Dwarf mutants in plant are crucial for elucidating regulating mechanisms for plant growth and development. This character is also favored in breeding, such as wheat, rice.
植物中矮秆突变体不仅对于阐明植株生长与发育机制非常重要,对作物,特别是水稻,小麦等主要农作物,育种改良也很有帮助。
Antibiotics favor the growth of resistant mutants.
抗菌素促成耐药变种的生长。
On the other hand, dwarf mutants in rice are crucial for elucidating regulating mechanisms for plant growth and development.
另外一方面,由于水稻是一种模式植物,对其矮秆突变体的研究还有利于了解植物生长发育的机制。
The new results were obtained as follows: All the mutants could be grown photoautotrophically. However, their growth speed was very slow either on HS or TAP medium as compared with the control;
对突变体的分析,有以下新结果:突变体都能进行光合自养,但无论在异养培养基上还是自养培养基上,和对照相比,其生长速度非常缓慢;
Electric conductive rate, growth weight, content of protein were studied as a technology method to select mutants resistant to the disease.
采用电导率、生长量、蛋白质含量作为选择抗病性突变体的一种技术方法加以研究。
The production of spore of mutants was as much as 2.2 times of the original strains', but the mutants showed reduced growth.
在相同时间内,诱变菌株的产孢量几乎是出发菌株的2.2倍,但菌丝生长量却低于出发菌株;
If treatment fails as a result of resistance, the mutants will have evolved during the tumor growth phase, before the start of therapy.
有趣的是,虽然细胞休眠延长了药物减少或清除肿瘤细胞所需的时间,但治疗时相与耐药突变的演变无关。
To obtain oleaginous yeast mutants with improved lipid production and growth rates, an atmospheric and room temperature plasma(ARTP) jet was used with a 96-well plate for high throughput screening.
采用新型常压室温等离子体射流诱变产油酵母,结合快速突变产油酵母操作条件及基于96孔板的高通量筛选手段,获得了一系列增殖速度和产油量发生变化的突变株。
To obtain oleaginous yeast mutants with improved lipid production and growth rates, an atmospheric and room temperature plasma(ARTP) jet was used with a 96-well plate for high throughput screening.
采用新型常压室温等离子体射流诱变产油酵母,结合快速突变产油酵母操作条件及基于96孔板的高通量筛选手段,获得了一系列增殖速度和产油量发生变化的突变株。
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