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Syringa oblata is a traditional Mongolian medicine mainly distributed in the Helan Mountains (the boundaries of Inner Mongolia and Ningxia, China) and the north of Yan Mountains (Aohan Qi, Inner Mongolia, China). It is clinically used to treat diseases caused by Heyi, such as heartache and heat pathogen in the heart. Phytochemical studies on S. oblata revealed the presence of iridoids, lignans, triterpenes, phenylpropanoids, phenylethanoids, and volatile components. Pharmacological investigations revealed a broad spectrum of bioactivities, such as antimicrobial, antioxidant, antiproliferative, and hepatoprotective effects. This article summarized the chemical components and pharmacological activities of S. oblata, providing a scientific rationale for its bioactive constituents, quality control, and utilization as an important medicine.
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Objective::To rapidly identify and analysis the chemical constituents in the methanol extract of heartwood of Dalbergia cochinchinensis by ultra high performance liquid chromatography-quadrupole-time-of-flight high resolution mass spectrometry (UPLC-Q-TOF-MS/MS). Method::UPLC RRHD SB-C18 column (3.0 mm×100 mm, 1.8 μm) was used for chromatographic separation with acetonitrile-0.1% formic acid solution as the mobile phase for gradient elution (0-0.01 min, 5%B; 0.01-2 min, 5%-22%B; 2-28 min, 22%-35%B; 28-45 min, 35%-44%B; 45-55 min, 44%-100%B; 55-57 min, 100%B; 57-57.10 min, 100%~5%B) at a flow rate of 0.3 mL·min-1. The analytes were determined in negative ion mode with electrospray ionization (ESI) and data collection range of m/z 100-1 500. Result::A total of 101 chemical constituents were identified, including 22 flavonoids, 34 isoflavones, 15 neoflavonoids, 18 other flavonoids and 12 other components. Conclusion::UPLC-Q-TOF-MS/MS technique can quickly, accurately and comprehensively identify the chemical constituents in the heartwood of D. cochinchinensis. Isoflavones, flavonoids and neoflavonoids are the main chemical constituents in the heartwood of D. cochinchinensis, which is of great significance to reveal its internal material basis and provides experimental basis for this plant to be developed as a potential new resource of traditional Chinese medicine.
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Caesalpinia sappan L. (CS) is a plant of Leguminosae family, commonly known as Brazil or Sappan wood. CS is distributed in Southeast Asia and its dried heartwood has been used as traditional ingredient of food or beverages and has a wide variety of medicinal properties. Higher extraction yield of CS wood was achieved with 95% ethanol for 2 h. Chemical constituent's investigation of sappan wood resulted in the isolation of various structural types of phenolic components including one xanthone, one coumarin, three chalcones, two flavones three homoisoflavonoids and brazilin. Brazilin [(6a S-cis)-7, 11b-dihydrobenz[b]indeno[1,2-d]pyran-3,6a,9,10(6H)- tetrol], a major and active compound found in CS heartwood. Most of the folkloric uses of brazilin were validated by the scientific studies such as antioxidant, antibacterial, anti-inflammatory, anti-photoaging, hypoglycemic, vasorelaxant, hepatoprotective and anti-acne activity. CS heartwood extract is safe and did not produce any acute or subacute toxicity in both male and female rats. Brazilin is the safe natural compound having potential to develop as a medicinal compound with application in food, beverage, cosmetics and pharmaceutical industries to screen its clinical use in modern medicine. The information gained could provide the important and potential approach for pharmaceutical researcher to implicate the knowledge of brazilin in the formulation of new drug and to reveal therapeutic and gaps requiring future research opportunities. More studies are needed to evaluate the potential application of brazilin as preservative and coloring agent in food processing industries.
ABSTRACT
Caesalpinia sappan L. (CS) is a plant of Leguminosae family, commonly known as Brazil or Sappan wood. CS is distributed in Southeast Asia and its dried heartwood has been used as traditional ingredient of food or beverages and has a wide variety of medicinal properties. Higher extraction yield of CS wood was achieved with 95% ethanol for 2h. Chemical constituent's investigation of sappan wood resulted in the isolation of various structural types of phenolic components including one xanthone, one coumarin, three chalcones, two flavones three homoisoflavonoids and brazilin. Brazilin [(6a S-cis)-7, 11b-dihydrobenz[b]indeno[1,2-d]pyran-3,6a,9,10(6H)- tetrol], a major and active compound found in CS heartwood. Most of the folkloric uses of brazilin were validated by the scientific studies such as antioxidant, antibacterial, anti-inflammatory, anti-photoaging, hypoglycemic, vasorelaxant, hepatoprotective and anti-acne activity. CS heartwood extract is safe and did not produce any acute or subacute toxicity in both male and female rats. Brazilin is the safe natural compound having potential to develop as a medicinal compound with application in food, beverage, cosmetics and pharmaceutical industries to screen its clinical use in modern medicine. The information gained could provide the important and potential approach for pharmaceutical researcher to implicate the knowledge of brazilin in the formulation of new drug and to reveal therapeutic and gaps requiring future research opportunities. More studies are needed to evaluate the potential application of brazilin as preservative and coloring agent in food processing industries.
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Teak (Tectona grandis) is one of the most valuable timbers in international trade and an important species for tropical forestry. Teak is found on the island of East Timor but no information is available on teak growth from this region. A pure stand planted in 1940-50 in the North of East Timor and left unmanaged was studied. Fifteen trees were sampled in October-November 2003 and stem discs taken at three height levels of its height (1.7m, 9.5m and 18.7m), and cores were collected at DBH. Transverse surfaces of the discs and cores were polished for ring identification. Core cross sections were first digitized and disc cross sections were observed under the microscope. Three randomly selected radii were analyzed in each disc. Ring width measurement and ring counting were done using image analysis software. The distinction between heartwood and sapwood was performed macroscopically by colour difference, and heartwood radius and sapwood width were measured. The relationship between stem and heartwood radius was studied for each disc and heartwood percentage by radius was determined. Radial ring width curves are presented for the different axial positions within the stem, and ring width variability was analyzed. Growth rates were calculated and age-radius relationships were estimated using cumulative growth curves. Growth rings were large and well defined in the juvenile phase, reflecting the specie’s fast-growing character. The year-to-year variation of ring width showed a similar pattern among trees. Mean ring width ranged between 4.3-7.3mm for the first 20 years and 3.3-5.1mm for 30 to 45 years. Pith eccentricity was evident in the lower part of the stem and ring wedging occurred. On average, heartwood represented 84% of the radius and sapwood contained 6 to 11 rings. The age-related variation of ring width and the occurrence in the lower part of the tree stems of eccentricity and wedging rings, highlights the importance of appropriate stand management, particularly regarding basal density distribution over time, whenever optimized timber production is envisaged.
La madera de teca (Tectona grandis L.f.) es una de las más valiosas en el comercio internacional y una especie importante para la silvicultura tropical. La teca se encuentra en la isla de Timor Leste, pero no existe información disponible sobre su crecimiento en esta región. Se estudió una plantación pura no manejada que fue establecida entre 1940 y 1950 en el Norte de Timor Leste. Entre Octubre- Noviembre 2003 se cosecharon 15 árboles y al tronco se les extrajeron discos a tres niveles de altura (1.7m, 9.5m y 18.7 m), y se recolectaron núcleos a la altura del pecho (DAP). El conteo y la medición de los anillos se realizaron mediante el software de análisis de imagen. La distinción entre el duramen y la albura se realizó macroscópicamente por la diferencia de color, y se midieron el radio del duramen y el ancho de la albura. Para cada disco se estudió la relación entre el tallo y radio del duramen y el porcentaje del duramen. Las curvas de variación del ancho de los anillos se presentan para las diferentes posiciones axiales dentro del tronco y se analizó la variabilidad del ancho de los anillos. Las tasas de crecimiento fueron calculadas y las relaciones de radio con la edad se calcularon usando las curvas de crecimiento acumulado. Los anillos de crecimiento eran grandes y bien definidos en la fase juvenil, lo que refleja el carácter de crecimiento rápido de esta especie. La variación en la anchura de los anillos año a año mostró un patrón similar entre los árboles. La anchura media del anillo osciló entre 4.3-7.3mm para los primeros 20 años y 3.3-5.1mm para los de 30 a 45 años. La excentricidad de la médula fue evidente en la parte inferior del tallo y se observó la formación de anillos sobrepuestos. En promedio, el duramen representó el 84% del radio y la albura mostró entre 6 y 11 anillos. La variación del ancho de los anillos con la edad, la presencia de excentricidad en la parte inferior del árbol y los anillos sobrepuestos pone de relieve la importancia del manejo forestal con particular atención a la distribución de densidad basal en el tiempo, cuando se pretende la producción optimizada de la madera.
Subject(s)
Trees , Verbenaceae/growth & development , Timor-Leste , Verbenaceae/classificationABSTRACT
OBJECTIVE: To carry out a comparison between the cortexes and the roots of Polygala tenuifolia, and to supply references for developing scientific processing method of P. tenuifolia. METHODS: A comprehensive comparison was made by comparing the chemical constitution and pharmacological activities of the cortexes and the roots of P. tenuifolia, i.e., multi-components determination and fingerprint analysis were used to analyze their chemical constituents, and the traditional pharmacological actions of P. tenuifolia, such as cough-relieving, sputum-removing and sedative effects were used to evaluate their efficacy. RESULTS: The chemical constitution of the cortexes, roots and heartwoods of P. tenuifolia was similar, but the contents of the various effective components in the cortexes were more than those in the roots and heartwoods. The pharmacological result revealed that there was no obvious difference between the cortexes and the roots of P. tenuifolia for their activities of cough-relieving, sputum-removing and sedative actions. The roots of P. tenuifolia showed a better tendency than the cortexes for cough-relieving and sputum-removing activities. CONCLUSION: In order to avoid the waste of crude drugs, and to save the cost during heartwood-discarding, the heartwoods of P. tenuifolia are suggested to be kept.
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Aim of the study was to investigate the methanol and aqueous extracts of heartwood of C. sappan for its hepatoprotective activity against CCl4 induced toxicity in freshly isolated rat hepatocytes and animals. Freshly isolated rat hepatocytes were exposed to CCl4 (1%) along with/without various concentrations of methanolic and aqueous extract of C. sappan (1000-800 µg/ml) and the levels of selected liver enzymes were estimated. Antihepatotoxic effect of methanolic extract was observed in freshly isolated rat hepatocytes at concentrations 1000-800 µg/ml and was found to be similar to that of standard drug silymarin. Wistar strain albino rat model was used for the investigation of in vivo hepatoprotective properties of aqueous and methanolic extract of C. sappan (100 and 200 mg/kg body weight). Liver damage was induced by ip administration of CCl4 (30%) suspended in olive oil (1 ml/kg body weight). Both the tested extracts showed potent hepatoprotective activity at 200 mg/kg body weight test dose which was comparable with that of the standard silymarin used in similar test dose. The methanolic and aqueous extract was able to restore the biochemical levels to normal which were altered due to CCl4 intoxication in freshly isolated rat hepatocytes and also in animals.
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Objective To intensively investigate the chemical constituents in the heartwood of Taxus yunnanensis Cheng et L.K.Fu.Methods The heartwood was extracted with ethanol,the ethanol extract was subjected to the extraction with methylene trichloride,which was submitted to chromatography on sili-ca gel and Sephadex LH-20 column to isolate some compounds.And their structures were elucidated on the basis of spectral analysis(UV,IR,ESI-MS,1H-NMR,13C-NMR).Results The compounds were identified as 2?,5?,7?,9?,10?,13?-hexaacetoxy-4(20),11-taxadiene(Ⅰ),taxusin(Ⅱ),taxa-4(20),11-diene-2?,5?,10?-triacetoxy-14?,2-methybutyrate(Ⅲ),10?-hydroxy-2?,5?,14?-triacetoxy-4(20),11-taxadiene(Ⅳ),1-dehydroxybaccatin Ⅳ(Ⅴ),baccatin Ⅳ(Ⅵ),baccatin Ⅵ(Ⅶ),7,9-deacetylbaccatin Ⅵ(Ⅷ),10-deacetyltaxuyannine(Ⅸ),1?-accetoxy-5-deacetyl-baccatin Ⅰ(Ⅹ),baccatin Ⅰ(Ⅺ),taxuchin A(Ⅹ Ⅱ),secoisolariciresinol(Ⅹ Ⅲ),?-conidendrin(Ⅹ Ⅳ),isotaxiresinol(Ⅹ Ⅴ),lariciresinol(Ⅹ Ⅵ),sequoitol(Ⅹ Ⅶ),?-sitosterol(Ⅹ Ⅷ).Among them compounds Ⅰ,Ⅴ,Ⅵ,Ⅺ,Ⅹ Ⅱ,Ⅹ Ⅵ were obtained from the heartwood of T.yunnanensis for the first time.Conclusion The chemical constituents in the heartwood differ from the other parts of T.yunnanensis,but there is little difference within the species of Taxus L.