The important roles of homeotic genes in the floral organ development were summarized.
主要论述了花发育过程中花器官同源异形基因及其相关基因的调控机理。
The molecular mechanism of floral organ development is a hotspot in plant developmental biology researches.
花器官发育的分子遗传机制是目前植物发育生物学的研究热点之一。
The vernalized plants can finish the development stages of floral organ and floral stalk, no matter long-day or short-day.
经春化诱导的植株,无论给予长日还是在短日条件,花器和花茎均能正常完成发育。
These floral organs are specified by floral homeotic genes, as well as genes which specify the number and symmetry of floral organ.
这些器官的性质由花的“同源异型基因”决定,决定花的器官数和对称性等的基因族也在起作用。
Effects of receptor varieties, plasmids concentrations on the rice transformation rate via floral organ-mediated method were studied.
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。
The classical ABC model illustrated the molecular mechanism of floral development, and explained the floral organ mutants of homeotic gene.
经典的ABC模型有效地解释了花器官发育的分子机制,可以广泛地解释因同源异型基因的突变而引起的植物花器官变异。
The 107 single mutants were obtained by genetic analysis and exhibited pleitrophic phenotypes including defects in floral organ formation and deep leaf serrations.
另外我们通过遗传分析得到了107的单突变体,发现其具有多样化的表型,如花器官发育有缺陷,叶边缘有很深的锯齿等。
Here, we report the identification of the SUPERNUMERARY BRACT (SNB) gene controlling the transition from spikelet meristem to floral meristem and the floral organ development.
本文我们分离到了一个控制小穗分生组织向花分生组织转变以及花器官发育的基因SUPERNUMERARYBRACT (SNB)。
Studies on several floral homeotic mutants in dicots, mainly in Arabidopsis, Snapdragan and Petunia, established the ABCDE model for the determination of floral organ identities.
根据对双子叶模式植物拟南芥、金鱼草和矮牵牛遗传突变体的研究,提出了花发育的ABCDE模型。
Studies on several floral homeotic mutants in dicots, mainly in Arabidopsis, Snapdragan and Petunia, established the ABCDE model for the determination of floral organ identities.
根据对双子叶模式植物拟南芥、金鱼草和矮牵牛遗传突变体的研究,提出了花发育的ABCDE模型。
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