Shiori Usui scite author profile

Summary C‐Glycosides are characterized by their C–C bonds in which the anomeric carbon of the sugar moieties is directly bound to the carbon atom of aglycon. C‐Glycosides are remarkably stable, as their C–C bonds are resistant to glycosidase or acid hydrolysis. A variety of plant species are known to accumulate C‐glycosylflavonoids; however, the genes encoding for enzymes that catalyze C‐glycosylation of flavonoids have been identified only from Oryza sativa (rice) and Zea mays (maize), and have not been identified from dicot plants. In this study, we identified the C‐glucosyltransferase gene from the dicot plant Fagopyrum esculentum M. (buckwheat). We purified two isozymes from buckwheat seedlings that catalyze C‐glucosylation of 2‐hydroxyflavanones, which are expressed specifically in the cotyledon during seed germination. Following purification we isolated the cDNA corresponding to each isozyme [FeCGTa (UGT708C1) and FeCGTb (UGT708C2)]. When expressed in Escherichia coli, both proteins demonstrated C‐glucosylation activity towards 2‐hydroxyflavanones, dihydrochalcone, trihydroxyacetophenones and other related compounds with chemical structures similar to 2′,4′,6′‐trihydroxyacetophenone. Molecular phylogenetic analysis of plant glycosyltransferases shows that flavonoid C‐glycosyltransferases form a different clade with other functionally analyzed plant glycosyltransferases.

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A new perfusion culture method with a self-organized capillary network

Sugihara

Yamaguchi

Usui

et al. 2020

PLoS ONE

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A lack of perfusion has been one of the most significant obstacles for three-dimensional culture systems of organoids and embryonic tissues. Here, we developed a simple and reliable method to implement a perfusable capillary network in vitro. The method employed the self-organization of endothelial cells to generate a capillary network and a static pressure difference for culture medium circulation, which can be easily introduced to standard biological laboratories and enables long-term cultivation of vascular structures. Using this culture system, we perfused the lumen of the self-organized capillary network and observed a flow-induced vascular remodeling process, cell shape changes, and collective cell migration. We also observed an increase in cell proliferation around the self-organized vasculature induced by flow, indicating functional perfusion of the culture medium. We also reconstructed extravasation of tumor and inflammatory cells, and circulation inside spheroids including endothelial cells and human lung fibroblasts. In conclusion, this system is a promising tool to elucidate the mechanisms of various biological processes related to vascular flow.

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Changes of Crocin and Other Crocetin Glycosides in Saffron Through Cooking Models, and Discovery of Rare Crocetin Glycosides in the Yellow Flowers of Freesia Hybrida

Shindo

Sakemi²,

Shimode³

et al. 2022

Front. Nutr.

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Crocetin glycosides such as crocin are noted as functional food materials since the preventive effects of crocin have been reported against chronic disease and cancer. However, it is unclear how these apocarotenoids are structurally changed through cooking for our intake. We examined such changes in crocetin glycosides (crocin, tricrocin, and crocin-3) contained in saffron (stigmas of Crocus sativus) through cooking models. These glycosides were almost kept stable in boiling for 20 min (a boiled cooking model), while hydrolysis of the ester linkage between glucose and the crocetin aglycone occurred in a grilled cooking model (180°C, 5 min), along with a 13-cis isomerization reaction in a part of crocetin subsequently generated. We further here revealed that the yellow petals of freesia (Freesia x hybrida) with yellow flowers accumulate two unique crocetin glycosides, which were identified to be crocetin (mono)neapolitanosyl ester and crocetin dineapolitanosyl ester. A similar result as above was obtained on their changes through the cooking models. Utility applications of the freesia flowers as edible flowers are also suggested in this study. Additionally, we evaluated singlet oxygen (1O2)-quenching activities of the crocetin glycosides contained in saffron and freesia, and crocetin and 13-cis crocetin contained in the grilled saffron, indicating that they possessed moderate 1O2-quenching activities (IC50 24–64 μM).

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Development of an age estimation method for bones based on machine learning using post-mortem computed tomography images of bones

et al. 2021

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A new microcirculation culture method with a self-organized capillary network

Sugihara

Yamaguchi

Usui

et al. 2020

Preprint

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25A lack of microcirculation has been one of the most significant obstacles for three-26 dimensional culture systems of organoids and embryonic tissues. Here, we 27 developed a simple and reliable method to implement a perfusable capillary 28 network in vitro. The method employed the self-organization of endothelial cells 29 to generate a capillary network and a static pressure difference for culture medium 30 circulation, which can be easily introduced to standard biological laboratories and 31 enables long-term cultivation of vascular structures. Using this culture system, we 32 perfused the lumen of the self-organized capillary network and observed a flow-33 induced vascular remodeling process, cell shape changes, and collective cell 34 migration. We also observed an increase in cell proliferation around the synthetic 35 vasculature induced by flow, indicating functional perfusion of the culture 36 medium. We also reconstructed extravasation of tumor and inflammatory cells, 37 and circulation inside spheroids including endothelial cells and human lung 38 fibroblasts. In conclusion, this system is a promising tool to elucidate the 39 mechanisms of various biological processes related to vascular flow.

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Shiori Usui

Purification, molecular cloning and functional characterization of flavonoid C‐glucosyltransferases from Fagopyrum esculentum M. (buckwheat) cotyledon

A new perfusion culture method with a self-organized capillary network

Changes of Crocin and Other Crocetin Glycosides in Saffron Through Cooking Models, and Discovery of Rare Crocetin Glycosides in the Yellow Flowers of Freesia Hybrida

Development of an age estimation method for bones based on machine learning using post-mortem computed tomography images of bones

A new microcirculation culture method with a self-organized capillary network

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