1.
Therapeutic Effect of Extracts from Cordyceps militaris on Membranous Nephritis Model Rats
柞蚕蛹虫草提取物对模型大鼠膜性肾炎的保护作用研究
2.
Aritifical Cultivation of Cordyceps Militaris on Bombyx Mori and the Analysis of ITS DNA Sequence;
蛹虫草的家蚕人工培育及其ITS DNA序列分析
3.
Effects of Cordyceps militaris Polysaccharides on Ultraviolet-induced Micronucleus Rate of Viciafaba Root-tip Cells
蛹虫草多糖对紫外线诱发蚕豆根尖细胞微核的影响
4.
Comparison of the Amino Acids in Cordyceps kyushuensis and Cordyceps Sinensis and Cordyceps Militaris;
九州虫草与冬虫夏草、蛹虫草氨基酸成分比较
5.
Comparison of Selected Chemical Component Levels in Cordyceps guangdongensis,C. sinensis and C. militaris
广东虫草与冬虫夏草及蛹虫草的成分比较
6.
Peculiarities in the silkworm are known to appear at the corresponding caterpillar or cocoon stage.
蚕体的性状,亦限于相当的幼虫期或蛹期出现。
7.
Study on Development-Related Proteome during Larval and Pupal Stages in Silkworm, Bombyx Mori
家蚕幼虫期和蛹期发育相关蛋白质组的研究
8.
Studies on Submerged Culture Technics for Cordycepin Production by Medicinal Fugus Cordyceps Militaris;
蛹虫草高产虫草菌素的深层培养工艺研究
9.
Isolation and Purification of Cordycepin from the Solid Medium of Cordyceps militaris
人工蛹虫草固体培养基虫草素的分离纯化研究
10.
High-yielding cordycepin in Cordyceps militaris modified by low-energy ion beam
低能离子束修饰蛹虫草菌株高产虫草素
11.
Kyoto Yongchongcao annual production capacity of 100 tons.
京都蛹虫草年生产能力100吨以上。
12.
As a result, the broth of Cordyceps militaris fermentation contained antimicrobial active substances.
蛹虫草发酵液中具有抗菌活性物质。
13.
The Studies of Cultured Cordyceps Militaris on Regulating Blood Lipid;
人工培植蛹虫草调节血脂作用的研究
14.
Research of High Yield Technology and Strains Selection of Cordyceps Militarris;
蛹虫草优良菌株筛选与高产技术研究
15.
Biological Characteristics and Fermentation Research of Cordyceps Militaris
蛹虫草(Cordyceps militaris)生物学特性及发酵研究
16.
Effects of Nutrient Ingredient in Culture Medium on the Growth of Cordyceps militaris
培养基营养成分对蛹虫草生长的影响
17.
Studies on the Antioxidant Capacity of Zinc Rich Exopolysaccharide of Cordyceps militaris
蛹虫草胞外锌多糖抗氧化能力的研究
18.
Optimization of the Water Extraction Technique of Cordyceps militaris Mycelium Adenosine via Response Surface Methodology
蛹虫草菌丝体中腺苷提取工艺的优化