A conserved role of SHORT VEGETATIVE PHASE (SVP) in controlling flowering time of Brassica plants

Jeong Hwan Lee , Soo Hyun Park , Jong Seob Lee , Ji Hoon Ahn
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引用次数: 55

Abstract

The control of flowering time in Brassica plants is an important approach for improving productivity, as vegetative tissues are not produced after the floral transition in Brassica plants. In order to determine the feasibility of modulating flowering time in Chinese cabbage plants, genes homologous to Arabidopsis SHORT VEGETATIVE PHASE (AtSVP) were isolated from spring-type and fall-type cultivars of Chinese cabbage plants, and their functions were determined. Their deduced amino acid sequences were 91–93% identical with that of AtSVP. The expression of BcSVP was ubiquitously detected, and was unaffected by vernalization. Constitutive BcSVP expression induced late flowering with additional floral defects. This delayed flowering was attributed to the repression of FLOWERING LOCUS T (FT) and SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 (SOC1). BcSVP expression under the control of the AtSVP promoter also resulted in the complementation of the svp mutation in Arabidopsis. These results indicate that BcSVP is a functional equivalent of AtSVP and also suggest that BcSVP may prove useful for the genetic manipulation of flowering time in Brassica plants.

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短营养期在芸苔属植物开花时间调控中的保守作用
芸苔属植物开花时间的控制是提高产量的重要途径,因为芸苔属植物在开花转变后不产生营养组织。为了确定白菜植物开花时间调控的可行性,从春型和秋型白菜品种中分离出拟南芥短营养期(AtSVP)同源基因,并对其功能进行了分析。推导出的氨基酸序列与AtSVP的相同度为91 ~ 93%。BcSVP的表达普遍存在,且不受春化的影响。组成型BcSVP的表达导致了晚花和额外的花缺陷。这种延迟开花的原因是开花位点T (FT)和过表达抑制子CONSTANS 1 (SOC1)受到抑制。AtSVP启动子控制下的BcSVP表达也导致拟南芥中svp突变的互补。这些结果表明BcSVP与AtSVP在功能上是等价的,也表明BcSVP可能对芸苔属植物开花时间的遗传操纵有用。
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