1.
Studies on Taxol Metabolism Regulation in Taxus Chinensis Var. Mairei Cell Cultures;
南方红豆杉细胞紫杉醇代谢调节的研究
2.
Studies on Mechanism of Defense Responses of Taxus Cuspidata Cells to Taxol;
红豆杉细胞对紫杉醇防御响应的机理研究
3.
Study of Taxol Metabolic Regulation Mechanism in the Cell Culture of Taxus;
红豆杉细胞培养中紫杉醇代谢调节的研究
4.
Molecular Regulation Mechanism of Taxol Biosynthesis in Taxus Media Cv.Hicksii Cell Line
红豆杉细胞合成紫杉醇的分子调控机理
5.
Study on Optimizing of Environmental Conditions of Taxus Cuspidata Cell Culture to Produce Taxol
东北红豆杉细胞培养生产紫杉醇环境优化技术
6.
Studies on Growth and Metabolism of Encapsulated Taxus Cuspidata;
微胶囊固定化东北红豆杉细胞生长代谢的研究
7.
Lipidomics Analysis of Differences between Phospholipid Metabolism in Two Taxus Cell Lines;
脂质组学研究两种红豆杉细胞磷脂代谢的差异
8.
Taxane Biosynthesis Pathway and Induction Regulation in Suspension Cultures of Taxus Chinensis Var. Mairei;
南方红豆杉细胞中紫杉烷生物合成途径及其诱导调控研究
9.
The Induction Studies of Oligogalacturonides on Paclitaxel Biosynthesis in Taxus Yunnanensis Cell Cultures;
寡聚半乳糖醛酸对云南红豆杉细胞紫杉醇生物合成的诱导研究
10.
Suppression of Taxoid 14β-hydroxylase Gene Expression in Taxus×media via RNA Interference
利用RNAi抑制曼地亚红豆杉细胞紫杉烷14β-羟基化酶基因的表达
11.
Effects of Synchronization and Synergistic Induction on Taxol Content in Taxus Cells
红豆杉细胞稳定生产紫杉醇中的同步化协同诱导作用
12.
Relationship Between Culture Medium and Culture Condition and Avoiding Browning in Cell Culture of Taxus
培养基和培养条件与红豆杉细胞培养中褐化的关系
13.
Primary Metabolism and Secondary Metabolism of Taxus sp. Cells Affected by Immobilization Microenvironment;
固定化微环境对红豆杉细胞初生代谢和次生代谢的影响
14.
Study on Process of MAPK Signal Transduction of Taxus Cuspidata Cells in Immobilized Cultures Microenvironments;
固定化微环境中红豆杉细胞MAPK信号转导过程研究
15.
Dynamic Characteristics of Nitric Oxide and the Regulating Model of MAPK in Taxus Cuspidata Cells under Shear Stress;
剪切力作用下红豆杉细胞一氧化氮和MAPK调控模型的动态特征
16.
Study on Toxic Effects of Organic Phase on Taxus Cuspidata in Two- phase Cultures;
两相培养中有机相对红豆杉细胞毒性作用的研究
17.
The Mechanisms of the Effects of Shear Stress to Taxus Cuspidata in Suspension Culture;
剪切力对东北红豆杉细胞悬浮培养的影响机理的初步研究
18.
Role of ERK in the Signaling of Ce~(4+)-Induced Secondary Metabolism of T. Cuspidata Cells;
ERK在Ce~(4+)诱导红豆杉细胞次生代谢过程中的信号转导作用