Avaliação fitoquímica e microbiológica da espécie Artemisia annua L., submetida a tratamentos de armazenamento e condições de ambiente

Pós-graduação em Agronomia (Energia na Agricultura) - FCA

Avaliação da atividade antiparasitária de Artemisia annua sobre Rhipicephalus (Boophilus) microplus e Haemonchus contortus, in vivo, por meio do fornecimento do material vegetal seco na alimentação animal

Pós-graduação em Medicina Veterinária - FCAV

Caracterização do mecanismo fotossintético e aspectos relacionados à floração de Artemisia annua L

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Avaliação fitoquímica e microbiológica da espécia Artemisia annua L. submetida a tratamentos de armazenamento e condições de ambiente

The species Artemisia annua L. (Asteraceae) is native to China and has artemisinin as its main active component, substance that is considered a potent antimalarial drug. With the increased interest in natural active principles, studies related to post-harvest and storage of vegetable material become important for better conservation of its phytotherapic properties. Therefore, the present study had as objectivedefine the best storage conditions to preserve and keep the quality of phytotherapic drugs. Leaves of A. annua dried were stored for six months in polyethylene bags wrapped in Kraft paper and packed in four treatments: at ambient condition, refrigerated at 4 ± 2 oC, using normal packing, and using vacuum packing. Samples were taken for microbiological, moisture content, and level of artemisinin analyses before the experiment begun and at 30, 90, 120 and 180 days. The results of microbiological tests showed no significant contamination, as well as the moisture content of the stored (biological) material, which remain between 5% and 10%, keeping within acceptable parameters. The ambient without vacuum treatment (SVA) was the treatment that better maintained the sample stability during 180 days, however, the refrigerated without vacuum (SVR) showed greater efficiency to conserve the content of artemisinin.

Persistence of Artemisia steppe in the Tangra Yumco Basin, west-central Tibet, China: despite or in consequence of Holocene lake-level changes?

The closed Tangra Yumco Basin underwent the strongest Quaternary lake-level changes so far recorded on the Tibetan Plateau. It was hitherto unknown what effect this had on local Holocene vegetation development. A 3.6-m sediment core from a recessional lake terrace at 4,700 m a.s.l., 160 m above the present lake level of Tangra Yumco, was studied to reconstruct Holocene flooding phases (sedimentology and ostracod analyses), vegetation dynamics and human influence (palynology, charcoal and coprophilous fungi analyses). Peat at the base of the profile proves lake level was below 4,700 m a.s.l. during the Pleistocene/Holocene transition. A deep-lake phase started after 11 cal ka BP, but the ostracod record indicates the level was not higher than similar to 4,720 m a.s.l. (180 m above present) and decreased gradually after the early Holocene maximum. Additional sediment ages from the basin suggest recession of Tangra Yumco from the coring site after 2.6 cal ka BP, with a shallow local lake persisting at the site until similar to 1 cal ka BP. The final peat formation indicates drier conditions thereafter. Persistence of Artemisia steppe during the Holocene lake high-stand resembles palynological records from west Tibet that indicate early Holocene aridity, in spite of high lake levels that may have resulted from meltwater input. Yet pollen assemblages indicate humidity closer to that of present potential forest areas near Lhasa, with 500-600 mm annual precipitation. Thus, the early mid-Holocene humidity was sufficient to sustain at least juniper forest, but Artemisia dominance persisted as a consequence of a combination of environmental disturbances such as (1) strong early Holocene climate fluctuations, (2) inundation of habitats suitable for forest, (3) extensive water surfaces that served as barriers to terrestrial diaspore transport from refuge areas, (4) strong erosion that denuded the non-flooded upper slopes and (5) increasing human influence since the late glacial.

Die Artemisia-Arten der Alpen

von Prof. Dr. Karl Fritsch

Die Verbreitung von Eryngium campestre L., Artemisia campestris L. und Tithymalus Gerardianus Kl. u. Gcke. an der unteren Lippe

Von Dr. Julius Müller

Blattformen : 1. Alchemilla vulgaris - 2. Trollius europaeus - 3. Aconitum napellus - 4. Saxifraga - 5. Saxifraga caespitosa - 6. Hydrophyllum virginicum - 7. Alchemilla alpina - 8. Artemisia absinthium

AR

Antimicrobial effect of Artemisia species on Pseudomonas aeruginosa

Antibiotic resistance has emerged as a severe problem in hospital-acquired infectious disease. The Gram-negative bacterium Pseudomonas aeruginosa is found to cause secondary infection in immune-compromised patients. Unfortunately, it is resistant to virtually all β-lactam antibiotics such as penicillin, cephalosporin and others. Researchers are seeking for new compounds to treat several antibiotic-resistant bacterial strains. Artemisia plant extracts are commonly used for their therapeutic properties by natives throughout dry regions of North and South America. Here, they are administered as an alternative medicine for stomach problems and other complex health issues. In this study, the antimicrobial effects of plant extracts from several Artemisia species as well as compounds dehydroleucodine and dehydroparishin-B (sesquiterpenes derived specifically from A. douglasiana) were used as treatments against the pathogenicity effects of P. aeruginosa. Results showed that both compounds effectively inhibit the secretion of LasB elastase, biofilm formation and type III secretion, but fail to control LasA protease. This is a significant observation because these virulent factors are crucial in establishing P.aeruginosa infection. The results from this study signify a plausible role for future alternative therapy in the biomedical field, which recommends DhL and DhP can be studied as key compounds against bacterial infections of Pseudomonas aeruginosa.

Fenologia kwitnienia i produkcja pyłku w zróżnicowanych warunkach mikroklimatycznych dużego miasta oraz ich wpływ na przebieg sezonu pyłkowego brzozy (Betula spp.) i bylicy (Artemisia spp.) w Poznaniu

Wydział Biologii: Instytut Biologii Środowiska, Pracownia Aeropalinologii

Metabolomics coupled with proteomics advancing drug discovery toward more agile development of targeted combination therapies

To enhance the therapeutic efficacy and reduce the adverse effects of traditional Chinese medicine, practitioners often prescribe combinations of plant species and/or minerals, called formulae. Unfortunately, the working mechanisms of most of these compounds are difficult to determine and thus remain unknown. In an attempt to address the benefits of formulae based on current biomedical approaches, we analyzed the components of Yinchenhao Tang, a classical formula that has been shown to be clinically effective for treating hepatic injury syndrome. The three principal components of Yinchenhao Tang are Artemisia annua L., Gardenia jasminoids Ellis, and Rheum Palmatum L., whose major active ingredients are 6,7-dimethylesculetin (D), geniposide (G), and rhein (R), respectively. To determine the mechanisms underlying the efficacy of this formula, we conducted a systematic analysis of the therapeutic effects of the DGR compound using immunohistochemistry, biochemistry, metabolomics, and proteomics. Here, we report that the DGR combination exerts a more robust therapeutic effect than any one or two of the three individual compounds by hitting multiple targets in a rat model of hepatic injury. Thus, DGR synergistically causes intensified dynamic changes in metabolic biomarkers, regulates molecular networks through target proteins, has a synergistic/additive effect, and activates both intrinsic and extrinsic pathways.

Paleobotánica del epipaleolítico y mesolítico vascos

Homenaje a Ignacio Barandiarán Maestu / coord. por Javier Fernández Eraso, Juan Santos Yanguas

青蒿的遗传转化及青蒿素生物合成的调控

利用发根农杆菌(Agrobacterium rhizogenes)1601，1000，1500，15834，A4，均成功地转化了中药青蒿(Artemisia annua L.)并且建立了pRi1601，pRi15834，pRiA4诱导的发根培养。pRi1601，pRi15834的发根诱导率比其它质粒高。太老或太幼的叶片不利子发根的诱导;发根主要从叶脉的伤口处萌发;带顶芽或带侧芽的叶片容易诱导根，但不一定是发根。光照有利于发根的诱导和发根的生长。以每个发根的“绝对生长速率”(Gtowth Ratio，GR)和绝对“侧根”数量(Number of Side Roots，NSR），通过大量的发根系的筛选，建立了8个发根系，1601-L-1, 1601-L-2, 1601-L-3, 1601-L-4, 15834-L-1, 1601-P-I, 16 01-P-2，15834-L-2。Southern分子检测表明，160l-1-1，1801-L-2, 1601-L-3，1601-L-4，1601-P-1，1601-P-2均为转化子。8个建立的发根系之间无论生长或者QHS的合成存在明显的差异。比较光／暗(16/8hrs)，25℃条件下培养的16 01-L-1，1601-L-2，1601-L-3，1601-L-4，1601-P-l，和1601-P-2，其中16 01-L-3的生长最快，160l-L-1的生长最慢;但是，1601-L-1的QHS的含量最高（可达1. 048%），1601-1-3的QHS的含量最低。160Z-L-3，15834 -L-1和2583:1-L-2的生长速率相差不大。用盛有l000mLMS液体培养基的3000mL的锥形瓶扩大培养1601-L -3，15834-L-1和15834-L-2，转速为ll0rlpm，培养过程中发根容易形成发根球（Hairy Root Balis，HRB），HRB的形成严重影响发根的生长和QHs的合成，HpLC分析表明扩大培养发根中QHS的含量比较低。 改变MS基本培养基中的无机离子的浓度，研究不同无机离子对发根生长和QHS的合成的影响。 l、KN03为18.79×10-3M时有利于1601- L-1生长，为14. 84×10-3M时有利于QHS的合成。NH-4N0-3浓度在10.93-12. 49×10—3M范围内有利于1601-L-1生长，在0-20.62×10-3M范围内对QHS的合成影响不大，大于20. 62×lO-3M不利QHS的合成。培养基中NH-4+／N0-3-比值为0. 37-0. 4-0.52:1时有利于发根的生长，比值为0.52 - 0.58:1时有利于QHS的合成。 2、H-2P0-4-浓度为2.498×10-3M时有利于发根的生长在0-2. 498×l0-3M范围内，随着浓度的提高，促进发根的生长。培养基中的H2P4 -的浓度在0-1.249×lO-3M的范围内，随着浓度的提高，促进QHS的合成，为1.249×10-3M时QHS的含量最高。 3、培养基中最适16 01-L-1生长的Ca-2+浓度为0.198- 0.766×10-3M，大于或小于该浓度范围，显著地抑制发根的生长。但是，在0-3.695×10-3M范围内，随着培养基中Ca-2+浓度提高，促进QHS的合成，最适Ca-2+浓度为3.695×l0-3M。 4、培养基中不加Mg-2+时，完全抑制发根生长，在0. 142×10-3M-7.506×l0-3M浓度范围内，对发根生长影响没有明显的差别。但是，HPLC和UV分析发根中QHS含量，培养基中不加Mg-2+时，发根中QHS含量最高。 5、培养基中的Fe-2+浓度在0. 25 -1．0×10-3M范围内，同时有利于16 01- L-1的生长和QHS的形成。 6、培养基中最适合予16 01- L-3生长的KI浓度为2.5ppm，大于或小予该浓度均显著地抑制发根的生长，培养基中加入KI明显地降低发根中的QHS的含量。 7、H2BO3对l601-L-l生长影响不大，HPLC分析QHS的含量，培养基中的H3BO3浓度为100ppm和400ppm，QHS的含量分别为1.69mg/g和1.80mg/g(DW)。 8、Cu-2+对1601-L-3的生长影响显著，最适合1601-L-3生长的Cu-2+浓度为1.00ppm，在0 -1.00ppm的浓度范围内，随着培养基中的Cu+浓度的提高，发根的生物量不断增加。培养基中QHS合成的最适Cu2+浓度为0.05ppm，大于或小于该浓度均显著地抑制发根中QHS的合成。 比较光培养和暗培养对发根生长的影响，结果表明光照明显地促进1601-L-l的生长，暗培养明显不利于发根的生长。最适合于发根生长的温度为25℃，大于35℃显著地抑制发根的生长，影响发根的根尖细胞的正常分裂。 改变培养基中的蔗糖浓度和在发根培养的不同时期给培养基中添加蔗糖，试验结果表明蔗糖作为碳源对1601-L-3和1601-L-1的生长具有显著的影响。 (1)培养基中缺少蔗糖显著地抑制发根的生长。 (2)发根培养的前5天时间内，蔗糖浓度为30- 60glL昀培养基最有利于发根的生长，50glL的培养基中的发根生长最快，培养基中的蔗糖浓度大于60g/L小于30g／L时，发根的生物量增加较少。 (3)发根培养至第15天时，蔗糖浓度为60g/L的培养基最有利予发根的生物量的增加。发根培养至30天时，蔗糖浓度为60-90g/L的培养基，发根的生物量的增加相差不大，但是为蔗糖浓度为30-40g/L的培养基中的发根生物量一倍。 (4)发根培养过程中，分别于第5和15天给蔗糖浓度为30g/L的培养基中添加一次或二次蔗糖，使培养基中的蔗糖终浓度相当于60g/L或90g/L，培养至30天时，添加蔗糖的培养基中的发根的干重生物量相当于不添加蔗糖培养基中的发根生物量一倍，相当于初始蔗糖浓度为60g/L和90g/L培养基中发根的生物量。 (5)随着培养基中蔗糖浓度的提高，发根干重/鲜重比显著增加。培养基中的蔗糖的消耗量与发根生物量的增加呈正相关，蔗糖消耗越多，发根生物量的增加越大。 比较pH值对发根生长和QHS合成的影响表明，灭菌前pH值在5.O-6.5范围内的培养基适合予1601-L-1的生长，小于5.O不利于发根的生长，pH5.8有利于1601-1-1生长和QHS的生物合成。发根收获时培养基中的pH值一般为4.5-5.2. pH7.O抑制发根的生长，pHl0.O对发根具有强烈的致死作用。发根在培养过程中，对培养基中的pH值具有显著的调节作用，发根能在很短的时间内(24- 48hrs)使pl:l值为5.8、6.4、7.0培养基降低到pH4. 5-5.2，pH为5.8的培养基有利于QHS合成。 比较不同基本培养基对发根生长和QHS合成的影响，试验结果表明N6、DCR、Litvay培养基有利于1601-L-1的生长，WS、White、B5培养基不利于发根的生长。DCR培养基中的QHS含量最高。 根据三水平试验选用三水平正交表来安排试验的原则，选用三水平正交表L7(3-)，研究多因子效应对发根生长和QHS合成的影响，试验结果表明，Mg2+，Fe2+，Mn-2+，NH4NO3，KN03 ,KI,Ca-2+为发根生长的主要因子，NH4N03，KNOs，Mg2+，Ca2+，肌醇为QHS合成的主要因子。 通过TLC分析发根中QHS和其它化学成分，同时比较发根和无菌苗及野生植株的化学成分，发根和无菌苗均能合成包括QHS在内的野生青蒿叶片中的大部分非挥发性的化台 物。 研究青蒿植株在发育过程中QHS的含量的变化以及发根、无菌苗和野生青蒿中QHS的合成，HP分析结果表明，l、不同的单株青蒿之间的QHS量相差很大。2、同一植株幼 叶的QHS含量比老叶的QHS含量高。3、不同单株青蒿之间达到最高QHS含量的时间不一样，开花期或开花之前。4、无菌苗（带根）或者不带根丛生芽均能合成QHS，但是带根的无菌蕾的QHS量比丛生芽中的QIS的含量高。5、不同发根农杆菌转化的发根系1601-L-1和15834-L-1都能合成ＱＨＳ。

青蒿异源基因的遗传转化及青蒿生物合成相关基因的克隆

本论文由三部分内容组成，一、药用青蒿的遗传转化，即根癌农杆菌和发 根农杆菌介导的转化系统的建立及其影响参数的研究。二、青蒿素生物合成的 分子调控。三、倍半萜生物合成相关基因的克隆。 一、药用青蒿的遗传转化。建立了Ri质粒介导和Ti质粒介导的两种转基因系统， 其中Ri质粒介导青蒿转基因系统的建立是国际上首次报道;以GFP基因为报 告基因，首次获得高效表达的青蒿转绿色荧光蛋白基因的丛生芽，并对GFP基 因的表达进行了组织和细胞水平的定位。此外，对影响两种转基因系统的主要 参数进行了较为详细的研究。上述研究为青蒿素生物合成的分子调控奠定了坚 实的基础。 二、青蒿素生物合成的分子调控。为探索提高青蒿植株或组织和器官中的青蒿 素含量，首次以棉花中克隆的杜松烯合成酶和法呢基焦磷酸合成酶的 cDNA 为 目的基因导入青蒿，对青蒿中青蒿素的生物合成进行了分子调控研究的尝试。 通过已建立的两种转基因系统，将从棉花中克隆的杜松烯合成酶和法呢基焦磷 酸合成酶的 cDNA 导入青蒿，获得转基因发根和转基因植株。结果表明，外源 基因的表达能够影响青蒿素的生物合成，其中法呢基焦磷酸合成酶基因的过量 表达能够促进青蒿素的生物合成，提高转基因发根和植株中的青蒿素的含量。 转基因发根F-26系中青蒿素含量最高达3.01 mg/g.DW，与对照相比青蒿素含量 提高3～4倍;转基因植株的青蒿素含量最高达10.08 mg/g.DW，与对照相比， 转基因植株的青蒿素产物提高2～3倍。此外，研究还表明，在转基因的发根C -37株系中，外源杜松烯合成酶基因的导入和表达可能相应地促进青蒿转基因 发根自身的法昵基焦磷酸基因的表达。 三、倍半萜生物合成相关基因的克隆。采用 RT-PCR 技术，从马铃薯 (Solanum tuberosum L.) 幼叶中克隆了 HMGRII 亚基因家族的一个新的成员 HMGR-c2（GenBank accession No．AF 096838Southem）;杂交分析表明，该基因至少以 两个拷贝以上形式存在于马铃薯基因组中;RT-PCR分析表明，HMGR -c2的 表达在幼苗期无组织特异性，广泛地存在于根、茎、叶等组织中。以青蒿001 株系的苗期叶片为材料，构建了青蒿苗期的λgtll cDNA文库，以PCR筛库方 法从青蒿中克隆一个法呢基焦磷酸合成酶cDNA (Artfps2 GenBank accession No． AF136602)和一个HMGR cDNA(GenBank accession No．AF142473);以青蒿 025株系的苗期叶片为材料，构建了青蒿苗期部分质粒文库以 PCR 筛库方法从 青蒿中克隆一个法昵基焦磷酸合成酶 cDNA (Artfpsl GenBank accession No.AF112881);此外，还从青蒿中克隆了倍半萜合成酶的 cDNA 片段(GenBank accession No.AF156854)。其中青蒿倍半萜合成酶基因的克隆是目前国际上本研 究领域最受关注的焦点和难点之一。至此，本研究已将与青蒿素生物合成相关 的三个重要的关键酶基因基本克隆，这无疑将加速青蒿素生物合成的基础和应 用研究的进程。