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)nN, 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 1H NMR and IR spectra, the peptides investigated largely populate a 3(10)-helical structure in CDCl3, 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 1N* 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.

Pispisa, B., Stella, L., Venanzi, M., Palleschi, A., Polese, A., Formaggio, F., et al. (2000). Structural features of linear homo-Aib-based peptides in solution: a spectroscopic and molecular mechanics investigation. JOURNAL OF PEPTIDE RESEARCH, 56, 298-306.

Structural features of linear homo-Aib-based peptides in solution: a spectroscopic and molecular mechanics investigation

PISPISA, BASILIO;STELLA, LORENZO;VENANZI, MARIANO;PALLESCHI, ANTONIO;
2000-01-01

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)nN, 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 1H NMR and IR spectra, the peptides investigated largely populate a 3(10)-helical structure in CDCl3, 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 1N* 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.
2000
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore CHIM/02 - CHIMICA FISICA
English
Pispisa, B., Stella, L., Venanzi, M., Palleschi, A., Polese, A., Formaggio, F., et al. (2000). Structural features of linear homo-Aib-based peptides in solution: a spectroscopic and molecular mechanics investigation. JOURNAL OF PEPTIDE RESEARCH, 56, 298-306.
Pispisa, B; Stella, L; Venanzi, M; Palleschi, A; Polese, A; Formaggio, F; Toniolo, C
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/131737
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