Biotransformation and recovery of the isoflavones genistein and daidzein from industrial antibiotic fermentations

Weber, Jesse N.; Reeves, Andrew R.; Seshadri, Ramya; Cernota, William H.; Gonzalez, Melissa C.; Gray, Danielle L.; Wesley, Roy K.

doi:10.1007/s00253-013-4839-4

Cited by 6 publications

(6 citation statements)

References 20 publications

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“…Moreover, the microbial biotransformation of okara can cause a major reduction in the glucoside, malonylglucoside and acetylglucoside isoflavones along with a significant increase of aglycone isoflavones content. The aglycone isoflavones (daidzein, genistein and glycitein) are absorbed faster and in higher amounts than their glucosides in humans, and hence the increase of bioavailability of these isoflavones will potentially improve the antidiabetic effects 11,12 . Liu et.…”

Section: Introductionmentioning

confidence: 99%

Eurotium Cristatum Fermented Okara as a Potential Food Ingredient to Combat Diabetes

Chan

Takahashi

Lim

et al. 2019

Sci Rep

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Type 2 diabetes mellitus (T2DM) is a chronic disease, and dietary modification is a crucial part of disease management. Okara is a sustainable source of fibre-rich food. Most of the valorization research on okara focused more on the physical attributes instead of the possible health attributes. The fermentation of okara using microbes originated from food source, such as tea, sake, sufu and yoghurt, were explored here. The aim of this study is to investigate fermented okara as a functional food ingredient to reduce blood glucose levels. Fermented and non-fermented okara extracts were analyzed using the metabolomic approach with UHPLC-QTof-MSE. Statistical analysis demonstrated that the anthraquinones, emodin and physcion, served as potential markers and differentiated Eurotium cristatum fermented okara (ECO) over other choices of microbes. The in-vitro α-glucosidase activity assays and in-vivo mice studies showed that ECO can reduce postprandial blood glucose levels. A 20% ECO loading crispy snack prototype revealed a good nutrition composition and could serve as a fundamental formulation for future antidiabetes recipe development, strengthening the hypothesis that ECO can be used as a novel food ingredient for diabetic management.

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Section: Introductionmentioning

confidence: 99%

Eurotium Cristatum Fermented Okara as a Potential Food Ingredient to Combat Diabetes

Chan

Takahashi

Lim

et al. 2019

Sci Rep

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“…The combined results were surprising at first, as isoflavonoid-based natural products are typical plant-derived metabolites and biosynthesized via a biosynthetic branch of the phenylpropanoid pathway. , A few bacterial lineages, most notable Streptomyces , are able to produce the flavonoid naringenin, but subsequent conversion to isoflavones is unique to plants. − Thus, we hypothesized that isoflavones, such as daidzein and genistein, are present within the provided growth medium (ISP2) and then biotransformed by RB99 to polyhalogenated derivatives (Scheme ). , To support the hypothesis, we analyzed the applied ISP2 medium, and it was confirmed by HRMS 2 and GNPS analysis that both plant-derived metabolites are present in solid-phase extracts of sterile ISP2 medium (Figures and S3).…”

Section: Resultsmentioning

confidence: 74%

“…Together with an isolated distinctive olefinic proton at δ H 8.24 (1H, s), it was deduced that 1 is built from an isoflavonoid scaffold, which was supported by a distinct flavonoid/isoflavonoid-type UV spectrum (λ max 222, 250, and 298 nm). − The 13 C NMR data of 1 , assigned based on the analysis of 2D NMR ( 1 H– 1 H COSY, HSQC, and HMBC) spectra, indicated the presence of 15 carbon signals (mostly aromatic), including one carbonyl group at δ C 177.0. Comparative 1 H and 13 C NMR analysis using an available in-house database and SciFinder confirmed that compound 1 closely resembled 3′,4′,5′,7-tetrahydroxyisoflavone (Figure ) and was of symmetric nature [δ H 7.52 (2H, s); δ C 129.8 (C-2′/C-6′)] .…”

Section: Resultsmentioning

confidence: 98%

Polyhalogenation of Isoflavonoids by the Termite-Associated Actinomadura sp. RB99

et al. 2020

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Based on high-resolution tandem mass spectrometry (HR-MS2) and global natural products social molecular networking (GNPS), we found that plant-derived daidzein and genistein derivatives are polyhalogenated by termite-associated Actinomadura species RB99. MS-guided purification from extracts of bacteria grown under optimized conditions led to the isolation of eight polychlorinated isoflavones, including six unreported derivatives, and seven novel polybrominated derivatives, two of which showed antimicrobial activity.

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“…Soy isoflavones are released as a side‐product during the industrial fermentation process for the production of erythromycin, using the microorganism Saccharopolyspora erythraea (by endogenous β‐glucosidases). However, the isoflavone aglycones themselves are metabolised by that organism, requiring either metabolic engineering or subsequent enzymatic treatment (or acid hydrolysis) of the spent broth to obtain the aglycon [12–14] . The use of purified β‐glucosidases for isoflavone aglycon production from soy flour has also been investigated, in particular from the thermophilic bacteria Thermotoga maritima and Thermoanaerobacter ethanolicus JW200.…”

Section: Introductionmentioning

confidence: 99%

“…However, the isoflavone aglycones themselves are metabolised by that organism, requiring either metabolic engineering or subsequent enzymatic treatment (or acid hydrolysis) of the spent broth to obtain the aglycon. [12][13][14] The use of purified β-glucosidases for isoflavone aglycon production from soy flour has also been investigated, in particular from the thermophilic bacteria Thermotoga maritima and Thermoanaerobacter ethanolicus JW200. However, these enzymes required defatting of the soy flour using hexane (an undesirable neurotoxic solvent [15] ) and high reaction temperatures (65-80 °C).…”

Section: Introductionmentioning

confidence: 99%

Release of Soybean Isoflavones by Using a β‐Glucosidase from Alicyclobacillus herbarius

et al. 2020

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β‐Glucosidases are used in the food industry to hydrolyse glycosidic bonds in complex sugars, with enzymes sourced from extremophiles better able to tolerate the process conditions. In this work, a novel β‐glycosidase from the acidophilic organism Alicyclobacillus herbarius was cloned and heterologously expressed in Escherichia coli BL21(DE3). AheGH1 was stable over a broad range of pH values (5–11) and temperatures (4–55 °C). The enzyme exhibited excellent tolerance to fructose and good tolerance to glucose, retaining 65 % activity in the presence of 10 % (w/v) glucose. It also tolerated organic solvents, some of which appeared to have a stimulating effect, in particular ethanol with a 1.7‐fold increase in activity at 10 % (v/v). The enzyme was then applied for the cleavage of isoflavone from isoflavone glucosides in an ethanolic extract of soy flour, to produce soy isoflavones, which constitute a valuable food supplement, full conversion was achieved within 15 min at 30 °C.

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Biotransformation and recovery of the isoflavones genistein and daidzein from industrial antibiotic fermentations

Cited by 6 publications

References 20 publications

Eurotium Cristatum Fermented Okara as a Potential Food Ingredient to Combat Diabetes

Eurotium Cristatum Fermented Okara as a Potential Food Ingredient to Combat Diabetes

Polyhalogenation of Isoflavonoids by the Termite-Associated Actinomadura sp. RB99

Release of Soybean Isoflavones by Using a β‐Glucosidase from Alicyclobacillus herbarius

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