1.Inspection on result of artemisinin content rank distribution in Guangxi.
Zhentao FAN ; Xiaojun MA ; Shixin FENG ; Shugen WEI ; Xiao WEI ; Lanping GUO ; Luqi HUANG
China Journal of Chinese Materia Medica 2009;34(3):269-271
OBJECTIVEIn order to enhance the yield of artemisinin, makes out the Artemisia annua adaptive area regional assignment in Guangxi. To ensure the nicety in study, on the base of literature study and experience on the spot, the article inspect the division result.
METHODBy document analysis and colleted data of A. annua, make out sample collect proceed and inspect the result of artemisinin content rank distribution in Guangxi.
RESULT AND CONCLUSIONResult of A. annua regional assignment is checked out in the article, the result passes the check by AQL (32, 4). The conclusions insure subsequence study and the A. annua sample collect. The result of artemisinin content rank distribution in Guangxi can be used in artemisinin production.
Antimalarials ; analysis ; pharmacology ; Artemisia annua ; chemistry ; Artemisinins ; analysis ; pharmacology ; China ; Plant Extracts ; analysis ; pharmacology
2.Breeding and spreading of new vairety "Yu-Qing No. 1" of Artemisia annua.
Longyun LI ; Yekuan WU ; Peng MA ; Guanglin CUI ; Guoyue ZHONG ; Meisheng WANG ; Fangyi LI
China Journal of Chinese Materia Medica 2010;35(19):2516-2522
OBJECTIVETo breed and spread a new cultivar of Artemisia annua.
METHODThe excellent germplasm resources of A. annua in the main production area of Artemisia were collected, and the improved germplasm were screened, the content of artemisinin was determined, and yield per plant was measured. The systematically maternal line and seed production techniques of mass selection were applied combined with the variety test, variety regional test trials and production trials for breeding and spreading the new cultivars of artemisia.
RESULTThe popularization and experiment illustrated the production of the new species reached 3 000 kg x hm(-2), compared with wild A. annua it increased 10% -14%. The content of artemisinin reached more than 1%, increased more than 0.2%.
CONCLUSIONIt is proved that the systematically maternal line and seed production techniques of mass selection can significantly improve the quality of A. annua and it is an acceptable way to cultivate new variety. By production verification, it is practicable and high technical and economic benefits to popularize the new cultivar "Yu-Qing No. 1" of A. annua.
Antimalarials ; analysis ; pharmacology ; Artemisia annua ; chemistry ; genetics ; growth & development ; Artemisinins ; analysis ; pharmacology ; Breeding ; methods
3.Determination of impurity diketo aldehyde in bulk drug and preparations of dihydroartemisinin.
Kun WANG ; Dong ZHANG ; Peng SUN ; Yue MA ; Yi-Fan ZHAO ; Xiao-Qiang CHANG ; Lan YANG
China Journal of Chinese Materia Medica 2018;43(20):4069-4073
Diketo aldehyde (DKA),one of the most important impurities in dihydroartemisinin,was synthesized through reaction between dihydroartemisinin and anhydrous ferrous bromide under a N₂ atmosphere, and an HPLC method was established for the determination of DKA in bulk drug and in DHA tablet. DKA was prepared from dihydroartemisinin in the presence of FeBr₂.The chromatographic separation was achieved through an Agilent Eclise XDB-C₁₈ column (4.6 mm×250 mm,5 μm), and the optimal mobile phase consisted of acetonitrile and water in the ratio of 37:63 at flow rate of 1.0 mL·min⁻¹.The detection was carried out at 216 nm, and column temperature was 15 °C.The injection volume was 40 μL.The method featured a good linearity (=0.999 9),precision (1.0%),repeatability (1.3%),stability (DKA standards RSD=1.0% and in tablet form instability),recovery (92.88%),limits of detection (0.20 mg·L⁻¹) ,and limits of quantification (0.78 mg·L⁻¹). The result show that the content of DKA in bulk drug was 0.086 7%-2.622 9%, and the content of DKA in tablet was 0.068 3%-0.615 1%.
Aldehydes
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analysis
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Artemisinins
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analysis
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standards
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Chromatography, High Pressure Liquid
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Drug Contamination
4.Correlation analysis on main agronomic characters, yield per plant, artemisinin percentage contents and total artemisinin content per plant of Artemisia annua.
Kai LIAO ; Wei WU ; Youliang ZHENG ; Kaiqiang LI ; Zhigang LIU
China Journal of Chinese Materia Medica 2009;34(18):2299-2304
OBJECTIVETo study the relationships among the main agronomic characters, yield per plant,content of artemisinin of Artemisia annua, and provide the theoretical basis for breeding the A. annua varieties with high-yield and high artemisinin content.
METHODThe main agronomic characters, yield per plant, artemisinin content of the wild and cultivated A. annua of Sichuan province were investigated and determined, and the correlated relationships among them were analyzed.
RESULTIt was showed that the weight of dried stem per plant had very significantly positive correlation with the yield per plant,and the number of primary branches, the diameter of stem had significantly positive correlation with the yield per plant. The flower bud stage, first flowering stage and full-bloom stage had significantly positive correlation with the artemisinin content. The first flowering stage and full-bloom stage had significantly positive correlation with the total artemisinin content per plant. The weight of dried stem per plant,the diameter of stem and the flower bud stage had significantly correlation with the total artemisinin content per plant. A. annua with the purple-stem had significant higher artemisinin content than that with the green-stem. Through the multiple regression analysis, the classic multiple regression equation of the yield per plant was gained as Y = 0.06121-0.000 08X(1) + 0.30378X(3) - 0.00051X(4) - 0.00031X5 (F = 20.15, P < 0.0001), the classic multiple regression equation of the artemisinin content as Y = -1.45849 - 0.00099X(1) - 0.24079X(3) + 0.13362X(6) - 0.00719X(7) + 0.01454X(9) (F = 46.55, P < 0.0001), the classic multiple regression equation of the total artemisinin content per plant as Y = -2.67001 - 0.00249X(1) + 0.98873X(3) + 0.30037X(6) + 0.113X(9) F = 22.62, P < 0.001).
CONCLUSIONThe plant with purple, thick and strong stem, higher plant height, moderate primary branches number and bloom stage, small stem-branch angle should be selected for a breeding new A. annua varieties with high yield and artemisinin content.
Artemisia annua ; chemistry ; growth & development ; metabolism ; Artemisinins ; analysis ; metabolism ; Biomass ; China ; Flowers ; chemistry ; growth & development ; metabolism
5.Breeding of new Artemisia annua variety "Kehao No.1".
Yan LIANG ; Xiang ZHOU ; Jian-Zao GUO ; Mei ZHANG ; Hong-Ge JIANG ; Chen-Qing FU ; Yun-Xing FU ; Zi-Wei SHI ; Yu LIU ; Zhi-Jun XIN ; Xi-Hong LU ; Jian-Ping LIANG ; Bao-Cheng HAO ; Xue-Hu LI ; Zhen WANG
China Journal of Chinese Materia Medica 2019;44(24):5363-5367
As a natural plant source of artemisinin,a first-line drug against malaria,Artemisia annua directly affects the extraction process of artemisinin and the source of artemisinin. At present,traditional breeding methods combined with tissue culture are often used to breed high-yield artemisinin-containing new varieties of A. annua. However,the breeding method has the disadvantages of low efficiency and continuous selection. In this study,heavy ion beam irradiation technology was used to observe the specific germplasm resources of A. annua,and the morphological characteristics,agronomic traits and artemisinin content were used as indicators to observe the selection materials and materials. The cultivated new varieties were compared with trials and regional trials. In addition,the new variety of A. annua was identified by SRAP molecular marker technology. The results showed that the new variety of A. annua, " Kehao No.1",had an average yield of 235. 0 kg of dry leaf per mu,which was more than 20% higher than that of the control. Especially,the average artemisinin content was 2. 0%,which was 45% higher than that of the control,and the " Kehao No.1" has high anti-white powder disease,high-yield and high-quality new varieties. Therefore,mutagenic breeding of heavy ion beam irradiation can significantly improve the yield and artemisinin content of the " Kehao No. 1" and it has a good promotion value.
Artemisia annua/genetics*
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Artemisinins/analysis*
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Heavy Ions
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Mutagenesis
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Phenotype
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Plant Breeding
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Plants, Medicinal/genetics*
6.Accumulation and translocation of cadmium in soil and plant and its effects on growth of Artemisia annua and artemisinin content.
Xiaoli HAN ; Luqi HUANG ; Lanping GUO ; Mingjing LI ; Xiuhua LIU ; Xiaobo ZHANG
China Journal of Chinese Materia Medica 2010;35(13):1655-1659
OBJECTIVETo study the accumulation and translocation of cadmium in the soil and Artemisia annua, and observe its effects on growth of A. annua and artemisinin content.
METHODA. annua were cultivated in pots with Cd concentration at 0.5, 1.5, 4.5 mg x kg(-1) level, respectively.
RESULT AND CONCLUSIONThe growth of A. annua was inhibited at all the Cd levels characterized by the decreases of biomass and agronomic parameters; Most of Cd was accumulated in the roots of A. annua, and the ratios of Cd concentrations in roots and aerial part were 1.8:1 and 2.3:1 at 1.5, 4.5 mg x kg(-1) Cd level, respectively. Artemisinin content increased significant at 0.5 mg x kg(-1) Cd level, but there were no significant changes comparing with control group other Cd levels.
Artemisia annua ; chemistry ; drug effects ; growth & development ; metabolism ; Artemisinins ; analysis ; metabolism ; Cadmium ; analysis ; metabolism ; toxicity ; Plant Extracts ; analysis ; metabolism ; Soil Pollutants ; analysis ; metabolism ; toxicity
7.Climate suitable rank distribution of artemisinin content of Artemisia annua in China.
Xiao-bo ZHANG ; Lan-ping GUO ; Lu-qi HUANG
Acta Pharmaceutica Sinica 2011;46(4):472-478
At the urgent request of Artemisia annua (ART) planting, the paper gets artemisinin content (ARTC) of ART in China from literatures. The paper analyses the relationships between ARTC and ecological factors by statistical analytical methods. The paper also analyses the climate suitable rank distribution of ARTC in China by ArcGIS. The results display that first, ARTC is significantly different in China, that ART from the south regions ARTC is higher. Greatest north parts of China have not suitable climate for the growing of ART and the ARTC is lower than 0.2%, when ART grows above the 34th degree of northern latitude. ARTC is higher and ART grows well, when ART grows under the 34 degrees N and grows at the areas between 100 degrees E and 120 degrees E. Second, subtropical zone is the best suitable climate zone for the growing of ART. ART grows well and ARTC is higher than 0.5%, when ART grows in the subtropical zone. Third, temperature, sunshine duration and rainfall are the main ecological factors that affect the growth of ART and the accumulation of ARTC. That the year temperature between 13.9 degrees C and 22 degrees C, sunshine duration between 853 h and 1507 h, rainfall between 814 mm and 1518 mm, is the best climate for the accumulation of ARTC. Temperature between 13 degrees C and 29 degrees C, rainfall between 600 mm and 1300 mm is the best climate for the growth of ART. Fourth, in northwest of Guangxi, eastern of Sichuan, Guizhou and Yunnan provinces, south Chongqing and west Hunan Province, there are suitable climate for the growth of Artemisia and for the accumulating of ARTC. There are also some suitable climate areas for the growing of artemisia in the south of Hubei, Anhui and Jiangsu provinces.
Artemisia annua
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chemistry
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growth & development
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Artemisinins
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analysis
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China
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Climate
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Plants, Medicinal
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chemistry
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growth & development
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Rain
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Sunlight
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Temperature
8.Effect of different soil water treatments on physiological characteristics and yield of Artemisia annua.
Nianxi SUN ; Longyun LI ; Guoyue ZHONG ; Peng MA
China Journal of Chinese Materia Medica 2009;34(4):386-389
OBJECTIVETo study the effect of water content in soil on physiological characters and yield of Artemisia annua.
METHODThe pot experiment was applied and activity of protective enzyme, biomass and artemisinin accumulation were measured under different water treatments.
RESULT AND CONCLUSIONThe results showed that contents of osmotic adjustable substances, activity of protective enzyme, biomass and artemisinin accumulation were greatly affected by water content in the soil. Under water stress the water content in leave decreased, relative plasmalemma permeability increased, proline quickly accumulated to promote water retaining capability of cell, POD, CAT and SOD cooperated to reduce lipid peroxidation and reduced cell damage, and biomass decreased. At the seedling stage, the content of artemisinin and yield reached the maximal when the water content in soil was between 50%-55%. At the beginning of the branching stage, the content of artemisinin was the highest at the water content of 50%-55%, while the yield reached the maximal at the water content of 70%-75%. At the end of branching stage, the content of artemisinin was the highest at the water content of 40%-45%, while the yield reached the maximal at the water content of 60%-65%. In conclusion, the optimum water content in soil was between 50%-55% at the seedling stage, at the branching stage, higher water content was beneficial for the higher yield.
Antimalarials ; analysis ; pharmacology ; Artemisia annua ; chemistry ; physiology ; Artemisinins ; analysis ; Biomass ; Plant Leaves ; chemistry ; Plant Transpiration ; Seedlings ; Soil ; analysis ; Water ; Water Movements
9.Correlation and path analysis on artemisinin content and yield with different agronomic traits of Artemisia annua.
Dahui LIU ; Meiquan YANG ; Aijuan SHAO ; Xiao WANG ; Luqi HUANG ; Shihuan TANG ; Hang JIN ; Zhenghua FAN
China Journal of Chinese Materia Medica 2010;35(21):2801-2807
OBJECTIVETo provide the basis for improving utilization of Artemisia annua germplasm resources and breeding variety, the interrelations between artemisinin content, artemisinin yield and agronomic traits of A. annua were studied.
METHODThe artemisinin content and each agronomic trait of 63 A. annua germplasm resources were measured by the visual observation and measurement methods. And the correlation analysis, regression analysis and path analysis were adopted.
RESULTThe result showed that there were significant differences in the artemisinin content and yield of 63 germplasm resources from the main production region of A. annua. Correlation analysis showed that there were significantly positive correlation between leaf weight and artemisinin yield with stem and branch characters, but there were negative correlation between artemisinin content with leaf characters of A. annua plant. The artemisinin content of A. annua increased with the increasing of primary branch number, bottom secondary branch number, and bottom stem diameter, etc. On the other hand, it decreased with the increasing of top secondary branch number, secondary leaf axis length, and bottom branch diameter, etc. The artemisinin yield of A. annua increased with the increasing of artemisinin content, leaf weight, and bottom secondary branch number, etc., and decreased with the increasing of bottom branch diameter, middle secondary branch number, and stem weight, etc. Path analysis showed that the primary branch number and bottom secondary branch number had a direct positive effect on the artemisinin content of A. annua. But the top secondary branch number had a direct negative effect on the artemisinin content of A. annua. The leaf weight and artemisinin content had a direct positive effect on the artemisinin yield and the ratio of leaf/stem, branch weight and stem weight had a direct negative effect.
CONCLUSIONOn the breeding A. annua variety, it can take into account both high leaf yield and high artemisinin content. And it was strongly recommend that the plant with moderate plant height and crown, shortness pinnae and secondary leaf axis, less middle and top secondary branch, strong stem, higher primary branch number and bottom secondary branch number, and higher ratio leaf/stem could be selected for breeding new varieties with high leaf yield and high artemisinin content.
Artemisia annua ; chemistry ; growth & development ; Artemisinins ; analysis ; Biomass ; Plant Extracts ; analysis ; Plant Leaves ; chemistry ; growth & development ; Plant Stems ; chemistry ; growth & development
10.Embryotoxicity and Toxicokinetics of the Antimalarial Artesunate in Rats.
Moon Koo CHUNG ; Wook Joon YU ; Jin Soo LEE ; Jong Hwa LEE
Toxicological Research 2013;29(1):27-34
This study was conducted to investigate the potential embryo-fetal toxicity and toxicokinetics of the antimalarial agent artesunate (ARTS) in Sprague-Dawley rats. Pregnant rats were administered ARTS daily from gestational day 6~15 via oral gavage, at test doses of 0, 2, 4, or 8 mg/kg (22 females per group). The fetuses were examined for external, visceral, and skeletal abnormalities on gestational day 20. With regard to the dams, there were no deaths, treatment-related clinical signs, changes in body weight, or food intake in any of the treatment groups. There were no treatment-related gross findings at necropsy in any treatment group. In the 8 mg/kg group, there was a decrease in gravid uterine weight and in the weight of female fetuses. There was also an increase in fetal deaths (primarily late resorptions) and an increase in post-implantation losses (37%) at 8 mg/kg. An increase in the incidence of visceral and skeletal variations at 4 and 8 mg/kg was observed. These defects included minor changes in the appearance of the kidney and thymus, as well as absent ribs or thoracic vertebrae. Toxicokinetics were assessed in a parallel study, using 4 mated females per group. Using liquid chromatography-mass spectrometry (LC-MS) analysis, the concentration of ARTS and its metabolite dihydroartemisinin (DHA) were quantified in plasma from rats on gestational days 5, 6, 10, and 15. Amniotic fluid was assayed for ARTS and DHA on gestational day 15. There was evidence of rapid conversion of ARTS to the metabolite DHA in maternal plasma, since ARTS could not be consistently detected in plasma at the three doses tested. ARTS and DHA were not detected in amniotic fluid at gestational day 15, indicating limited placental transfer of the two agents. The embryo-fetal no-observable-adverse-effect level (NOAEL) of the test item was considered to be 8 mg/kg/day for dams, and 2 mg/kg/day for embryo-fetal development.
Amniotic Fluid
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Animals
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Artemisinins
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Body Weight
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Eating
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Female
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Fetal Death
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Fetus
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Humans
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Incidence
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Kidney
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Plasma
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Rats
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Rats, Sprague-Dawley
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Ribs
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Spectrum Analysis
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Thoracic Vertebrae
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Thymus Gland