Hussein G. Daood scite author profile

The change in the carotenoid and bioantioxidant content of tomato as a function of varietal and technological factors was investigated in the present work. No great differences were found between cultivars for fresh consumption (salad tomatoes) and those for processing in ascorbic acid content. The concentration of ascorbic acid ranged between 14.6 and 21.7 mg/100 g fresh weight of ripe tomato fruit. Processing cultivars contained higher amounts of tocopherols, particularly alpha-tocopherol than tomatoes for fresh consumption. Significant differences could be obtained between the examined varieties with regard to carotenoid concentration. The different tomatoes varied not only in the total carotenoid content but also in the qualitative distribution of some pigments such as lycopene, beta-carotene and lutein. During heat-based processing, ascorbic acid, tocopherols, and carotenoids showed different role and response. Ascorbic acid, alpha-tocopherol quinone, and beta-carotene were the most susceptible components toward thermal degradation.

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Determination of antioxidant vitamins in tomatoes

Abushita

et al. 1997

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Change in the Carotenoid and Antioxidant Content of Spice Red Pepper (Paprika) as a Function of Ripening and Some Technological Factors

Márkus

Daood

Kapitány

et al. 1998

J. Agric. Food Chem.

187

120

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A study was conducted to investigate the change in quality attributes of red pepper (paprika) (Capsicum annuum L. var. Km-622) as a function of ripening and some technological factors. Of quality attributes, carotenoids and bioantioxidants (ascorbic acid and tocopherols) have been studied. It was found that the dynamics of fruit ripening with regard to carotenoids and bioantioxidants was influenced to a considerable extent by weather conditions of the production season. A rainy and cool season yielded fruits with more beta-carotene but less diesters of red xanthophylls as compared to those produced in a relatively dry and warm season. The ripening stage at harvest was found to affect the quality of paprika. Harvest at unripe stages (color break or faint red) resulted in a high accumulation of dehydroascorbic acid in the overripe fruits, whereas de novo biosynthesis of carotenoids and tocopherols was partially retarded. Application of pre-drying centrifugation resulted in a marked loss of ascorbic acid, and as a consequence, carotenoid stability was impaired during the storage of ground paprika. Sugar caramelization caused dry pods and ground paprika to retain more pigments and tocopherol as compared to those from control or centrifuged red pepper samples. During the storage of ground paprika, color stability was improved by grinding the seeds with the pericarp.

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Antioxidant vitamin content of spice red pepper (paprika) as affected by technological and varietal factors

Vinkler²,

et al. 1996

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Supercritical carbon dioxide extraction of carotenoids, tocopherols and sitosterols from industrial tomato by-products

Vági

Simándi

Vásárhelyiné

et al. 2007

The Journal of Supercritical Fluids

168

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Studies on the carotenoid pigments of paprika (Capsicum annuum L.var Sz-20)

Biacs¹,

Daood²,

Pavisa³

et al. 1989

J. Agric. Food Chem.

106

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Drying temperature, endogenous antioxidants and capsaicinoids affect carotenoid stability in paprika (red pepper spice)

Daood

Kapitány²,

Biacs

et al. 2006

J Sci Food Agric

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The major carotenoids and carotenoid esters in Capsicum annuum L. during thermal dehydration of pepper and storage of the ground product (paprika) were examined with special focus on the role of endogenous antioxidants such as vitamins E and C and capsaicinoids, the pungent materials in hot spice red pepper. A high-performance liquid chromatographic (HPLC) method was developed to achieve excellent separation and accurate detection of different carotenoid classes including free xanthophylls, monoesters, carotenes and di-esters. The newly developed method included gradient elution on a reversed-phase column with increasing proportions of isopropanol. The results indicated that presence of capsaicinoids in pungent pepper had a favourable effect on the stability of carotenoids during thermal drying. Among various di-esters those of lutein and zeaxanthine, as well as the mono-ester of β-cryptoxanthin were more stable than those of capsorubin and capsanthin, pointing to the possible role of epoxide and carbonyl groups in the susceptibility of carotenoids. An Arrhenius plot for degradation of carotenoids, tocopherols and ascorbic acid as a function of drying temperature showed linear relationships for all components, with ascorbic acid being the most sensitive. During storage in a refrigerator for 3 months the paprika showed high degradation of all the examined carotenoids particularly in samples prepared from pods dried at high temperatures (90 and 100 • C). An exception was for β-cryptoxanthin mono-ester and violaxanthin di-esters in a non-pungent variety. The amounts of these carotenoids lost during storage were slightly affected by the change in drying temperature. Strong correlation was found between retention of colour in stored paprika and the initial content of ascorbic acid, but not with that of tocopherols or capsaicinoids.

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Extraction of pungent spice paprika by supercritical carbon dioxide and subcritical propane

Daood

Illés

Gnayfeed

et al. 2002

The Journal of Supercritical Fluids

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Hussein G. Daood

Change in Carotenoids and Antioxidant Vitamins in Tomato as a Function of Varietal and Technological Factors

Determination of antioxidant vitamins in tomatoes

Change in the Carotenoid and Antioxidant Content of Spice Red Pepper (Paprika) as a Function of Ripening and Some Technological Factors

Antioxidant vitamin content of spice red pepper (paprika) as affected by technological and varietal factors

Supercritical carbon dioxide extraction of carotenoids, tocopherols and sitosterols from industrial tomato by-products

Studies on the carotenoid pigments of paprika (Capsicum annuum L.var Sz-20)

Drying temperature, endogenous antioxidants and capsaicinoids affect carotenoid stability in paprika (red pepper spice)

Extraction of pungent spice paprika by supercritical carbon dioxide and subcritical propane

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