Yan L, Helguera M, Kato K, Fukuyama S, Sherman J, Dubcovsky J
Department of Agronomy and Range Science, University of California, Davis, CA 95616, USA.
Theor Appl Genet. 2004 Nov;109(8):1677-86. doi: 10.1007/s00122-004-1796-4. Epub 2004 Oct 6.
Vernalization, the requirement of a long exposure to low temperatures to induce flowering, is an essential adaptation of plants to cold winters. We have shown recently that the vernalization gene VRN-1 from diploid wheat Triticum monococcum is the meristem identity gene APETALA1, and that deletions in its promoter were associated with spring growth habit. In this study, we characterized the allelic variation at the VRN-1 promoter region in polyploid wheat. The Vrn-A1a allele has a duplication including the promoter region. Each copy has similar foldback elements inserted at the same location and is flanked by identical host direct duplications (HDD). This allele was found in more than half of the hexaploid varieties but not among the tetraploid lines analyzed here. The Vrn-A1b allele has two mutations in the HDD region and a 20-bp deletion in the 5' UTR compared with the winter allele. The Vrn-A1b allele was found in both tetraploid and hexaploid accessions but at a relatively low frequency. Among the tetraploid wheat accessions, we found two additional alleles with 32 bp and 54 bp deletions that included the HDD region. We found no size polymorphisms in the promoter region among the winter wheat varieties. The dominant Vrn-A1 allele from two spring varieties from Afghanistan and Egypt ( Vrn-A1c allele) and all the dominant Vrn-B1 and Vrn-D1 alleles included in this study showed no differences from their respective recessive alleles in promoter sequences. Based on these results, we concluded that the VRN-1 genes should have additional regulatory sites outside the promoter region studied here.
春化作用,即植物需要长时间暴露在低温环境下才能诱导开花,是植物适应寒冷冬季的一种重要机制。我们最近发现,二倍体小麦一粒小麦中的春化基因VRN - 1是分生组织特征基因APETALA1,其启动子区域的缺失与春性生长习性相关。在本研究中,我们对多倍体小麦VRN - 1启动子区域的等位基因变异进行了表征。Vrn - A1a等位基因有一个包括启动子区域的重复序列。每个拷贝在相同位置插入了相似的回文元件,两侧是相同的宿主直接重复序列(HDD)。在超过一半的六倍体品种中发现了该等位基因,但在本文分析的四倍体系中未发现。与冬性等位基因相比,Vrn - A1b等位基因在HDD区域有两个突变,5' UTR区域有一个20 bp的缺失。在四倍体和六倍体材料中均发现了Vrn - A1b等位基因,但频率相对较低。在四倍体小麦材料中,我们发现了另外两个等位基因,其HDD区域分别有32 bp和54 bp的缺失。在冬小麦品种的启动子区域未发现大小多态性。来自阿富汗和埃及的两个春性品种的显性Vrn - A1等位基因(Vrn - A1c等位基因)以及本研究中包含的所有显性Vrn - B1和Vrn - D1等位基因,其启动子序列与各自的隐性等位基因没有差异。基于这些结果,我们得出结论,VRN - 1基因在此处研究的启动子区域之外应该还有其他调控位点。
