ABSTRACT
Uridine diphosphate glycosyltransferase(UGT) is a highly conserved protein in plants, which usually functions in secondary metabolic pathways. This study used the Hidden Markov Model(HMM) to screen out members of UGT gene family in the whole genome of Dendrobium officinale, and 44 UGT genes were identified. Bioinformatics was used to analyze the structure, phylogeny, and promoter region components of D. officinale genes. The results showed that UGT gene family could be divided into four subfamilies, and UGT gene structure was relatively conserved in each subfamily, with nine conserved domains. The upstream promoter region of UGT gene contained a variety of cis-acting elements related to plant hormones and environmental factors, indicating that UGT gene expression may be induced by plant hormones and external environmental factors. UGT gene expression in different tissues of D. officinale was compared, and UGT gene expression was found in all parts of D. officinale. It was speculated that UGT gene played an important role in many tissues of D. officinale. Through transcriptome analysis of D. officinale mycorrhizal symbiosis environment, low temperature stress, and phosphorus deficiency stress, this study found that only one gene was up-regulated in all three conditions. The results of this study can help understand the functions of UGT gene family in Orchidaceae plants and provide a basis for further study on the molecular regulation mechanism of polysaccharide metabolism pathway in D. officinale.
Subject(s)
Dendrobium/genetics , Plant Growth Regulators , Glycosyltransferases/metabolism , Gene Expression Profiling , Mycorrhizae , Phylogeny , Plant Proteins/metabolismABSTRACT
OBJECTIVE: To isolate the chemical constituents and screen out the activity index of Dendrobium officinale, and establish a reliable method for isolation and determination. METHODS: A supercritical fluid extraction (SFE) combined with simulated moving bed (SMB) chromatography method was established for the chemical composition extraction of D. officinale. RESULTS: Under the optimal SFE condition 46 g crude extract and 30 mg naringenin could be obtained from 1 kg of dried D. officinale. Naringenin and peak X could be fully extracted and isolation by the optimal supercritical fluid simulated moving bed (SF-SMB) operation. The content of naringenin increased from 1 199 mg to 2 400 mg in 1 kg of crude extract and the percentage content of peak X increased from 4.99% to 20.44%. The pure peak X was isolation by SMB and identified as 2, 6 -dimethoxy-4-(2-propen-1-yl)-phenol using GC-MS, 1H-NMR, and IR. CONCLUSION: The technology of SFE combined with SMB is stable and excellent for extraction and isolation of the active ingredients from D. officinale, and it provides a new idea for the industrial extraction.
ABSTRACT
In order to breed and spread a new cultivar of Curcuma wenyujin, the C. wenyujin germplasm resources were investigated in authentic regions. Better varieties were chosen by comparing the yield, economic characters and quality differences between different cultivars. The results showed that the character of new selected cultivar was stable, the yield of zedoary, turmeric and curcuma was reached 313.7, 177.9, 91.2 kg per 667 m2, respectively, it increased 11.6%, 10.2%, 14.2% comparing with farmer varieties. The volatile oil contents in zedoary and turmeric was 4.0%, 3.0%, respectively. The target ingredients (germacrone) content was stable. It is demonstrated that the new cultivar "Wenyujin No. 1" has value for extension at authentic regions.
Subject(s)
Breeding , China , Curcuma , Chemistry , Oils, Volatile , Plant ExtractsABSTRACT
<p><b>OBJECTIVE</b>To study on growth characteristics of Curcuma wenyujin, and provide theoretical basis for the development of high-quality and high-yield medical material.</p><p><b>METHOD</b>The morphological change of the plant was observed periodically, the content of volatile oil and dry matter in leaves, rhizome, root tuber was determine.</p><p><b>RESULT</b>The growth of C. wenyujin could be divided into 5 stages, i. e. seed germination, seedling, leaf growth, rhizome expansion, accumulation of dry matter, respectively. Before the stage of rhizome expansion, over 70% dry matter was accumulated in the aerial part of the plant, and during the stage of leaf growth, the maximum increase rate of dry matter in aerial part was 3.90 g/p/d. During the stage of rhizome expansion, the ratio of dry matter of rhizome increased quickly and reached above 33% , and the increase rate of dry matter of rhizome rise up to 3.83 g/p/d, in the end of the stage, the content of volatile oil in the rhizome also rose up to 1.20 mL x 100 g(-1).</p><p><b>CONCLUSION</b>During the whole growth stage, there are two growth centers, when the two curves of dry matter increase of aerial part and rhizome intersect, it is regarded as a signal that the growth transformed form the aerial part to rhizome. When the rate of dry matter from rhizome rise, the content of volatile oil in rhizome rises quickly with the increase of dry matter in rhizome. The optimal harvest time is in mid-December.</p>
Subject(s)
Curcuma , Chemistry , Germination , Oils, Volatile , Plant Components, Aerial , Chemistry , Plant Leaves , Chemistry , Plant Roots , Chemistry , Plants, Medicinal , Chemistry , Rhizome , Chemistry , Seasons , Seedlings , Chemistry , SeedsABSTRACT
<p><b>OBJECTIVE</b>To investigate the chemical constituents from aerial part of Curcuma wenyujin.</p><p><b>METHOD</b>Compounds were isolated by repeated column chromatography on silica gel. Their structures were elucidated on the basis of spectral analysis and comparison with literature data.</p><p><b>RESULT</b>Six compounds were isolated and identified as codonolactone (1), voleneol (2), octacosanoic acid (3), beta-sitosterol (4), mangdesisterol (5), and daucosterol (6).</p><p><b>CONCLUSION</b>Compounds 1, 2, and 5 were isolated from the plant for the first time.</p>