Institute for Plant Sciences, University of Cologne, Zülpicher Str. 47b, 50674, Cologne, Germany.
Max Planck Institute for Plant Breeding Research, Carl-von-Linné Weg 10, 50829, Cologne, Germany.
New Phytol. 2022 Oct;236(2):729-744. doi: 10.1111/nph.18374. Epub 2022 Aug 8.
Arabis alpina is a polycarpic perennial, in which PERPETUAL FLOWERING1 (PEP1) regulates flowering and perennial traits in a vernalization-dependent manner. Mutagenesis screens of the pep1 mutant established the role of other flowering time regulators in PEP1-parallel pathways. Here we characterized three allelic enhancers of pep1 (eop002, 085 and 091) which flower early. We mapped the causal mutations and complemented mutants with the identified gene. Using quantitative reverse transcriptase PCR and reporter lines, we determined the protein spatiotemporal expression patterns and localization within the cell. We also characterized its role in Arabidopsis thaliana using CRISPR and in A. alpina by introgressing mutant alleles into a wild-type background. These mutants carried lesions in an AAA ATPase of unknown function, FLOWERING REPRESSOR AAA ATPase 1 (AaFRAT1). AaFRAT1 was detected in the vasculature of young leaf primordia and the rib zone of flowering shoot apical meristems. At the subcellular level, AaFRAT1 was localized at the interphase between the endoplasmic reticulum and peroxisomes. Introgression lines carrying Aafrat1 alleles required less vernalization to flower and reduced number of vegetative axillary branches. By contrast, A. thaliana CRISPR lines showed weak flowering phenotypes. AaFRAT1 contributes to flowering time regulation and the perennial growth habit of A. alpina.
高山虎耳草是一种多年生多倍体植物,其中 PERPETUAL FLOWERING1(PEP1)以春化依赖的方式调节开花和多年生特性。pep1 突变体的诱变筛选建立了其他开花时间调节剂在 PEP1 平行途径中的作用。在这里,我们描述了三个 pep1 的等位增强子(eop002、085 和 091),它们提前开花。我们定位了因果突变,并通过鉴定的基因互补突变体。使用定量逆转录 PCR 和报告基因系,我们确定了蛋白时空表达模式和细胞内的定位。我们还使用 CRISPR 在拟南芥中以及通过将突变等位基因导入野生型背景中来研究其在高山虎耳草中的作用。这些突变体携带一个未知功能的 AAA ATPase,即 FRUITING LOCUS T AAA ATPase 1(AaFRAT1)的突变。AaFRAT1 被检测到在年轻叶原基的脉管系统和开花茎顶端分生组织的肋骨区。在亚细胞水平上,AaFRAT1 被定位在内质网和过氧化物酶体之间的界面上。携带 Aafrat1 等位基因的导入系需要较少的春化才能开花,并减少营养性腋芽分枝的数量。相比之下,拟南芥 CRISPR 系表现出较弱的开花表型。AaFRAT1 有助于高山虎耳草开花时间的调控和多年生生长习性。
