Expression and Purification of Cp3GT: Structural Analysis and Modeling of a Key Plant Flavonol-3-O Glucosyltransferase from Citrus paradisi

Birchfield, Aaron S.; McIntosh, Cecilia A.

doi:10.3390/biotech13010004

BioTech

2024

DOI: 10.3390/biotech13010004

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Expression and Purification of Cp3GT: Structural Analysis and Modeling of a Key Plant Flavonol-3-O Glucosyltransferase from Citrus paradisi

Aaron S. Birchfield,

Cecilia A. McIntosh

Abstract: Glycosyltransferases (GTs) are pivotal enzymes in the biosynthesis of various biological molecules. This study focuses on the scale-up, expression, and purification of a plant flavonol-specific 3-O glucosyltransferase (Cp3GT), a key enzyme from Citrus paradisi, for structural analysis and modeling. The challenges associated with recombinant protein production in Pichia pastoris, such as proteolytic degradation, were addressed through the optimization of culture conditions and purification processes. The purifi… Show more

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2024

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Molecular Structure of Flavonoids Determines the Efficacy of Glycosylation by Amylosucrase

Lee,

Upadhyaya,

Thapa

et al. 2024

Preprint

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Flavonoids are multi-active ingredients found in most cosmetics and are used as antioxidants and calming agents. They are plant-based naturally occurring pharmacological agents with a great deal of therapeutic potential. Glycosylation of flavonoids is a promising way to produce new therapeutics, fluorescent probes, and cosmetics. Amylosucrase (DgAS) isolated from Deinococcus geothermalis is a versatile enzyme that hydrolyses sucrose as well as catalyses transglucosylation with flavonoids, polyphenols, and others. This study aimed to investigate the reasons behind the differential yields of glycosylated flavonoid and their substrate diversification through in vitro assays. Molecular docking and density function theory (DFT)-based analysis were performed with nine substances (apigenin, daidzein, fisetin, kaempferol, luteolin, morin, myricetin, quercetin, and phloretin) to analyze the efficacy of O-glycosylation by DgAS in the presence of sucrose. We found through in vitro and in silico analyses that there is no glycosylation at the C-5 hydroxyl group of ring A and C-4’ hydroxyl group of ring B in flavonoids when reactions are performed using 0.5 µg/ml DgAS at 40°C for 2 h in 50 mM Tris HCl buffer (pH 7), under conditions where the molar ratio of flavonoids to sucrose was 1:50. However, there is mono-glucosylation at hydroxyl group in flavonoids under the same reaction conditions. On the other hand, natural phenol phloretin yielded a di-glucosylated product. It is concluded that the hydroxyl group of the highest acidity (weaker O-H bond) is more prone to glycosylation, and the planarity and stereochemistry of flavonoids also determine the reaction efficacy.

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Molecular Structure of Flavonoids Determines the Efficacy of Glycosylation by Amylosucrase

Lee,

Upadhyaya,

Thapa

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Expression and Purification of Cp3GT: Structural Analysis and Modeling of a Key Plant Flavonol-3-O Glucosyltransferase from Citrus paradisi

Cited by 1 publication

References 57 publications

Molecular Structure of Flavonoids Determines the Efficacy of Glycosylation by Amylosucrase

Molecular Structure of Flavonoids Determines the Efficacy of Glycosylation by Amylosucrase

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