Bioconversion, Pharmacokinetics, and Therapeutic Mechanisms of Ginsenoside Compound K and Its Analogues for Treating Metabolic Diseases

Current Issues in Molecular Biology, Journal Year: 2024, Volume and Issue: 46(3), P. 2320 - 2342

Published: March 11, 2024

Rare ginsenoside compound K (CK) is an intestinal microbial metabolite with a low natural abundance that primarily produced by physicochemical processing, side chain modification, or metabolic transformation in the gut. Moreover, CK exhibits potent biological activity compared to primary ginsenosides, which has raised concerns field of ginseng research and development, as well ginsenoside-related dietary supplements products. Ginsenosides Rb1, Rb2, Rc are generally used substrate generate via several bioconversion processes. Current shows wide range pharmacological actions, including boosting osteogenesis, lipid glucose metabolism, oxidation, insulin resistance, anti-inflammatory anti-apoptosis properties. Further on bioavailability toxicology can advance its medicinal application. The purpose this review lay groundwork for future clinical studies development therapy disorders. Furthermore, pharmacology investigated review. findings indicate modulates signaling pathways associated AMPK, SIRT1, PPARs, WNTs, NF-kB. It also demonstrates positive therapeutic effect non-alcoholic fatty liver disease (NAFLD), obesity, hyperlipidemia, diabetes, complications, osteoporosis. Additionally, analogues showed more bioavailability, less toxicity, efficacy against states. Enhancing regulating hazardous variables crucial use trials.

Language: Английский

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Targeted preparation of six rare ginsenosides using two β-glucosidases from Bifidobacterium adolescentis

Food Bioscience, Journal Year: 2024, Volume and Issue: 59, P. 104192 - 104192

Published: April 26, 2024

Language: Английский

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Cell factories for methylerythritol phosphate pathway mediated terpenoid biosynthesis: An application of modern engineering towards sustainability

Process Biochemistry, Journal Year: 2024, Volume and Issue: 139, P. 146 - 164

Published: Feb. 5, 2024

Language: Английский

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Biosynthesis of Naringenin from p-Coumaric Acid in Engineering Oleaginous Filamentous Fungus Mucor circinelloides

ACS Food Science & Technology, Journal Year: 2024, Volume and Issue: 4(3), P. 747 - 756

Published: March 6, 2024

Oleaginous microorganisms have a large potential to be cell factory produce naringenin due their active fatty acid anabolism offering amounts of malonyl-CoA as the substrate for synthesis. However, only few studies reported production flavonoids in oleaginous microorganisms, e.g., Yarrowia lipolytica and Rhodosporidium toruloides. The fungus Mucor circinelloides produces β-carotene 15–36% dry weight lipids. This study is first time engineer an fungus, M. circinelloides, by heterologously expressing flavonoid biosynthetic genes 4CL, CHS, CHI recombinant product from p-coumaric acid. Limitation this present work that titer produced strains 2.2 mg/L degradation may exist circinelloides. Moreover, also provided three gene expression platform driven promoters transplant synthesis pathway interesting natural products into model Finally, multifunctional obtained effectively

Language: Английский

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A Versatile β-Glycosidase from Petroclostridium xylanilyticum Prefers the Conversion of Ginsenoside Rb3 over Rb1, Rb2, and Rc to Rd by Its Specific Cleavage Activity toward 1,6-Glycosidic Linkages

Journal of Agricultural and Food Chemistry, Journal Year: 2024, Volume and Issue: 72(31), P. 17510 - 17523

Published: July 25, 2024

To convert ginsenosides Rb1, Rb2, Rb3, and Rc into Rd by a single enzyme, putative β-glycosidase (Pxbgl) from the xylan-degrading bacterium Petroclostridium xylanilyticum was identified used. The kcat/Km value of Pxbgl for Rb3 18.18 ± 0.07 mM–1/s, which significantly higher than those other ginsenosides. converted almost all to with productivity 5884 μM/h, 346-fold that only β-xylosidase Thermoascus aurantiacus. Panax ginseng root notoginseng leaf 146 995 respectively. Mutants N293 K I447L site-directed mutagenesis based on bioinformatics analysis showed an increase in specific activity 29 7% toward This is first report can simultaneously remove four different glycosyls at C–20 position natural PPD-type produce as sole product P. extracts highest productivity.

Language: Английский

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Bioconversion, Pharmacokinetics, and Therapeutic Mechanisms of Ginsenoside Compound K and Its Analogues for Treating Metabolic Diseases

Published: Feb. 2, 2024

Rare ginsenoside compound K (CK), is an intestinal microbial metabolite with a low natural abundance that primarily produced by physicochemical processing, side chain modification, or metabolic transformation in the gut. Moreover, CK exhibits potent biological activity compared to primary ginsenosides, which has raised concerns field of ginseng research and development as well ginsenosides-related dietary supplements products. Ginsenosides Rb1, Rb2, Rc are generally used substrate generate via several bio-conversion processes. Current shows wide range pharmacological actions including boosting osteogenesis, lipid glucose metabolism, oxidation, insulin resistance, anti-inflammatory, anti-apoptosis properties. Further on bioavailability toxicology can advance its medicinal application. The purpose this review lay groundwork for future clinical studies therapy disorders. Furthermore, pharmacology investigated review. findings indicate modulates signal-ing pathways associated AMPK, SIRT1, PPARs, WNTs, NF-kB. It also demonstrates positive therapeutic effect nonalcoholic fatty liver disease, obesity, hyperlipidemia, diabetes, complications, osteoporosis. Additionally, analogues showed more bioavailability, less toxicity, efficacy against disease states. Enhancing regulating hazardous variables crucial use trials.

Language: Английский

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Immobilization of Bgps-Expressing Escherichia coli cells coated with ZIF-67 for the production of rare ginsenoside F1

Biochemical Engineering Journal, Journal Year: 2024, Volume and Issue: 210, P. 109432 - 109432

Published: July 14, 2024

Language: Английский

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Residue Effect-Guided Design: Engineering of S. Solfataricus β-Glycosidase to Enhance Its Thermostability and Bioproduction of Ginsenoside Compound K

Journal of Agricultural and Food Chemistry, Journal Year: 2023, Volume and Issue: 71(44), P. 16669 - 16680

Published: Oct. 9, 2023

β-Glycosidase from Sulfolobus solfataricus (SS-BGL) is a highly effective biocatalyst for the synthesis of compound K (CK) glycosylated protopanaxadiol ginsenosides. In order to improve thermal stability SS-BGL, molecular dynamics simulations were used determine residue-level binding energetics ginsenoside Rd in SS-BGL-Rd docked complex and identify top ten critical contributors. Target sites mutations determined using dynamic cross-correlation mapping residues via Ohm server networks distal that interact with key residues. rationally based on site characteristics. Single mutants then recombination hits led two most promising variants SS-BGL-Q96E/N97D/N302D SS-BGL-Q96E/N97D/N128D/N302D 2.5-fold 3.3-fold increased half-lives at 95 °C, respectively. The enzyme activities relative those wild-type conversion 161 116%, respectively..

Language: Английский

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Strategic enrichment of ocotillol-type ginsenosides F11, RT5 and ocotillol from Panax quinquefolium

Industrial Crops and Products, Journal Year: 2024, Volume and Issue: 218, P. 118953 - 118953

Published: June 14, 2024

Language: Английский

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A GH1 β-glucosidase from the Fervidobacterium pennivorans DSM9078 showed extraordinary thermostability and distinctive ability in the efficient transformation of ginsenosides

Bioorganic Chemistry, Journal Year: 2024, Volume and Issue: 154, P. 108049 - 108049

Published: Dec. 9, 2024

Language: Английский

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