A new procedure to measure cysteine equivalent methylglyoxal scavenging activity (CEMSA) of foods under simulated physiological conditions

[Display omitted] •Dicarbonyl scavenging potential of foods was measured as cysteine equivalency.•Dicarbonyl scavenging activity was highly correlated with total thiol and amino groups.•Strawberry were in the class of “rapidly reacting & high capacity” foods.•Beef and chicken meats were very eff...

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Bibliographic Details
Published in:Journal of functional foods 2019-12, Vol.63, p.103575, Article 103575
Main Authors: Cömert, Ezgi Doğan, Gökmen, Vural
Format: Article
Language:English
Subjects:
Amino groups
Bioaccessible fractions of foods
Cysteine equivalent
Dicarbonyl scavenging activity
Flavonoids
Free thiols
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Summary:[Display omitted] •Dicarbonyl scavenging potential of foods was measured as cysteine equivalency.•Dicarbonyl scavenging activity was highly correlated with total thiol and amino groups.•Strawberry were in the class of “rapidly reacting & high capacity” foods.•Beef and chicken meats were very efficient to meet daily required methylglyoxal scavenging capacity. This study aims at investigating dicarbonyl scavenging potential of foods under simulated physiological conditions using a kinetic approach. Bioaccessible fractions obtained after gastrointestinal digestion were reacted with methylglyoxal for 24 h (pH 7.4, 37 °C). The changes in the percentage of methylglyoxal inhibition with time were plotted for food samples and cysteine. The area under the curves were used to calculate the cysteine equivalent methylglyoxal scavenging activity (CEMSA) of foods. Among foods, nuts, meat, egg, cheese, strawberry, broccoli, garlic, and onion were found to have CEMSA values higher than 15 mmol cysteine equivalent per kg. The CEMSA values were highly correlated with total thiol and amino groups for all foods except fruits. The foods were classified as “rapidly reacting & high capacity”, “slowly reacting & high capacity”, and “slowly reacting & low capacity” based on their MGO inhibition percentage and rate.
ISSN:1756-4646
2214-9414
DOI:10.1016/j.jff.2019.103575