Kingsley C. Duru scite author profile

The use of mushrooms as functional foods and in the treatment of diseases has a long history. Inonotus obliquus is a mushroom belonging to the Hymenochaetaceae family and has possible anticancer, antiviral, and hypoglycemic properties. Chemical analysis of this mushroom has allowed the identification of various constituents such as melanins, phenolic compounds, and lanostane-type triterpenoids. A plethora of findings have highlighted the potential molecular mechanisms of actions of this mushroom such as its ability to scavenge reactive oxygen species, inhibit the growth of tumors, decrease inflammation and insulin resistance in type 2 diabetes, and stimulate the immune system. This review summarizes the relevant findings with reference to the therapeutic potential of this mushroom in countering the progression of cancers, diabetes mellitus, and antiviral activities, while highlighting its possible molecular mechanisms of action. The possible role of this mushroom as a therapeutic agent in addressing the pathogenesis of diabetes and cancer has also been suggested.

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The potential beneficial role of isoflavones in type 2 diabetes mellitus

Duru

Kovaleva

Данилова

et al. 2018

Nutrition Research

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Production and assessment of novel probiotic fermented oat flour enriched with isoflavones

Duru

Kovaleva

Данилова

et al. 2019

LWT

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Anti-diabetic effect of isoflavone rich kudzu root extract in experimentally induced diabetic rats

Duru

Mukhlynina

Moroz

et al. 2020

Journal of Functional Foods

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An eco-friendly approach to enhance the extraction and recovery efficiency of isoflavones from kudzu roots and soy molasses wastes using ultrasound-assisted extraction with natural deep eutectic solvents (NADES)

Duru

Slesarev

Aboushanab

et al. 2022

Industrial Crops and Products

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Comparative study of extraction of soy molasses isoflavones and in vivo bioconversion of daidzein into S-equol in rats models

Slesarev¹,

Глухарева²,

Duru³

et al. 2021

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Application of fermentation for isoflavone extraction from soy molasses

Duru¹,

Kovaleva²,

Глухарева³

2017

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Extraction of isoflavones from soy products remains a major challenge for researchers. Different extraction techniques have been employed but the need to use a cheap green extraction technique remains the main focus. This study applied fermentation of soy molasses using Saccharomyces cerevisiae for extraction of isoflavones and compared this technique to the conventional extraction method. The aluminum chloride colorimetric method was used for the determination of total flavonoid content of extracts. The highest yield was observed from extraction using ethyl acetate after fermentation of soy molasses and the lowest one was given by the extract from conventional extraction method. The DPPH radical scavenging activities of the extracts were also compared. The extract obtained using ethyl acetate after fermentation showed the highest antioxidant activity (0.0269 meq), while extract from conventional extraction had the lowest antioxidant activity (0.0055 meq). The effect of time on daidzein yield was studied using HPLC standard addition method. Daidzein concentration was higher in extract obtained at t = 80 min (3.82 ± 0.11 mg of daidzein /g of extract) as compared to that obtained at t = 60 min (2.89 ± 0.10 mg of daidzein /g of extract).

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Biomacromolecules in recent phosphate-shelled brachiopods: identification and characterization of chitin matrix

et al. 2021

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Phosphate-shelled brachiopods differ in filter-feeding lifestyle, with Lingula anatina an active infaunal burrower, and Discinisca tenuis a shallow marine epibenthic animal. The shells of these animals are built of organophosphatic constituents, the organic fibres/sheets reinforced with calcium phosphate to provide a sophisticated ultrastructural robustness. This investigation examined the nature of the organic fibres in order to improve understanding of how living organisms produce hierarchically structured biomaterials. Unlike powdered samples commonly used in previous studies, organic fibres were isolated for the first time and the shell fractions were purified, in order to study the content and nature of the biopolymer fibres. Biochemical methods including Calcofluor staining revealed a chitin matrix. Ultrastructural analysis, thermal gravimetric analysis, and spectroscopic analyses show that the core polysaccharide framework is composed of layers of β-chitin sheets and/or fibrils that are coated with a fibrous organic matrix. There is more chitin matrix in the L. anatina shells (26.6 wt.%) compared to the D. tenuis shells (12.9 wt.%). Taken together, the data show that the chitin matrix contributes to increased skeletal strength, making L. anatina highly adapted for life as an active burrower. In comparison, D. tenuis contains less chitin and lives as attached epibenthos in a shallow marine environment. Graphical abstract First spectroscopic evidence of β-chitin sheets in recent organophosphatic brachiopods

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Kingsley C. Duru

The pharmacological potential and possible molecular mechanisms of action of Inonotus obliquus from preclinical studies

The potential beneficial role of isoflavones in type 2 diabetes mellitus

Production and assessment of novel probiotic fermented oat flour enriched with isoflavones

Anti-diabetic effect of isoflavone rich kudzu root extract in experimentally induced diabetic rats

An eco-friendly approach to enhance the extraction and recovery efficiency of isoflavones from kudzu roots and soy molasses wastes using ultrasound-assisted extraction with natural deep eutectic solvents (NADES)

Comparative study of extraction of soy molasses isoflavones and in vivo bioconversion of daidzein into S-equol in rats models

Application of fermentation for isoflavone extraction from soy molasses

Biomacromolecules in recent phosphate-shelled brachiopods: identification and characterization of chitin matrix

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