Functional New Acylated Sophoroses and Deglucosylated Anthocyanins in a Fermented Red Vinegar

Terahara, Norihiko; Matsui, Toshiro; Minoda, Kanako; Nasu, Kanae; Kikuchi, Risa; Fukui, Kiichi; Ono, Hiroshi; Matsumoto, Kiyoshi

doi:10.1021/jf901809p

Cited by 16 publications

(20 citation statements)

References 27 publications

(47 reference statements)

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“…According to the previous reports of the heteronuclear multiple‐bond correlation (HMBC) and nuclear overhauser effect spectroscopy (NOESY) (Terahara et al ., ), interglycosidic linkage was β‐G 3b ‐(1→2)‐G 3a of a sophorose because G 3b was linked on the G 3a ‐2OH based on the glycosylation shifts of δ G 3a ‐2H 4.36‐4.38 and δ G 3a ‐2C 82.51–82.72 ppm (Table ). Sophorose is always linked to C3 position of aglycon (most are cyanidin and peonidin).…”

Section: Resultsmentioning

confidence: 95%

“…In the recent report, Terahara et al . identified the structure of acylated 5‐deglucosylated anthocyanins through fermentation with purple sweet potato in 2009 (Terahara et al ., ). Montilla et al .…”

Section: Introductionmentioning

confidence: 97%

“…In the previous study, the anthocyanins from purple sweet potato (Eshu No. 8) have been identified as cyanidin or peonidin 3-sophoroside-5-glucoside based and acylated with one or two phenolic acid, such as caffeic acid, phydroxybenzoic acid and ferulic acid on the 3sophorosy moiety (Terahara et al, 2009). According to the previous report of our laboratory (Zhang et al, 2015(Zhang et al, , 2017Wang et al, 2017;Luo et al, 2018), peonidin 3-caffeoyl-p-hydroxybenzoyl sophoroside-5glucoside and peonidin 3-caffeoyl-feruloyl sophoroside-5-glucoside are two major anthocyanins from purple sweet potato.…”

Section: Introductionmentioning

confidence: 99%

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Isolation and identification of two major acylated anthocyanins from purple sweet potato (Ipomoea batatas L. cultivar Eshu No. 8) by UPLC‐QTOF‐MS/MS and NMR

Zhang

Luo

Zhou

et al. 2018

Int J of Food Sci Tech

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Summary In recent years, researches on the isolation and preparation of monomeric anthocyanins have intensified because of the requirements of quantitative and structure–bioactivity relationship analyses. However, simple and effective methods about the scale of monomeric anthocyanins from the natural purple sweet potato powder are rarely reported. In this study, high molecular weight acylated monomeric anthocyanins were isolated from purple sweet potato (Ipomoea batatas L. cultivar Eshu No. 8) via the combination of column chromatography and semi‐preparative HPLC technology and identified mainly by ultra‐high‐performance liquid chromatography quadrupole time‐of‐flight tandem mass spectrometry/mass spectrometry (UPLC‐QTOF‐MS/MS) and 1H and 13C nuclear magnetic resonance (NMR). Two major acylated anthocyanins were unambiguously determined as peonidin 3‐O‐(6‐O‐(E)‐caffeoyl‐(2‐O‐(6‐O‐p‐hydroxybenzoyl)‐β‐D‐glucopyranosyl)‐β‐D‐glucopyranoside)‐5‐O‐(β‐D‐glucopyranoside) and peonidin 3‐O‐(6‐O‐(E)‐caffeoyl‐(2‐O‐(6‐O‐(E)‐feruloyl)‐β‐D‐ glucopyranosyl)‐β‐D‐glucopyranoside)‐5‐O‐(β‐D‐glucopyranoside). The results of this study may help promote the purification of high molecular weight acylated anthocyanins from purple sweet potato as well as from other plant materials in nature.

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Section: Resultsmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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Isolation and identification of two major acylated anthocyanins from purple sweet potato (Ipomoea batatas L. cultivar Eshu No. 8) by UPLC‐QTOF‐MS/MS and NMR

Zhang

Luo

Zhou

et al. 2018

Int J of Food Sci Tech

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“…In their results, purple potato-derived acylated anthocyanins were shown to inhibit a-glucosidase activity [51,52]. This same group also studied the inhibitory effects acylated anthocyanins on the elevation of blood glucose levels in rats [53], and found that the molecular structure responsible for a-glucosidase inhibition was not anthocyanidin itself, but caffeoylsophorose, which is a component of the acylated anthocyanin molecule [54][55][56]. Caffeoylsophorose can be absorbed in vivo in an intact form and subsequently produces caffeic acid and its conjugate [57].…”

Section: Diabetesmentioning

confidence: 99%

Dietary anthocyanin‐rich plants: Biochemical basis and recent progress in health benefits studies

Tsuda

2011

Molecular Nutrition Food Res

452

268

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Anthocyanins are one type of flavonoid phytopigment. Although the role of anthocyanins as a functional food factor remains relatively less established than that of other flavonoids, progress in this area has been made at the molecular level in recent years. This review discusses the potential health benefits of plant-derived anthocyanin-rich foods, with a focus on the role of anthocyanins in obesity control, diabetes control, cardiovascular disease prevention, and improvement of visual and brain functions, areas that have attracted much attention. Such health benefits are not necessarily derived from the antioxidant effect of anthocyanins, but in fact are produced by currently unestablished chemical properties beyond the antioxidant capacity of the molecules. However, a better understanding of the physiological functionality of anthocyanins remains to be elucidated. It is desirable, therefore, to clarify the molecular type and composition of the anthocyanins that confer specific health benefits and to conduct further investigation into the underlying molecular mechanisms. The pharmacological actions of anthocyanins could not be fully established without knowledge on the effects of treatment of anthocyanins alone, the effects of non-anthocyanin components, and the possible interactions between anthocyanin and non-anthocyanin species.

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“…A famous anecdote about the effect of anthocyanins on vision in Japan describes Royal Air Force pilots during World War II who experienced enhanced vision in the dark α-glucosidase in the small intestinal endothelium, which in turn inhibits degradation and absorption of carbohydrates, thereby ameliorating hyperglycemia. Glycosides, such as C3G, are generally very weak inhibitors of α-glucosidase (Iwai et al, 2006), except for acylated anthocyanins (Matsui et al, 2001a(Matsui et al, , 2001b(Matsui et al, , 2002Terahara et al, 2003Terahara et al, , 2009 and Matsui et al (2004) revealed that caffeoylsophorose (CS), a component of acylated anthocyanins, is the molecular structure responsible for this strong inhibitory activity. Since CS is absorbed in an intact form to produce caffeic acid and its conjugates (Qiu et al, 2011), it is possible that absorbed CS or its metabolites exert an anti-diabetic effect via pathways that do not include α-glucosidase inhibition.…”

Section: Health Benefits Of Anthocyaninsmentioning

confidence: 99%

Anthocyanins as Functional Food Factors— Chemistry, Nutrition and Health Promotion —

Tsuda

2012

FSTR

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Anthocyanins are widely known as pigments responsible for the rich reds and purples in fruits, vegetables and legume seeds. Many flower colors are also attributed to anthocyanins. The physiological functions of anthocyanins as components in food have attracted attention, and research on their bioavailability and physiological functionality has progressed over the last 20 years. This review focuses on the health benefits of anthocyanins. It first describes the chemistry, metabolism, and absorption of anthocyanins and next summarizes the trends in research on the anti-diabetic and anti-obesity effects of anthocyanins. It then describes the other health benefits of anthocyanins, namely, the prevention of cancer and improvement of visual and brain functions, and finally discusses the challenges in and prospects of anthocyanin research.Keywords: anthocyanin, bioavailability, diabetes, obesity, cancer, vision, brain function Abbreviations: AMPK, AMP-activated protein kinase; BA, blackcurrant anthocyanins; BBE, bilberry extract; CS, Caffeoylsophorose; Cy, cyanidin; C3G, cyanidin 3-glucoside; Del, delphinidin; Glut4, glucose transporter 4; NF-κB, nuclear factor-kappa B; PPAR, peroxisome proliferator activated receptor; RBP4, retinol-binding protein 4; TNF-α, tumor necrosis factor-alpha; WBP, whole blueberry powder *To whom correspondence should be addressed. E-mail: tsudat@isc.chubu.ac.jp IntroductionAnthocyanins are widely known as pigments responsible for the rich reds and purples in fruits such as apples, strawberries, and blueberries, as well as in eggplants, perilla herbs, and legume seeds. Many flower colors are also attributed to anthocyanins (Harborne and Grayer, 1988). In food chemistry, anthocyanins have been studied in relation to changes and stability of colors in foods such as fruits during processing and storage and also for their use as natural colorants. Indeed, many types of anthocyanin food colorants have been developed and are now available to customize the appearance of foods. In horticulture, color conversion of flower pigments has become possible based on new findings of anthocyanin research. Creation of flowers in new colors enriches our life; for example, the creation of blue roses is a noteworthy achievement (Tanaka et al., 2010). Genetic engineering is the key technology for converting flower color, and it became possible after the discovery of genes involved in anthocyanin biosynthesis and elucidation of their expression mechanisms. In addition to the above properties and mechanisms, the physiological functions of anthocyanins as components in food, have attracted attention, and research on their bioavailability and physiological functionality has progressed over the last 20 years.This review focuses on the health benefits of anthocyanins. It first describes the chemistry, metabolism, and absorption of anthocyanins and next summarizes the trends in research on the anti-diabetic and anti-obesity effects of anthocyanins. It then describes the other health benefits of anthocyanins, namely, the pr...

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Functional New Acylated Sophoroses and Deglucosylated Anthocyanins in a Fermented Red Vinegar

Cited by 16 publications

References 27 publications

Isolation and identification of two major acylated anthocyanins from purple sweet potato (Ipomoea batatas L. cultivar Eshu No. 8) by UPLC‐QTOF‐MS/MS and NMR

Isolation and identification of two major acylated anthocyanins from purple sweet potato (Ipomoea batatas L. cultivar Eshu No. 8) by UPLC‐QTOF‐MS/MS and NMR

Dietary anthocyanin‐rich plants: Biochemical basis and recent progress in health benefits studies

Anthocyanins as Functional Food Factors— Chemistry, Nutrition and Health Promotion —

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