![Sample our Food Science & Technology journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5936/TOC-Subject-Sample-2021-Food-Science-Technology.jpg"})
Abstract
Laser flash photolysis of lycopene in homogeneous chloroform solution together with tocopherol homolopes results in rapid formation of the lycopene radical cation and slower formation of tocopheroxyl radicals. Time-resolved detection by absorption spectroscopy of decay of the lycopene radical cation, of formation of the tocopheroxyl radicals, and of bleaching of lycopene has shown that a-tocopherol is able to reduce the lycopene radical cation and thereby partially regenerate lycopene on a ms timescale. In contrast, lycopene is able to reduce the δ-tocopheroxyl radical, whereas an equilibrium exists between the lycopene radical cation and β- or γ-tocopherol. The relative stability of these antioxidant radicals is hence: a-tocopheroxyl > lycopene radical cation ≈ β-tocopheroxyl - γ-tocopheroxyl > S-toco-pheroxyl.
Key Words:
