水稻花,金钱花,美德的完美之花。
水稻花培培养基的重要成分。
Iron is an important component in anther culture medium of rice.
对水稻花发育的研究已开始成为植物分子遗传学的一个新的焦点。
Study of rice floral development has become a new focus of plant molecular genetics.
研究和分析了受体品种、质粒浓度对水稻花器介导法转化的影响。
Effects of receptor varieties, plasmids concentrations on the rice transformation rate via floral organ-mediated method were studied.
水稻的花发育是形成粮食的基础,研究水稻花发育的机制具有十分重要的作用。
It's important to study the mechanisms of the rice floral development, because the rice floral organs provides the basis of the rice grain formation.
张云江,张淑华,孙岩松对25年寒地水稻花培育种与同期常规育种统计资料进行了比较分析。
Based on the data from 25-year rice anther culture breeding and contemporary conventional breeding in cold region, their selection efficiency were compared.
选择合适的水稻花培起始材料,选用适宜的培养基配方,对于水稻花培中愈伤组织诱导和分化至关重要。
It was important for callus induction and shoot differentiation to choose better starting materials and a suitable medium in rice anther culture.
对水稻花药培养及花培育种的基本概念、研究意义、研究进展、研究内容、应用领域、技术要点做了综述。
Summarized the basic concept, significance, technique gist, progress, content, applying do-main and attention point of rice anther culture and anther-culture breeding.
利用伽玛射线对粳稻品种中花11进行辐照,以诱导广泛的形态突变体,为水稻功能基因组研究提供基础材料。
The japonica rice (Oryza sativa L.) variety Zhonghua 11, developed by anther culture technology, was irradiated by gamma rays to induce extensive mutation for functional genomics research use.
将其与GUS报告基因融合在一起,构建了植物表达载体,并由农杆菌介导法导入水稻品种‘中花11’中。
It was fused with GUS reporter gene to construct a plant expression vector and the vector was transformed into Zhonghua 11, a rice variety, by Agrobacterium meditation.
采用土培试验研究了嘉花1号这种基因型水稻根系通气组织对其根表铁膜形成的影响。
Soil culture experiment was conducted to study the effect of rice root aerenchyma on root iron plaque by Jiahua 1 this kind of genotype rice.
裸粒水稻小穗内的花器官数日也有较大的变异。
The variable number of floral organs was observed in nsr spikelets.
过量表达SUB1A的株系表现出开花延迟,说明对花的发生的抑制是水稻静止存活策略的一种形式。
Observation of a delayed flowering phenotype in lines over-expressing SUB1A led to the finding that inhibition of floral initiation is a component of the quiescence survival strategy in rice.
我们之前已经报道过SNB(多颖壳)基因,它调控着水稻小穗分生组织向花分生组织的转变。
We previously reported that SUPERNUMERARY BRACT (SNB) regulates the transition of spikelet meristems into floral meristems in rice.
我们之前已经报道过SNB(多颖壳)基因,它调控着水稻小穗分生组织向花分生组织的转变。
We previously reported that SUPERNUMERARY BRACT (SNB) regulates the transition of spikelet meristems into floral meristems in rice.
应用推荐