Xueting Fang scite author profile

Xueting Fang

3Publications

20Citation Statements Received

188Citation Statements Given

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Wuhan University, Fujian Medical University

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Rheb phosphorylation is involved in p38-regulated/activated protein kinase-mediated tumor suppression in liver cancer

Zheng

Zang

Xie

et al. 2015

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Abstract. Ras homolog enriched in brain (Rheb) is a key regulator of mammalian target of rapamycin complex 1 (mTORC1). The Rheb-mTORC1 axis is a pivotal pathway that mediates cell growth. It was previously reported that upon energy-stress stimulation, the phosphorylation of Rheb at serine 130 by p38-regulated/activated protein kinase (PRAK) results in the impaired nucleotide binding ability of Rheb and inhibits Rheb-mediated mTORC1 activation. However, the role of Rheb phosphorylation in cancer development remains to be elucidated. The aim of the present study was to determine the effect of Rheb phosphorylation on tumor growth in vitro and in vivo. In addition, tissue samples were obtained from 70 hepatocellular carcinoma (HCC) patients in order to determine any associations between Rheb phosphorylation and the clinicopathological characteristics of patients. In vitro and ex vivo kinase assays were performed to determine the phosphorylation of Rheb by PRAK. A xenograft assay was performed to assess tumorigenicity of MEF cell lines. In addition, western blot and immunohistochemical analyses were performed to detect Rheb protein expression and phosphorylation. The results of the present study revealed that Rheb phosphorylation may be induced through Ras overexpression. In addition, kinase-dead PRAK and dominant-negative PRAK mutation were demonstrated to abolish the Rheb phosphorylation induced by Ras overexpression. Xenograft assays in nude mice revealed that Rheb phosphorylation was involved in PRAK-mediated tumor suppression. Of note, the clinicopathological analysis of 70 HCC samples determined that Rheb phosphorylation was associated with poor proliferation and the progression of HCC. In conclusion, the results of the present study suggested that Rheb phosphorylation may have an important role as an intracellular barrier to cancer development.

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Functional characterization and structural basis of a reversible glycosyltransferase involves in plant chemical defence

Cheng

Fang

Guan

et al. 2023

Plant Biotechnology Journal

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SummaryPlants experience numerous biotic stresses throughout their lifespan, such as pathogens and pests, which can substantially affect crop production. In response, plants have evolved various metabolites that help them withstand these stresses. Here, we show that two specialized metabolites in the herbaceous perennial Belamcanda chinensis, tectorigenin and its glycoside tectoridin, have diverse defensive effects against phytopathogenic microorganisms and antifeeding effects against insect pest. We further functionally characterized a 7‐O‐uridine diphosphate glycosyltransferase Bc7OUGT, which catalyses a novel reversible glycosylation of tectorigenin and tectoridin. To elucidate the catalytic mechanisms of Bc7OUGT, we solved its crystal structure in complex with UDP and UDP/tectorigenin respectively. Structural analysis revealed the Bc7OUGT possesses a narrow but novel substrate‐binding pocket made up by plentiful aromatic residues. Further structure‐guided mutagenesis of these residues increased both glycosylation and deglycosylation activities. The catalytic reversibility of Bc7OUGT was also successfully applied in an one‐pot aglycon exchange reaction. Our findings demonstrated the promising biopesticide activity of tectorigenin and its glycosides, and the characterization and mechanistic study of Bc7OUGT could facilitate the design of novel reversible UGTs to produce valuable glycosides with health benefits for both plants and humans.

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Characterization of benzylisoquinoline alkaloid methyltransferases in Liriodendron chinense provides insights into the phylogenic basis of angiosperm alkaloid diversity

et al. 2022

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SUMMARY Benzylisoquinoline alkaloids (BIAs) are a class of plant secondary metabolites with great pharmacological value. Their biosynthetic pathways have been extensively elucidated in the species from the Ranunculales order, such as poppy and Coptis japonica, in which methylation events play central roles and are directly responsible for BIA chemodiversity. Here, we combined BIA quantitative profiling and transcriptomic analyses to identify novel BIA methyltransferases (MTs) from Liriodendron chinense, a basal angiosperm plant. We identified an N‐methyltransferase (LcNMT1) and two O‐methyltransferases (LcOMT1 and LcOMT3), and characterized their biochemical functions in vitro. LcNMT1 methylates (S)‐coclaurine to produce mono‐ and dimethylated products. Mutagenesis experiments revealed that a single‐residue alteration is sufficient to change its substrate selectivity. LcOMT1 methylates (S)‐norcoclaurine at the C6 site and LcOMT3 methylates (S)‐coclaurine at the C7 site, respectively. Two key residues of LcOMT3, A115 and T301, are identified as important contributors to its catalytic activity. Compared with Ranunculales‐derived NMTs, Magnoliales‐derived NMTs were less abundant and had narrower substrate specificity, indicating that NMT expansion has contributed substantially to BIA chemodiversity in angiosperms, particularly in Ranunculales species. In summary, we not only characterized three novel enzymes that could be useful in the biosynthetic production of valuable BIAs but also shed light on the molecular origin of BIAs during angiosperm evolution.

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Xueting Fang

Rheb phosphorylation is involved in p38-regulated/activated protein kinase-mediated tumor suppression in liver cancer

Functional characterization and structural basis of a reversible glycosyltransferase involves in plant chemical defence

Characterization of benzylisoquinoline alkaloid methyltransferases in Liriodendron chinense provides insights into the phylogenic basis of angiosperm alkaloid diversity

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