Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033, Japan.
Graduate School of Biostudies, Kyoto University, Yoshida Konoecho, Sakyo-ku, Kyoto, 606-8501, Japan.
Plant J. 2015 Sep;83(6):1059-68. doi: 10.1111/tpj.12951.
In many flowering plants, the transition to flowering is primarily affected by seasonal changes in day length (photoperiod). An inductive photoperiod promotes flowering via synthesis of a floral stimulus, called florigen. In Arabidopsis thaliana, the FLOWERING LOCUS T (FT) protein is an essential component of florigen, which is synthesized in leaf phloem companion cells and is transported through phloem tissue to the shoot apical meristem where floral morphogenesis is initiated. However, the molecular mechanism involved in the long-distance transport of FT protein remains elusive. In this study, we characterized the classic Arabidopsis mutant fe, which is involved in the photoperiodic induction of flowering, and showed that FE encodes a phloem-specific Myb-related protein that was previously reported as ALTERED PHLOEM DEVELOPMENT. Phenotypic analyses of the fe mutant showed that FT expression is reduced in leaf phloem companion cells. In addition, the transport of FT protein from leaves to the shoot apex is impaired in the fe mutant. Expression analyses further demonstrated that FE is also required for transcriptional activation of FLOWERING LOCUS T INTERACTING PROTEIN 1 (FTIP1), an essential regulator for selective trafficking of the FT protein from companion cells to sieve elements. These findings indicate that FE plays a dual role in the photoperiodic induction of flowering: as a transcriptional activator of FT on the one hand, and its transport machinery component, FTIP1, on the other hand. Thus, FE is likely to play a role in regulating FT by coordinating FT synthesis and FT transport in phloem companion cells.
在许多开花植物中,开花的转变主要受日长(光周期)季节性变化的影响。诱导光周期通过合成一种叫做成花素的花刺激物来促进开花。在拟南芥中,FLOWERING LOCUS T(FT)蛋白是成花素的一个重要组成部分,它在叶片韧皮部伴胞中合成,并通过韧皮部组织运输到茎尖分生组织,在那里启动花形态发生。然而,FT 蛋白长距离运输所涉及的分子机制仍不清楚。在这项研究中,我们对经典的拟南芥突变体 fe 进行了表征,该突变体参与光周期诱导开花,并表明 FE 编码一种韧皮部特异性的 Myb 相关蛋白,该蛋白先前被报道为改变的韧皮部发育。fe 突变体的表型分析表明,FT 在叶片韧皮部伴胞中的表达减少。此外,FT 蛋白从叶片向茎尖的运输在 fe 突变体中受损。表达分析进一步表明,FE 还需要转录激活 FLOWERING LOCUS T INTERACTING PROTEIN 1(FTIP1),FTIP1 是 FT 蛋白从伴胞到筛管选择性运输的必需调节因子。这些发现表明,FE 在光周期诱导开花中发挥双重作用:一方面作为 FT 的转录激活因子,另一方面作为其运输机制成分 FTIP1。因此,FE 可能通过协调韧皮部伴胞中 FT 的合成和 FT 运输来调节 FT。
