Nuclear magnetic resonance spectroscopy is a straightforward technique for studying molecular dynamics that range in timescale from picosecond (motions faster than molecular reorientation) to those that occur in real-time. This approach is important to highlight the behavior of bioactive molecules in solution, and to acquire information about action mechanisms and potential pharmacological effects. Proton and carbon-13 spin–lattice relaxation experiments were performed to calculate the reorientational correlation time for protonated carbons. Capsaicin showed complex dynamical properties and the results revealed two regions with different dynamical properties: the aliphatic region with fast reorientation motions and the aromatic region with slow motions.
Bonechi, C., Donati, A., Tamasi, G., Pardini, A., Leone, G., Consumi, M., et al. (2019). Solution dynamics of the natural bioactive molecule Capsaicin: A relaxation study. SPECTROSCOPY LETTERS, 52(1), 74-79 [10.1080/00387010.2018.1556700].
Solution dynamics of the natural bioactive molecule Capsaicin: A relaxation study
C. Bonechi
;A. Donati
;G. TAMASI
;A. Pardini;G. Leone;M. Consumi;A. Magnani;C. Rossi
2019-01-01
Abstract
Nuclear magnetic resonance spectroscopy is a straightforward technique for studying molecular dynamics that range in timescale from picosecond (motions faster than molecular reorientation) to those that occur in real-time. This approach is important to highlight the behavior of bioactive molecules in solution, and to acquire information about action mechanisms and potential pharmacological effects. Proton and carbon-13 spin–lattice relaxation experiments were performed to calculate the reorientational correlation time for protonated carbons. Capsaicin showed complex dynamical properties and the results revealed two regions with different dynamical properties: the aliphatic region with fast reorientation motions and the aromatic region with slow motions.
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https://hdl.handle.net/11365/1072187