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Chemical‐Free Approach for Z ‐Isomerization of Lycopene in Tomato Powder: Hot Air and Superheated Steam Heating above the Melting Point of Lycopene
Author(s) -
Honda Masaki,
Kageyama Hakuto,
Hibino Takashi,
WaditeeSirisattha Rungaroon,
Fukaya Tetsuya,
Hayashi Yoshiaki,
Goto Motonobu
Publication year - 2020
Publication title -
european journal of lipid science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.614
H-Index - 94
eISSN - 1438-9312
pISSN - 1438-7697
DOI - 10.1002/ejlt.201900327
Subject(s) - lycopene , isomerization , chemistry , melting point , thermal decomposition , superheated steam , organic chemistry , solvent , antioxidant , superheating , catalysis , thermodynamics , physics
Abstract Z ‐isomers of lycopene exhibit higher bioavailability and antioxidant capacity than those of the all‐ E ‐isomer. Therefore, it is important to develop an efficient and environmentally friendly procedure for Z ‐isomerization. The current methods for Z ‐isomerization of (all‐ E )‐lycopene use toxic chemicals such as organic solvents and catalysts. This study is aimed to develop a chemical‐free method for Z ‐isomerization of (all‐ E )‐lycopene in tomato powder by hot air and superheated steam heating. The Z ‐isomerization reaction is promoted by heating above the melting point of lycopene. When heated with superheated steam, the thermal decomposition of lycopene is suppressed compared to that when heated with hot air. When tomato powder is heated at 240 °C for 5 min by superheated steam, the total Z ‐isomer content and remaining lycopene are 69.0% and 90.7%, respectively, while with hot air heating, the total Z ‐isomer content and remaining lycopene are 69.9% and 68.0%, respectively. These results indicate that the thermal Z ‐isomerization of lycopene occurs in the molten state and heating in a low oxygen atmosphere suppresses the thermal decomposition of lycopene. Practical Applications : Tomato powder rich in lycopene Z ‐isomers is an important ingredient for the food and animal feed industries. Since Z ‐isomers of lycopene are more soluble in solvents including ethanol which is a low‐toxicity and environmentally friendly solvent, the efficiency of lycopene extraction with ethanol can be improved by using the Z ‐isomer‐rich tomato powder as a raw material. The obtained Z ‐isomer‐rich extract has a high added value because the Z ‐isomers have higher bioavailability and antioxidant capacity than those of the all‐ E ‐isomer. In addition, since lycopene Z ‐isomers exhibit higher accumulation efficiency and better color improvement in hen egg yolks than those of the all‐ E ‐isomer, Z ‐isomer‐rich tomato powder is an effective animal feed.

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