J. Kröll scite author profile

Secondary plant metabolites are important native food components, which are becoming more and more interesting due to their physiological effects on human beings. One of the largest groups of these compounds is represented by plant phenols. This review summarizes the structure, classification and distribution of the phenolic compounds in plant foods, their chemistry and signification with regard to food processing and -storage as well as their physiological effects. This work focuses mainly on such reactions of the phenolic substances with proteins and enzymes that lead to covalent bonds. The derivatives formed have been characterized in terms of changes in their physicochemical and structural properties. The effect on the proteolytic in vitro digestion has been also illustrated. Further aspects reported include the influence on enzyme activity and -kinetic parameters. The different aspects of the nutritional-physiological consequences of such reactions in food and body, especially considering their significance to food science and technology are discussed.

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Interactions of different phenolic acids and flavonoids with soy proteins

Rawel

Czajka

Rohn

et al. 2002

International Journal of Biological Macromolecules

385

255

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Binding of Selected Phenolic Compounds to Proteins

Rawel

Meidtner

Kröll

2005

J. Agric. Food Chem.

266

179

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In the context of this study, the noncovalent binding of selected phenolic compounds (chlorogenic, ferulic, and gallic acids, quercetin, rutin, and isoquercetin) to different proteins (human serum albumin, bovine serum albumin, soy glycinin, and lysozyme) was studied with direct (Hummel-Dreyer/size exclusion chromatography) and/or indirect methods (fluorescence absorbance properties of the binding components). In the latter case, the measurement of the phenol binding was achieved by exploiting the intrinsic fluorescence emission properties of quercetin as a probe. From the data obtained, the binding constants and the number of binding sites were calculated. The binding parameters were influenced by different factors, where, e.g., increasing temperature and ionic strength as well as decreasing pH cause a diminished binding. The structures of the proteins as determined by circular dichroism indicate changes in the tertiary structure with the secondary structure remaining intact.

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Inhibitory Effects of Plant Phenols on the Activity of Selected Enzymes

Rohn

Rawel

Kröll

2002

J. Agric. Food Chem.

243

146

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Selected enzymes (alpha-amylase, trypsin, and lysozyme) were allowed to react with some simple phenolic and related compounds (caffeic acid, chlorogenic acid, ferulic acid, gallic acid, m-, o-, and p-dihydroxybenzenes, quinic acid, and p-benzoquinone). The derivatized enzymes obtained were characterized in terms of their activity. In vitro experiments showed that the enzymatic activity of the derivatives was adversely affected. This enzyme inhibition depended on the reactivity of the phenolic and related substances tested as well as on the kind of substrate applied. The decrease in the activity was accompanied by a reduction in the amount of free amino and thiol groups, as well as tryptophan residues, which resulted from the covalent attachment of the phenolic and related compounds to these reactive nucleophilic sites in the enzymes. The enzyme inhibition correlates well with the blocking of the mentioned amino acid side chains.

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Structural changes induced in bovine serum albumin by covalent attachment of chlorogenic acid

et al. 2002

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J. Kröll

Reactions of Plant Phenolics with Food Proteins and Enzymes under Special Consideration of Covalent Bonds

Interactions of different phenolic acids and flavonoids with soy proteins

Binding of Selected Phenolic Compounds to Proteins

Inhibitory Effects of Plant Phenols on the Activity of Selected Enzymes

Structural changes induced in bovine serum albumin by covalent attachment of chlorogenic acid

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