Department of Bioscience and Biotechnology, Fukui Prefectural University, 4-1-1 Matsuoka-Kenjojima, Eiheiji-cho, Yoshida-gun, Fukui, 910-1195, Japan.
RIKEN, Nishina Center, 2-1 Hirosawa, Wako, Saitama, 351-0198, Japan.
J Plant Physiol. 2018 Mar;222:28-38. doi: 10.1016/j.jplph.2018.01.002. Epub 2018 Jan 20.
Using heavy-ion beam mutagenesis of Triticum monococcum strain KU104-1, we identified a mutant that shows extra early-flowering; it was named extra early-flowering 3 (exe3). Here, we carried out expression analyses of clock-related genes, clock downstream genes and photoperiod pathway genes, and found that the clock component gene PHYTOCLOCK 1/LUX ARRHYTHMO (PCL1/LUX) was not expressed in exe3 mutant plants. A PCR analysis of DNA markers indicated that the exe3 mutant had a deletion of wheat PCL1/LUX (WPCL1), and that the WPCL1 deletion was correlated with the mutant phenotype in the segregation line. We confirmed that the original strain KU104-1 carried a mutation that produced a null allele of a flowering repressor gene VERNALIZATION 2 (VRN2). As a result, the exe3 mutant has both WPCL1 and VRN2 loss-of-function mutations. Analysis of plant development in a growth chamber showed that vernalization treatment accelerated flowering time in the exe3 mutant under short day (SD) as well as long day (LD) conditions, and the early-flowering phenotype was correlated with the earlier up-regulation of VRN1. The deletion of WPCL1 affects the SD-specific expression patterns of some clock-related genes, clock downstream genes and photoperiod pathway genes, suggesting that the exe3 mutant causes a disordered SD response. The present study indicates that VRN1 expression is associated with the biological clock and the VRN1 up-regulation is not influenced by the presence or absence of VRN2.
利用小麦单倍体 KU104-1 的重离子束诱变,我们鉴定到一个表现出超早开花的突变体,将其命名为超早开花 3 号(exe3)。在这里,我们对生物钟相关基因、生物钟下游基因和光周期途径基因进行了表达分析,发现时钟元件基因 PHYTOCLOCK 1/LUX ARRHYTHMO(PCL1/LUX)在 exe3 突变体植物中不表达。DNA 标记的 PCR 分析表明,exe3 突变体缺失了小麦 PCL1/LUX(WPCL1),并且 WPCL1 缺失与分离群体中的突变表型相关。我们证实原始菌株 KU104-1 携带一个产生开花抑制基因 VERNALIZATION 2(VRN2)无功能等位基因的突变。因此,exe3 突变体同时具有 WPCL1 和 VRN2 功能丧失突变。在生长室中对植物发育的分析表明,春化处理加速了 exe3 突变体在短日照(SD)和长日照(LD)条件下的开花时间,早花表型与 VRN1 的早期上调有关。WPCL1 的缺失影响了一些生物钟相关基因、生物钟下游基因和光周期途径基因的 SD 特异性表达模式,表明 exe3 突变体导致 SD 反应失调。本研究表明,VRN1 的表达与生物钟有关,VRN1 的上调不受 VRN2 存在与否的影响。
