Enzymatic acylation of blackcurrant (Ribes nigrum) anthocyanins and evaluation of lipophilic properties and antioxidant capacity of derivatives

Yang, Wei; Kortesniemi, Maaria; Ma, Xueying; Zheng, Jie; Yang, Baoru

doi:10.1016/j.foodchem.2018.12.111

Cited by 81 publications

(53 citation statements)

References 33 publications

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“…Studying the genetic mechanisms controlling anthocyanin diversification in blueberry is important since anthocyanin glycosylation contributes to anthocyanin stability and transport of anthocyanins to the vacuole (Jaakola et al, 2002;Noguchi et al, 2009;Zifkin et al, 2012;Jaakola, 2013;Cheng et al, 2014;Le Roy et al, 2016;Wang et al, 2018). Similarly, acylation contributes to stability under unfavorable conditions such as high pH, heat stress and intense light (Giusti and Wrolstad, 2003;D'Auria, 2006;Matera et al, 2015;Yang W. et al, 2019) and could be involved in bioaccessibility (Kurilich et al, 2005;Charron et al, 2009;Oliveira et al, 2019). Overall, the high broad sense heritability together with clear clustering patterns among the different anthocyanins based on sugar moieties and acylation suggest that key genetic factors/genes that have a relatively simple genetic inheritance are likely to be involved in the glycosylation and acylation of the different forms of anthocyanin in blueberry.…”

Section: Genotypic Effects Explain the Extensive Metabolite And Fruitmentioning

confidence: 99%

Diversity in Metabolites and Fruit Quality Traits in Blueberry Enables Ploidy and Species Differentiation and Establishes a Strategy for Future Genetic Studies

et al. 2020

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Section: Genotypic Effects Explain the Extensive Metabolite And Fruitmentioning

confidence: 99%

Diversity in Metabolites and Fruit Quality Traits in Blueberry Enables Ploidy and Species Differentiation and Establishes a Strategy for Future Genetic Studies

et al. 2020

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“…On the other hand, the optimal reaction conditions were more economical and efficient than the conditions mentioned in previous studies. The reaction temperature and molar ratio (acyl donor: substrate) was usually chosen as 60 • C and 100:1, such as malvidin-3-glucoside with stearoyl chloride [17], oleic acid [22], and saturated fatty acids of different chain lengths [21], delphindin-3-glucoside with palmitic acid [25], and cyanidin-3-galactoside with lauric acid [26]. Anthocyanins as reaction substrates could be easier to destroy at 60 • C over 24 h than the optimized reaction temperature of 56 • C. Excessive acyl donors might prevent anthocyanins from being fully dissolved in the reaction media, which resulted in the actual concentration of anthocyanins being lower than the apparent concentration, thus reducing the conversion yield [27].…”

Section: Optimization Of Reaction and Model Validationmentioning

confidence: 99%

Kinetics of Enzymatic Synthesis of Cyanidin-3-Glucoside Lauryl Ester and Its Physicochemical Property and Proliferative Effect on Intestinal Probiotics

Yang

Sun

et al. 2020

Biology

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The interest in anthocyanins used in food, cosmetic, and pharmaceutical industries has increased the research in order to improve their stability while maintaining bioactivity. In this work, cyanidin-3-glucoside lauryl ester (Cy3glc-C12) was enzymatically synthesized, using Novozym 435 as a catalyst, as well as to obtain a kinetic model for the bioprocess. Its liposolubility, UV–VIS absorbance property, thermostability, and potential proliferative effect on intestinal probiotics were also studied. The maximum conversion yield (68.7 ± 2.1%) was obtained with a molar ratio (substrate:donor) of 1:56, 435 16.5 g/L Novozym, temperature of 56 °C, and a time of 28 h via the acylation occurred at 6²-OH position of the glucoside. The kinetics of the reaction is consistent with a ping-pong bi-bi mechanism and the parameters of the respective kinetic equations are reported. Compared with native Cy3glc, the liposolubility, pH resistivity and thermostability of Cy3glc-C12 were significantly improved. The growth kinetics of Bifidobacteria and Lactobacillus was established based on the Logistic equation, and Cy3glc-C12 could promote their proliferation especially during the logarithmic growth, in which lower pH and more bacteria population were found compared with those of media without anthocyanins. This research provided a reference for the industrial production of Cy3glc-C12 and extended its application to natural products in lipophilic systems.

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“…This work concluded that only the glucoside forms of cyanidin and delphinidin were acylated by the enzymes and not the rutinoside forms. A different study found that by using lauric acid, each of the four major ANC was monoacylated successfully without an adverse effect on relative proportions (Yang, Kortesniemi, Ma, Zheng, & Yang, ). Each of the acylations was noted at the 6′′–OH position and at the 4′′–OH position of the glucosides and rutinosides, respectively (Yang et al., ).…”

Section: Chemistry and Sensory Properties Of Bcmentioning

confidence: 99%

“…A different study found that by using lauric acid, each of the four major ANC was monoacylated successfully without an adverse effect on relative proportions (Yang, Kortesniemi, Ma, Zheng, & Yang, 2019). Each of the acylations was noted at the 6 -OH position and at the 4 -OH position of the glucosides and rutinosides, respectively (Yang et al, 2019). This process succeeded in enhancing the lipophilicity of the compounds, which makes them more compatible for use in lipid-based foods and cosmetics.…”

Section: Concise Reviews and Hypotheses In Food Sciencementioning

confidence: 99%

Blackcurrants (Ribes nigrum): A Review on Chemistry, Processing, and Health Benefits

Cortez

Mejía

2019

Journal of Food Science

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Blackcurrants (BC; Ribes nigrum) are relatively new to the U.S. market; however, they are well known and popular in Europe and Asia. The use of BC has been trending worldwide, particularly in the United States. We believe that demand for BC will grow as consumers become aware of the several potential health benefits these berries offer. The objectives of this review were to provide an up‐to‐date summary of information on BC based on articles published within the last decade; furthermore, to provide the food industry insights into possibilities for the utilization of BC. The chemistry, processing methods, and health benefits have been highlighted in addition to how the environment and variety impact the chemical constituents of BC. A search for journal publications on BC was conducted, which included keywords such as chemical characterization, health benefits, processing, technologies, anthocyanins (ANC), and proanthocyanidins. This review provides up‐to‐date information available on the subject. In conclusion, BC and their products have industrial uses from which extractions can be made to produce natural pigments to be used as food additives. BC contain flavonoids, specifically ANC, which provide the fruits with their purple color. BC are a rich source of phytochemicals with potent antioxidant, antimicrobial, and anti‐inflammatory properties. Also, BC have the potential to improve overall human health particularly with diseases associated with inflammation and regulation of blood glucose.

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Enzymatic acylation of blackcurrant (Ribes nigrum) anthocyanins and evaluation of lipophilic properties and antioxidant capacity of derivatives

Cited by 81 publications

References 33 publications

Diversity in Metabolites and Fruit Quality Traits in Blueberry Enables Ploidy and Species Differentiation and Establishes a Strategy for Future Genetic Studies

Diversity in Metabolites and Fruit Quality Traits in Blueberry Enables Ploidy and Species Differentiation and Establishes a Strategy for Future Genetic Studies

Kinetics of Enzymatic Synthesis of Cyanidin-3-Glucoside Lauryl Ester and Its Physicochemical Property and Proliferative Effect on Intestinal Probiotics

Blackcurrants (Ribes nigrum): A Review on Chemistry, Processing, and Health Benefits

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