沙蒿AQP基因结构预测及干旱胁迫下的时空表达模式研究

为探究水通道蛋白(AQP)在沙蒿响应干旱胁迫中的作用机制,该研究以青海省柴达木盆地沙蒿为试验材料,采用RACE技术对其AQP基因进行扩增,获得沙蒿AQP全长克隆并对AQP蛋白进行结构预测和分析;采用qRT-PCR对沙蒿AQP基因在不同程度干旱胁迫以及不同组织部位的表达模式进行分析。结果表明:(1)成功克隆获得沙蒿AQP基因长746 bp的片段1和长534 bp的片段2,经拼接后得到全长cDNA序列,沙蒿AQP基因总长为864 bp。(2)亚细胞定位表明沙蒿AQP基因定位于细胞膜上;同源比对显示沙蒿与向日葵、莴苣、橡胶树等植物的AQP基因具有较高的相似性;结构预测表明AQP蛋白含6个跨膜螺旋结构且亲水性较弱,α螺旋和无规则卷曲为AQP蛋白二级结构的主要构成元件。(3)qRT-PCR分析表明,沙蒿AQP基因随着干旱胁迫的加重呈现有规律的变化,根、茎、叶中表达均上调,且叶中AQP基因表达量上调幅度最大。研究表明沙蒿AQP基因结构特征及其表达模式都是沙蒿对干旱胁迫的一种适应。     

明胶/海藻酸钠/沙蒿胶复合水凝胶的制备及表征

为探究明胶（G）、海藻酸钠（SA）,沙蒿胶（ASKG）对复合水凝胶的力学性能、溶胀和保湿性能的影响,采用共混-离子交联法制备海藻酸钠/明胶/沙蒿胶复合水凝胶,并对制得的水凝胶进行结构表征和溶血率测试。结果表明:当G质量分数为2.5%,SA为1.5%,ASKG为0.7%时,复合水凝胶压缩强度达到427.2 kPa,拉伸强度达到563.449 kPa,断裂伸长率为117%,溶胀率为744%,且具有较好的保湿性能。红外光谱表明,由于沙蒿胶中存在大量羟基,因此加入沙蒿胶后在3 300 cm^-1～3 600 cm^-1羟基峰形变宽。G/SA/ASKG复合水凝胶溶血率低于5%,具有较好的网络孔结构和血液相容性,为复合水凝胶在医用敷料方面的应用提供一定的参考价值。     

Assessing vegetation recovery from energy development using a dynamic reference approach

Ecologically relevant references are useful for evaluating ecosystem recovery, but references that are temporally static may be less useful when environmental conditions and disturbances are spatially and temporally heterogeneous. This challenge is particularly acute for ecosystems dominated by sagebrush (Artemisia spp.), where communities may require decades to recover from disturbance. We demonstrated application of a dynamic reference approach to studying sagebrush recovery using three decades of sagebrush cover estimates from remote sensing (1985–2018). We modelled recovery on former oil and gas well pads (n = 1200) across southwestern Wyoming, USA, relative to paired references identified by the Disturbance Automated Reference Toolset. We also used quantile regression to account for unmodelled heterogeneity in recovery, and projected recovery from similar disturbance across the landscape. Responses to weather and site‐level factors often differed among quantiles, and sagebrush recovery on former well pads increased more when paired reference sites had greater sagebrush cover. Little (<5%) of the landscape was projected to recover within 100 years for low to mid quantiles, and recovery often occurred at higher elevations with cool and moist annual conditions. Conversely, 48%–78% of the landscape recovered quickly (within 25 years) for high quantiles of sagebrush cover. Our study demonstrates advantages of using dynamic reference sites when studying vegetation recovery, as well as how additional inferences obtained from quantile regression can inform management.     

Improved artemisinin accumulation in hairy root cultures of Artemisia annua by (22S, 23S)-homobrassinolide

When (22S, 23S)-homobrassinolide (SSHB) was added at 1 g l^–1 to hairy root cultures of Artemisia annua, the production of artemisinin reached to 14 mg l^–1, an increment of 57% over the control. SSHB treatment led concomitantly to an increased biomass production of 15 g l^–1. A stimulatory activity of SSHB on nucleic acids and soluble protein content in hairy roots was also observed at the growth stage.     

Optimization of cryopreservation of Artemisia annua L. callus

Cryopreservation of callus tissue of Artimisia annua L. was optimized. Two lines of calli were precultured on MS medium with 5% (v/v) dimethyl sulfoxide, and protected by a cryoprotectant containing 15% (v/v) ethylene glycol, 15% (v/v) dimethyl sulfoxide, 30% (v/v) glycerol and 13.6% (w/v) sucrose. The highest survival rate of callus A201 reached 87% after it was pretreated at 25°C, cryopreserved by liquid nitrogen, recovered in water bath at 25°C and reloaded at 25°C with 34% (w/v) sucrose solution, and that of callus A202 reached 78% after it was treated as callus A201, except pretreated at 35°C, recovered at 35°C and reloaded with 47.8% (w/v) sucrose solution.     

青蒿转杜松烯合成酶基因发根系的培养

将已克隆的棉花杜松烯合成酶的ｃＤＮＡ（ｃａｄＣ１４）插入到植物表达载体ｐＢＩ１２１中,构建含ＣａＭＶ３５Ｓ启动子驱动下的杜松烯合成酶基因的植物表达载体ｐＢＩＣ１４。用含ｐＢＩＣ１４质粒的发根农杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍｒｈｉｚｏｇｅｎｅｓ）１５８３４感染青蒿（ＡｒｔｅｍｉｓｉａａｎｎｕａＬ．）叶片并诱导发根,共建立１２１个生长迅速的发根系。经浓度为２０ｍｇ／Ｌ的Ｋａｎ筛选,获得１２个抗Ｋａｎ阳性根系。ＰＣＲ和Ｓｏｕｔｈｅｒｎｂｌｏｔｉｎｇ分析表明,外源杜松烯合成酶基因已整合到青蒿基因组中,其转基因频率为３％。ＲＴＰＣＲ分析表明,外源杜松烯合成酶基因在Ｃ３７根系中,在转录水平上已有表达。     

青蒿毛状根合成青蒿素的培养条件研究

对影响青蒿（ＡｒｔｅｍｉｓｉａａｎｎｕａＬ．）毛状根生长及青蒿素合成的培养条件进行了研究,确定最适的培养条件为：初始ｐＨ５．８～６．０,摇瓶转速１３０～１５０ｒ／ｍｉｎ,摇瓶装液量体积分数为２５％,光照周期为１６ｈ／ｄ,温度为３０℃。在此条件下,经过２５ｄ培养获得青蒿素产量为２２３．３ｍｇ／Ｌ。     

Chemical Composition and Antipathogenic Activity of Artemisia annua Essential Oil from Romania

The essential oil extracted by hydrodistillation from Romanian Artemisia annua aerial parts was characterized by GC/MS analysis, which allowed the identification of 94.64% of the total oil composition. The main components were camphor (17.74%), α‐pinene (9.66%), germacrene D (7.55%), 1,8‐cineole (7.24%), trans‐β‐caryophyllene (7.02%), and artemisia ketone (6.26%). The antimicrobial activity of this essential oil was evaluated by determining the following parameters: minimal inhibitory concentration (MIC), minimal bactericidal concentration (MBC), minimal fungicidal concentration (MFC), and minimal biofilm eradication concentration (MBEC). Moreover, the soluble virulence factors were quantified with different biochemical substrates incorporated in the culture media. The reference and resistant, clinical strains proved to be susceptible to the A. annua oil, with MICs ranging from 0.51 to 16.33 mg/ml. The tested essential oil also showed good antibiofilm activity, inhibiting both the initial stage of the microbial cell adhesion to the inert substratum and the preformed mature biofilm. When used at subinhibitory concentrations, the essential oil proved to inhibit the phenotypic expression of five soluble virulence factors (hemolysins, gelatinase, DNase, lipases, and lecithinases). Briefly, the present results showed that the A. annua essential oil contained antimicrobial compounds with selective activity on Gram‐positive and Gram‐negative bacterial strains as well as on yeast strains and which also interfere with the expression of cell‐associated and soluble virulence factors.     

Insecticidal activity and chemical composition of the essential oil of Artemisia vestita from China against Sitophilus zeamais

In our screening program for new agrochemicals from local wild plants, essential oil of Artemisia vestita Wall (Asteraceae) was found to possess strong insecticidal activity against maize weevil, Sitophilus zeamais Motsch. Essential oil of aerial parts of A. vestita was obtained from hydrodistillation and was investigated by GC and GC–MS. The main components of essential oil were grandisol (40.29%), 1,8-cineol (14.88%) and camphor (11.37%). The essential oil of A. vestita possessed strong fumigant toxicity against S. zeamais adults with a LC₅₀ value of 13.42 mg/L air. The essential oil of A. vestita also showed contact toxicity against S. zeamais adults with a LD₅₀ value of 50.62 mg/adult.     

Simultaneous analysis of three bioactive compounds in Artemisia annua hairy root cultures by reversed-phase high-performance liquid chromatography-diode array detector

Introduction – Artemisia annua is a rich source of biologically active substances such as terpenoids, coumarins and polyacetylenes. These chemicals have been reported to show beneficial pharmacological properties such as antitumor and antibacterial activities. In genetically transformed root cultures of A. annua, three bioactive metabolites, namely, ponticaepoxide (an insecticidal polyacetylene, 1 ), drimartol A (an anticancer sesquiterpene coumarin, 2 ) and (Z)‐7‐acetoxy‐methyl‐11‐methyl‐3‐methylene‐dodeca‐1,6,10‐triene (a new anticancer sesquiterpene, 3 ) were isolated and identified in our recent work. However, no quantitative analysis methods for any of them are yet available, nor for their simultaneous analysis. Objective – To develop an HPLC‐PAD method for simultaneous determination of 1 , 2 and 3 in hairy root cultures of A. annua. Methodology – HPLC operating conditions were optimised and the chromatographic separation was performed on a C₁₈ column with a gradient acetonitrile : water as mobile phase. Results – Linear relationships within the range of investigated concentrations were observed for the three metabolites with their correlation coefficients greater than 0.997. The method was validated for repeatability (RSD <3.59%) and intra‐ and inter‐day precision (RSD <3.1%) with recovery between 94.8 and 107.6% and the RSD less than 3.40%. The method was successfully applied to the time‐course of accumulation of the bioactive compounds in genetically transformed root cultures of A. annua. Conclusion – The HPLC‐PAD method developed for the simultaneous determination of three bioactive metabolites 1 , 2 and 3 was simple, reproducible and sensitive. Copyright © 2010 John Wiley & Sons, Ltd.