1.
Cloning of the Specific Expression Gene Promoter-PchsA of Petunia hybrida Flower and Construction of F3′5′H Gene Expression Vector
矮牵牛花特异表达启动子PchsA的克隆及蓝色基因F3′5′H表达载体的构建
2.
Study on Construction of Expression Vector of F3'H Gene from Eupatorium Adenophorum and Transformation to Tobacco
紫茎泽兰F3’H基因表达载体的构建及对烟草转化的研究
3.
cDNA Cloning and Analysis of Flavonoid 3’-hydroxylase (F3’H) in Vitis amurensis Rupr.
山葡萄中类黄酮3’-羟化酶基因(F3’H)cDNA的克隆和分析
4.
Construction of Plant Expression Vector and Transformation in Arabidopsis thaliana of F3’H of Soybean
大豆F3’H基因植物表达载体的构建及拟南芥的遗传转化
5.
Cloning and Transformation of Color Gene F3'5'H and DFR in Petunia Hydrida;
蓝紫色矮牵牛色素基因F3'5'H和DFR的克隆与植物转化
6.
Cloning of Flavonoid-3′,5′-hydroxylase gene(F3′,5′H) of Petunia hybrida and Construction of a Novel Vector Expression F3′,5′H Driven by Flower-specific Promoter
矮牵牛F3′,5′H全长cDNA的克隆及花特异启动子介导表达载体的构建
7.
Cloning and Expression of Human F3-Restin Gene
人F3-Restin基因的克隆与表达
8.
Transformation of Brassica Napus with Antisense BnF3 H Gene;
甘蓝型油菜BnF3 H基因的反义转化
9.
The Na~+/H~+antiporter from Synechocystis pcc6803 s Expression in Tobacco;
蓝藻Na~+/H~+antiporter基因在烟草中的表达
10.
Studies on the Temporal and Spatial Variations of the Flower Color,the Molecular Structures of the Anthocyanins and the Cloning of the F3'H of Several Cultivars of Prunus Mume;
几个梅花品种花色的时空变化、花色苷的分子结构和F3'H克隆的研究
11.
F3 5 H Gene Influenced Flower Color in Transgenic Tobacco;
转F3’5’H基因烟草的花色改变
12.
Cultivation of Hybridization Strain F3 from E.tenella and Studies on Its Gene Related to Microneme;
鸡柔嫩艾美耳球虫杂交株F3的培育及微线相关基因研究
13.
Turquoise and steel are not dominant over each other.
蓝绿色和铁銹色对彼此而言都不是显性基因。
14.
Analysis of Chromosome and Localization of the S-receptor Kinase(SRK) Gene Sequence in Brassic.Oleracea by FISH;
甘蓝的染色体分析与SRK基因的染色体定位研究
15.
primary colours
原色、基色、主色(红、黄、蓝)
16.
Functional Research of 3 ,5 -Bisphosphate Nucleotidase Gene ArHAL in Arthrospira Platensis;
螺旋蓝细菌3’,5’-二磷酸核苷酸酶基因ArHAL功能的初步研究
17.
The genetics of blue roses, too, have turned out to be more complicated than expected.
蓝色玫瑰的基因原理也比预想的更为复杂。
18.
Isolation and Expression Pattern of Key Genes Involved in Blue Flower Formation;
蓝色花形成关键基因的分离及其表达分析