Functional genomics uncovers three glucosyltransferases involved in the synthesis of the major sweet glucosides of <i>Stevia rebaudiana</i>

Richman, Alex; Swanson, Andrew K.; Humphrey, Tania; Chapman, Ralph; McGarvey, Brian D.; Pocs, Robert; Brandle, J. E.

doi:10.1111/j.1365-313x.2004.02275.x

Cited by 224 publications

(247 citation statements)

References 38 publications

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“…Thus, the significant correlation between total SVgly accumulation and transcription of UGT85C2 suggests the UGT85C2 enzyme as a rate‐limiting step of SVgly biosynthesis. UGT76G1 modulates the synthesis of stevioside and rebaudioside A 9, 10. In the present study, the transcription of UGT74G1 was significantly reduced in polyethylene glycol‐treated plants, which is supported by the results of Yang et al .…”

Section: Discussionsupporting

confidence: 89%

“…In Stevia , geranylgeranyl‐diphosphate (GGDP) is converted into steviol by the consecutive action of four enzymes: copalyl diphosphate synthase (CPPS), ent‐kaurene synthase (KS), ent‐kaurene oxidase (KO), and ent‐kaurenoic acid hydroxylase (KAH). Different SVglys are formed by glycosylation of steviol by specific glycosyltransferases (UGTs) 8, 9, 10, 11 (Fig. 2).…”

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confidence: 99%

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Gene transcription and steviol glycoside accumulation in Stevia rebaudiana under polyethylene glycol‐induced drought stress in greenhouse cultivation

Hajihashemi

Geuns

2016

FEBS Open Bio

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Stevia rebaudiana is a sweet herb of the Astraceae family, which is cultivated for the natural sweeteners it contains. The aim of this study was to assess the effect of drought, simulated by the application of polyethylene glycol (5%, 10%, and 15% w/v), on the content of steviol glycosides (SVglys) and transcription levels of six genes involved in the biosynthesis of these natural sweeteners. The transcription levels of ent‐kaurene synthase, ent‐kaurene oxidase, ent‐kaurenoic acid hydroxylase, and three UDP‐dependent glycosyltransferases, UGT85C2, UGT74G1 and UGT76G1 were downregulated under polyethylene glycol treatment. Polyethylene glycol treatment significantly decreased the amount of stevioside, rebaudioside A, B, C and F, steviolbioside, dulcoside A, rubusoside, and total SVglys. These results strongly suggest a close relationship of SVglys content with the transcription of genes involved in the SVglys biosynthesis pathway. Comparing the observations of the present study with other reports provided the knowledge that the Stevia response to drought stress can be influenced by different environmental and experimental factors, in addition to intensity of drought stress. In conclusion, these results strongly suggest that polyethylene glycol‐induced drought stress has a negative effect on the content of SVglys and transcription of SVglys biosynthetic genes and that this should be investigated further. We recommend that sufficient irrigation of Stevia is required to obtain a high content of SVglys.

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Section: Discussionsupporting

confidence: 89%

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confidence: 99%

Gene transcription and steviol glycoside accumulation in Stevia rebaudiana under polyethylene glycol‐induced drought stress in greenhouse cultivation

Hajihashemi

Geuns

2016

FEBS Open Bio

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“…2.4) is a key mechanism in the metabolic homoeostasis of plant cells. Potential acceptor molecules can be plant hormones (Hou et al 2004), endogenous synthesized secondary metabolites (Richman et al 2005) as well as xenobiotics (Messner et al 2003). With their multiple functions and the variety of possible substrates, glycosyltransferases play a major role in buffering the impacts of either biotic or abiotic challenges on the plant (Bowles et al 2005).…”

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confidence: 99%

Metabolism of acetaminophen (paracetamol) in plants—two independent pathways result in the formation of a glutathione and a glucose conjugate

Huber¹,

Bartha²,

Harpaintner³

et al. 2009

Environ Sci Pollut Res

120

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Background, aim, and scope Pharmaceuticals and their metabolites are detected in the aquatic environment and our drinking water supplies. The need for high quality drinking water is one of the most challenging problems of our times, but still only little knowledge exists on the impact of these compounds on ecosystems, animals, and man. Biological waste water treatment in constructed wetlands is an effective and low-cost alternative, especially for the treatment of non-industrial, municipal waste water. In this situation, plants get in contact with pharmaceutical compounds and have to tackle their detoxification. The mechanisms for the detoxification of xenobiotics in plants are closely related to the mammalian system. An activation reaction (phase I) is followed by a conjugation (phase II) with hydrophilic molecules like glutathione or glucose. Phase III reactions can be summarized as storage, degradation, and transport of the xenobiotic conjugate. Until now, there is no information available on the fate of pharmaceuticals in plants. In this study, we want to investigate the fate and metabolism of N-acetyl-4-aminophenol (paracetamol) in plant tissues using the cell culture of Armoracia rusticana L. as a model system. Materials and methods A hairy root culture of A. rusticana was treated with acetaminophen in a liquid culture. The formation and identification of metabolites over time were analyzed using HPLC-DAD and LC-MS n techniques. Results With LC-MS technique, we were able to detect paracetamol and identify three of its metabolites in root cells of A. rusticana. Six hours after incubation with 1 mM of acetaminophen, the distribution of acetaminophen and related metabolites in the cells resulted in 18% paracetamol, 64% paracetamol-glucoside, 17% paracetamol glutathione, and 1% of the corresponding cysteine conjugate. Discussion The formation of two independently formed metabolites in plant root cells again revealed strong similarities between plant and mammalian detoxification systems. The detoxification mechanism of glucuronization in mammals is mirrored by glucosidation of xenobiotics in plants. Furthermore, in both systems, a glutathione conjugate is formed. Due to the existence of P450 enzymes in plants, the formation of the highly reactive NAPQI intermediate is possible. Conclusions In this study, we introduce the hairy root cell culture of A. rusticana L. as a suitable model system to study the fate of acetaminophen in plant tissues. Our first results point to the direction of plants being able to take up and detoxify the model substrate paracetamol. These first findings underline the great potential of using plants for waste water treatments in constructed wetlands. Recommendations and perspectives This very first study on the detoxification of a widely used antipyretic agent in plant tissues again shows the flexibility of plant detoxification systems and their potential in waste water treatment facilities. This study covers only the very first steps of acetaminophen detoxification in plants; s...

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“…In Gentiana triflora, the blue flower pigmentation results from a delphinidin-3,5,3Ј-tri-Oglucoside (10). Skin color in grape varieties (11), bitterness in citrus (12,13), and sweetness in Stevia leaves (14) are due to the glycosylation of anthocyanin, flavonol (naringenin), or terpene (stevioside), respectively. Furthermore, glycosylation of secondary metabolites impacts disease resistance and plant development (15,16).…”

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confidence: 99%

Mutational Analysis of the Medicago Glycosyltransferase UGT71G1 Reveals Residues That Control Regioselectivity for (Iso)flavonoid Glycosylation

Wang

Dixon

2006

Journal of Biological Chemistry

113

115

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Functional genomics uncovers three glucosyltransferases involved in the synthesis of the major sweet glucosides of Stevia rebaudiana

Cited by 224 publications

References 38 publications

Gene transcription and steviol glycoside accumulation in Stevia rebaudiana under polyethylene glycol‐induced drought stress in greenhouse cultivation

Gene transcription and steviol glycoside accumulation in Stevia rebaudiana under polyethylene glycol‐induced drought stress in greenhouse cultivation

Metabolism of acetaminophen (paracetamol) in plants—two independent pathways result in the formation of a glutathione and a glucose conjugate

Mutational Analysis of the Medicago Glycosyltransferase UGT71G1 Reveals Residues That Control Regioselectivity for (Iso)flavonoid Glycosylation

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