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 molecular mechanism of floral organ development is a hotspot in plant developmental biology researches.
花器官发生过程中,两并生花的发生发育进程具同步性。
During floral organogenesis and development, the two collateral flowers were synchronous.
花器官高表达转录因子的克隆将为研究t CP基因调控植物花发育和花形态建成提供新的物质基础。
The cloning of the new member of TCP transcription factor family will provide new base of material for the research of plant flower development regulation and flower tissue forming.
阐述了近年来有关植物花器官包括花瓣、雄蕊和雌蕊发育的特异性基因研究的现状与展望。
The present status and prospect of studies on specific genes for development of androecium, pistil and petals of higher plants are reviewed in this paper.
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 important roles of homeotic genes in the floral organ development were summarized.
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)。
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.
研究植物根、叶片、花器官生长发育的信号调控机制。
Study of the signaling mechanisms in the regulation of plant growth and development.
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 classical ABC model illustrated the molecular mechanism of floral development, and explained the floral organ mutants of homeotic gene.
吉祥草花器官发生发育过程中出现雌蕊群发育停滞现象,以及吉祥草在小孢子及胚珠发育过程中出现败育情况,可能是吉祥草属结实率低的重要原因。
The stasis phenomenon of gynoecium development occurred in floral organogenesis of Reineckia and the abortion of microspore and ovule may be the important causes of its low seed bearing ratio.
吉祥草花器官发生发育过程中出现雌蕊群发育停滞现象,以及吉祥草在小孢子及胚珠发育过程中出现败育情况,可能是吉祥草属结实率低的重要原因。
The stasis phenomenon of gynoecium development occurred in floral organogenesis of Reineckia and the abortion of microspore and ovule may be the important causes of its low seed bearing ratio.
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