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A Aloysia gratíssima, popularmente conhecida como alfazema-do-brasil é uma importante planta medicinal, sendo o óleo essencial rico em terpenos. Determinar o horário de colheita que resulte em maior rendimento, teor de óleo essencial e compostos químicos, são informações importantes para toda cadeia produtiva de plantas medicinais. Neste sentido, o objetivo do trabalho foi analisar o rendimento, teor e composição química do óleo essencial de A. gratíssima, em diferentes horários de colheita. O experimento foi realizado na Universidade Tecnológica Federal do Paraná - Campus Dois Vizinhos, nos anos de 2018 e 2019. Os tratamentos foram diferentes horários de colheita (9:00, 11:00, 15:00 e 17:00 horas) de massa fresca de A. gratíssima. O óleo essencial foi obtido pelo método de hidrodestilação e a composição química determinada por cromatografia gasosa-espectrometria de massa. Os melhores resultados de teor (1,18 e 0,55%) e rendimento de óleo essencial (0,71 e 0,33 g planta-1) foram obtidos nos horários de colheita das 9:00 e 11:00 horas, respectivamente, quando as plantas estavam no estádio de floração, e também as condições climáticas favoráveis, como temperaturas amenas. A cromatografia gasosa-espectrometria de massa revelou que os principais componentes dos óleos essenciais foram classificados como terpenos. Eucaliptol (39,30%) foi o componente majoritário do óleo essencial no horário de colheita das 9:00 horas. Os resultados desse estudo podem contribuir para otimizar o período de colheita de A. gratíssima, quanto à quantidade e qualidade dos óleos essenciais para indústria de produtos farmacêuticos e cosméticos.
Aloysia gratissima, popularly known as Brazilian lavender, is an important medicinal plant, the essential oil being rich in terpenes. Determining the harvest time that results in greater yield, essential oil content and chemical compounds, are important information for the entire production chain of medicinal plants In this sense, the objective of this work was to analyze the yield, content and chemical composition of the essential oil of A. gratíssima, at different harvest times. The experiment was carried out at the Universidade Tecnológica Federal do Paraná - Campus Dois Vizinhos, in the years 2018 and 2019. The treatments were different harvest times (9:00 am, 11:00 am, 3:00 pm and 5:00 pm) of fresh mass by A. gratissima. The essential oil was obtained by the hydrodistillation method and the chemical composition determined by gas chromatography-mass spectrometry. The best results for essential oil content (1.18 and 0.55%) and yield (0.71 and 0.33 g plant-1) were obtained at 9:00 am and 11:00 am, respectively, when the plants were in the flowering stage, and also favorable climatic conditions, such as mild temperatures. Gas chromatography-mass spectrometry revealed that the main components of essential oils were as terpenes. Eucalyptol (39.30%) was the major component of the essential oil at the 9:00 am harvest time. The results of this study may contribute to optimizing the period of harvesting A. gratissima, regarding the quantity and quality of essential oils for the pharmaceutical and cosmetics industry.
Aloysia gratissima, conocida popularmente como lavanda brasileña, es una importante planta medicinal, siendo el aceite esencial rico en terpenos. Determinar el tiempo de cosecha que resulte en mayor rendimiento, contenido de aceites esenciales y compuestos químicos, son información importante para toda la cadena productiva de las plantas medicinales. En ese sentido, el objetivo de este trabajo fue analizar el rendimiento, contenido y composición química del aceite esencial de A. gratíssima, en diferentes épocas de cosecha. El experimento se realizó en la Universidad Tecnológica Federal de Paraná - Campus Dois Vizinhos, en los años 2018 y 2019. Los tratamientos fueron diferentes tiempos de cosecha (9:00 am, 11:00 am, 3:00 pm y 5:00 pm ) de masa fresca por A. gratissima. El aceite esencial se obtuvo por el método de hidrodestilación y la composición química determinada por cromatografía de gases-espectrometría de masas. Los mejores resultados para contenido de aceite esencial (1.18 y 0.55%) y rendimiento (0.71 y 0.33 g planta-1) se obtuvieron a las 9:00 am y 11:00 am, respectivamente, cuando las plantas se encontraban en etapa de floración, y también condiciones climáticas favorables, como temperaturas suaves. La cromatografía de gases-espectrometría de masas reveló que los principales componentes de los aceites esenciales se clasificaron como terpenos. El eucaliptol (39,30%) fue el componente mayoritario del aceite esencial a las 9:00 a. m. del tiempo de cosecha. Los resultados de este estudio pueden contribuir a optimizar el período de cosecha de A. gratissima, en cuanto a la cantidad y calidad de los aceites esenciales para la industria farmacéutica y cosmética.
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Chinese medicinal material from Fritillaria, Beimu in Chinese, is a commonly used antitussive and expectorant traditional Chinese herbal medicine, with the significant functions of clearing heat and moistening lung,resolving phlegm and relieving cough. Five kinds of Fritillaria were recorded in the 2020 edition of Chinese Pharmacopoeia, including Fritillariae Cirrhosae Bulbus, Fritillariae Ussuriensis Bulbus, Fritillariae Thunbergii Bulbus, Fritillariae Hupehensis Bulbus and Fritillariae Pallidiflorae Bulbus. At present, the reports on Fritillaria mainly focus on the pharmacological effect, chemical composition, identification of authenticity and other aspects, while there were few reports on harvesting and primary processing of original medicinal materials. Fritillaria medicines were perennial medicinal plant with various and complex varieties, their quality and curative effect were greatly affected by harvesting and processing in producing area. The processing method differed according to its variety. Fritillariae Cirrhosae Bulbus mainly from western Sichuan plateau, Fritillariae Pallidiflorae Bulbus from Xinjiang and Fritillariae Ussuriensis Bulbus from Northeast China were mostly harvested from June to July and sun dried directly or dried. But Fritillariae Thunbergii Bulbus and Fritillariae Hupehensis Bulbus from Yangtze River basin were harvested when the plants wilted at the beginning of summer, and auxiliary materials such as shell powder and lime must be added during the processing. At present, the drying methods of Fritillaria were still traditional, which is not suitable for large-scale production of cultivated products. Therefore, it is urgent to find a scientific, reasonable and efficient processing methods. Aimed at providing references for standardization production of Fritillaria, this paper made a textual research on the ancient and modern herbal literature, the Chinese Pharmacopoeia and other medicinal standards, combined with modern literature, the harvesting and processing methods of Fritillaria were sorted out and prospected.
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As a local variety of medicinal material, Citri Trifoliatae Fructus is widely used in many places, whereas its harvest time remains unclear. Therefore, studying its harvest time can make more reasonable use of this medicinal material. In this study, we determined the flavonoids content and compared the color of Citri Trifoliatae Fructus harvested in different time, aiming to guide the harvest of this medicinal material. The fresh fruits of Citrus trifoliata were collected from Xinxiang city, Henan province, graded according to the diameter range, and then dried. The contents of isonaringin, naringen, and poncirin in Citri Trifoliatae Fructus were determined by HPLC, and the color values of the samples were detected by electronic eye. The correlation analysis of the obtained data was carried out to explore the relationships of color and diameter with quality. The results showed that the contents of isonaringin, naringen, and poncirin varied significantly in different harvest time, within the ranges of 0.21-1.20, 2.21-11.59, and 3.73-23.16 mg·g~(-1), respectively. With the delay of harvest time, Citri Trifoliatae Fructus showed the color changing from green to yellow, gradually increased diameter, and gradually decreased contents of isonaringin, naringen, and poncirin. The contents of isonaringin, naringen, and poncirin were negatively correlated with the degree of red and green(a~*) and positively correlated with the degree of yellow and blue(b~*). The contents of naringen and poncirin had significantly negative correlations with the diameter. This study indicates that the quality of Citri Trifoliatae Fructus can be judged by its diameter and skin color, which provides a theoretical basis for the rational harvest of this medicinal material.
Subject(s)
Chromatography, High Pressure Liquid , Citrus , Drugs, Chinese Herbal , Electronics , Fruit , TechnologyABSTRACT
This study intends to develop a high performance liquid chromatography-diode array detection(HPLC-DAD) method for simultaneous determination of chlorogenic acid, 2-hydroxymethyl-3-hydroxyl-1-butene-4-O-β-D-(6″-O-caffeoyl)-glucopyranoside, pubescenoside B, huazhongilexone-7-O-β-D-glucopyranoside, rutin, isochlorogenic acid B, isochlorogenic acid A, isochlorogenic acid C in Ilex hainanensis. The HPLC conditions are as follows: Waters XBridge C_(18 )column(4.6 mm×250 mm, 5 μm), mobile phase of 0.5% formic acid in water(A)-acetonitrile(B), gradient elution(0-8 min, 5%-12% B; 8-18 min, 12%-18% B; 18-30 min, 18%-25% B; 30-40 min, 25%-30% B; 40-42 min, 30%-80% B; 42-45 min, 80% B) at the flow rate of 0.8 mL·min~(-1), detection wavelengths of 282, 324, and 360 nm, column temperature of 25 ℃, and injection volume of 5 μL. The content of the 8 phenols in 8 samples was 0.30-6.29, 0.29-3.27, 0.15-10.4, 0.51-5.85, 0.49-9.02, 0.51-4.68, 1.93-13.4, and 0.87-5.95 mg·g~(-1), respectively. Moreover, the content of phenols in the samples collected in October was higher than that of samples harvested in other months. The established method is accurate and sensitive for the determination of phenols in I. hainanensis, which is useful for the quality improvement of this herbal medicine.
Subject(s)
Chromatography, High Pressure Liquid , Drugs, Chinese Herbal , Ilex , PhenolsABSTRACT
This research is to establish an HPLC method for determination of geniposidic acid, genipin-1-β-D-gentiobioside, geniposide, p-trans-coumaroylgenipin gentiobioside, chlorogenic acid, crocin-Ⅰ, crocin-Ⅱ and crocin-Ⅲ in Gardeniae Fructus at different harvest time. The detection wavelength was 238, 320 and 440 nm. Principal component analysis(PCA), correlation analysis, regression analysis and partial least squares(PLS) analysis were used to explore the relationship of color and content of eight components in Gardeniae Fructus. The result showed that the trend of the eight components in Gardeniae Fructus at harvest time in different three years was varied similarly. According to the variation of eight components at different harvest time, the mature and immaturate Gardeniae Fructus were discriminated. The content of crocin-Ⅰwas correlated positively with a~* of color significance. The redder color of Gardeniae Fructus showed the higher value of a~* and content of crocin-Ⅰ, indicating the better quality of Gardeniae Fructus. This method provided reference for justifying the color and quality of Gardeniae Fructus and scientific evidence for "assessing quality by distinguishing color".
Subject(s)
Chlorogenic Acid , Chromatography, High Pressure Liquid , Drugs, Chinese Herbal , Fruit , GardeniaABSTRACT
Artemisiae Argyi Folium, the dried leaves of Artemisia argyi, has been widely used in traditional Chinese and folk medicines for a long time. Qiai is one of the top-geoherb of Artemisiae Argyi Folium. Qiai contains various bioactive constituents, such as volatile oils, phenolic acids, flavonoids and terpenoids. Phytochemical studies demonstrated that volatile compounds are the main bioactive constituents in Qiai. Try to investigate dynamic changes of volatile components of Qiai from different harvest time and explore the optimum harvest time of Qiai, in this study, the contents of total volatile oils in Qiai collected from five different harvest time were analyzed by steam distillation method. The results showed that the contents of volatile oils of Qiai were higher in the third harvest time(around the Dragon Boat Festival), which is basically consistent with the traditional harvest time. Furthermore, a sensitive method based on gas chromatography-mass spectrometry(GC-MS) was established for qualitative analysis of volatile compounds in Qiai, and a total of thirty volatile compounds were identified. Chemometrics methods including principal component analysis(PCA) and orthogonal partial least-squares discriminate analysis(OPLS-DA) were applied to explore chemical markers and dynamic changes of volatile components in Qiai from different harvest time, and the results indicated that there were obvious differences in the relative contents of volatile compounds of Qiai samples from different harvest time. Eight volatile compounds, including α-terpinene, γ-terpinene, D-camphor, trans-carveol, α-copaene, isobornylisobutyrate, humulene, and caryophyllene oxide were selected as potential chemical markers. Among the eight chemical markers, the relative contents of α-terpinene, γ-terpinene, α-copaene and caryophyllene oxide were higher in the third harvest period(around the Dragon Boat Festival), which is consistent with the contents of total volatile oils. The present study could provide the basis for investigating the optimum harvest time of Qiai, and might be useful for the quality control of this herbal medicine.
Subject(s)
Artemisia , Drugs, Chinese Herbal , Flavonoids , Gas Chromatography-Mass Spectrometry , Oils, VolatileABSTRACT
To promote the rational development and utilization of Epimedium sagittatum, and to propose the utilization strategies and future research suggestions. The distribution was illuminated based on the examination of herbarium specimens and our field investigation. At the same time, the quality characteristics of different harvest time, different parts and different producing areas were summarized according to the literature review and our previous researches. In terms of the distribution, E. sagittatum is a widely distributed species in Epimedium. However, there were many errors in the identification of herbarium specimens. At least 13 taxa were wrongly identified as E. sagittatum. The distribution of E. sagittatum was not as extensive as previously recorded in the literature. Although the distribution of E. sagittatum has been recorded in 12 provinces and in Chongqing Municipality, it was mainly distributed in Anhui, Jiangxi, Hunan and Hubei provinces, and the resources in each region were not abundant. In terms of quality characteristics, there were great differences in both composition and contents of the active components among different germplasm. Some of the germplasm in Hunan, Hubei and Sichuan provinces were excellent. However, the stability and homogeneity were not ideal. Therefore, the utilization of E. sagittatum should depend on the quality characteristics. It was found that there were great differences among populations and which were closely related to the genetic basis. The effect of physiological ecology on quality and its mechanism, as well as the molecular mechanism of quality formation should be paid more attention in the future.
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Abstract Lippia origanoides Kunth. is a medicinal shrub native to some countries in South America, Central America and the Caribbean. This study aims to investigate the chemical composition of the essential oil and the genetic diversity of a natural population of Lippia origanoides in two seasons. Leaf samples were collected from 30 individuals in the dry and rainy seasons. The essential oil was extracted into a Clevenger apparatus and analyzed by gas chromatography coupled to mass spectrometry (GC-MS). The relative quantification of thymol and carvacrol was performed by gas chromatography coupled to a flame ionization detector (GC-FID). Multivariate analysis was used to evaluate the genetic divergence between plants. Carvacrol was the major compound found in most plants for both seasons. In the rainy season, plant 15 presented thymol as the major compound, and plants 16, 27, 28 and 29 presented camphor as the major compound. In the dry season, thymol remained the main compound of plant 15 and camphor remained the main compound of plants 16, 28 and 29; however, plant 27 presented carvacrol as the main compound in this season. After carvacrol, the compounds with the highest content were γ-terpinene, p-cymene and methyl-ether-thymol. Of the 30 plants studied, only five differed in their chemical composition, showing some degree of stability in relation to the dry and rainy seasons. There was no variation in the main compounds between the two seasons, but there was chemical diversity among the main compounds. Tocher grouping revealed five distinct groups, with group 1 including most of the plants in both dry and rainy seasons, indicating that the time of year evaluated did not significantly interfere with the essential oil composition of most plants.(AU)
Resumen Lippia origanoides Kunth. es un arbusto medicinal nativo de algunos países de Centro y Sur América y el Caribe. El objetivo de este estudio fue investigar la composición química de los aceites esenciales y la diversidad genética de una población natural de L. origanoides en dos estaciones. El aceite esencial se extrajo en un equipo de Clevenger y se analizó por cromatografía de gases acoplado a espectrometría de masas (CG-EM). La cuantificación relativa de timol y carvacrol se realizó por cromatografía de gases acoplado a un detector de ionización de llamas (CG-DIL). Se utilizó un análisis multivariado para evaluar la divergencia genética entre plantas. El carvacrol fue el compuesto principal encontrado en la mayoría de las plantas para ambas estaciones. En la estación lluviosa, la planta 15 presentó timol como el compuesto principal y las plantas 16, 27, 28 y 29 presentaron alcanfor como el compuesto principal. En la estación seca, el timol se mantuvo como el principal compuesto en la planta 15, de igual manera el alcanfor se mantuvo como el principal en las plantas 16, 28 y 29. Sin embargo, la planta 27 presentó carvacrol como el principal compuesto en esta estación. Después del carvacrol, los compuestos con el mayor contenido fueron γ-terpineno, p-cimeno and metil-eter-timol. De las 30 plantas estudiadas, solo cinco difirieron en su composición química, mostrando algún grado de estabilidad en relación a la estación seca y lluviosa. No hubo variación en los compuestos principales entre las dos estaciones, pero hubo diversidad química entre los compuestos principales. El agrupamiento de Tocher mostró cinco grupos distintos, con el grupo 1 incluyendo la mayoría de las plantas en ambas estaciones, lo cual indica que el periodo del año evaluado no interfiere significativamente con la composición de aceites esenciales en la mayoría de plantas.(AU)
Subject(s)
Thymol/chemistry , Crop Production , Distillation/instrumentation , Verbenaceae/chemistry , BiodiversityABSTRACT
The content of tyrosol,salidroside,echinacoside,rutin,acteoside,ligustroflavone,specnuezhenide,and quercetin were determined by HPLC,and the color of Ligustri Lucidi Fructus was determined by comparison with color card.Hundred-seed weight was analyzed by using gravimetric method.The correlation analysis and One-way ANOVA were used to analyze the relationship between the characters,the chemical composition,the harvest time and the geographical location of Ligustri Lucidi Fructus,for giving a comprehensive evaluation of the quality of Ligustri Lucidi Fructus The results showed that 92% of Ligustri Lucidi Fructus were all up to quality standard of Chinese Pharmacopoeia,and the contents of 7 components in Ligustri Lucidi Fructus(except quercetin) were higher than those in samples with black colors.The content of salidroside in Ligustri Lucidi Fructus harvested in June was the highest and the other7 components of Ligustri Lucidi Fructus were relatively high in 8-10 months.According to the quality parameters of Ligustri Lucidi Fructus,the Ligustri Lucidi Fructus from six habitats can not be distinguished effectively.The results showed that there was a certain relationship between the color,harvest season and component content of Ligustri Lucidi Fructus,and the habitats were not related to the quality parameters of Ligustri Lucidi Fructus.The study aimsat providing data support for the resource status of native Ligustri Lucidi Fructus,and a theoretical basis for the revision of standards of Ligustri Lucidi Fructusin the future.
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Drugs, Chinese Herbal , Reference Standards , Fruit , Chemistry , Ligustrum , ChemistryABSTRACT
An HPLC method was established for the simultaneous determination of saikosaponin a, b2, c, d, e, f of Bupleurum chinense DC. in order to study the content difference of saikosaponins in different producing areas, different harvest time and different processed products of Bupleurum chinense DC. The Agela Venusil MP C18 (4.6 mm×250 mm, 5 μm) column was used with a gradient elution of acetonitrile-water at the wavelength of 210 and 254 nm with the flow rate of 1.0 mL·min-1 and the column temperature at 30℃. Based on the content of six kinds of saikosaponins, the differences of saikosaponins in four producing areas, eight harvest periods and 11 processing methods of Bupleurum chinense DC. were systematically studied. The results showed that the content of saikosaponins in Bupleurum chinense DC. was higher in May and August of Liaoning, Shaanxi and Gansu, but only in August from Shanxi in the four producing areas. The content of saikosaponins in 11 processed products was as follows:raw product > bran-stir-fried product > stir-fried product > wine-moistened product > turtle blood-stir-fried product > bran-wine-stir-fried product > wine-stir-fried product > vinegar-moistened product > turtle blood-wine-stir-fried product > vinegar-stir-fried product > honey-stir-fried product > honeymoistened product.
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This present study is to develop an HPLC method for simultaneous determination of four diester diterpenoid alkaloids, beiwutine, mesaconitine, hypaconitine and aconitine in the leaves of Aconitum kusnezoffii, so as to provide evidence of the quality control of this herb. The four constituents were measured on a Waters XBridge CC₁₈ column(4.6 mmχ250 mm, 5 μm). The mobile phase was acetonitrile-40 mmol·L⁻¹ ammonium acetate solution(adjusted pH to 10.5 with ammonia solution)(33:67) with isocratic elution at a flow rate of 1.0 mL·min⁻¹; the detection wavelength was 235 nm; the column temperature was 30 °C, and the injection volume was 10 μL. Next, this contents of the four diester diterpenoid alkaloids in 12 samples were 0.025 5-0.088 5, 0.039 1-0.071 5, 0.026 6-0.081 0 and 0.008 12-0.031 2 mg·g⁻¹, respectively. Next, this method has been successfully applied to the analysis of A. kusnezoffii folium in different harvest periods. The contents of the four alkaloids decreased primarily, and then increased with the postponing of harvest. The established method is proved to be accurate and sensitive for the determination of alkaloids in A. kusnezoffii folium, and may be useful for the quality improvement of this herbal medicine. Moreover, these results indicated the scientific significance for the toxicity and the suitable harvest time of this herb.
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Aconitine , Aconitum , Chemistry , Chromatography, High Pressure Liquid , Diterpene Alkaloids , Drugs, Chinese Herbal , Chemistry , Phytochemicals , Plant Leaves , Chemistry , Plants, Medicinal , ChemistryABSTRACT
Objective To evaluate the dynamic accumulation of contents of total flavonoids and total polysaccharides from above-ground parts of Ixeris debilis A. Gray and Scorzonera sinensis Lipsch harvested at different time, thus to provide reference for proper harvest period. Methods The orthogonal design was used to optimize the conditions of ultrasound-assisted extraction. Spectrophotometric method was used to detect the contents of total flavonoids and phenol-sulfuric acid method was applied to determine the contents of total polysaccharides in above-ground parts of Ixeris debilis A. Gray and Scorzonera sinensis Lipsch harvested at different time. Results The optimal extraction conditions for total flavonoids in above-ground parts of Ixeris debilis A. Gray were as follows: ultrasonic power being 120 W, liquid to solid ratio being 30 : 1, extraction for 45 min at 60 ℃, and using volume fraction of 80% alcohol as the solution; the optimal extraction conditions for total flavonoids in above-ground parts of Scorzonera sinensis Lipsch were ultrasonic power being 120 W, liquid to solid ratio being 30 : 1, extraction for 60 min at 80 ℃, and using volume fraction of 70% alcohol as the solution. The optimal extraction conditions for total polysaccharides in above-ground parts of Ixeris debilis A. Gray and Scorzonera sinensis Lipsch were as follows: ultrasonic power being 120 W, liquid to solid ratio being 30 : 1, extraction for 150 min at 80 ℃. With the prolongation of the harvesting time, the total flavonoids and total polysaccharides contents increases first and then declined, and arrived to the peak in July and August. Conclusion The optimized extraction processes are stable, reliable and simple for the extraction of the total flavonoids and polysaccharides in Ixeris debilis A. Gray and Scorzonera sinensis Lipsch. The optimal time for harvesting Ixeris debilis A. Gray and Scorzonera sinensis Lipsch is from July to August.
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Objective: By investigating the material composition, anti-oxidant and hypoglycemic activity of acetonitrile-water extracts of Origanum vulgare leaf (OL) in different harvest time, to acquire the scientific data for the utilization of OL. Methods: OL was extracted with acetonitrile and water (1: 1). The contents of total phenols and total flavonoid were measured by Foline-Phenol reagent method and AlCl3 colorimetry. The main compositional analysis was performed using LC-QTOF-MS technology. Meanwhile, the anti-oxidation of OL extracts in different harvest time was evaluated by total anti-oxidant capacity assay kit with ABTS method and ferric reducing anti-oxidant potential assay (FRAP). The methods of 2-NBDG glucose uptake and α-glycosides inhibition were applied to evaluate hypoglycemic activity of OL extracts. Results: The six main components in OL extract were identified to be origanoside I, luteolin 7-O-glucuronide, apigenin 7-O-glucuronide, rosmarinic acid, lithospermic acid and origanoside I derivative. The contents of total phenols and the total flavonoids were the highest in OL extracts harvested in July and September, respectively. There was good in vitro anti-oxidant and hypoglycemic activity for OL extracts harvested in different times. Among them, the best anti-oxidant activity was observed in OL extracts harvested in July, while the best hypoglycemic activity was observed in OL extracts harvested in October. Conclusion: OL has potential anti-oxidant and hypoglycemic activity, which is affected by the harvest time.
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Objective: To establish an assay method of flavonoids (four components) in traditional SHE medicine-Shiliang Tea by quantitative analysis of multi-components by single-marker (QAMS), and to analyze the dynamic change of flavonoids at different harvest time and different collection places. Methods: With rutin as the internal reference substance, the relative correction factor (RCF) of kaempferol-3-O-rutinoside, quercetin, and kaempferol was calculated. Then the contents of four components were calculated, and the accuracy and feasibility of method was evaluated through external standard method. Results: The RCF of rutin to kaempferol-3-O-rutinoside, quercetin, and kaempferol were 1.158 with RSD 0.73%, 0.475 6 with RSD 1.55%, 0.431 9 with RSD 1.58%, respectively. There was no significant difference of assay results between QAMS method and external standard method. While the differences of content between different harvest months and two different species were significant. Conclusion: The QAMS method with rutin as internal reference substance can be used for quantitative analysis of four flavonoids in Shiliang Tea. It is suggested that the best harvest time of Shiliang Tea for flavonoids is in July and August.
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The research studies the effect of different fertilization treatments on yield and accumulation of secondary metabolites of Codonopsis pilosula by using single factor randomized block design, in order to ensure reasonable harvesting time and fertilization ratio, and provide the basis for standardized cultivation of C. pilosula. According to the clustering results, the nitrogen fertilizer benefitted for the improvement of root diameter and biomass of C. pilosula. The phosphate fertilizer could promote the content of C. pilosula polysaccharide. The organic fertilizers could increase the content of lobetyolin. With the time going on, C. pilosula's yield, polysaccharide and ehanol-soluble extracts increased while the content of lobetyolin decreased. According to various factors, October is a more reasonable harvest period. Organic fertilizers are more helpful to the yield and accumulation of secondary metabolites of C. pilosula.
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Objective To determine the optimum harvest time of Scutellaria barbata D.Don with flavonoids contents as the index. Methods The content of total flavonoids in Scutellaria barbata D. Don was determined by ultraviolet-visible spectrophotometry with scutellarin as standard control, and scutellarin and cosmosiin in Scutellaria barbata D. Don were determined by HPLC. Results The contents of total flavonoids and scutellarin in Scutellaria barbata D.Don of different harvest time were complied with the quality standards in the China Pharma Copoeia, and reached the peakin blossom . The contents of total flavonoids, scutellarin and cosmosiin were (45.74±0.95) ,(5.58±0.16 ) and (17.39±0.42) mg?g-1 , respectively. Conclusion The Scutellaria Barbata D.Don may be collected at the flowering time with luxuriant foliage.
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Objective To study the dynamic change of polysaccharide from Asarum insigne in Guizhou during different harvest period and its hemostatic effect. Methods Asarum insigne polysaccharide was extracted by water isolation and alcohol precipitation. We measured the polysaccharide content by UV spectrophotometry after impurity and purification and detected the bleeding and clotting time by tail cutting and slide methods in mice. Results There was significant variation in polysaccharide content of Asarum insigne at different harvest time, which was at a higher level in June(1. 78%-1. 82%). The bleeding time in mice of normal control group was (6. 73±1. 21) min,and that in mice treated with refined polysaccharide at high dose was (4. 91±1. 58) min,the difference between two groups was statistically significant(P<0. 01). The clotting time in mice of normal control group was (7. 27±2. 09) min,and that in the refined polysaccharide at middle and high dose groups was (3. 96±1. 78) min and (3. 27±1. 61) min,respectively. The latter two groups were obviously different from the normal control group(P<0. 05 or P<0. 01). Conclusion The polysaccharide is an active hemostatic substance in Asarum insigne and the optimum harvest time of it is in June for the clinical use.
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OBJECTIVE: To establish a QTRAP UPLC-MS/MS method for simultaneous determination of thirteen nucleosides and nucleobases in Pseudostellariae Radix, and analyze their dynamic changes at different periods. METHODS: The separation was carried out on a Waters Atlantis T3 column (2.1 mm × 150 mm, 3 μm)eluted by a mobile phase of 5 mmol · mL-1 of ammonium acetate (B)-methanol(A) at a flow rate of 0.4 mL · min-1. The elution program is as follows. 0 -4.5 min, 3% -4% A; 4.5-8 min, 4% -18% A; 8 -10 min, 18%A; 10 -10.1 min, 18% -3% A; 10.1 -13 min, 3%A. The target compounds were analyzed by the positive ion multiple reaction monitoring (MRM) mode. RESULTS: The calibration curves of the 13 nucleosides and nucleobases showed good linearity (r >0.991 0) in the ranges of the tested concentrations, and the average recoveries were between 96.46% - 105.07%. The contents of cytidine, uridine, inosine, guanosine, and thymidine in Pseudostellariae Radix harvested at different periods showed some differences, and the contents were higher in mid-June. CONCLUSION: The method is simple, sensitive, accurate and credible, and provides the basis for exploring the quality forming mechanism of Pseudostellariae Radix medicinal materials and the suitable harvest time.
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INTRODUCTION: Justicia pectoralis Jacq. (Acanthaceae) is medicinal plant species commonly used in Cuba for the treatment of nervous disorders because of its sedative effect. Coumarin is one of its main active phytochemicals present in the extracts obtained from this plant and used as analytic marker in quality control. On the other hand, this compound contributes to the sedative effect attributed to this plant. OBJECTIVE: to evaluate the influence of harvest time on the coumarin and umbelliferone (7-hydroxycoumarin) in Justicia pectoralis extracts. METHODS: the experiment lasted two years. The harvest was performed at 4, 6 and 8 months after planting. Aqueous and hydroalcohol extracts were produced and the coumarin and umbelliferone contents were determined by high resolution liquid chromatography. RESULTS: the achieved results showed the presence of coumarin and umbelliferone in both extracts. Both methods can be used for the extraction of these components from the plant, although in the case of umbelliferone, the best extraction results were achieved by using aqueous extract. In both cases, the recovery percentages were more than 98 percent. This study confirmed that the harvest time significantly influences on the coumarin and umbelliferone contents. CONCLUSIONS: the best results are observed in the first two harvests (4 and 6 months at summer time), which indicates that the industry should process the vegetal material in these two periods of the year(AU)
INTRODUCCIÓN: Justicia pectoralis Jacq. (Acanthaceae) es una planta medicinal comúnmente usada en Cuba para el tratamiento de enfermedades nerviosas por su efecto sedante. La cumarina es uno de los fitocomponentes mayoritarios en los extractos obtenidos con esta planta y empleado como marcador analítico en los controles de calidad. Por otro lado, este componente contribuye con el efecto sedante atribuido a esta planta. OBJETIVO: evaluar la influencia del tiempo de cosecha sobre el contenido de cumarina y umbelliferona (7 hidroxicumarina) en extractos de Justicia pectoralis. MÉTODOS: se desarrolló el experimento durante 2 años. Se realizaron las cosechas a los 4, 6 y 8 meses de plantada. Se elaboraron extractos acuosos e hidroalcohólicos y se determinó el contenido de cumarina y umbelliferone por cromatografía líquida de alta resolución. RESULTADOS: se mostró la presencia de cumarina y umbelliferona en ambos extractos. Además, en el caso de la umbelliferona, los mejores resultados se alcanzaron al aplicar extracción acuosa. En ambos casos, los por cientos de recobrados fueron superiores al 98 por ciento. Se confirmó que el tiempo de cosecha influyó significativamente sobre el contenido de cumarina y umbelliferona. CONCLUSIONES: los mejores resultados se obtienen en la primeras dos cosechas (4 y 6 meses que coincide con el verano), lo que sugiere que el material de la planta debe procesarse por la industria en esos periodos del año(AU)
Subject(s)
Umbelliferones/pharmacology , Coumarins/pharmacology , Cuba , TiliaABSTRACT
Objective:To study the influence of harvest time on the characters of Chaenomeles Spciosa ( Sweet) Nakai to determine the optimal harvest time with traditional characters of the Chinese medicine. Methods: In order to explore the optimal harvest time of Chaenomeles Spciosa ( Sweet) Nakai, the content of alcohol-soluble extract, weight and acidity of Chaenomeles Spciosa ( Sweet) Nakai with different harvest time were determined, the weather conditions in recent 3 years was summarized, and the drying process was also studied. Results:The average weight of Chaenomeles Spciosa(Sweet)Nakai was the lowest in June and highest in August, and the den-sity reached maximum in mid-July. During the whole harvest time, the content of alcohol-soluble extract was stable. The weather con-ditions from mid-July to late-July were with high temperature, dry and little rain, which was suitable for drying of Chaenomeles Spciosa ( Sweet) Nakai. Conclusion:The optimal harvest time of Chaenomeles Spciosa( Sweet) Nakai is confirmed in mid-July according to the traditional customs, drying conditions and characters of the Chinese medicine.