• Title/Summary/Keyword: quercetin derivatives

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Characterization of quercetin and its glycoside derivatives in Malus germplasm

  • Zhang, Lei;Xu, Qipeng;You, Yaohua;Chen, Weifeng;Xiao, Zhengcao;Li, Pengmin;Ma, Fengwang
    • Horticulture, Environment, and Biotechnology : HEB
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    • v.59 no.6
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    • pp.909-917
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    • 2018
  • Quercetin and its glycoside derivatives were identified and quantified using high-performance liquid chromatograph (HPLC) and liquid chromatograph/mass spectrometer/mass spectrometer (LC/MS/MS) in the leaves, flowers, and fruits of 22 Malus genotypes. In all genotypes, small amounts of quercetin aglycone were present, with water-soluble glycoside forms were the most abundant in different Malus plant tissues, including quercetin-3-galactoside, quercetin-3-rutinoside, quercetin-3-glucoside, quercetin-3-xyloside, quercetin-3-arabinoside, and quercetin-3-rhamnoside. Among these six quercetin glycosides, quercetin-3-galactoside was the common form in Malus plants, except in the leaves and flowers of M. ceracifolia and M. magdeburgensis, and in the fruits of M. micromalus 'Haihong Fruit', where there was a higher concentration of quercetin3-glucoside. Among the different tissues tested, leaves contained the highest concentration of quercetin and its glycosides, while fruits contained the lowest concentrations of these compounds. Among the genotypes we analyzed, no specific genotype consistently contained the highest concentration of quercetin and its glycoside derivatives. M. domestica 'Honeycrisp' had the highest total compound concentration (approximately $1600mg\;kg^{-1}$), whereas M. hupehensis contained the lowest in its fruits. In contrast, the concentration of total quercetin and its glycosides was more than $5000mg\;kg^{-1}$ in the leaves of eight genotypes and greater than $2500mg\;kg^{-1}$ in the flowers of seven species. In general, the concentration of quercetin and its glycoside derivatives depended on the species and tissue type. These results may provide useful information for the evaluation and selection of edible Malus fruits and the materials for quercetin glycoside extraction.

A Review on Structure, Modifications and Structure-Activity Relation of Quercetin and Its Derivatives

  • Magar, Rubin Thapa;Sohng, Jae Kyung
    • Journal of Microbiology and Biotechnology
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    • v.30 no.1
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    • pp.11-20
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    • 2020
  • Quercetin and its derivatives are important metabolites that belong to the flavonol class of flavonoids. Quercetin and some of the conjugates have been approved by the FDA for human use. They are widely distributed among plants and have various biological activities, such as being anticancer, antiviral, and antioxidant. Hence, the biosynthesis of novel derivatives is an important field of research. Glycosylation and methylation are two important modification strategies that have long been used and have resulted in many novel metabolites that are not present in natural sources. A strategy for modifying quercetin in E. coli by means of glycosylation, for example, involves overexpressing respective glycosyltransferases (GTs) in the host and metabolic engineering for increasing nucleoside diphosphate sugar (NDP-sugar). Still others have used microorganisms other than E. coli, such as Streptomyces sp., for the biotransformation process. The overall study of the structural activity relationship has revealed that modification of some residues in quercetin decreased one activity but increased others. This review summarizes all of the information mentioned above.

Synthesis of Quercetin and Luteolin Derivatives with Cell Proliferation Inhibitory Activity and Toxicity in B16 Melanoma Cells

  • Jongyun Jang;Seong Uk Lee;Yoon Hee Kim;Dong Wook Kang
    • Journal of the Korean Chemical Society
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    • v.67 no.3
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    • pp.181-190
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    • 2023
  • Melanoma is a malignant skin tumor caused by damage to melanocytes that can spread to other organs. Hence, various studies have been conducted on preventing the spread of melanoma. Flavonoid-structured substances such as apigenin and galanzin are effective therapeutic agents for inhibiting the proliferation and metastasis of melanoma. In this study, luteolin, quercetin, and their respective derivatives were synthesized. These compounds inhibited cell proliferation of B16 melanoma cells. These results confirmed that the derivatives of quercetin and luteolin may be useful as therapeutic agents to prevent melanoma metastasis.

Natural Quercetin Derivatives: Structures and Biological Activities Based on Enzyme Inhibition (천연물질 퀘르세틴 유도체의 다양한 구조 및 효소 저해 활성)

  • Na Rae Kang;Yun Gon Son;Jeong Yoon Kim
    • Journal of Life Science
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    • v.34 no.9
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    • pp.656-665
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    • 2024
  • Enzymes, as proteins that regulate various metabolic processes within the human body, play a crucial role in maintaining health. However, the overexpression of certain enzymes can disrupt metabolic balance, leading to various diseases. Enzyme inhibitors are vital in treating these diseases or conditions by inhibiting the action of these enzymes, making them indispensable in the development of effective therapies for a wide array of diseases. Quercetin, a natural product derived from plants, is a type of flavonoid that belongs to the polyphenol family. Quercetin, a natural flavonoid from the polyphenol family, has emerged as a potent enzyme inhibitor. This low-molecular-weight secondary metabolite is known for its inhibitory effects on enzymes such as α-glucosidase, acetylcholinesterase, bacterial neuraminidase, and xanthine oxidase due to its structural advantages. Quercetin is isolated from biomaterials and can be classified into glycosylated, methoxylated, and alkylated derivatives based on its structural variations. These natural quercetin derivatives possess unique substituents that enable specific binding patterns with catalytic residues in enzyme active sites. Therefore, quercetin derivatives can be expected to have better enzyme inhibitory activity than basic quercetin. Due to their specificity and enhanced activity, quercetin and its derivatives hold promise as candidates for developing potent enzyme inhibitors to treat diseases resulting from enzyme imbalances.

New Flavonol Glycosides from Leaves of Symplocarpus renifolius

  • Whang, Wan-Kyunn;Lee, Moo-Taek
    • Archives of Pharmacal Research
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    • v.22 no.4
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    • pp.423-427
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    • 1999
  • A study was carried out to evaluate flavonol glycosides in leaves of Symplocarpus renifolius (Araceae). From the water fraction of the MeOH extract, three new flavonol glycosides were isolated along with three known compounds, Kaempferol-3-O-$\beta$-glucopyranosyl-($1{\rightarrow}2$)-$\beta$-D-glucopyranosyl-7-O-$\beta$-D-glucopyranoside, quercetin-3-O-$\beta$-D-glucopyranosy-1-($1{\rightarrow}2$)-$\beta$-D-glucopyranoside, and caffeic acid. The structures of the new flavonol glycosides were elucidated by chemical and spectral analyses a quercetin-3-O-$\beta$-D-glucopyranosyl-($1{\rightarrow}2$)-$\beta$-D-glucopyranosyl-7-O-$\beta$-D-glucopyranoside, isorhamnetin-3-O-$\beta$-D-glucopyranosyl-(1 2)-$\beta$-D-glucopyranosyl-7-O-$\beta$-D-glucopyranosdie, and quercetin-3-O$\beta$-D-glucopyranosyl-($1{\rightarrow}2$)-$\beta$-D-glycopyranosyl-7-O-($6^{IIII}$-trans-caffeoyl)-$\beta$-D-glucopyranoside.

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Isolation of Quercetin and Isorhamnetin Derivatives and Evaluation of Anti-microbial and Anti-inflammatory Activities of Persicaria glabra

  • Manivannan, R.;Shopna, R.
    • Natural Product Sciences
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    • v.21 no.3
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    • pp.170-175
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    • 2015
  • The present study aims to detect the rare flavonoids isolated from the leaves of Persicaria glabra. The known flavonoids: quercetin (1), isorhamnetin (2), avicularin (3) and new one isorhamnetin-3-O-α-L-(6''-E-p-coumaroyl)-rhamnoside (4) were identified by HPLC, UV, IR and NMR. P. glabra has used traditionally for its analgesic, anti-inflammatory and anti-rheumatic properties. To find out the ingredients responsible for the efficiency of this plant, we have used to study the anti-microbial and anti-inflammatory activities of different extracts.

Isolation and Antioxidative Activities of Caffeoylquinic Acid Derivatives and Flavonoid Glycosides from Leaves of Sweet Potato (Ipomoea batatas L.)

  • Kim, Hyoung-Ja;Jin, Chang-Bae;Lee, Yong-Sup
    • Biomolecules & Therapeutics
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    • v.15 no.1
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    • pp.46-51
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    • 2007
  • Bioassay-directed chromatographic fractionation of an ethyl acetate extract from leaves of sweet potato (Ipomoea batatas L.) afforded six quinic acid derivatives: 3,5-epi-dicaffeoylquinic acid (1), 3,5-dicaffeoylquinic acid (2), methyl 3,5-O-dicaffeoylquinate (3), methyl 3,4-dicaffeoylquinate (4), methyl 4,5-dicaffeoylquinic acid (5),4,5-dicaffeoylquinate (6), and two phenolic compounds: caffeic acid (7) and caffeic acid methyl ester (8) together with three flavonoids: quercetin 3-O-${\beta}$-D-glucopyranoside (9), quercetin 3-O-${\beta}$-D-glucopyranoside, isoquercitrin (10) and kaempferol 3-O-${\beta}$-D-glucopyranoside (11). The structures of these compounds were elucidated by the aid of spectroscopic methods. These compounds were assessed for antioxidant activities using three different cell-free bioassay systems. All isolates except 11 showed potent DPPH and superoxide anion radicals scavenging, and lipid peroxidation inhibitory activities. 3,5-epi-DCQA (1) and methyl quinates (3-5) along with flavonoide 9 were isolated for the first time from this plant.

Antioxidant Caffeic acid Derivatives from Leaves of Parthenocissus tricuspidata

  • Saleem, Muhammad;Kim, Hyoung-Ja;Jin, Changbae;Lee, Yong-Sup
    • Archives of Pharmacal Research
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    • v.27 no.3
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    • pp.300-304
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    • 2004
  • Five caffeic acid derivatives; methyl ester of caffeoylglycolic acid (1), dimethyl ester of caffeoyltartaric acid (2), dimethyl ester of caffeoyltartronic acid (3), monomethyl ester of caffeoyltartronic acid (4), methyl ester of caffeic acid (5), and some other secondary metabolites including; quercetin, quercetin 3-O-$\beta$-D-glucuronide methyl ester, kaempferol, 3,5,7,4'-O-tetramethylkaempferol, $\beta$-sitosterol glucoside, 2$\alpha$-hydroxyursolic acid and 2,24-dihydroxyursolic acid, have been isolated and characterized. All the isolated compounds were characterized with the help of NMR spectroscopy and mass spectrometry. Structure of compound 3 was also confirmed by a single X-ray crystallographic technique. Isolates were evaluated for anti-oxidant activities and most of the tested compounds were found to be potent in DPPH free radical scavenging ($IC_{50}{\;}={\;}4.56-14.17{\;}{\mu\textrm{g}}/mL$) and superoxide anion scavenging ($IC_{50}{\;}={\;}0.58-7.39{\;}{\mu\textrm{g}}/mL$) assays.

Flavonoid Acetylated Glucosides of the Needles of Pinus densiflora (솔잎의 후라보노이드 아세틸화 배당체)

  • Lee, Sang-Keug;Bae, Young-Soo
    • Journal of the Korean Wood Science and Technology
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    • v.29 no.4
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    • pp.48-52
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    • 2001
  • The needles of Pinus densiflora, grown in the campus of Kangwon National University were collected, extracted with acetone-$H_2O$ (7:3, v/v) and freeze dried to give 10.4 g of ethylacetate soluble powder. A portion of the freeze dried powder was chromatographed on a Sephadex LH-20 column using a series of aqueous methanol and ethanol, and ethanol-hexane mixture as eluents. The extractives contained a large amount of flavan compounds in addition to a small amount of flavonoid derivatives such as kaempferol-3-O-glucopyranoside, and quercetin-(6"-O-acetyl)-glucopyranoside which has not been isolated from this species yet. Some spectrometric analyses such as NMR and FAB-MS were performed to identify the structures of the isolated flavonoid derivatives.

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Stepwise Synthesis of Quercetin Bisglycosides Using Engineered Escherichia coli

  • Choi, Gyu Sik;Kim, Hyeon Jeong;Kim, Eun Ji;Lee, Su Jin;Lee, Youngshim;Ahn, Joong-Hoon
    • Journal of Microbiology and Biotechnology
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    • v.28 no.11
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    • pp.1859-1864
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    • 2018
  • Synthesis of flavonoid glycoside is difficult due to diverse hydroxy groups in flavonoids and sugars. As such, enzymatic synthesis or biotransformation is an approach to solve this problem. In this report, we used stepwise biotransformation to synthesize two quercetin bisglycosides (quercetin 3-O-glucuronic acid 7-O-rhamnoside [Q-GR] and quercetin 3-O-arabinose 7-O-rhamnoside [Q-AR]) because quercetin O-rhamnosides contain antiviral activity. Two sequential enzymatic reactions were required to synthesize these flavonoid glycosides. We first synthesized quercetin 3-O-glucuronic acid [Q-G], and quercetin 3-O-arabinose [Q-A] from quercetin using E. coli harboring specific uridine diphopsphate glycosyltransferase (UGT) and genes for UDP-glucuronic acid and UDP-arabinose, respectively. With each quercetin 3-O-glycoside, rhamnosylation using E. coli harboring UGT and the gene for UDP-rhamnose was conducted. This approach resulted in the production of 44.8 mg/l Q-GR and 45.1 mg/l Q-AR. This stepwise synthesis could be applicable to synthesize various natural product derivatives in case that the final yield of product was low due to the multistep reaction in one cell or when sequential synthesis is necessary in order to reduce the synthesis of byproducts.