1.
Effects of Tissue Culture and Virus Elimination on the Phenotype of Fragaria × ananassa cv. Toyonoka
组培条件下脱毒与带毒丰香草莓植株表型的比较
2.
Isolation and Transgenic Phenotype Analyses of PtAUX1 Gene of Populus Tomentosa Carr.;
毛白杨PtAUX1基因的分离及超表达植株的表型分析
3.
Not yet reach the flowering stage at the end of the experiment.
表示试验终止时四植株皆尚未开花。
4.
Expression of CP4 EPSPS Protein of Genetically Modified Roundup Ready Soybean
转EPSPS基因大豆植株中蛋白的表达
5.
Studies on Plant Regeneration System of Cherry in Different Genotypes
不同基因型樱桃植株再生体系的研究
6.
The F1 plants were vigorous and somewhat intermediate.
F1植株生长健壮,其中有一些表现中间性。
7.
Their main differentiation was the differences of plant-morphologic characters.
它们的差别在于植株形态特点不同(表8)。
8.
The Role of Arabidopsis AtDAD1 in the Tolerance to Hydrogen Peroxide Strss;
拟南芥AtDAD1超量表达植株对H_2O_2抗性的研究
9.
Studies on the Introduction of Hepatitis B Surface Antigen in Lettuce (Lactuca Sativa);
乙肝表面抗原基因导入莴苣植株的研究
10.
Demonstrative Performance and High-yielding Cultivation Techniques of Zhuliangyou 15 in Loudi
株两优15在娄底的种植表现及高产栽培技术
11.
Analysis for Adhesive Factors of Helicobacter Pylori Animal Mode Strain SS1
幽门螺杆菌动物模型菌株SS1定植因素分析
12.
Studies on in Vitro Culture of Different Types of Embryos and Genetic Diversity Analysis of Regenerated Plants in Bitter Gourd (Momordica Charantia L.)
苦瓜不同类型胚的植株再生及遗传多样性分析
13.
Rice Plant Methane Emission Estimated Model Based on Principal Component Analysis
基于主成分分析水稻植株CH_4排放估算模型
14.
General Type Maize Planting Density of Different Modes of Study
普通株型玉米不同密度下种植模式的研究
15.
Regeneration of Plant with Multiple Types from Allohexaploid CGMCC No.2553 in Brassica
芸薹属异源六倍体CGMCCNo.2553多类型再生植株的获得
16.
Construction of Plant Expression Vectors Harboring Bt Insecticidal cry1Ba & cry3A Genes and Obtaining of Pest-Resistant potato Transformants;
Bt杀虫基因双价植物表达载体的构建及抗虫马铃薯植株的获得
17.
The Mutation of Acid Phytase and Overexpression of Phytase phyL and 168phyA Gene in WB800;
植酸酶产酶菌株的体外诱变及中性植酸酶基因在WB800中的高效表达
18.
which move the crops around on a large frame, where they can be fertilized, transplanted and harvested more efficiently.
机器人在一个大型框架上移动植株,可以有效地施肥、移植和收获。