|
| Optimal temperature of induction mutation is ℃, , dinitrophenol, rifampicin, NH NO and P amino benzoic acid all decreased plastid mutation, while kinetin reversed. At concentration 0.0% KT, plastid mutation increased from (8.±.9)% to (.0±.)%. |
中文意思:
突变诱导的最佳温度为 ℃ , , 二硝基苯酚、利福平、硝酸铵和二氨基苯甲酸明显降低花叶植株的频率 ,而KT则增加叶绿体突变的频率 ,在 0 .0 %KT作用下 ,叶绿体突变频率由 (8.± .9) %提高到 ( .0± . ) %。 |
以下为相关句子列表(点击查看,可以看对应的解释):
|
|
Opportunity and Threat of WiMAX
|
|
|
WiMAX的机遇与风险 |
|
Optimal Design of Composite Wing Structures to Satisfy Flutter Speed Constraint
|
|
|
复合材料翼面结构满足颤振速度约束优化设计 |
|
Optimal Design of Energy Dissipation Systems Added Viscoelastic Dampers Based on H_∞ and H_ Performances
|
|
|
粘弹性阻尼器消能结构基于H_和H_∞性能优化设计 |
|
Optimal Design of Stom Sewer Networks
|
|
|
雨水管网优化设计 |
|
Optimal results were obtained by culturing leaves adaxial side down on MS medium containig -BA.0mg.
|
|
|
再生培养以 MS 作为基本培养基,附加浓度为 .0mg. |
|
Optimal temperature of induction mutation is ℃, , dinitrophenol, rifampicin, NH NO and P amino benzoic acid all decreased plastid mutation, while kinetin reversed. At concentration 0.0% KT, plastid mutation increased from (8.±.9)% to (.0±.)%.
|
|
|
突变诱导的最佳温度为 ℃ , , 二硝基苯酚、利福平、硝酸铵和二氨基苯甲酸明显降低花叶植株的频率 ,而KT则增加叶绿体突变的频率 ,在 0 .0 %KT作用下 ,叶绿体突变频率由 (8.± .9) %提高到 ( .0± . ) %。 |
|
Optimization Computer Design of Integrated Flight andPro pulsion Control Based on DSP and CAN
|
|
|
基于DSP和CAN的飞/推综合控制优化计算机设计 |
|
Optimization Design of Voided Slab Widening Bridge
|
|
|
变宽空心板桥梁的优化设计 |
|
Optimization Design of a High-Lift Airfoil at Low Reynold Numbers Based on Genetic Algorithm
|
|
|
基于遗传算法的低雷诺数高升力翼型的优化设计 |
|
Optimization Technology of Caching Based on Hibernate
|
|
|
基于Hibernate的数据缓存的优化技术 |
|
Optimization of ×0Gb/s CWDM Performance Based on Non-zero Dispersion Shifted Fibers
|
|
|
基于非零色散位移光纤的×0Gb/s CWDM系统优化 |
|
|
|
