甜叶菊RAPD反应体系的优化

以甜叶菊为试材,对影响其RAPD反应体系的7个因子进行优化.结果表明,20 μL的优化体系包括:双蒸水13.6 μL,10×Buffer(含15 mmol/L MgCI2)溶液3μL,2.5 mmol/L的dNTPS 1.2 μL,10 μmol/L的引物1μL,20 ng的模板DNA 1μL,1UTaq聚合酶;热循环...     

Highly Oxygenated Labdane Diterpenoids from Stevia rebaudiana and Their Anti-Atherosclerosis Activities

Five unknown labdane diterpenoids Stevelins A–E ( 1–5 ), three known labdane diterpenoids ( 6–8 ) and three labdane norditerpenoids ( 9–11 ) were isolated from the Stevia rebaudiana. The structures were determined primarily via NMR spectroscopic data and HR-ESI-MS experiments. X-ray crystallography using CuK_α radiation was used to determine the absolute configurations of 1 , and the absolute configurations of 2–5 were deduced by electronic circular dichroism (ECD) calculations. The potential anti-atherosclerosis activities of all compounds were evaluated by measuring their inhibitory effects on the macrophage foam cell formation. As a result, most isolated compounds could significantly inhibit oxidized low-density lipoprotein (ox-LDL)-induced macrophage foam cell formation, which suggests that these compounds may be promising candidates in the treatment for atherosclerosis.     

甜菊良种的单株选育

经高效液相色谱分析及部分农艺性状的综合评价 ,从 3个甜菊 (SteviarebaudianaBertoni)优良品系 (中山一号、YS0 0 3和YS0 0 4)的自然并辅助人工授粉结实得到的 13株单株中筛选出 2株优良单株SZ990 0 40 0 3和SZ990 0 40 11,SZ990 0 40 0 3单株干叶总甙含量为 16 .6 4% ,R A甙 13.34 % ,R A甙 /总甙为 80 .17% ;SZ990 0 40 11单株干叶总甙含量 19.2 0 % ,R A甙 12 .30 % ,R A甙 /总甙为 6 4.0 6 %     

The Fertilization and Early Development of Embryo and Endosperm in Stevia rebaudiana Bertani

The mature embryo sac is surrounded by endothelium tapetum. It is composed or an egg apparatus, one central cell with secondary nucleus, and 1–6 antipodal cells. About the 6th hour after pollination, female and male nuclei fuse with each other. The syngamy occurred almost simultaneously with the fusion of an other sperm nucleus and the secondary nucleus, but the velocity of the latter is faster than that of the syngamy. The fertilization of Stevia rebaudiana Bertani belongs to the premitotic type. About the 8th hour after pollination, primary endosperm nucleus is in mitosis, its dividing orientation may parallel or at right angle to the long axis of the embryo sac, and gives rise to two initial endosperm cells. The first five divisions of the endosperm cells are of synchronism. At the stage of heart-shaped embryo, the endosperm cells show the signs of digestion and absorbed. The endosperm development is of the cellular type. About the 10th hour after pollination, zygote divides for the first time. The division of the zygote is always transverse. The embryo development conforms to the Asterad type.     

基于天然低共熔溶剂的甜叶菊中甜菊糖绿色提取方法及优化

尝试利用天然低共熔溶剂(NADES)提取甜叶菊(Stevia rebaudiana)中的甜菊糖, 探索一种高效、绿色和环保的甜菊糖提取新方法。以甜叶菊干叶为原料, 对照传统提取溶剂水, 以甜菊糖中甜菊苷和莱鲍迪苷A的提取浓度作为指标, 筛选出最优的NADES提取配方, 然后通过Box-Behnken响应面法对NADES提取甜叶菊中甜菊糖的工艺条件进行筛选优化。结果表明, 提取效率最高的NADES配方为1,2-丙二醇:甘油:水=8:1:1 (v/v/v), 提取的甜菊苷浓度为2.59 mg∙mL^-1, 比水提取高16.40%, 提取的莱鲍迪苷A浓度为1.06 mg∙mL^-1, 比水提取高12.62%; 通过响应面法得到最优提取条件: 提取时间90分钟, 提取温度60°C, 超声功率为80 J∙s^-1, 预测甜菊苷提取浓度为3.49 mg∙mL^-1, 莱鲍迪苷A提取浓度为1.43 mg∙mL^-1, 与实验验证值(甜菊苷浓度为3.48 mg∙mL^-1, 莱鲍迪苷A浓度为1.42 mg∙mL^-1)接近。在最优条件下, 甜菊苷提取浓度比初始条件提高了34.36%, 莱鲍迪甘A提取浓度比初始条件提高了33.96%。NADES绿色环保, 且提取效率高于传统溶剂, 可用于甜叶菊中甜菊糖的绿色提取; 同时, 该提取方法可为后续推广至其它大宗经济植物类天然产物的绿色工业生产提供参考。     

Ultrastructural Study of Mesophyll Cells During Their Dediff erentiation in Stevia rebaudiana

Authors deal with the changs of cell ultrastructure ,nucleic acid and soluble protein contents as well as peroxidase activity during mesophyll cell dedifferentiation of leaf explant of stevia rebaudiaha Bertoni. Electron microscopic observations indicated that the mature mesophyll cells had returning to meristematic cells had to go through three main phases: (1)Initiation phase :The main characteristics of cells in this phase were cytoplasmic expansion, stretching out of cytoplasmic filaments to cell centre and appearance of the protein bodies in vacuoles. (2)Medial evolving phase :The main characteristics of cells in this phase were formation of cytoplasmic bridges ;the chloroplasts were dedifferentiated to proplastids and the nuclei started to move toward centre . (3)Finishing and dividing phase :During this phase cell dedifferentiation had finished and cell division was about to start. The main characteristics of cells in this phase were the appearance of meristematic state ; the nuclei, sometimes irregularly shaped, occupied a major proportion of the cell ; the nucleoli were vaculated and the nucleopores increased in number and size. Biochemic analyses showed that the contents of the total nucleic acids , RNA and the soluble proteins as well as the peroxidase activity gradully increased during formation of meristematic cell aggregates and then reduced. However, the change of DNA contents was not obvious.     

甜菊醇糖苷生物合成关键基因的导入和鉴定分析

甜叶菊（Stevia rebaudiana Bertoni）生产的甜菊醇糖苷因具有高甜度、低热能、不参与人体内代谢兼具保健功能等特点,被誉为最有发展前途的新糖源。从甜叶菊叶片克隆了甜菊醇糖苷生物合成途径中的关键基因SrUGT85C2、SrUGT91D2m和SrUGT76G1,构建植物基因过量表达载体,以单独或组合的形式将这些基因导入到甜叶菊中,获得转基因植株。与野生型对照植株相比,单独导入SrUGT85C2的转基因植株中甜菊醇单糖苷含量提高,总糖苷、莱包迪苷A含量及占比没有明显变化;单独导入SrUGT91D2m的转基因植株中甜菊醇单糖苷含量显著降低,而甜菊醇双糖苷含量显著增加;单独导入SrUGT76G1的转基因植株中,总糖苷含量显著提高,莱包迪苷A含量达到10%以上,比对照提高了2倍,而甜菊糖苷含量减少了一半。3个基因组合同时导入的转基因甜叶菊植株与单独导入SrUGT76G1的转基因甜叶菊植株类似,其总糖苷、莱包迪苷A含量及其占比均显著提高。这些结果为以后通过分子生物学技术来调控甜菊醇糖苷生物合成关键基因的表达,培育莱包迪苷A含量高的高品质甜叶菊新品系提供了理论依据和技术方法。     

Enrichment of the rebaudioside A concentration in Stevia rebaudiana extract with cyclodextrin glycosyltransferase from Bacillus licheniformis DSM 13

Stevia rebaudiana is a sweet herbaceous perennial plant, which is frequently used in the preparation of plant-based sweeteners. The demand for such sweeteners continues to increase due to purposeful nutrition and modern-day metabolic syndromes. More than 20 types of steviol glycosides provide a sweet taste, which are more than 300 times sweeter than sucrose. They are formed of two main components, namely stevioside and rebaudioside A. Only a handful of studies have dealt with Stevia rebaudiana leaf extracts, the conversion of pure stevioside into the preferred rebaudioside A is more common. The aim of this study was to enrich the rebaudioside A content of Stevia rebaudiana leaf extract using enzymatic bioconversion by applying fermented cyclodextrin glycosyltransferase from Bacillus licheniformis DSM13. Two differently processed plant materials, namely dried and lyophilized Stevia rebaudiana plants, were extracted and compared. Following the bioconversion, the rebaudioside A content was on average doubled. The maximum increase was fivefold with a 70–80% conversion of the stevioside.     

Plasmalemma Invaginations in Cultured Callus of Stevia rebaudiana: Ultrastructure and Ultracytochemical Localization of Acid Phosphatase

The plasmalemma of cells within meristematic regions was observed to possess invaginations in cultured callus of Stevia rebaudiana under differentiation. The ultrastructure and acid phosphatase (AcPase) ultracytochemistry Of these invaginations were studied. The plasmalemma invaginations occurred in the cells at various stages of vacuolation. In cells with dense protoplasm, plasmalemma appeared undulated but occasionally spherical and variable in size with conspicuous invaginations that projected into the peripheral cytoplasm. In the partially vacuolated cells, plasmalemma invagination became voluminously enlarged with increased contents and structurally complexed. In vacuolated cells, the enlarged invaginations protruded into the central vacuole but were delimitted from the tonoplast by an intermembrane zone continuous with the peripheral cytoplasm. Complex accumulations of membranes consisting of vesicular and coiled membranous Structures might develop within the plasmalemma invaginations. AcPase localization demonstrated high enzymic activity in the plasmalemma and its associated invagination. It seemed likely that these invaginations were functionally analogous to the vacuoles and therefore constituted part of the lytic compartment in these cells.     

甜菊含甙量的变异及R－A型良种的选育

从甜味成分种类及含量的不同,研究甜菊（ＳｔｅｖｉａｒｅｂａｕｄｉａｎａＢｅｒｔｏｎｉ）实生群体和单株无性系的变化,从中选育优质甜味成分含量高的良种。主要结果：（１）在实生群体中,丰产株型（圆纺锤形株）占７．３％,其中,优质甜味成分Ｒ－Ａ含量超过Ｓｔ含量的Ｒ－Ａ型株占１０．９６％,它们的Ｒ－Ａ含量变幅为３．３～１２．０％。（２）Ｒ－Ａ型良种Ｊ－２单株无性系在繁殖达２０００万株时,叶片大小和含甙量均存在极显著差异,Ｒ－Ａ含量变幅为４．５～１２．２％。（３）从Ｒ－Ａ含量为３．８６％的实生群体中选出Ｒ－Ａ含量为７．０４～１２．０３％的单株及从Ｒ－Ａ含量为９．１０％的良种单株无性系中选出Ｒ－Ａ含量为１０．１５～１２．１５％的单株,它们的Ｒ－Ａ含量均大幅度提高。     

Impact of nitrogen supply on growth,steviol glycosides and photosynthesis in Stevia rebaudiana Bertoni

This work investigated the agronomic, physiological and biochemical response of Stevia rebaudiana Bertoni grown under different nitrogen (N) rates. A pot trial in open air conditions was set up in 2012 with the aim to evaluate the effect of four N rates on the biometric and productive characteristics, steviol glycoside (SG) content as well as on leaf gas exchanges, chlorophyll fluorescence, photosynthetic pigments, Rubisco activity and N use efficiency. N deficiency caused a decrease in leaf N content, chlorophylls and photosynthetic CO₂ assimilation, resulting in a lower dry matter accumulation as well as in reduced SG production. The application of 150 kg N ha^? 1 seems to be the most effective treatment to improve rebaudioside A (Reb A) content, Reb A/stevioside ratio, photosynthetic CO₂ assimilation, stomatal conductance, N use efficiency, ribulose-1,5-bis-phosphate carboxylase/oxygenase (Rubisco) and PSII efficiency. The results demonstrate that by using an appropriate N rate it is possible to modulate the SG biosynthesis, with a significant increase in the Reb A content and in the ratio between Reb A and stevioside. This finding is of great relevance in order to obtain a raw material designed to meet consumer needs and bio-industry requirements for high-quality, Reb A content, and safe and environmentally friendly products.     

低能碳、氮离子对甜叶菊萌发率、生长量及过氧化物酶的影响

以经过碳、氮（75×10     

不同施肥处理对甜菊生长及糖苷含量和积累量的影响

采用盆栽法,以甜菊( Stevia rebaudiana Bertoni)品种‘中山4号'(‘Zhongshan No.4')当年生扦插苗为研究对象,研究不同形态氮肥(硫酸铵、硝酸钠和尿素)及不同施氮量(纯氮)、施磷量( P2 O5)和施钾量( K2 O)对幼苗生长及糖苷含量和单株积累量的影响。结果显示：随氮肥、磷肥和钾肥施用量的提高,甜菊幼苗的株高、茎粗、叶长、叶宽、单株叶干质量和单株茎干质量均呈先升后降的变化趋势,且总体上与对照无显著差异,仅施磷量300 mg·kg-1处理组的叶长显著高于对照;根据施肥量与单株叶干质量的回归方程,确定硫酸铵、硝酸钠、尿素、磷肥和钾肥的施用量分别为64.87、660.21、735.84、211.54和775.92 mg·kg-1时,幼苗单株叶干质量最高。在硫酸铵处理组中,300 mg·kg-1处理组甜菊叶片中的莱鲍迪苷A( R-A)含量及甜菊苷( St)、R-A和总苷的单株积累量以及600 mg·kg-1处理组的St单株积累量高于对照,多数处理组的St、R-A和总苷含量及单株积累量均低于对照;在硝酸钠处理组中,1200 mg·kg-1处理组的R-A和总苷含量、600和900 mg·kg-1处理组的St单株积累量以及300~900 mg·kg-1处理组的R-A和总苷单株积累量高于对照,其他处理组的St、R-A和总苷含量及单株积累量均低于对照;在尿素处理组中,1500 mg·kg-1处理组的R-A和总苷的含量和单株积累量以及600和900 mg·kg-1处理组的R-A和总苷单株积累量高于对照,其他处理组的St、R-A和总苷含量及单株积累量均低于对照;各施氮处理组中,仅1500 mg·kg-1处理组的R-A含量与对照差异显著,其他指标均与对照无显著差异。在施磷处理组中,100 mg·kg-1处理组的R-A含量以及100和200 mg·kg-1处理组的St、R-A和总苷的单株积累量高于对照,多数处理组的St、R-A和总苷含量及单株积累量低于对照且与对照均无显著差异。在施钾处理组中,各处理组的St、R-A和总苷含量及单株积累量均高于对照,其中仅900 mg·kg-1处理组的St、R-A和总苷含量与对照显著差异。各施肥处理组的St含量占总苷含量的百分率均低于对照、R-A含量占总苷含量的百分率均高于对照,且总体上与对照无显著差异。经过综合分析,建议在甜菊生育期内的施肥量为纯氮600~900 mg·kg-1、P2 O5200~300 mg·kg-1和K2 O 600~900 mg·kg-1,其中氮肥以尿素为宜。     

甜菊不同杂交组合结实率及其F1代萌发和生长及对NaCl耐性的比较

以甜菊(Stevia rebaudiana Bertoni)的耐盐性较强品种‘中山3号’和‘守田2号’及R-A高含量品种‘中山4号’和‘守田3号’为亲本配置7个杂交组合并获得杂交种子,对种子结实率和发芽率及F1代幼苗的存活率进行统计分析,在此基础上采用砂培和水培方法比较了亲本及F1代扦插苗对NaCl胁迫的耐性.结果表明:品种间杂交组合的结实率均显著高于同系列品种间杂交及自交组合,其中‘守田2号’ב中山3号’杂交组合的结实率最高,为74.9％;7个杂交组合F1代的种子发芽率为63.8％ ～ 89.0％,差异明显;‘守田2号’ב中山4号’杂交组合F1代幼苗存活率相对较低(79.80％),其他杂交组合F1代幼苗存活率均在93％以上.砂培条件下,用100 mmol·L-1NaCl胁迫7d,各杂交组合F1代扦插苗的存活率差异不显著;随NaCl胁迫时间的延长各杂交组合F1代扦插苗的存活率均明显下降;胁迫28 d,‘守田2号’ב守田 3号’杂交组合以及‘中山3号’自交组合F1代扦插苗的存活率显著高于其他杂交组合.水培条件下,用100、150、200和250 mmol·L-1 NaCl胁迫14 d,‘守田2号’ב中山3号’、‘中山3号’ב守田2号’和‘中山3号’ב守田3号’3个杂交组合F1代扦插苗的存活率均显著高于其耐盐亲本及其他杂交组合.研究结果说明:通过杂交提高甜菊耐盐能力是可行的,而亲本的耐盐能力及亲本配置对杂交后代目标性状有较大影响;‘中山3号’ב守田2号’、‘守田2号’ב中山3号’和‘中山3号’ב守田3号’是耐盐性较强的甜菊优良杂交组合.     

甜叶菊茎段腋芽诱导培养基和NaN3诱变条件筛选及诱变试管苗POD同工酶分析

以甜叶菊(Stevia rebaudiana Bertoni)茎段为外植体,采用L9(34)正交表对腋芽诱导培养基中的激素种类和浓度(0.0、0.1和0.2 ng·L-1NAA;0.0、0.5和1.0 mg·L-16-BA;0.000、0.005和0.010 mg·L-1TDZ)进行筛选;在此基础上对诱变过程中NaN3溶液的浓度(3、6和9 mmol·L-1)和处理时间(1、2、4和8h)进行比较,并初步筛选出最佳的NaN3诱变条件;采用聚丙烯酰胺凝胶电泳法(PAGE)对经上述NaN3诱变处理后培养5、10和15 d的试管苗POD同工酶酶谱的变化进行了分析.结果表明:在添加了不同激素组合的培养基上均能诱导出腋芽,但腋芽数和苗高有差异;经综合比较后可确定适宜于甜叶菊腋芽诱导的培养基为添加1.0 mg·L-16-BA和0.1 mg·L-1NAA的MS培养基(含5.0g·L-1琼脂粉和30g·L-1蔗糖,pH 6.0).经NaN3诱变处理后,茎段在腋芽诱导培养过程中的死亡率随NaN3浓度提高和处理时间延长逐渐增加,平均腋芽数和苗高则下降,且多数处理组试管苗矮化;根据半致死剂量确定的最佳NaN3诱变处理方法为将甜叶菊茎段置于9 mmol·L-1 NaN3溶液中浸泡4h.PAGE分析结果表明:甜叶菊诱变试管苗的POD同工酶谱均可分为a、b和c区,但在不同培养时间各处理组POD同工酶的条带数和活性有所变化.在培养5和10 d后各处理组诱变试管苗POD同工酶的活性和条带数量有明显差异,而在培养15 d后各处理组诱变试管苗POD同工酶活性有差异,但条带数量没有明显变化,表明用适宜浓度的NaN3进行诱变处理可导致甜叶菊试管苗短期的应激效应.     

Structures of the novel diterpene glycosides from Stevia rebaudiana

From the commercial extract of the leaves of Stevia rebaudiana, two new diterpenoid glycosides were isolated besides the known steviol glycosides including stevioside, rebaudiosides A–F, rubusoside, and dulcoside A. The structures of the two new compounds were identified as 13-[(2-O-6-deoxy-β-d-glucopyranosyl-β-d-glucopyranosyl)oxy] ent-kaur-16-en-19-oic acid β-d-glucopyranosyl ester (1), and 13-[(2-O-6-deoxy-β-d-glucopyranosyl-3-O-β-d-glucopyranosyl-β-d-glucopyranosyl)oxy] ent-kaur-16-en-19-oic acid β-d-glucopyranosyl ester (2), on the basis of extensive NMR and MS spectral data as well as chemical studies.     

RNA-Seq探索低水平利奈唑胺耐药粪肠球菌机制

为了探索低水平利奈唑胺耐药粪肠球菌机制,本研究采用Illumina HiSeq 4000高通量转录组测序技术对低水平利奈唑胺耐药粪肠球菌(P10748 MIC:8 mg/L)和利奈唑胺敏感粪肠球菌(3138 MIC:2 mg/L)进行测序及生物信息学分析,以标准菌株ATCC29212作为质量评估参考。利用GO和KEGG数据库对差异表达基因进行注释与富集分析,并利用荧光定量PCR对测序中的差异表达基因进行验证。结果显示,测序共获得了3.57 Gb有效数据,通过De novo拼接获得1 920条unigenes,总长度为2 122 210 bp,平均长度为1 105 bp。差异基因模式聚类分析显示共有150个显著性差异表达基因(FDR≤0.001,|log2 Ratio|≥1),其中141个上调,9个下调。其中生物膜形成和外排泵相关基因esp、optrA、fexA在耐药菌中显著上调。GO功能注释结果显示,催化活性、代谢过程和细胞是注释最多的条目;Pathway富集分析发现,肽聚糖生物合成、缬氨酸亮氨酸和异亮氨酸的降解和硫代谢为显著性富集通路(p<0.05)。荧光定量PCR结果与测序结果基本一致。推测膜转运蛋白和生物膜形成可能在耐药机制中具有重要作用,为低水平利奈唑胺耐药肠球菌机制提供了可参考的耐药靶标。