Carolien Buvé scite author profile

For the first time in literature, this study revealed the participation of polymeric components of orange juice cloud and pulp (such as proteins, arabinogalactan proteins, or protein-pectin complexes) during nonenzymatic browning. In a quest to better understand the non-enzymatic browning of shelf-stable orange juice during storage, the juice was fractionated into different fractions depending on the solubility in water/ethanol and the obtained fractions were characterized. The results showed that brown compounds formed during storage of orange juice distributed over water insoluble (pulp), ethanol insoluble (cloud), and ethanol soluble (serum) fractions. In the ethanol insoluble fraction, the brown compounds are hypothesized to be associated with proteins, arabinogalactan proteins and/or protein-pectin complexes of this fraction without significantly changing their molecular weight distribution, monosaccharide composition, and protein content. The changes in the ethanol soluble fraction including ascorbic acid degradation, acid-catalyzed hydrolysis of sucrose, and formation of furfural and 5-hydroxymethylfurfural were highly correlated to the browning development of the juice during storage.

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Role of structural barriers in the in vitro bioaccessibility of anthocyanins in comparison with carotenoids

Carrillo

Buvé²,

Panozzo³

et al. 2017

Food Chemistry

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Although natural structural barriers are factors limiting nutrient bioaccessibility, their specific role in anthocyanin bioaccessibility is still unknown. To better understand how natural barriers govern bioactive compound bioaccessibility, an experimental approach comparing anthocyanins and carotenoids was designed, using a single plant matrix. Initial results revealed increased anthocyanin bioaccessibility in masticated black carrot. To explain this observation, samples with increasing levels of bioencapsulation (free-compound, homogenized-puree, puree) were examined. While carotenoid bioaccessibility was inversely proportional to the level of bioencapsulation, barrier disruption did not increase anthocyanin bioaccessibility. This means that mechanical processing is of particular importance in the case of carotenoid bioaccessibility. While micelle incorporation is the limiting factor for carotenoid bioaccessibility, anthocyanin degradation under alkaline conditions in the gastrointestinal tract dominates. In the absence of structural barriers, anthocyanin bioaccessibility is greater than that of carotenoids.

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Combining untargeted, targeted and sensory data to investigate the impact of storage on food volatiles: A case study on strawberry juice

Buvé¹,

Neckebroeck²,

Haenen³

et al. 2018

Food Research International

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Carolien Buvé

Quality change during high pressure processing and thermal processing of cloudy apple juice

Kinetics of colour changes in pasteurised strawberry juice during storage

Changes in the Soluble and Insoluble Compounds of Shelf-Stable Orange Juice in Relation to Non-Enzymatic Browning during Storage

Role of structural barriers in the in vitro bioaccessibility of anthocyanins in comparison with carotenoids

Combining untargeted, targeted and sensory data to investigate the impact of storage on food volatiles: A case study on strawberry juice

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