The roots of Angelica sinensis (Oliv.) Diels are well known for their efficacy in promoting blood circulation. Although many studies have indicated that phthalides are the main chemical components responsible for the pharmacological properties of A. sinensis, the phthalide biosynthetic pathway and enzymes that transform different phthalides are still poorly understood. We identified 108 potential candidate isoforms for phthalide accumulation using transcriptome and metabolite profile analyses. Then, six enzymes, including phospho-2-dehydro-3-deoxyheptonate aldolase 2, shikimate dehydrogenase, primary amine oxidase, polyphenol oxidase, tyrosine decarboxylase, and shikimate O-hydroxycinnamoyl transferase, were identified and proven to be involved in phthalide accumulation by heterologously expressing these proteins in Escherichia coli. We proposed a possible mechanism underlying phthalide transformation and biosynthetic pathways in A. sinensis based on our findings. The results of our study can provide valuable information for understanding the mechanisms underlying phthalide accumulation and transformation and enable further development of quality control during the cultivation of A. sinensis.
The fruits of Ziziphus species have been utilized as food as well as crude drugs for their health benefits in China for thousands of years. This paper reported a reversed-phase high-performance liquid chromatography (HPLC) method for the simultaneous characterization and quantitation of 11 triterpenic acids in chloroform extracts of jujube fruits by using an evaporative light scattering detector (ELSD) and electrospray ionization-mass spectrometry (ESI-MS). The results showed that the contents of triterpenic acids in the fruits of Ziziphus jujuba var. spinosa were higher than those in the fruits of Z. jujuba, especially for the compound pomonic acid. Differences were also found among the different parts of Z. jujuba var. spinosa fruits with the sarcocarp having a higher amount of triterpenic acids than the seed and hard core.
To evaluate the effect of danggui-chuanxiong herb pair with different prescription proportions and formulas on nourishing and tonifying blood (NTB), activating blood circulation and dissolving blood stasis (ADBS), regulating menstruation and relieving pain (RMRP) in an all-round way, in order to reveal the correlation between the effect and constituents and their degrees.First, the indexes of effect were standardized. All effects were integrated by using multi-index aggregative index method. The weight coefficients of each index were worked out by the combining the statistics of testing frequency of each effect index given by the specialist-scored method and in relevant literatures released in the latest 10 years. Then, the total effect values were obtained by multiplying the standardized value of each index with the weight coefficients and then adding their results together. Finally, a fitting analysis was made on the contents of seven major active components in danggui-chuanxiong herb pair, total aromatic acids and total phthalide lactones and their total effect by using the artificial neural network, respectively.Water extracts of danggui-chuanxiong (1.5:1) had the best effect on total NTB; alcohol extracts of danggui-chuanxiong herb pair (1:1) had the best effect on total ADBS; alcohol extraction of danggui-chuanxiong herb pair (1.5:1) had the best effect on RMRP. By using the same extraction method, extracts of danggui had better effect on total NTB than Chuanxiong; while extracts of chuanxiong had better effect on total ADBS and RMRP than danggui. With the same prescription proportion, water extracts of danggui-chuanxiong herb pair had the best effect on total NTB; alcohol extracts of danggui-chuanxiong herb pair had the best effect on total ADBS and RMRP. Aromatic acids were the main effective components for NTB, especially chlorogenic acid and caffeic acid. Both aromatic acids and phthalide lactones were active components for ADBS, particular chlorogenic acid and senkyunolides I and H showed greater effect on ADBS. Both aromatic acids and phthalide lactones were also the important active constituents for the effect of RMRP, especially ligustilide, caffeic acid, ferulic acid, and senkyunolide I showed greater effect on RMRP.Both aromatic acids and phthalide lactones of danggui-chuanxiong herb pair contributed to NTB, ADBS and RMRP. Aromatic acids laid particular stress on NTB and ADBS, while phthalide lactones laid particular stress on RMRP. In this study, determined effect indexes of the herbal medicines were integrated by using multi-index aggregative index method, and a fitting correlation analysis was made on the component content of the herbal medicines and their integration effect by using the artificial neural network, in order to specify the active constituents of the herbal medicines with different effects and their contributions to the general efficacy and provide new ideas and methods for basic study on complicated active constituents of the herbs medicines.
To establish the water dynamics model for drying process of Angelicae Sinensis Radix, the Weibull distribution model was applied to study the moisture ratio variation curves, and compared the drying rate and drying activation energy with the drying methods of temperature controllable air drying, infrared drying under different temperatures (50, 60, 70 degrees C). The Weibull distribution model could well describe the drying curves, for the moisture ratio vs. drying time profiled of the model showed high correlation (R2 = 0. 994-0. 999). The result proved that the drying process of Angelicae Sinensis Radix belonged to falling-rate drying period. For the drying process, the scale parameter (a) was related to the drying temperature, and decreased as the temperature increases. The shape parameter (β) for the same drying method, drying temperature had little impact on the shape parameter. The moisture diffusion coefficient increase along with temperature increasing from 0.425 x 10(-9) m2 x s(-1) to 2.260 x 10(-9) m2 x s(-1). The activation energy for moisture diffusion was 68.82, 29.60 kJ x mol(-1) by temperature controllable air drying and infrared drying, respectively. Therefore, the Weibull distribution model can be used to predict the moisture removal of Angelicae Sinensis Radix in the drying process, which is great significance for the drying process of prediction, control and process optimization. The results provide the technical basis for the use of modern drying technology for industrial drying of Angelicae Sinensis Radix.
The present study is to determine the flavonoid glycosides, terpene lactones, biflavones, gingko acid and procyanidins of ginkgo pollen. UPLC-TQ-MS technology was used for the determination of 24 kinds of resource chemical composition in ginkgo pollen qualitatively and quantitatively. The results shows that the contents of rutin, quercetion 3-O-[4-O-(α-L-rhamnosyl )-β-D-glucoside] and kaempferolis were 120.9, 114.0, 222.1 μg x g(-1). In this paper, the contents of 24 kinds of chemical components of ginkgo pollen were determinated by UPLC-TQ-MS for the first time. This method is simple and quick, which will be benefit for recycling utilization of ginkgo pollen.
A rapid, selective and sensitive UPLC-MS/MS assay was established to determine the plasma concentrations of four steroidal saponins. Sprague-Dawley rats were allocated to four groups which were orally administered Anemarrhena asphodeloides extracts (ASE), ASE combined with macromolecular fraction (ASE-MF), ASE combined with small molecule fraction (ASE-SF) and ASE combined with small molecule and macromolecular fraction (ASE-SF-MF) containing approximately the same dose of ASE. At different time points, the concentration of timosaponin BII, anemarsaponin BIII, timosaponin AIII and timosaponin E1 in rat plasma were determined and main pharmacokinetic parameters including Cmax, Tmax, T1/2, AUC were calculated using the DAS 3.2 software package. The statistical analysis was performed using the Student’s t-test with p < 0.05 as the level of significance. MF had no effect on the pharmacokinetic behaviors and parameters of four steroidal saponins. It was found that Cmax and AUC of four steroidal saponins in group ASE-SF and ASE-SF-MF, were significantly increased compared with those in group ASE. These results indicate that SF in A. asphodeloides extracts could increase the absorption and improve the bioavailability of the steroidal saponins.
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