ABSTRACT
The family Gentianaceae are found mostly on the Qinghai-Tibet Plateau in China, which have important medicinal properties. Based on 27 published complete chloroplast genome sequences from Gentiana, Swertia, Halenia, Menyanthes, and Nymphoides of Gentianaceae, the chloroplast genome structure was analyzed. The cp genome sizes of 27 taxa range from 137 to 154 kb, and they contain 101-114 unique genes, including 67-80 protein-coding genes, 30 tRNA genes and four rRNA genes. Also, a Bayesian phylogenetic tree was constructed based on the 27 cp genome sequences with Pentalinon luteum (Apocynaceae) as the outgroup. The tree was topologically consistent with the treatments of traditional taxonomy, and the cp genome sequences have genus- or section-level resolution. In addition, we reviewed the significance of species identification within the family. These cp genome sequences could provide basic data for the endangered species conservation, the genetic analysis and pharmacognostic researches of herbs from Gentianaceae.
ABSTRACT
Gentianae Macrophyllae Radix is a Chinese traditional Tibetan herb, belonging to Sect. Cruciata Gaudin of Gentiana genus. Which originated from Qinghai-Tibetan Plateau and adjacent regions and had significant pharmaceutical effect on lots of disease. In this review, we summarized the research advance studies on morphologic, biochemical, and genetic diversity on this species in the past 20 years, which could provide the help for germplasm protection, identification, and evolutionary adaptation works in the future.
ABSTRACT
Gentiana L. is the largest genera in Gentianaceae. Plants in Gentiana L. contain a lot of chemical constituents with pharmacological activities, especially iridoids. Iridoids has good hepatoprotective, anti-inflammatory, antipyretic, antiviral, and other pharmacological effects. This article summarizes the research progress of iridoids in plants from Gentiana L., which provide references for the studies of chemical constituents in Gentiana L. and the exploitation of medicinal resources.
ABSTRACT
The ITS2 barcode was used toidentify Tibetan medicine "Dida", and tosecure its quality and safety in medication. A total of 13 species, 151 experimental samples for the study from the Tibetan Plateau, including Gentianaceae Swertia, Halenia, Gentianopsis, Comastoma, Lomatogonium ITS2 sequences were amplified, and purified PCR products were sequenced. Sequence assembly and consensus sequence generation were performed using the CodonCode Aligner V3.7.1. The Kimura 2-Parameter (K2P) distances were calculated using MEGA 6.0. The neighbor-joining (NJ) phylogenetic trees were constructed. There are 31 haplotypes among 231 bp after alignment of all ITS2 sequence haplotypes, and the average G±C content of 61.40%. The NJ tree strongly supported that every species clustered into their own clade and high identification success rate, except that Swertia bifolia and Swertia wolfangiana could not be distinguished from each other based on the sequence divergences. DNA barcoding could be used as a fast and accurate identification method to distinguish Tibetan medicine "Dida" to ensure its safe use.
ABSTRACT
Objective: To search for the potential medicinal plant part of Gentiana macrophylla based on changes of secondary metabolites and trace elements in the flowers of G. macrophylla. Methods: HPLC was used to detect the changes of the active constituents (longanic acid, sweroside, gentiopicroside, and swertiamarin) and ICP-AES was used for mineral nutrients in G. macrophylla during flower development. And soluble sugar, starch, crude protein, hemicelluloses, cellulose, and lignin were determined. Results: Biomass of flower in full bloom (D2) phase was considerable during flower development, in which the contents of longanic acid and gentiopicroside were at the highest levels with 2.65 and 2.88 times higher than those recorded in Chinese Pharmacopoeia 2010, sweroside and swertiamarin in the flowers were reaching 6.06 and 1.25 times higher than those in roots. Florescence is the most valuable stage during flower development. The concentration of Fe, Mg, K, P, and B was higher in the flowers than that in roots. The accumulation of active constituents in the plant was influenced by the contents of metabolically linked carbon and nitrogen compounds. Conclusion: The secondary metabolites, mineral nutrients, and physicochemical indicators are tightly regulated by flower organ development, D2 is an important stage for both biomass and extraction of active constituents such as longanic acid. The flowers of G. macrophylla could be used as a potential medicinal plant part for longanic acid at a high level. © 2014 Tianjin Press of Chinese Herbal Medicines.
ABSTRACT
Objective: To study the chemical constituents of Swertia cincta. Methods: Preparative liquid chromatography was employed. The structures of the compounds were elucidated by spectroscopic analysis. Results: Three secoiridoid glycosides were isolated from S. cincta and identified as 8-methoxyl-eustomorusside (1), secoiridoids eustomorusside (2), and eustomoside (3). Conclusion: Compound 1 is a new secoiridoid glycoside. Compounds 2 and 3 are isolated from this plant for the first time. © 2014 Tianjin Press of Chinese Herbal Medicines.
ABSTRACT
The species Chelananthus alatus is an herbaceous plant with known ethno botanical and medicinal properties used in control of fever, especially those produced by malaria. From dried leaves (1.11 Kg), the crude alcoholic extract was fractionated by liquid-liquid partition with different polarity solvents. From the sec-butyl alcohol soluble fraction, by successive application of chromatographic methods, four compounds type iridoid were isolated and identified by spectroscopic techniques. Compound 1 is a new secoiridoid which was identified as sweroside 7-isobutyryloxy, and it is reported here for the first time in the Gentianaceae family; the other secoiridoids which were isolated are known as vogeloside (2), dihydro-chelonanthoside (3) and sweroside (4); vogeloside was identified for the first time in this plant (C. alatus). From the isopropyl acetate extract, in conjunction with the sweroside 7- isobutyryloxy (1), chelonanthoside (5) and sweroside (4), were identified, along with the sweroside 7-isovaleryloxy-(6) as a new side chain isomeric ester of dihydrochelonanthoside (3) . This work presents the spectroscopic analysis of the new structures and some bioactivity data.
La especie Chelonanthus alatus (Gentianaceae) es una hierba de aplicaciones ethnobotánicas reconocidas en medicina tradicional, especialmente en el control de la fiebre producida por la malaria. De las hojas secas (1,11 Kg) se realizó el extracto crudo en alcohol etílico, el cual se fraccionó por partición líquido-líquido (L-L) con disolventes de diferente polaridad. De la fracción soluble en alcohol sec-butílico, se aislaron cuatro compuestos tipo seco-iridoide por aplicación sucesiva de diversos métodos cromatográficos los cuales se identificaron por técnicas espectroscópicas. El compuesto 1 es un nuevo secoiridoide identificado como de 7- isobutiriloxi-swerosido, y se reporta por primera vez en la familia Gentianaceae; los otros tres secoiridoides aislados se conocen como vogelósido (2), dihidrochelonanthosido (3) y swerósido (4); el vogelósido se identificó por primera vez en C. alatus. De la fracción soluble en acetato de isopropilo además del 7-isobutiriloxi-swerosido (1) y el swerosido se aislaron e identificaron, el chelonanthosido (5) y el isovaleriloxi-swerosido (6), el cual es un nuevo isómero del dihidrochelonanthosido. En este trabajo se presenta el análisis espectroscópico que llevó a la elucidación estructural de los compuestos novedosos y algunos datos de bioactividad.
Subject(s)
Plant Extracts/chemistry , Gentianaceae/chemistry , Iridoids/isolation & purification , Iridoids/analysis , Plant Leaves/chemistryABSTRACT
Enicostemma axillare is used in Indian traditional medicine as a liver tonic. Its ethyl acetate extract has shown potent in vitro antioxidant activity and found to contain 7.26% of a bitter secoiridoid glycoside, swertiamarin. Hence, in the present study the ethyl acetate extract was screened for hepatoprotective and antioxidant properties against CCl4 induced hepatic injury in rats. The hepatoprotection was assessed in terms of reduction in histological damage and changes in serum enzymes and metabolites. The pretreatment with the extract at 100 and 200 mg/kg body weight doses given orally for eight days prior to CCl4 caused significant restoration of altered biochemical changes due to CCl4 towards the normal in serum, liver and kidney. The extract treatment at 200 mg/kg body weight was found to be more potent than the standard silymarin at 100 mg/kg body weight in reversing most of the biochemical parameters. Histopathological studies complemented the results of biochemical estimations in providing a proof of hepatoprotective and antioxidant actions of the extract. The study provides a support to the ethnomedical use of E. axillare in India.
ABSTRACT
La familia Gentianaceae es reconocida en el Perú por presentar alrededor de 15 géneros y aproximadamente de 170 especies (Brako & Zarucchi, 1993; Ulloa Ulloa et al., 2004; S. Castillo, com.pers.), mayormente hierbas y arbustos. En este trabajo se reconoce 103 especies endémicas en siete géneros. Los géneros con mayor número de especies endemicas son Gentianella y Macrocarpaea. Las especies endémicas ocupan principalmente las regiones de la Puna Húmeda y Seca, Páramo y Bosque Muy Húmedo Montano, entre los 1000 y 5100 m de altitud. Se aplicaron las categorías y criterios de la UICN a 99 especies. Treinta y tres especies endémicas se encuentran representadas dentro de un área protegida.
The Gentianaceae are represented in Peru by 15 genera and nearly 170 species (Brako & Zarucchi, 1993; Ulloa Ulloa et al., 2004; S. Castillo, pers. comm.), mainly herbs and shrubs. Here we recognize 103 endemic species in seven genera. Gentianella and Macrocarpaea are the genera with the largest number of endemic species. Endemic Gentianaceae are found in the Humid and Dry Puna, Paramo and Very Humid Montane Forests regions, between 1000 and 5100 m elevation. We applied IUCN categories and criteria to 99 species. Thirty-three endemic species have been found to date in Peruvian protected areas.
ABSTRACT
AIM:To determine gentianaceae and jasminoidin in Longhui Capsules (Radix et Rhizoma Gentia-nae, Aloe, Fructus Gardeniae, etc.) METHODS: The Waters Symmetry C_ 18 column (4.6 mm?150 mm, 5 ?m) was used with mobile phase of methanol-water (17∶83). The flow rate was 1.0 mL/min. The detecting wavelength was at 254 nm, and the column temperature was at 30 ℃. RESULTS: The methodological study showed that a good linear correlation existed in the range of 60.72-454.4 ng for gentianaceae and the range of 96.32 -722.40 ng for jasminoidin. The average recovery of gentianaceae was 99.57%(n=9) and RSD was 1.27% , jasminoidin was 99.10%(n=9) and RSD was 2.30%. CONCLUSION: The method is simple, accurate and can be used for quality control of the preparation.