Bioactive Saponins and Glycosides. VII. On the Hypoglycemic Principles from the Root Cortex of Aralia elata SEEM.: Structure Related Hypoglycemic Activity of Oleanolic Acid Oligoglycoside.

Abstract Background: Members of the cytochrome P450 (CYP450) and UDP-glycosyltransferases (UGT) gene superfamily have been shown to play essential roles in regulating secondary metabolites biosynthesis. However, the systematic identification of CYP450s and UGTs have not been reported in Aralia elata (Miq.) Seem , a highly valued medicinal plant. Results: In the present study we conducted the RNA-sequencing (RNA-seq) analysis of the leaves, stems, and roots of A. elata, yielding 66,713 total unigenes. Following the annotation and KEGG pathway analysis, we were able to identify 64 unigenes related to triterpenoid skeleton biosynthesis, 254 CYP450s and 122 UGTs, respectively. 150 CYP450s and 92 UGTs encoding >300 amino acid proteins were utilized for phylogenetic and tissue-specific expression analyses. This allowed us to cluster 150 CYP450s into 9 clans and 40 families, and then these CYP450 proteins were further grouped into two primary branches: A-type (53%) and non-A type (47%). A phylogenetic analysis of 92 UGTs and other plant UGTs led to clustering into 16 groups (A-P). We further assessed the expression patterns of these CYP450 and UGT genes across A. elata tissues, with 23 CYP450 and 16 UGT members being selected for qRT-PCR validation, respectively. From these data, we identified CYP716A295 and CYP716A296 as the candidate genes most likely to be associated with oleanolic acid synthesis, while CYP72A763 and CYP72A776 was identified as being the most likely to play a role in hederagenin biosynthesis. We also selected five unigenes as the best candidates for oleanolic acid 3-O-glucosyltransferase. Finally, we assessed the subcellular localization of three CYP450 proteins within Arabidopsis protoplasts, highlighting the fact that they localize to the endoplasmic reticulum. Conclusions: This study presents a systematic analysis of the CYP450 and UGT gene family in A. elata and provided a foundation for further functional characterization of these two multigene family.

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Triterpenoid saponin, oleanolic acid 3-O-β-d-glucopyranosyl(1→3)-α-l-rhamnopyranosyl(1→2)-α-l-arabinopyranoside (OA) from Aralia elata inhibits LPS-induced nitric oxide production by down-regulated NF-κB in raw 264.7 cells

Archives of Biochemistry and Biophysics ◽

10.1016/j.abb.2007.08.025 ◽

2007 ◽

Vol 467 (2) ◽

pp. 227-233 ◽

Cited By ~ 39

Author(s):

Seok-Jong Suh ◽

Un-Ho Jin ◽

Kyung-Woon Kim ◽

Jong-Keun Son ◽

Seung Ho Lee ◽

...

Keyword(s):

Nitric Oxide ◽

Oleanolic Acid ◽

Raw 264.7 Cells ◽

Raw 264.7 ◽

Triterpenoid Saponin ◽

Nitric Oxide Production ◽

Oxide Production ◽

Aralia Elata

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Antidiabetic Principles of Natural Medicines. III. Structure-Related Inhibitory Activity and Action Mode of Oleanolic Acid Glycosides on Hypoglycemic Activity.

Chemical and Pharmaceutical Bulletin ◽

10.1248/cpb.46.1399 ◽

1998 ◽

Vol 46 (9) ◽

pp. 1399-1403 ◽

Cited By ~ 72

Author(s):

Hisashi MATSUDA ◽

Yuhao LI ◽

Toshiyuki MURAKAMI ◽

Narumi MATSUMURA ◽

Johji YAMAHARA ◽

...

Keyword(s):

Oleanolic Acid ◽

Inhibitory Activity ◽

Hypoglycemic Activity ◽

Action Mode ◽

Oleanolic Acid Glycosides ◽

Natural Medicines

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Oleanolic acid saponins from root bark of Aralia elata

Phytochemistry ◽

10.1016/s0031-9422(00)94846-5 ◽

1994 ◽

Vol 35 (5) ◽

pp. 1319-1324 ◽

Cited By ~ 33

Author(s):

Shigeru Sakai ◽

Masumi Katsumata(Nee Ohtsuka) ◽

Yohko Satoh ◽

Miki Nagasao ◽

Masazumi Miyakoshi ◽

...

Keyword(s):

Oleanolic Acid ◽

Root Bark ◽

Aralia Elata

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Identification and analysis of CYP450 and UGT supergene family members from the transcriptome of Aralia elata (Miq.) Seem reveal candidate genes for triterpenoid saponin biosynthesis

10.21203/rs.2.20462/v4 ◽

2020 ◽

Author(s):

Yao Cheng ◽

Hanbing Liu ◽

Xuejiao Tong ◽

Zaimin Liu ◽

Xin Zhang ◽

...

Keyword(s):

Candidate Genes ◽

Oleanolic Acid ◽

Expression Patterns ◽

Functional Characterization ◽

Acid Synthesis ◽

Triterpenoid Saponin ◽

Specific Expression ◽

Systematic Analysis ◽

Saponin Biosynthesis ◽

Aralia Elata

Abstract Background: Members of the cytochrome P450 (CYP450) and UDP-glycosyltransferase (UGT) gene superfamily have been shown to play essential roles in regulating secondary metabolite biosynthesis. However, the systematic identification of CYP450s and UGTs has not been reported in Aralia elata (Miq.) Seem, a highly valued medicinal plant. Results: In the present study, we conducted the RNA-sequencing (RNA-seq) analysis of the leaves, stems, and roots of A. elata, yielding 66,713 total unigenes. Following annotation and KEGG pathway analysis, we were able to identify 64 unigenes related to triterpenoid skeleton biosynthesis, 254 CYP450s and 122 UGTs, respectively. A total of 150 CYP450s and 92 UGTs encoding >300 amino acid proteins were utilized for phylogenetic and tissue-specific expression analyses. This allowed us to cluster 150 CYP450s into 9 clans and 40 families, and then these CYP450 proteins were further grouped into two primary branches: A-type (53%) and non-A-type (47%). A phylogenetic analysis of 92 UGTs and other plant UGTs led to clustering into 16 groups (A-P). We further assessed the expression patterns of these CYP450 and UGT genes across A. elata tissues, with 23 CYP450 and 16 UGT members being selected for qRT-PCR validation, respectively. From these data, we identified CYP716A295 and CYP716A296 as the candidate genes most likely to be associated with oleanolic acid synthesis, while CYP72A763 and CYP72A776 were identified as being the most likely to play roles in hederagenin biosynthesis. We also selected five unigenes as the best candidates for oleanolic acid 3-O-glucosyltransferase. Finally, we assessed the subcellular localization of three CYP450 proteins within Arabidopsis protoplasts, highlighting the fact that they localize to the endoplasmic reticulum.Conclusions: This study presents a systematic analysis of the CYP450 and UGT gene family in A. elata and provides a foundation for further functional characterization of these two multigene families.

Download Full-text