In continuation of our studies on the determination of the structural features of functionalized peptides in solution by combining time-resolved fluorescence data and molecular mechanics results, the conformational properties of a series of linear, homo-Aib peptides in methanol (a structure-supporting solvent) were investigated. These compounds have the general formula P(Aib)(n)N, where Aib is alpha -aminoisobutyric acid, N is naphthalene and P is the monomethylated protoporphyrin IX, the two latter chromophores being covalently attached to the peptide C- and N-termini, respectively, while n-3, 6 and 9. According to (1)H NMR and IR spectra, the peptides investigated largely populate a 3(10)-helical structure in CDCl(3), which is also a structure-supporting solvent. Both steady-state and time-resolved fluorescence measurements show a strong quenching of the N emission that parallels an increase of the P fluorescence intensity, suggesting the occurrence of long-range energy transfer from (1)N* to ground-state P. Comparison of quenching efficiencies and lifetime pre-exponents with those obtained theoretically from the deepest energy minimum conformers is very satisfactory. The computed structures, built up by partially taking into account the solvent medium, exhibit a rigid, highly compact arrangement, owing to both the 3(10)-helix conformation of the backbone chain and the very few peptide-to-chromophore covalent linkages. As a result, only one or two stable conformations for each peptide were theoretically found, in full agreement with the time-resolved fluorescence data. Orientational effects between the probes must be taken into account for a correct interpretation of the fluorescence decay results, which implies that interconversion among conformational substates of the N linkages is slower than 10 ns, corresponding to the upper limit of the energy transfer characteristic time.

Structural Features of Linear, Homo-Aib Based Peptides in Solution: a Spectroscopic and a Molecular Mechanics Investigation.

FORMAGGIO, FERNANDO;TONIOLO, CLAUDIO
2000

Abstract

In continuation of our studies on the determination of the structural features of functionalized peptides in solution by combining time-resolved fluorescence data and molecular mechanics results, the conformational properties of a series of linear, homo-Aib peptides in methanol (a structure-supporting solvent) were investigated. These compounds have the general formula P(Aib)(n)N, where Aib is alpha -aminoisobutyric acid, N is naphthalene and P is the monomethylated protoporphyrin IX, the two latter chromophores being covalently attached to the peptide C- and N-termini, respectively, while n-3, 6 and 9. According to (1)H NMR and IR spectra, the peptides investigated largely populate a 3(10)-helical structure in CDCl(3), which is also a structure-supporting solvent. Both steady-state and time-resolved fluorescence measurements show a strong quenching of the N emission that parallels an increase of the P fluorescence intensity, suggesting the occurrence of long-range energy transfer from (1)N* to ground-state P. Comparison of quenching efficiencies and lifetime pre-exponents with those obtained theoretically from the deepest energy minimum conformers is very satisfactory. The computed structures, built up by partially taking into account the solvent medium, exhibit a rigid, highly compact arrangement, owing to both the 3(10)-helix conformation of the backbone chain and the very few peptide-to-chromophore covalent linkages. As a result, only one or two stable conformations for each peptide were theoretically found, in full agreement with the time-resolved fluorescence data. Orientational effects between the probes must be taken into account for a correct interpretation of the fluorescence decay results, which implies that interconversion among conformational substates of the N linkages is slower than 10 ns, corresponding to the upper limit of the energy transfer characteristic time.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2461447
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