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  • Title: Time-resolved fluorescence anisotropy of HIV-1 protease inhibitor complexes correlates with inhibitory activity.
    Author: Kungl AJ, Visser NV, van Hoek A, Visser AJ, Billich A, Schilk A, Gstach H, Auer M.
    Journal: Biochemistry; 1998 Mar 03; 37(9):2778-86. PubMed ID: 9485428.
    Abstract:
    The tryptophan time-resolved fluorescence intensity and anisotropy of the HIV-1 protease dimer is shown to be a quick and efficient method for the conformational characterization of protease inhibitor complexes. Four fluorescence lifetimes were needed to adequately describe the fluorescence decay of the two tryptophan residues, W6 and W42, per protease monomer. As a result of the wavelength dependence of the respective amplitudes, the 2.06 ns and the 4.46 ns decay constants were suggested to be the intrinsic fluorescence lifetimes of the more solvent-exposed W6 and the less exposed W42 residues, respectively. Analysis of the fluorescence anisotropy decay yielded a short correlation time of 250 ps corresponding to local chromophore motions, and a long correlation time of 12.96 ns resulting from overall rotation of the protease enzyme. Fluorescence lifetimes and rotational correlation times changed when inhibitors of the HIV-1 protease were added. The effects of 11 different inhibitors including statine-derived, hydroxyethylamine-derived, and 2 symmetrical inhibitors on the protease fluorescence dynamics were investigated. Inhibitor binding is shown to induce an increase of the mean fluorescence lifetime taumean, an increase of the short rotational correlation time phi1, as well as a decrease of the long rotational correlation time phi2. The mean rotational correlation time phimean was identified as the global dynamic parameter for a given molecular complex, which correlates with the inhibitor dissociation constant Ki, and therefore with the activity of the inhibitor.
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