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Your search keyword '"Yong Sheng Ma"' showing total 5 results
Start Over Author "Yong Sheng Ma" Publisher elsevier bv
5 results on '"Yong Sheng Ma"'

4. Improving the accumulation of 18 α -and 18 β -glycyrrhizins by over-expressing GuHMGR , GuSQS 1, and GuBAS genes in Glycyrrhiza uralensis

Author

Yong-sheng Ma, Wen-dong Li, Ying Liu, Bochuan Yuan, Rui Yang, Chunsheng Liu, and Shan Zhou

Subjects
0301 basic medicine, Expression vector, biology, Transgene, Glycyrrhiza uralensis, SQS, HMGR, Agrobacterium tumefaciens, lcsh:RZ409.7-999, biology.organism_classification, Molecular biology, Rhizome, Hypocotyl, Transplantation, 03 medical and health sciences, 030104 developmental biology, Complementary and alternative medicine, Over-expression, β-AS, lcsh:Miscellaneous systems and treatments, Explant culture
Abstract

Objective To study the influence of over-expression of three functional genes involved in GC biosynthetic pathway, GuHMGR , GuSQS 1, and GuBAS on GC production. Methods Three plant expression vectors were constructed and transformed into Agrobacterium tumefaciens EHA105, which were used to infect Glycyrrhiza uralensis hypocotyls explants. After induction, selection, differentiation, culture, and transplantation, 12, 15, and 5 regenerated plants over-expressing GuHMGR , GuSQS 1, and GuBAS , were obtained, respectively. Results RT-PCR analysis showed these transgenic regenerated G. uralensis plants had 2–6 copies of GuHMGR , GuSQS 1, or GuBAS. HPLC analysis showed the contents of 18 α - and 18 β -GC in all transgenic regenerated samples were both higher than that in the blank control. With the increase of copy numbers of GuHMGR , GuSQS 1, and GuBAS , the contents of 18 α - and 18 β -GC were both increased in most samples. The highest 18 α - and 18 β -GC contents in transgenic regenerated plants were about 3.05 times and 2.80 times higher than that in the blank control, respectively. Conclusion Over-expression of the GuHMGR , GuSQS 1, and GuBAS genes enhance the accumulation of 18 α - and 18 β -GC in the roots and rhizomes of G. uralensis . We hope this work can lay a foundation for the molecular breeding research of G. uralensis and improving the quality of the roots and rhizomes of G. uralensis cultivars.

Published
2017

5. HMGR, SQS, β-AS, and Cytochrome P450 Monooxygenase Genes in Glycyrrhiza uralensis

Author

Li-qiang Wang, Bochuan Yuan, Rui Yang, Chunsheng Liu, Ying Liu, and Yong-sheng Ma

Subjects
Pharmacology, Cloning, biology, Traditional medicine, Glycyrrhiza uralensis, Cytochrome P450, Traditional Chinese medicine, Monooxygenase, biology.organism_classification, chemistry.chemical_compound, Complementary and alternative medicine, Biosynthesis, chemistry, biology.protein, Pharmacology (medical), Glycyrrhizin, Gene
Abstract

Glycyrrhiza uralensis is frequently used in traditional Chinese medicine. This plant contains a large amount of effective constituents, including triterpenoids and flavonoids. Among them, glycyrrhizin is believed to be the marker compound to evaluate the quality of G. uralensis based on Chinese Pharmacopoeia. Many studies showed that glycyrrhizin possesses various pharmacological activities, such as antibacterial, antiviral, antitumor, anti-inflammatory, and immune-stimulating activities. In this paper, we summarized the cloning, characterization, expression, and polymorphism analysis of several functional genes involved in glycyrrhizin biosynthesis in G. uralensis.

Published
2015

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