Yun-Dong Gao scite author profile

Yun-Dong Gao

3Publications

28Citation Statements Received

59Citation Statements Given

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140

Affiliations

Chengdu Institute of Biology, Chinese Academy of Sciences, University of Chinese Academy of Sciences

Publications

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Integrative analysis of the steroidal alkaloids distribution and biosynthesis of bulbs Fritillariae Cirrhosae through metabolome and transcriptome analyses

Liao

et al. 2022

BMC Genomics

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Background Bulbus Fritillariae Cirrhosae (BFC) is an endangered high-altitude medicine and food homology plant with anti-tumor, anti-asthmatic, and antitussive activities as it contains a variety of active ingredients, especially steroidal alkaloids. Bulbus Fritillariae Thunbergia (BFT) is another species of Fritillaria that grows at lower altitude areas. Production of plant-derived active ingredients through a synthetic biology strategy is one of the current hot topics in biological research, which requires a complete understanding of the related molecular pathways. Our knowledge of the steroidal alkaloid biosynthesis in Fritillaria species is still very limited. Results To promote our understanding of these pathways, we performed non-target metabolomics and transcriptome analysis of BFC and BFT. Metabolomics analysis identified 1288 metabolites in BFC and BFT in total. Steroidal alkaloids, including the proposed active ingredients of Fritillaria species peimine, peimisine, peiminine, etc., were the most abundant alkaloids detected. Our metabolomics data also showed that the contents of the majority of the steroidal alkaloids in BFC were higher than in BFT. Further, our comparative transcriptome analyses between BFC and BFT identified differentially expressed gene sets among these species, which are potentially involved in the alkaloids biosynthesis of BFC. Conclusion These findings promote our understanding of the mechanism of steroidal alkaloids biosynthesis in Fritillaria species.

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Macro-Morphological and Ecological Variation in Rosa sericea Complex

et al. 2022

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Taxon delimitation and identification are important in many areas of biology, especially in taxonomy and conservation. Taxonomic treatment is required to establish and justify recommendations in conservation biology for the group being considered. Imperfect and controversial taxonomy can undermine conservation assessment. We studied 71 populations; 665 individuals corresponding to the morphology of the Rosa sericea complex (including six taxa, one of which has extremely narrow distributions) were collected from sympatric, parapatric, and allopatric populations distributed in China. This study aims to investigate whether the complex species are macromorphologically different species and evaluate the rare taxa of the complex for conservation priority. The morphological characters and principal component analysis (PCA) of the R. sericea complex showed that the complex species have overlapping characters but can distinguish morphologically. The species of R. sericea complex systematics status based on previous DNA sequencing is controversial. The ecological habitat’s current morphological characters only delimit the R. morrisonensis (in Taiwan). To evade mistakes in species conservation, we recommend that taxonomical knowledge be needed to ensure success in protecting target species. Thus, the complementarity of systemic and conservation assurance makes conservation actions more necessary for the complex’s rare taxa. The ecological niche modelling (ENM) results showed that habitats of these conspecific taxa would be shrunken. With the presence of snapshots in time, the geography of taxa might decrease rapidly in representative entirely of the Geographic space (G-space) and Environmental space (E-space) that such taxa are bright to inhabit. So far, the significant inferences meant for the niche occupy the most incredible comparative research, taking the impermanent nature of taxa distributions and undertaking that such species are at a state of stability. If the artificially identified species (rarely distributed) are based on morphological identification, they must be conserved.

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Pollen Morphology of Rosa sericea Complex and Their Taxonomic Contribution

et al. 2022

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In this research, the pollen morphology of the Rosa sericea complex has been studied by Scanning Electron Microscope (SEM). The present study aimed to provide baseline information for the taxonomic identification of the R. sericea complex taxa. The pollen sculpture, outline, and aperture show variability in the studied taxa. The R. sericea complex includes taxonomically challenging species with undistinguishable boundaries. Identifying taxon boundaries in closely related species is fundamental to investigating evolution and biodiversity. Taxa circumscription of R. sericea complex is insufficient, unresolved, and is a prerequisite for comprehensive systematic revisions. To resolve these issues, we have attempted to identify some important diagnostic characters for the species of R. sericea complex. This research studied different qualitative and quantitative characteristics of R. sericea complex pollen. The qualitative characteristics included polar and equatorial view, sculpture, pollen outline, apertures, exine, size category, and polarity of pollen. In contrast, the quantitative features include polar and equatorial diameter, P/E, colpi length and width, and distance between colpi. Pollen of this complex is mono and tricolporate. The morphological characters studied here provide very few taxonomic details with which to separate the species of the complex into distinct taxa. Some of the studied characters offer important information for species delimitation including sculpture, pollen outline, and apertures.

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Yun-Dong Gao

Integrative analysis of the steroidal alkaloids distribution and biosynthesis of bulbs Fritillariae Cirrhosae through metabolome and transcriptome analyses

Macro-Morphological and Ecological Variation in Rosa sericea Complex

Pollen Morphology of Rosa sericea Complex and Their Taxonomic Contribution

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