Marie Oest scite author profile

The understanding of interactions between proteins, carbohydrates, and phenolic compounds is becoming increasingly important in food science, as these interactions might significantly affect the functionality of foods. So far, research has focused predominantly on protein–phenolic or carbohydrate–phenolic interactions, separately, but these components might also form other combinations. In plant-based foods, all three components are highly abundant; phenolic acids are the most important phenolic compound subclass. However, their interactions and influences are not yet fully understood. Especially in cereal products, such as bread, being a nutritional basic in human nutrition, interactions of the mentioned compounds are possible and their characterization seems to be a worthwhile target, as the functionality of each of the components might be affected. This review presents the basics of such interactions, with special emphasis on ferulic acid, as the most abundant phenolic acid in nature, and tries to illustrate the possibility of ternary interactions with regard to dough and bread properties. One of the phenomena assigned to such interactions is so-called dry-baking, which is very often observed in rye bread.

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Rye Bread Defects: Analysis of Composition and Further Influence Factors as Determinants of Dry-Baking

Oest

Bindrich

Voß

et al. 2020

Foods

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For decades, the evaluation of rye milling products have been aimed at detecting raw material defects that are linked to excessive enzyme activity. Those defects were indirectly characterized by the rheological methods of the dough or the final products. However, such methods do not sufficiently reflect the baking properties of all rye flours present on the market. A further problem is the continuing climate change, which affects compound composition in rye. So far, these bread defects can only be corrected by process engineering (e.g., extended dough resting). Therefore, it is necessary to characterize the main determinants of the quality defects prior to the baking process in order to predict baking quality and not waste raw material, energy, and time. In this study, it was found that the water accessibility of starch for gelatinization and its partial inhibition by certain components play a major role in baking quality. Specifically, high amounts of insoluble nonstarch-polysaccharides (NSPSs) and a hindered denaturation of proteins seem to be an indication and reason for poor baking quality. However, traditional quantitative analysis of the ingredients and properties of the rye milling products (e.g., falling number, protein content, amylographic data) does not allow any reliable conclusions about rye flour suitability for use as bread rye. It can be concluded that more complex compositional aspects (e.g., complexation of compounds) need to be characterized for future quality control of rye.

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MIR spectroscopy versus MALDI-ToF-MS for authenticity control of honeys from different botanical origins based on soft independent modelling by class analogy (SIMCA) – A clash of techniques?

Brendel

Schwolow

Gerhardt

et al. 2021

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Selenium biofortification of different varieties of apples (Malus domestica) – Influence on protein content and the allergenic proteins Mal d 1 and Mal d 3

et al. 2021

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Untersuchung von Enzymaktivitäten und ausgewählten Elementkonzentrationen im Zusammenhang mit der Gebäckqualität von Roggen

Oest¹,

Voß

Heinz

et al. 2022

Lebensmittelchemie

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Marie Oest

Interactions between Phenolic Acids, Proteins, and Carbohydrates—Influence on Dough and Bread Properties

Rye Bread Defects: Analysis of Composition and Further Influence Factors as Determinants of Dry-Baking

MIR spectroscopy versus MALDI-ToF-MS for authenticity control of honeys from different botanical origins based on soft independent modelling by class analogy (SIMCA) – A clash of techniques?

Selenium biofortification of different varieties of apples (Malus domestica) – Influence on protein content and the allergenic proteins Mal d 1 and Mal d 3

Untersuchung von Enzymaktivitäten und ausgewählten Elementkonzentrationen im Zusammenhang mit der Gebäckqualität von Roggen

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