dahurica造句
例句与造句
- studies on cultivation measures of angelica dahurica
白芷栽培措施研究 - chemical constituents of angelica dahurica
中药川白芷化学成分的研究 - the accumulation of isoimperatorin was the highest in the end of october when a . dahurica was harvest
异欧前胡素积累量在10月底收获时达到最大。 - experimental study on the antipyretic-analgesic and anti-inflammatory of total coumarins from radix angelicae dahurica
杭白芷香豆素组分解热镇痛抗炎作用的实验研究 - there exists a layer of big crystal cells in the spongy tissue of lespedeza dahurica ( laxm . ) schindl
兴安胡枝子叶的海绵组织内,在临近栅栏组织一侧分布着一层大型含晶细胞。 - It's difficult to find dahurica in a sentence. 用dahurica造句挺难的
- methods use weighing method to weight the dry matter and an hplc method to determine the content of isoimperatorin in a . dahurica root
方法采用称重法测定白芷干物质,高效液相色谱法测定根中异欧前胡素。 - conclusion taking a . dahurica yield and the accumulation of isoimperatorin as harvest aim, the optimal time for harvest is at the end of october
结论以白芷产量和异欧前胡素积累量为白芷的收获目标,10月底为白芷的收获期,与传统采收期一致。 - objective to study the accumulation of dry matter and changes of isoimperatorin content and accumulation in the root of angelica dahurica in different growth and development duration
摘要目的明确白芷不同生长时期干物质积累及根中异欧前胡素质量分数和积累量变化。 - both the leaf of lespedeza dahurica ( laxm . ) schindl . and the leaf of sophora flavescens ait . which live in the alkaline land of songnen plain, and the leaf of amorpha fruticosa linn . which grows in the land for salt enduring species sieving were made into paraffin sections
对生长在松嫩平原盐碱地(ph=8.5-9)上的兴安胡枝子和苦参的叶,以及生长在当地抗盐树种筛选试验田(ph=8.5-9)上的紫穗槐的叶制作了石蜡切片,并对这些切片作了光镜观察和结构植物学分析。 - in the process of study for the extracellular cam, the research in our lab indicates that cambps also possibly exist in cell wall area . for the first time, an extracellular ca ~ ( 2 + )-dependent cambp ( named : ecbp21 ) was purified from 0.1mol / l cacl _ ( 2 ) extracts of angelica dahurica suspension-cultured cells ( tang et al . 1996 )
我室在对植物细胞外cam的研究过程中,发现细胞外还可能存在cambps,并首次从白芷悬浮培养细胞外纯化了一种依赖ca~(2+)的、分子量约为21kd的细胞外cambp(tang等,1996)(定名为:ecbp21)。 - then using ecbp21 antibody and immunogold transmission electron microscopy method, we studied the subcellular localization of ecbp21 . the results indicated that the gold particles were mainly localized in the cell wall in callus cells and rachis cells of angelica dahurica . these results indicated that ecbp21 mainly localized in cell wall, which provide a direct evidence of the extracellular existence of ecbp21 . furthermore, using ecbp21 antibody and immunohistochemical method, we studied the organic specially distribution of ecbp21, the results indicated that ecbp21 distributed in all organize, but it distributed more in leave n flower rachis than in leafstalk and root
首先,构建了ecbp21表达载体,诱导了重组蛋白的表达,并通过胶回收法获得了大量纯化重组ecbp21蛋白,制备了高效价、高特异性抗体;随后,利用ecbp21抗体,结合免疫胶体金电镜定位技术进行了ecbp21亚细胞定位研究,结果显示:在白芷愈伤组织细胞和花序轴细胞中金颗粒主要分布在细胞壁区域,而在细胞内未发现或仅有少量金颗粒分布,表明ecbp21蛋白主要定位于细胞壁区域,这为细胞外cambp(ecbp21)的胞外存在提供了直接证据:进一步,利用ecbp21抗体,通过免疫组织化学分析研究了ecbp21组织特异性分布状况,结果表明ecbp21在白芷各组织中均有分布,但在叶、花、花序轴中分布较多,而在叶柄、根中分布较少。 - the results obtained in our laboratory in the past decade years showed, apoplast calmodulin in plant kingdom may regulate a lot of growth and development process of plant, such as accelerating the proliferation of angelica dahurica suspension cells and the proplast cell regeneration, startup the pollen germination of many plants " pollen and accelerating the elongation of the pollen tube, stimulating the redox of corn root " s cell, inducing the expression of light independent rbss gene, and participating in the regulation of the restraining function of al ~ ( 3 + ) to pollen tube germination
我室多年的研究结果表明,植物质外体cam可能做为多肽第一信使调节着植物体诸多的生长发育过程:如促进白芷悬浮细胞的细胞增殖和原生质体壁再生,启动并促进多种花粉的萌发和花粉管的伸长,刺激玉米根细胞的氧化还原反应,诱导rbcs基因光不依赖的表达,以及参与调节胞外al~(3+)对花粉萌发的抑制效应等。 - results dry matter accumulation of aerial part and under ground part of a . dahurica showed " s " curve, dry matter of aerial part gradually increased from the end of july to the early october and got to the peak in mid-october, then gradually decreased; dry matter of under ground portion increased slowly in earlier stage and became rapidly from the end of august to the end of september, then reduced
结果白芷地上和地下部分干物质积累呈“s”型曲线,地上部分干物质在7月底至10月初逐渐增加,10月中旬达到高峰,随后降低;地下部分干物质前期增加较慢,8月底至9月底为快速增长期,随后增加稍有减慢。