It was indicated that phytochrome is the photoreceptor of female photoperiod-sensitive sterility in PFSR.
暗示光敏色素是PFSR雌性育性光敏性的光受体。
While the expression amount for phytochrome genes were consistent among different transformants of transgenic rice.
而不同隐花色素基因沉黙体水稻中光敏素基因的表达量基本一致。
It is suggested that this transcriptional photoregulation participates in the phytochrome-mediated inhibition of rice coleoptile growth.
这表明这种转录光调控可能参与了光敏色素介导的对水稻胚芽鞘生长的抑制。
Relation between phytochrome action modes and possible multiple pathways for phototropic signal transduction was analyzed based on the experiment results.
根据上述研究发现探讨了植物光敏素作用模式与不同向光性反应信号转导途径之间可能存在的相互关系。
The phytochrome molecule is the photoreceptor used by plants to sense environmental red and far-red light changes, which are vital to direct growth and development.
光敏色素是植物感受外界环境变化的最重要光受体之一,对红光和远红外光非常敏感。
Although people have hardly studied effects on alfalfa fall dormancy of phytochrome and plant hormone so far, this paper brought forward prospects of research at this aspect.
虽然迄今为止人们极少研究光敏色素和植物激素在苜蓿秋眠中的作用,但对此方面提出了研究展望。
Therefore, each phytochrome gene of rice has distinct roles, and all of the phytochrome actions coordinately control the critical daylength response of florigen expression in rice.
因此,水稻中每个光敏色素基因都有着独特的作用,这些光敏色素协同调控水稻成花素基因的表达对临界日长的应答。
Here, we revealed multiple action points for each phytochrome in the critical daylength response of florigen expression by using single and double phytochrome mutant lines of rice.
本研究通过水稻光敏色素单突变和双突变株系,揭示了不同光敏色素在成花素基因应答日照长度的过程的多种作用。
Here, we revealed multiple action points for each phytochrome in the critical daylength response of florigen expression by using single and double phytochrome mutant lines of rice.
本研究通过水稻光敏色素单突变和双突变株系,揭示了不同光敏色素在成花素基因应答日照长度的过程的多种作用。
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