulation of the docking of the peptide Fmoc-Phe-Pro-Hyp-Lys-OH overestimated the inhibition, while the amino acid PRIs were well estimated. The experimental results show that C60-based amino acids are a good base structure in the design of protease inhibitors and that their inhibition can be improved upon by the addition of designer peptide sequences.
Keywords: C60; HIV-1; computation; fullerene; inhibitor; solid phase peptide synthesis.
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