Guang-Qing Xia, Jun-Yi Zhu, Qi-Wei He, Shuang-Yi Zhao, Cui-Hua Wang
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引用次数: 0
摘要
叶类基因(LEAFY, LFY)在植物开花过程中起着重要的作用,主要通过调控植物的相变时间。LFY在拟南芥中的组成性低表达导致了晚开花和高分枝表型的形成。本文采用RNAi方法下调LFY基因表达,延缓大白菜(Brassica rapa L. ssp)的生长。北京植物)抽苔和开花。结果表明,转基因植株向生殖期过渡较晚,枝条较多,叶片较多,但植株高度较低。RQ-RT-PCR分析结果显示,转基因植株中LFY基因的表达量显著降低。这些结果表明,通过RNA干扰抑制LFY基因表达可以延缓冷敏感长日(LD)条件下的抽苔。晚熟大白菜可作为晚熟大白菜育种的优良遗传资源。
Late-bolting transgenic Chinese cabbage obtained by RNA interference technique.
LEAFY (LFY) gene plays an important role in determining plant flowering mainly by controlling the timing of phase transition. Constitutive under-expression of LFY in Arabidopsis resulted in the formation of a late-flowering and highly branching phenotype. In this paper, an RNAi approach was used in down-regulated LFY gene expression to delay Chinese cabbage (Brassica rapa L. ssp. pekinensis) bolting and flowering. The results show that transgenic plant has a later transition to the reproductive phase, and the transgenic plants have more branches, more leaves, but a lower height. Results of RQ-RT-PCR analysis show that LFY gene expression was greatly reduced in transgenic plants. These results suggest that inhibiting LFY gene expression by RNA interference can delay bolting in a cold-sensitive long-day (LD) condition. Late flowering of Chinese cabbage can be used as a good genetic resource for the breeding late-bolting Chinese cabbage.
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