Incorporation of Chlorogenic Acids in Coffee Brew Melanoidins

The incorporation of chlorogenic acids (CGAs) and their subunits quinic and caffeic acids (QA and CA) in coffee brew melanoidins was studied. Fractions with different molecular weights, ionic charges, and ethanol solubilities were isolated from coffee brew. Fractions were saponified, and the release...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 2008-03, Vol.56 (6), p.2055-2063
Main Authors: Bekedam, E. Koen, Schols, Henk A, Van Boekel, Martinus A. J. S, Smit, Gerrit
Format: Article
Language:English
Subjects:
antioxidant activity
beans
Biological and medical sciences
caffeic acid
Caffeic Acids - analysis
Caffeic Acids - chemistry
chemical bonding
Chemical Changes Induced by Processing/Storage
chemical structure
chemical-characterization
chlorogenic
chlorogenic acid
Chlorogenic Acid - chemistry
chromatography
Chromatography, Ion Exchange
Coffea - chemistry
Coffee
coffee (beverage)
Coffee - chemistry
Coffee, tea and other stimulative beverage industries
Coumaric Acids - analysis
degradation
electrochemistry
enzyme activity
food composition
Food industries
Fundamental and applied biological sciences. Psychology
Hot Temperature
incorporation
ionic charge
lactones
Maillard reaction
Maillard reaction products
melanoidins
Molecular Weight
phenolic
phenols
Polymers - analysis
Polymers - chemistry
quantitative analysis
quinic
quinic acid
Quinic Acid - analogs & derivatives
Quinic Acid - analysis
Quinic Acid - chemistry
roasted coffee
roasting
Seeds - chemistry
solubility
systems
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Summary:The incorporation of chlorogenic acids (CGAs) and their subunits quinic and caffeic acids (QA and CA) in coffee brew melanoidins was studied. Fractions with different molecular weights, ionic charges, and ethanol solubilities were isolated from coffee brew. Fractions were saponified, and the released QA and CA were quantified. For all melanoidin fractions, it was found that more QA than CA was released. QA levels correlated with melanoidin levels, indicating that QA is incorporated in melanoidins. The QA level was correlated with increasing ionic charge of the melanoidin populations, suggesting that QA may contribute to the negative charge and consequently is, most likely, not linked via its carboxyl group. The QA level correlated with the phenolic acid group level, as determined by Folin-Ciocalteu, indicating that QA was incorporated to a similar extent as the polyphenolic moiety from CGA. The QA and CA released from brew fractions by enzymes confirmed the incorporation of intact CGAs. Intact CGAs are proposed to be incorporated in melanoidins upon roasting via CA through mainly nonester linkages. This complex can be written as MelCA−QA, in which Mel represents the melanoidin backbone, CA represents CA nonester-linked to the melanoidin backbone, and −QA represents QA ester-linked to CA. Additionally, a total of 12% of QA was identified in coffee brew, whereas only 6% was reported in the literature so far. The relevance of the additional QA on coffee brew stability is discussed.
ISSN:0021-8561
1520-5118
DOI:10.1021/jf073157k