Reduction in photostability by the esterification of beta-cryptoxanthin

Reduction in photostability by the esterification of beta-cryptoxanthin

Liposomes, in which β-carotene, β-cryptoxanthin, zeaxanthin, β-cryptoxanthin palmitate or β-cryptoxanthin acetate had been embedded, were irradiated by UVA, and the rate of degradation of each carotenoid was measured. There was no significant difference in the degradation rate between β-carotene, β-...

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Veröffentlicht in:Bioscience, biotechnology, and biochemistry biotechnology, and biochemistry, 2004-02, Vol.68 (2), p.451-453
Hauptverfasser: Arita, S. (Okayama Univ. (Japan)), Otsuki, K, Osaki, K, Murata, Y, Shimoishi, Y, Tada, M
Format: Artikel
Sprache:eng
Schlagworte:
beta Carotene - analogs & derivatives
beta Carotene - chemistry
beta Carotene - radiation effects
Biological and medical sciences
carotenoid
CAROTENOIDS
Carotenoids - chemistry
Carotenoids - radiation effects
Cryptoxanthins
DEGRADATION
ESTERIFICATION
Esters - chemical synthesis
Esters - chemistry
Esters - radiation effects
FRUITS
Fundamental and applied biological sciences. Psychology
Hexanes - chemistry
Kinetics
Liposomes
LIPOSOMES (ORGANELLES)
Photochemistry
PHOTOSENSITIVITY
photostability
Solvents
ULTRAVIOLET IRRADIATION
Ultraviolet Rays
UVA
XANTHOPHYLLS
Xanthophylls - chemistry
Xanthophylls - radiation effects
zeaxanthin
β-cryptoxanthin
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Beschreibung
Zusammenfassung:Liposomes, in which β-carotene, β-cryptoxanthin, zeaxanthin, β-cryptoxanthin palmitate or β-cryptoxanthin acetate had been embedded, were irradiated by UVA, and the rate of degradation of each carotenoid was measured. There was no significant difference in the degradation rate between β-carotene, β-cryptoxanthin and zeaxanthin. The degradation rates of β-cryptoxanthin palmitate and β-cryptoxanthin acetate were faster than that of β-cryptoxanthin, and the degradation rate of β-cryptoxanthin palmitate was faster than that of β-cryptoxanthin acetate.
ISSN:0916-8451
1347-6947
DOI:10.1271/bbb.68.451