Guangyu Ding scite author profile

Guangyu Ding

4Publications

45Citation Statements Received

199Citation Statements Given

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195

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Southwest University, State Forestry and Grassland Administration

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Evolutionary and functional analysis of mulberry type III polyketide synthases

Han

Liang

et al. 2016

BMC Genomics

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BackgroundType III polyketide synthases are important for the biosynthesis of flavonoids and various plant polyphenols. Mulberry plants have abundant polyphenols, but very little is known about the mulberry type III polyketide synthase genes. An analysis of these genes may provide new targets for genetic improvement to increase relevant secondary metabolites and enhance the plant tolerance to biotic and abiotic stresses.ResultsEighteen genes encoding type III polyketide synthases were identified, including six chalcone synthases (CHS), ten stilbene synthases (STS), and two polyketide synthases (PKS). Functional characterization of four genes representing most of the MnCHS and MnSTS genes by coexpression with 4-Coumaroyl-CoA ligase in Escherichia coli indicated that their products were able to catalyze p-coumaroyl-CoA and malonyl-CoA to generate naringenin and resveratrol, respectively. Microsynteny analysis within mulberry indicated that segmental and tandem duplication events contributed to the expansion of the MnCHS family, while tandem duplications were mainly responsible for the generation of the MnSTS genes. Combining the evolution and expression analysis results of the mulberry type III PKS genes indicated that MnCHS and MnSTS genes evolved mainly under purifying selection to maintain their original functions, but transcriptional subfunctionalization occurred during long-term species evolution. Moreover, mulberry leaves can rapidly accumulated oxyresveratrol after UV-C irradiation, suggesting that resveratrol was converted to oxyresveratrol.ConclusionsCharacterizing the functions and evolution of mulberry type III PKS genes is crucial for advancing our understanding of these genes and providing the basis for further studies on the biosynthesis of relevant secondary metabolites in mulberry plants.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-2843-7) contains supplementary material, which is available to authorized users.

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Biotic stress-induced expression of mulberry cystatins and identification of cystatin exhibiting stability to silkworm gut proteinases

Liang

Wang

Ding

et al. 2015

Planta

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Biotic stresses induce the expression of mulberry cystatins. MaCPI-4 protein is stable in silkworm digestive fluid and accumulates in gut food debris and frass. Plant cystatins are considered to be involved in defense responses to insect herbivores though little is known about how cystatins from the natural host respond to a specialist herbivory and the following postingestive interaction is also poorly understood. Here, we studied the biotic stress-mediated inductions of cystatins from mulberry tree, and examined the stability of mulberry cystatin proteins in the gut of silkworm, Bombyx mori, a specialist insect feeding on mulberry leaf. First, we cloned and characterized six cystatin genes from a mulberry cultivar, Morus atropurpurea Roxb., named as MaCPI-1 to MaCPI-6. The recombinant MaCPI-1, MaCPI-3 and MaCPI-4 proteins, which showed inhibitory effects against papain in vitro, were produced. Silkworm herbivory as well as methyl jasmonate (MeJA) treatment induced the expression of five mulberry cystatin genes, and the highest inductions were observed from MaCPI-1 and MaCPI-6. Mechanical wounding led to the inductions of four cystatin genes. The differential induction occurred in MaCPI-2. The induced protein changes were detected from three mulberry cystatins comprising MaCPI-1, MaCPI-3 and MaCPI-4. In vivo and in vitro assays showed that MaCPI-1 and MaCPI-3 proteins were susceptible to silkworm digestive fluid and MaCPI-4 had an antidigestive stability, and was detected in silkworm gut and frass. Collectively, our data indicated that biotic stresses resulted in the transcriptional inductions and protein changes of mulberry cystatins (MaCPIs), and identified MaCPI-4 with stability in the gut of its specialist herbivore.

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Origin and functional differentiation of (E)-β-ocimene synthases reflect the expansion of monoterpenes in angiosperms

Ding

Zhang

et al. 2020

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The acquisition of new metabolic activities is major force driving evolution. We explored how new functions have arisen diverging terpene synthases (TPSs) from the perspectives of gene family expansion and the evolutionary adaptability of proteins. Monoterpenoids are diverse natural compounds that can be divided into cyclic or acyclic skeleton forms according to their chemical structure. We demonstrate, through phylogenetic reconstructions and genome synteny analyses, that the acyclic monoterpene synthases (mTPSs) (E)-β-ocimene synthases appear to have arisen several times in independent lineages during plant evolution. Bioinformatics analyses and classical mutation experiments identified the four sites (I388-F420-S446-F485) playing important roles in the neofunctionalisation of mTPSs. Incubation of neryl diphosphate (NPP) with Salvia officinalis 1, 8-cineole synthase (SCS) and mutated proteins show that these four sites obstruct the isomerisation of GPP. QM/MM MD simulations of models of SCS, SCSY420F/I446S, and SCSN338I/Y420F/I446S/L485F with (3R)-linalyl diphosphate ((3R)-LPP) suggest that mutations change the configuration of the intermediate to obtain new activities. These results provide new perspectives on the evolution of mTPSs, explain the convergent evolution of (E)-β-ocimene synthases at the molecular level, and identify key residues to control the specificity of engineered mTPSs.

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Functional Characterization of the 1-Deoxy-D-Xylulose 5-Phosphate Synthase Genes in Morus notabilis

Zhang

Ding

et al. 2020

Front. Plant Sci.

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Terpenoids are considered to be the largest group of secondary metabolites and natural products. Studies have revealed 1-deoxy-D-xylulose 5-phosphate synthase (DXS) is the first and rate-limiting enzyme in the plastidial methylerythritol phosphate pathway, which produces isopentenyl diphosphate and its isoform dimethylallyl diphosphate as terpenoid biosynthesis precursors. Mulberry ( Morus L.) is an economically and ecologically important perennial tree with diverse secondary metabolites, including terpenoids that protect plants against bacteria and insects and may be useful for treating human diseases. However, there has been relatively little research regarding DXS genes in mulberry and other woody plant species. In this study, we cloned and functionally characterized three Morus notabilis DXS genes ( MnDXS1 , MnDXS2A , and MnDXS2B ). Bioinformatics analyses indicated MnDXS1 belongs to clade 1, whereas MnDXS2A and MnDXS2B are in clade 2. The three encoded MnDXS proteins are localized to chloroplasts. Additionally, substantial differences in MnDXS expression patterns were observed in diverse tissues and in response to insect feeding and methyl jasmonate treatment. Moreover, overexpression of MnDXS1 in Arabidopsis thaliana increased the gibberellic acid content and resulted in early flowering, whereas overexpression of MnDXS2A enhanced root growth and increased the chlorophyll and carotenoid content. Our findings indicate that MnDXS functions vary among the clades, which may be useful for further elucidation of the functions of the DXS genes in mulberry.

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Guangyu Ding

Evolutionary and functional analysis of mulberry type III polyketide synthases

Biotic stress-induced expression of mulberry cystatins and identification of cystatin exhibiting stability to silkworm gut proteinases

Origin and functional differentiation of (E)-β-ocimene synthases reflect the expansion of monoterpenes in angiosperms

Functional Characterization of the 1-Deoxy-D-Xylulose 5-Phosphate Synthase Genes in Morus notabilis

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