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Isomerization of Commercially Important Carotenoids (Lycopene, β-Carotene, and Astaxanthin) by Natural Catalysts: Isothiocyanates and Polysulfides

Masaki Honda, Hakuto Kageyama, Takashi Hibino, Kohei Ichihashi, Wataru Takada, Motonobu Goto

2020Journal of Agricultural and Food Chemistry66 citationsDOI

Abstract

Effects of natural catalysts, isothiocyanates and polysulfides, on Z-isomerization and decomposition of (all-E)-carotenoids (lycopene, β-carotene, and astaxanthin) after heat treatment were investigated. When isothiocyanates were added to (all-E)-carotenoid solutions and heated, Z-isomerization and decomposition of carotenoids were enhanced and the degree differed depending on the isothiocyanate type. Interestingly, when polysulfides were applied in the same manner, in addition to promoting the Z-isomerization reaction, they markedly improved the thermal stability of carotenoids. Successively, we investigated the reaction characteristics of allyl isothiocyanate (AITC) and diallyl disulfide (DADS) using (all-E)-lycopene; that is, effects of the amount added, solvent used, and reaction temperature and time, as well as the combination use on Z-isomerization and decomposition of lycopene, were investigated. With increases in the amount added and reaction temperature and time, Z-isomerization of lycopene was promoted for both catalysts. The high-temperature treatment tests clearly showed that AITC induced thermal decomposition of lycopene, whereas DADS improved the lycopene stability. Moreover, the simultaneous use of AITC and DADS resulted in a synergetic effect on the Z-isomerization efficiency.

Topics & Concepts

IsomerizationAstaxanthinLycopeneChemistryCarotenoidCatalysisDecompositionThermal decompositionPhotochemistryIsothiocyanateAllyl isothiocyanateOrganic chemistrySolventBiochemistryAntioxidant Activity and Oxidative StressFree Radicals and AntioxidantsGenomics, phytochemicals, and oxidative stress