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The quality of Chinese medicinal materials is related to the environment, with an optimal quality under adversity. The origin of Chinese medicinal materials has converted from wild collection to cultivation, and a better cultivation environment leads to a decline in their quality. At present, there are few effective methods to improve the quality of Chinese medicinal materials. Plants are bound to produce a large amount of reactive oxygen species (ROS) under adversity, and the quality improvement of Chinese medicinal materials under adversity may be achieved through ROS. This paper described the relationship between plant adversity-ROS-secondary metabolism: ROS can alter the structure of proteins (including enzymes) and regulate enzyme activities, thus affecting secondary metabolism to improve the adaptive capacity of plants. Therefore, ROS is the essential cause of adversity changing secondary metabolism. The cells of plants are omnipotent, and the medicinal parts of plants can independently complete the whole process of secondary metabolism, so regulation of secondary metabolism during the processing of fresh Chinese medicinal materials can significantly improve the quality of Chinese medicinal materials. Exogenous ROS can be used as inducible factors to stimulate medicinal parts, inducing a physiological state of fresh medicinal parts similar to that under adversity, thus enhancing secondary metabolism, and improving the contents of active ingredients in Chinese medicinal materials. In addition, the content and ratio of each ingredient in Chinese medicinal materials are closer to those of wild Chinese medicinal materials. The mechanism of plant adaptation to adversity is the mechanism of the quality formation of Chinese medicinal materials, and the application of ROS as inducible factors can provide a new pathway for the production of high-quality Chinese medicinal materials.
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ObjectiveTo conduct a systematic comparative study on wild and cultivated Codonopsis pilosula(CP) from three aspects, including characters, microscopy, and contents of primary and secondary metabolites. MethodWild and cultivated CP samples were collected, their characters were measured using vernier caliper, tape measure and balance, the paraffin sections were stained with safranin-fixed green dyeing, and their microstructure were observed under the optical microscope. The content of alcohol-soluble extracts in wild and cultivated CP was determined according to the method for determination of extract under CP in the 2020 edition of Chinese Pharmacopoeia, the starch content was determined by anthrone colorimetry, the content of total polysaccharides was determined by kit method, Fiber analyzer was used to determine the content of fiber components, and ultra performance liquid chromatography(UPLC) was used to determine the content of monosaccharides, disaccharides and some secondary metabolites. Multivariate statistical analysis methods such as principal component analysis(PCA) and orthogonal partial least squares-discriminant analysis(OPLS-DA) were employed to screen key differential components between wild and cultivated CP on the basis of variable importance in the projection(VIP) value>1 and P<0.05. ResultIn terms of morphological characteristics, the "lion's head-like" shape, longitudinal wrinkles, and circumferential wrinkles below the root cap of wild CP were more pronounced in wild CP compared to the cultivated ones. Regarding transverse sectional features, wild CP had more fissures on the outer side of the cortex and a larger duramen. Under microscopic examination, wild CP had more stone cells, a larger proportion of xylem, and the presence of cork cells arranged in rings in the xylem, while cultivated CP has a larger proportion of phloem, smaller vessel diameters, and a more loosely arranged vascular system. In terms of primary metabolites, the contents of 45% ethanol-soluble extract and total polysaccharides in cultivated CP were significantly higher than those in the wild ones(P<0.05), the contents of lignin, hemicellulose, cellulose, fructose and glucose in wild CP were significantly higher than those in the cultivated ones(P<0.05), while sucrose content in the cultivated CP was significantly higher than that in the wild ones(P<0.05). Concerning secondary metabolites, the contents of tryptophan and tangshenoside Ⅰ in cultivated CP were significantly higher than those in the wild ones(P<0.05), whereas the contents of lobetyolinin, lobetyol and atractylenolide Ⅲ in wild CP were significantly higher than those in the cultivated ones(P<0.05). ConclusionThere are significant differences between wild and cultivated CP in terms of morphological characteristics, microscopic features and chemical composition. Glucose, fructose, sucrose, tangshenoside Ⅰ, tryptophan and cellulose components are the key differential components between wild and cultivated CP. Wild CP contains more polyacetylenes and fructose, whereas cultivated CP has higher levels of tangshenoside Ⅰ and sucrose, with noticeably lower cellulose content. These distinctions may be related to their growth conditions, growth years and cultivation techniques. Based on the results of this study, it is recommended to increase polyacetylenes and the content ratio of fructose to sucrose as an indicators to characterize different production methods of CP, in order to guide the high-quality production of CP.
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ObjectiveTo compare wild and cultivated Paeoniae Radix Rubra(PRR) in three aspects, including character, microscope, determination of primary and secondary metabolites. MethodSeventeen batches of wild and nine batches of cultivated PRR were collected,their character data were measured by vernier caliper and scales, and their paraffin sections were made by safranin-fixed green dyeing for the observation of microscopic features. The content of ethanol-soluble extracts and total tannin from wild and cultivated PRR was determined by the method of general principle 2201 and 2202 in the 2020 edition of Chinese Pharmacopoeia, the content of polysaccharides was determined by phenol-sulfuric acid method. Anthrone colorimetry was used to determine the content of starch, and Van Soest method of washing fiber was used to determine the content of fiber. The contents of fructose, glucose and sucrose in wild and cultivated PRR were determined by ultra-high performance liquid chromatography evaporative light scattering detection(UPLC-ELSD), and the secondary metabolites(gallic acid, methyl gallate, catechin, oxypaeoniflorin, albiflorin, paeoniflorin, ellagic acid, 1,3,4,6-tetragalloylglucose, galloylpaeoniflorin, 1,2,3,4,6-O-pentagalloylglucose, naringenin, benzoylpaeoniflorin and benzoylalbiflorin) were determined by UPLC. Principal component analysis(PCA) and orthogonal partial least squares-discriminant analysis(OPLS-DA) were used to analyze the data of wild and cultivated PRR, the contribution of different factors to the difference was determined according to the variable importance in the projection(VIP) value>1 and P<0.05. ResultIn term of characters, wild PRR showed the traditional characteristic of Zaopi Fencha, its outer skin was loose and easy to fall off, its surface had longitudinal furrow and wrinkle, but the outer skin of cultivated PRR was not easy to fall off, and its surface was relatively smooth. The radial texture of xylem of wild PRR cross-section was more obvious, showing radial striations, vacuoles and more cracks, while the radial texture of xylem of cultivated PRR cross-section was not obvious, dense and some had cracks. Microscopically, the number of radial vessels arranged in the xylem of wild PRR was more than that of cultivated PRR, the number of calcium oxalate clusters in the phloem and xylem of wild PRR was more than that of cultivated PRR, while the number of starch grains was significantly higher in cultivated PRR. In terms of the content of primary chemical constituents, the contents of polysaccharides and starch of cultivated PRR were significantly higher than those of wild PRR(P<0.05), while the contents of cellulose, lignin, fructose and glucose of wild PRR were significantly higher than those of cultivated PRR(P<0.05). The results of determination of 13 secondary metabolites showed that the contents of paeoniflorin, methyl gallate, catechin and oxypaeoniflorin in wild PRR were significantly higher than those in cultivated PRR(P<0.05), while the contents of albiflorin, gallic acid, ellagic acid, naringenin, benzoylpaeoniflorin and benzoylalbiflorin were significantly lower than those of cultivated PRR(P<0.05). A total of 10 variables contributing to the differentiation between wild and cultivated PRR were screened, including albiflorin, cellulose, benzoylpaeoniflorin, oxypaeoniflorin, naringenin, ellagic acid, starch, lignin, paeoniflorin and total tannins. ConclusionThere are significant differences between wild and cultivated PRR in characters, microscopic characteristics, contents of primary and secondary metabolites. It is suggested that the content ratio of paeoniflorin and albiflorin, the contents of oxypaeoniflorin and cellulose can be used as indicators to characterize production methods of PRR so as to improve the quality standard of PRR. This study can provide reference for the improvement of quality standard of PRR and the guidance of high quality production of PRR.
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OBJECTIVE@#Cultivated Cordyceps sinensis powder has been used as clinical drug and healthy food to nourish the lung and kidney, which solves the problem of serious shortage of wild C. sinensis. This study aims to explore the chemical components and compared their anti-fibrotic effects in cultivated C. sinensis.@*METHODS@#Nucleosides, sterols and polysaccharides were separated and purified from cultivated C. sinensis, and analyzed by high performance liquid chromatography, gas chromatography-mass spectrometry and chemical chromogenic methods, respectively. In high glucose-induced rat mesangial cell models, fibronectin and type 1 collagen were used as evaluation indicators.@*RESULTS@#There were 10 kinds of nucleosides and one sterol in cultivated C. sinensis. The contents of nucleosides, sterols and polysaccharides in the cultivated C. sinensis were close to 2%, 0.55% and 4.4%, respectively. Furthermore, nucleoside, sterol and polysaccharide components exhibited varying degrees of anti-fibrotic activity. The nucleoside components and sterol components inhibited the expression of extracellular matrix more effectively in the three main components.@*CONCLUSION@#Cultivated C. sinensis remains the similar compounds with the wild C. sinensis, and nucleosides and sterols may be the main active substances that contribute to its anti-fibrotic effects. The project of this study may provide valuable information on further optimization of more effective remedies with few side effects based on cultivated C. sinensis.
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By reviewing the research history on quality comparison between wild and cultivated Chinese crude drugs, this paper systematically combed the relevant research reports since the 1950s, and summarized and analyzed the results of existing comparative studies, and found that the existing comparative research on the quality of wild and cultivated Chinese crude drugs were mainly focused on several aspects, including characteristics, microstructures, chemical compositions, pharmacodynamic effects, and genetic diversity. Among these, comparative studies of chemical compositions have been the dominant approach, with a particular emphasis on comparing the contents of index components. However, research on pharmacodynamic effects remained relatively limited. Due to various factors such as sample quantity, sample origin, growth period and cultivation methods, the differences in quality between wild and cultivated Chinese crude drugs vary significantly. In general, most wild Chinese crude drugs exhibited higher quality than cultivated products, with significant differences in their characteristics. The contents and proportions of some chemical components underwent noticeable changes, particularly with a marked increase in the proportion of primary metabolites after cultivation. The quality of cultivated Chinese crude drugs is closely related to the cultivation practices employed. Chinese crude drugs produced through wild nurturing, simulated wild planting, ecological cultivation, and other similar methods demonstrate quality levels comparable to those of wild Chinese crude drugs. Based on the analysis results, it is recommended to explicitly specify the cultivation practices and cultivation period of cultivated Chinese crude drugs in comparative studies of the quality between wild and cultivated Chinese crude drugs. Multiple technical approaches, including characteristics, microscopy, non-targeted metabolomics combined with quantitative analysis of differential components, and bioefficacy evaluation, should be employed to comprehensively assess the quality disparities between wild and cultivated Chinese crude drugs. Moreover, research efforts should be intensified to investigate the changes in pharmacodynamic effects resulting from differences in plant cell wall composition, primary metabolites, and secondary metabolites, in order to guide the production of high-quality Chinese crude drugs.
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ObjectiveBased on the traditional quality evaluation methods summarized in previous dynasties, this paper systematically contrasted cultivated Astragali Radix(CA) and wild-simulated Astragali Radix(WA) from the aspects of character, microstructure and chemical composition by modern technological means. MethodThe collected CA and WA were compared in characters and microscopic characteristics in cross section, and comparative analysis were performed on the contents of cellulose, extracts, carbohydrate, total flavonoids, total saponins, etc. Then ultra-high performance liquid chromatography-quadrupole-time-of-flight mass spectrometer(UPLC-Q-TOF-MS) and desorption electrospray ionization mass spectrometry imaging(DESI-MSI) were used to comparatively analyze the secondary metabolites and their spatial distributions in the xylem and phloem of CA and WA. ResultIn terms of characters, the characters and sectional features of WA was consistent with the characteristics of high-quality Astragali Radix, while the CA was quite different from the traditional high-quality Astragali Radix. In terms of microscopy, the phellem layer of CA was thin, and the section fissures were mostly distributed through the cambium in a long strip shape without obvious growth ring characteristics. The cork layer of WA was thick, and the cracks in the section were distributed in the center of the xylem and the outer edge of the phloem in an irregular cavity shape. The cambium was tight without cracks, and had obvious characteristics of a growth ring. In terms of chemical composition, the contents of water-soluble extract, 80% ethanol extract and sucrose of CA was significantly higher than those of WA, while the contents of total saponins, lignin and hemicellulose were significantly lower than those of WA. And the contents of 100% ethanol extract, total polysaccharides and total flavonoids in both of them were generally similar, but slightly higher in WA. The contents of 2 kinds of monoacyl-substituted flavonoid glycosides in the xylem of WA was significantly higher than those of CA, while the contents of 2 kinds of flavonoid aglycones and one flavonoid glycoside were on the contrary. The contents of 7 saponins in phloem of WA were significantly higher than those of CA. ConclusionThere are significant differences between CA and WA in characters, microstructure and chemical components, in which CA has a fast growth rate and a short planting period, and the primary metabolites such as water-soluble extracts and sucrose are more enriched, which is the reason for its firm texture and sweetness being significantly higher than those of WA. However, the contents of lignin, hemicellulose and some secondary metabolites in WA are significantly higher than those in the CA, which are close to the traditional description of characters and quality. Based on the results of this study, it is suggested to strengthen the production of WA, improve the supply capacity of WA, and gradually upgrade the current standard. It is recommended to increase the contents of monoacyl-substituted flavonoid glycosides, total saponins and other indicators that can characterize different production methods, so as to guide the high-quality production of Astragali Radix.
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In recent years, land use related to anthropogenic activities has contributed to high surface water contamination. During the last decade, Lake Toho, in the Republic of Benin, has suffered anthropogenic pollution by the use of fertilizers from farmers around the lake. We assessed the mobility and bioavailability of phosphorus in cultivated soils around the lake to detect the extent of the contamination. The results showed that the cultivated soils around Lake Toho are weakly acidic or even basic with water pHs between 6.25 and 8.3. The humidity of cultivated soils varies from 1% to 38% on different horizons. The content of organic matter is ranged from 40.30% to 49.70%. The total phosphorus concentration ranged from 1049.74 ?g.g-1 to 28436.52 ?g.g-1 with a high rate of enrichment at the 30 cm horizon. The high contents of total phosphorus recorded at the superficial horizon were due to the use of fertilizers to amend the soil. All forms of phosphorus are represented (P-L, P-Fe, P-Ca, P-Al, and P-OM). The organic fraction predominates on the upper layer of the soil except for sites located outside crop fields. The strong correlation between the Total phosphorus (TP), the (Pr), mobile phosphorus (P-L), and the to organic matter-bound Phosphorus (P-OM) showed that the high phosphorus contents at the upper horizon of the soil were due not only to the anthropogenic contribution but also to the source rock. The remarkable presence of phosphorus in the P-L and P-MO fractions poses a risk of phosphorus transport to the lake. This can lead to eutrophication which can cause the death of fish and harmful toxins development.
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Fargesia nitida is a cold-resistant evergreen bamboo and is a pioneer plant in the secondary succession after the native trees were destroyed in the eastern Tibetan Plateau. However, little is known about the effects of this plant on soil conditions and about its microbiomes. Aiming at learning the interactions among the soil characteristics, the plants and the microbes in relation to the plant succession, a study on cultivated microbes associated with the rhizocompartments of F. nitida was performed in the present study to reveal the preference of this plant to the root associated microbes, in comparison with that associated with the successive spruce (Picea asperata Mast.) trees. The results demonstrated that growth of F. nitida could improve the soil nutrient contents, especially increasing total nitrogen, NH4+-N, total carbon, and microbial biomass carbon, and maintained more soil bacteria than the successive spruce trees. Based upon the study of F. nitida root-associated cultivated microbial community, the nutrient improvement in F. nitida growing soils might be from the root endophytic bacteria, which presented greater abundance (3.8, 1.7, and 12.6 folds) than that of bacteria in its rhizosphere, root zone soil, and spruce root zone soil, respectively. Pseudomonas members, especially species related to P. baetica and P. vancouverensis, were strongly selected by F. nitida as root endophytes.
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ObjectiveTo identify potential distribution areas for wild Panax ginseng cultivated under forest in Liaoning province, China, and analyze the ecological factors of spatial stratified heterogeneity affecting its ecological suitability and quality suitability. MethodWild Panax ginseng samples cultivated under forest were collected from 33 cultivation bases in Liaoning province. The Maxent maximum entropy model and ArcGIS were used to delineate the ecological suitability zones. Correlation analysis was performed on seven indicators and 110 ecological factors. Variables with significant correlation (P<0.05) were used to build partial least squares regression analysis models. A comprehensive quality zoning was conducted using the analytic hierarchy process (AHP). The geographic detector was employed to analyze the interactions among dominant ecological factors of spatial stratified heterogeneity affecting habitat suitability, quality suitability, and the ecological driving factors. ResultVegetation type was the most influential ecological factor for delineating the ecological suitability zones for wild Panax ginseng in Liaoning province. The main ecological suitability areas for wild Panax ginseng cultivated under forest were located in the northeast, east, and southeast regions along the line from Xifeng County to Gaizhou City. The comprehensive quality suitability of wild Panax ginseng cultivated under forest was highest in Kuandian County and Huanren County and gradually decreased to the northwest and southwest. Within the delineated regions, the suitability conditions and comprehensive quality of wild Panax ginseng cultivated under forest were primarily influenced by the interactions between radiation and precipitation factors. The content of the measured samples was significantly higher than the standards in the 2020 edition of the Chinese Pharmacopoeia, indicating the high overall quality of wild Panax ginseng in Liaoning Province. ConclusionAccording to the zoning and prediction results, areas in Fengcheng City, Xiuyan County, Zhuanghe City, Liaoyang County, Tieling County, Xifeng County, Gaizhou City, Haicheng City, and Dashiqiao City showed large potential distribution areas with high quality, making them highly promising for wild Panax ginseng cultivation. However, further experimental verification is required. The zoning results can provide insights for research on habitat suitability and comprehensive quality accumulation of wild Panax ginseng cultivated under forest, as well as guidance for the search for potential cultivation areas and industrial development of wild Panax ginseng in Liaoning Province.
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This paper aims to compare the difference of growth and quality between wild and cultivated Artemisia stolonifera, thereby providing references for further development and utilization of A. stolonifera. The wild and cultivated A. stolonifera from different altitudes were collected, and the agronomic characters, moxa yield, volatile components, flavonoids, and phenolic acids were determined. The results showed that the cultivated species were taller and stronger, with more leaves and branches, than the wild species. The moxa yield and combustion quality of wild products were higher than those of cultivated products. The content of main volatile components in cultivated products was higher than that in wild products. The content of flavonoids and phenolic acids in wild products was higher than that in cultivated products. At high altitude, the ignition performance, combustion persistence, comprehensive combustion performance, and heat release during combustion of the wild and cultivated A. stolonifera. were optimal. At middle altitude, the content of main characteristic volatile components and flavone phenolic acids in the leaves of the cultivated and wild A. stolonifera were the highest. At low altitude, the combustion quality and the content of the above components of the cultivated A. stolonifera decrease significantly. Considering the combustion quality and the content of the internal components of the leaf lint, the middle and high altitude areas are suitable for the artificial cultivation of A. stolonifera.
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Artemisia , Agricultura , Flavonoides , Folhas de Planta , Medicamentos de Ervas ChinesasRESUMO
"Tangjie" leaves of cultivated Qinan agarwood were used to obtain the complete chloroplast genome using high-throughput sequencing technology. Combined with 12 chloroplast genomes of Aquilaria species downloaded from NCBI, bioinformatics method was employed to determine the chloroplast genome characteristics and phylogenetic relationships. The results showed that the chloroplast genome sequence length of cultivated Qinan agarwood "Tangjie" leaves was 174 909 bp with a GC content of 36.7%. A total of 136 genes were annotated, including 90 protein-coding genes, 38 tRNA genes, and 8 rRNA genes. Sequence repeat analysis detected 80 simple sequence repeats(SSRs) and 124 long sequence repeats, with most SSRs composed of A and T bases. Codon preference analysis revealed that AUU was the most frequently used codon, and codons with A and U endings were preferred. Comparative analysis of Aquilaria chloroplast genomes showed relative conservation of the IR region boundaries and identified five highly variable regions: trnD-trnY, trnT-trnL, trnF-ndhJ, petA-cemA, and rpl32, which could serve as potential DNA barcodes specific to the Aquilaria genus. Selection pressure analysis indicated positive selection in the rbcL, rps11, and rpl32 genes. Phylogenetic analysis revealed that cultivated Qinan agarwood "Tangjie" and Aquilaria agallocha clustered together(100% support), supporting the Chinese origin of Qinan agarwood from Aquilaria agallocha. The chloroplast genome data obtained in this study provide a foundation for studying the genetic diversity of cultivated Qinan agarwood and molecular identification of the Aquilaria genus.
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Filogenia , Genoma de Cloroplastos , Códon , Anotação de Sequência Molecular , Thymelaeaceae/genéticaRESUMO
ObjectiveTo investigate the effects of exogenous Fusarium oxysporum and Trichoderma viride on the diversity of soil fungal community and carbon metabolic function of cultivated Panax ginseng. MethodIllumina HiSeq 2500 high-throughput sequencing combined with Biolog-ECO was used to analyze the species diversity and functional diversity of soil fungal communities in P. ginseng soil under different exogenous treatments. ResultThe results of high-throughput sequencing showed that the number and species of microorganisms in the soil were significantly changed after exogenous microorganisms were added. The soil fungi with relative abundance greater than 1% included Mortierella sp.,Fusarium sp.,Humicola sp.,and Simplicillium sp. Mortierella sp. in each treatment group significantly increased. Humicola sp. and Simplicillium sp. could be induced to increase by exogenous addition of F. oxysporum,while T. viride at a high concentration could significantly inhibit the growth of F. oxysporum. As revealed by Biolog and principal component analysis (PCA),the average well color development (AWCD) in the high-dose T. viride group (MG) was significantly higher than that in the control group (QS)and the low-dose F. oxysporum group(LD). The utilization abilities for amino acids,carboxylic acids,polymers, and amines were enhanced in the MG group,but the microbial metabolic activity was reduced in the high-dose F. oxysporum group (LG). There was no significant increase in the utilization of phenolic acids by soil microorganisms in both groups. ConclusionExogenous addition of F. oxysporum can lead to the growth and reproduction of other pathogenic fungi. Exogenous addition of T. viride can enhance the soil fungal community structure and metabolic diversity,inhibit the proliferation of F. oxysporum,and improve the soil microbial environment of cultivated P. ginseng.
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ObjectiveTo conduct genetic variation analysis of 11 cultivars and 7 wild populations of Angelica sinensis in Gansu province based on the chloroplast gene (cp DNA), and provide references for germplasm identification and breeding of new cultivars of A. sinensis. MethodThree pairs of cp DNA primers were used for polymerase chain reaction (PCR) amplification and sequencing of A. sinensis samples. MegaX was used to perform statistics on sequence characteristics and calculate mean genetic distances among A. sinensis populations. Unweighted pair-group method with arithmetic means (UPGMA) clustering tree based on genetic distance was constructed by NTSYS 2.10e. DanSP v6 was used to calculate sequence polymorphism and Tajima's D of A. sinensis. PERMUT was used to calculate the population structure of A. sinensis. Arlequin v3.5 was used to perform molecular variation analysis, and PopART1.7 was used to construct TCS haplotype network. ResultThree pairs of cp DNA primers were amplified, sequenced, compared, and combined to give a sequence length of 1 759 bp. One variable site was detected in the wild A. sinensis and 480 variable sites were detected in the cultivated A. sinensis, including 97 singleton variable sites, 383 parsimony informative sites, and 152 insertion-deletion sites. In the three regions of matK, psbA-trnH, and rbcL of cp DNA in the wild and cultivated A. sinensis, matK was the region with the highest polymorphism. Tajima’s D of all the combined sequences of A. sinensis were not significantly negative, but psbA-trnH and rbcL genes of the cultivated A. sinensis were significantly negative, indicating that the A. sinensis followed neutral evolution on a whole, while psbA-trnH and rbcL genes had undergone selection. The degree of genetic differentiation (Fst=0) among wild populations was lower than that among cultivated populations (Fst=0.114 19, P<0.05). The degree of genetic differentiation between wild and cultivated A. sinensis was relatively high (Fst=0.942 55, P<0.01). Genetic variation in the cultivated A. sinensis was mainly found within the populations (89%). UPGMA cluster tree based on genetic distance showed that the wild A. sinensis and the cultivated A. sinensis were clustered into one branch, respectively, with a distant genetic relationship, and the population 3 in the cultivated A. sinensis was far from other cultivated populations. The TCS haplotype network consisted of 15 haplotypes and 4 unknown haplotypes, which was divided into 3 parts, with a large number of variations among each part. Shared haplotypes were only found in the wild or cultivated groups, and there were no shared haplotypes between groups. ConclusionThe genetic diversity of A. sinensis was low at species level, and the population diversity of the wild was lower than that of the cultivated. The degree of genetic differentiation between the wild and the cultivated A. sinensis was high, but that in the wild and the cultivated populations were low. Genetic variation in the cultivated A. sinensis was mainly found within populations.
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OBJECTIVE:To establish the metho d for the content determination of 8 nucleosides in wild and cultivated Pinellia ternate,and to conduct the difference analysis. METHODS :The contents of uracil ,uridine,inosine,xanthine,adenine, guanosine,β-thymidine and adenosine in 20 batches of P. ternate (wild product YS 1-YS8,cultivated product ZP 1-ZP12)were determined by HPLC method. Based on the contents of the above 8 nucleosides,cluster analysis ,principal component analysis (PCA),partial least squares analysis (OPLS-DA)were used to comprehensively evaluate the wild and cultivated P. ternata . RESULTS:The contents of uracil ,uridine,inosine,xanthine,adenine,guanosine,β-thymidine and adenosine in 20 batches of P. ternate were 0.02-0.24,0.01-0.24,0.06-0.37,0.02-0.14,0.04-0.22,0.14-0.42,0.01-0.09,0-0.32 mg/g,respectively. Cluster analysis,PCA and OPLS-DA showed that 8 batches of wild P. ternate (YS1-YS8)were clustered into one category ,and 12 batches of cultivated P. ternate (ZP1-ZP12)were clustered into one category. Main characteristic markers of wild P. ternate were guanosine,uridine,adenosine and adenine ,while the main characteristic markers of cultivated P. ternate were urinine ,xanthine, inosine,and β-thymidine. CONCLUSIONS:The method for the content determination of 8 nucleosides in P. ternate is established. Nucleosides as quality markers can effectively distinguish wild and cultivated P. ternata ,and the quality of the wild P. ternate was better than that of cultivated P. ternate .
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Objective:To explore the immunomodulatory activity of ethanol extract of cultivated Cistanche deserticola (EECCD) in Xinjiang. Methods:Ovalbumin (OVA) was used antigen, ICR mice were divided into 9 g/L NaCl group (blank control group), EECCD group (1 200 μg EECCD), OVA group (10 μg OVA), low-dose EECCD/OVA group (400 μg EECCD+10 μg OVA), medium-dose EECCD/OVA group (800 μg EECCD+10 μg OVA), high-dose EECCD/OVA group (1 200 μg EECCD+10 μg OVA) and aluminum adjuvant (Alum)/OVA group (200 μg Alum+10 μg OVA). Mice were immunized subcutaneously, and the immunization was strengthened once 14 days after the initial immunization. The level of splenocyte proliferation was determined by thiazolyl blue tetrazolium bromide (MTT) method, and interferon γ (IFN-γ) and interleukin-4 (IL-4) in CD4 + T cell, dendritic cells (DCs) surface markers and CD4 +CD25 +Foxp3 + Treg were evaluated by fluorescence-activated cell sorting (FACS). Results:Three dose of EECCD can enhance OVA-specific IgG titers in serum. The antibody titer in medium-dose EECCD/OVA group was 250 000, which was the same as that in the Alum/OVA group. The medium-dose EECCD/OVA significantly improve IgG1 and IgG2a (both P<0.01). Therefore, the medium dose EECCD was selected as the best dose. MTT results displayed that splenocyte proliferation were significantly stimulated by medium-dose EECCD/OVA ( P<0.05), and the levels of IL-4 and IFN-γ in CD4 + T cells were promoted in groups administered with medium-dose EECCD/OVA (both P<0.01). Furthermore, medium-dose EECCD/OVA significantly up-regulated the levels of CD40, CD80, CD86 and major histocompatibility complex class Ⅱ (MHCⅡ) on DCs and down-regulated the frequency of CD4 +CD25 +Foxp3 + Treg (all P<0.05). Conclusions:EECCD has good immunomodulatory activity, can promote Th1-biased response, and has the therapeutic potential for the prevention of diseases.
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Oreochromis niloticus (Linnaeus) (Perciformes: Cichlidae), commonly named "tilapia", is the second most cultivated species in the world. Among the diseases that affect tilapia are parasitic diseases caused by parasites of the class Monogenoidea. The aim of the present study was to analyze parasitism rates among specimens of O. niloticus in farming systems, after dietary supplementation with ractopamine, a growth promoter that is used for fattening fish. The action of this substance on the quantitative parameters of infestation by Monogenoidea was evaluated. Samples of O. niloticus were obtained from a fish farm in Brasília, Federal District, Brazil. Their gills were removed and fixed. Four species of monogenoideans were collected: Cichlidogyrus halli, C. sclerosus, C. thurstonae and Scutogyrus longicornis. The results from this study indicate that the monogenoidean parasites of tilapias examined here presented different behaviors in relation to the ractopamine concentrations that were added to the food. The parasitological indexes did not present significant reductions through using ractopamine, thus leading to the conclusion that administration of ractopamine is not efficient as a method for controlling infestations of monogenoidean parasites.(AU)
Oreochromis niloticus (Linnaeus) (Perciformes: Cichlidae), tilápia, é a segunda espécie mais cultivada no mundo. Entre outras doenças que afetam a tilápia, estão as doenças provocadas por parasitos da classe Monogenoidea. O presente estudo teve como objetivo analisar os índices de parasitismo em espécies de O. niloticus provenientes de sistemas de cultivo, submetidos a uma dieta com suplementação de ractopamina, usada como promotor de crescimento no estágio de engorda dos peixes, para avaliar as ações dessa substância nos parâmetros quantitativos da infestação por Monogenoidea. Exemplares de O. niloticus obtidos na piscicultura "Agropecuária do Buriti Perdido", em Brasília, Distrito Federal, Brasil, foram examinados; as brânquias foram removidas e fixadas. Quatro espécies foram coletadas: Cichlidogyrus halli, C. sclerosus, C. thurstonae e Scutogyrus longicornis. Os resultados obtidos no presente estudo indicaram que as espécies de Monogenoidea parasitos de tilápia examinadas apresentam diferentes comportamentos relacionados à concentração de ractopamina adicionada ao alimento. Os índices parasitológicos não apresentaram redução significativa pelo uso da ractopamina, levando à conclusão de que a ractopamina não é eficiente como método de controle parasitário em infestações por Monogenoidea.(AU)
Assuntos
Animais , Parasitos , Ciclídeos/fisiologia , Aditivos Alimentares/administração & dosagem , Perciformes , Aumento de PesoRESUMO
A study was conducted to emphasize the importance of non-cultivated plants/weeds in North Bangalore, Karnataka from October 2014 to March 2015 in three locations. The pollinators were collected using sweep net method on cultivated and non-cultivated flowering plants. A total of 22 non-cultivated plant species and 11 cultivated plant species were observed on which 85 and 56 pollinator species were collected respectively belonging to the four families (Apidae, Halictidae, Megachilidae and Scoliidae) of Hymenoptera and two families (Syrphidae and Bombyliidae) of Diptera. It is found that association of pollinators were more towards non-cultivated plants than cultivated plants. Among cultivated flowering plants, Ocimum americanum was highly attractive followed by Field bean and Lavandula angustifolia. Among non-cultivated flowering plants, Alternanthera sessilis was highly attractive on which majority were Dipterans followed by Leucas aspera and Hyptis suaveolens indicating the importance of non-cultivated flowering plants/weeds in conservation of pollinators.
RESUMO
Objective:To investigate the ecological environment and associated plants of mountain cultivated Panax ginseng were investigated in Xifeng county,Kuandian Manchu autonomous county and Huanren Manchu autonomous county of Liaoning province,in order to provided suggestions on the development of the mountain cultivated P. ginseng in these areas and necessary reference materials for the analysis of ecological suitability of mountain cultivated P. ginseng. Method:The field survey was conducted through sample plot survey in the survey pattern ofbased on representative area-sample plot-quadrat,literature review and data collation, were conducted to record indicators, calculate relevant parameters and make summary. Result:The associated plants were investigated based on 42 samples of mountain cultivated ginseng collected. A total of 95 plant species were identified. The correlation analysis was made on the six main species with an occurrence frequency of higher than 33%, and they were all positively correlated. Asarum heterotropoides var. mandshuricum was the strongest,which was followed by Schisandra chinensis, and Tilia tuan was the strongest in the arbor layer. The survey also found many problems in these areas,such as fewer large-scale planting bases, more scattered households,mixed germplasms,irregular planting techniques,simple planting mode and less sources of economic income generation. Conclusion:Xifeng county,Kuandian county and Huanren county of Liaoning province boast a superior ecological environment and abundant resources of mountain cultivated P. ginseng. The survey gets the whole picture of the ecological environment and associated plants of mountain cultivated P. ginseng in representative areas of Liaoning province,so as to provide the basis for the further development of mountain cultivated P. ginseng cultivation industry and the promotion of mountain cultivated Panax ginseng economy.
RESUMO
Objective:To find the natural environmental boundary of the origin of the authentic Ligusticum chuanxiong by analyzing the distribution characteristics of soil elements in the traditional geo-authentic area and the southern continuous expanding areas along the same longitude. Method:The contents of 24 elements both in soil and plant L. chuanxiong samples were determined by using X-ray fluorescence spectrometry (XRF) and ICP-MS,etc. Spearman correlation test was used to evaluate the correlations of rhizosphere soil and each portion of L. chuanxiong,to screen out “characteristic elements”. Bray-Curtis similarity indexes based on all elements and "characteristic elements" were used for hierarchical cluster analysis of soil samples, to identify the sample range with similar soil element charateristics to the traditional geo-authentic area of L. chuanxiong. Result:K,Mg,Mn and Rb elements were significantly correlated in rhizosphere soil and plant L. chuanxiong. Geographical differentiation of all elements and four characteristic elements showed that there was a highest similarity between geo-authentic area and its neighbor plots S1-S6 (except plot S4) in soil elements distribution, followed by plots S14-S16. The middle section plots S7-S13 in the expansion areas were quite different from the traditional geo-authentic production areas. Conclusion:The soil element characteristics in the study areas were not completely controlled by geographical distance,but demonstrated the "fault" variation in the areas along longitude. This study provides a theoretical basis for the detrrmination of suitable cultivation area for Ligusticum Chuanxiong, and the natural boundary of its geo-authentic area may be extended an additional 60 km southward along longitude beyond the traditional origin. Additionally, K,Mg,Mn and Rb characteristic elements may be the potential markers to evaluate the suitable soil environment for cultivating L. chuanxiong.
RESUMO
Objective::To explore the correlation between bulb quality and rhizosphere soil factors of Fritillaria taibaiensis of different origins and years, in order to provide theoretical basis for the high quality and safe production of F. taibaiensis. Method::Totally 11 samples of bulb and rhizospheric soil of F. taipaiensis of different origins and years were taken as the research objects. Available N, available P, available K, organic matter, pH and six soil enzyme activities in rhizosphere soils were determined by soil agrochemical analysis method. Peimisine and nine nucleosides in F. taibaiensis bulbs were determined by HPLC, and total alkaloid content was determined by UV. SPSS 22.0 software was used to analyze the correlation of the measured data. Result::There were significant differences in rhizosphere soil factors and bulb quality between F. taibaiensis of different origins and years (P<0.05). In terms of soil factors, the contents of available N, available K, organic matter and six soil enzyme activities in rhizosphere soil of wild varieties were higher than those of cultivated varieties, while the contents of available P and pH were lower than those of cultivated varieties. With the increase of growth years, the soil nutrient index of cultivated varieties showed different change trends, while that of wild varieties did not change significantly. However, most of the soil enzymes in both groups decreased in varying degrees. In terms of bulb quality, the contents of nine nucleosides and alkaloids in F. taibaiensis bulbs decreased with the increase of growth years, with larger change trends of cultivated varieties, while that of wild varieties was not significant. The contents of nucleosides and alkaloids in most cultivated varieties were higher than those in wild varieties. The correlation analysis showed certain correlations between soil factors in rhizosphere as well as soil factors and bulb quality. In general, soil nutrient status and bulb quality decreased with the increase of years. Conclusion::The quality of F. taibaiensis is mainly affected by its rhizosphere soil factors. In the process of field conservation and artificial cultivation, attention shall be paid to increase or decrease of the content of soil nutrients and their proportional relationship according to actual situations, so as to ensure the quality of F. taibaiensis.