Kiseleva Antonina A, Potokina Elena K, Salina Elena A
The Federal Research Center "Institute of Cytology and Genetics of Siberian Branch of the Russian Academy of Sciences", Prospekt Lavrentyeva 10, Novosibirsk, Russian Federation, 630090.
N.I. Vavilov Research Institute of Plant Genetic Resources, B.Morskaya Street 42-44, St. Petersburg, Russian Federation, 190000.
BMC Plant Biol. 2017 Nov 14;17(Suppl 1):172. doi: 10.1186/s12870-017-1126-z.
Photoperiod insensitive Ppd-1a alleles determine early flowering of wheat. Increased expression of homoeologous Ppd-D1a and Ppd-A1a result from deletions in the promoter region, and elevated expression of Ppd-B1a is determined by an increased copy number.
In this study, using bread wheat cultivars Sonora and PSL2, which contrast in flowering time, and near-isogenic lines resulting from their cross, "Ppd-m" and "Ppd-w" with Ppd-B1a introgressed from Sonora, we investigated the putative factors that influence Ppd-B1a expression. By analyzing the Ppd-B1a three distinct copies, we identified an indel and the two SNPs, which distinguished the investigated allele from other alleles with a copy number variation. We studied the expression of the Ppd-A1, Ppd-B1a, and Ppd-D1 genes along with genes that are involved in light perception (PhyA, PhyB, PhyC) and the flowering initiation (Vrn-1, TaFT1) and discussed their interactions. Expression of Ppd-B1a in the "Ppd-m" line, which flowered four days earlier than "Ppd-w", was significantly higher. We found PhyC to be up-regulated in lines with Ppd-B1a alleles. Expression of PhyC was higher in "Ppd-m". Microsatellite genotyping demonstrated that in the line "Ppd-m", there is an introgression in the pericentromeric region of chromosome 5B from the early flowering parental Sonora, while the "Ppd-w" does not have this introgression. FHY3/FAR1 is known to be located in this region. Expression of the transcription factor FHY3/FAR1 was higher in the "Ppd-m" line than in "Ppd-w", suggesting that FHY3/FAR1 is important for the wheat flowering time and may cause earlier flowering of "Ppd-m" as compared to "Ppd-w".
We propose that there is a positive bidirectional regulation of Ppd-B1a and PhyC with an FHY3/FAR1 contribution. The bidirectional regulation can be proposed for Ppd-A1a and Ppd-D1a. Using in silico analysis, we demonstrated that the specificity of the Ppd-B1 regulation compared to that of homoeologous genes involves not only a copy number variation but also distinct regulatory elements.
光周期不敏感的Ppd - 1a等位基因决定小麦的早花。同源的Ppd - D1a和Ppd - A1a表达增加是由启动子区域的缺失导致的,而Ppd - B1a的高表达则由拷贝数增加决定。
在本研究中,我们使用开花时间不同的面包小麦品种索诺拉(Sonora)和PSL2,以及它们杂交产生的近等基因系“Ppd - m”和“Ppd - w”(“Ppd - m”和“Ppd - w”导入了来自索诺拉的Ppd - B1a),研究了影响Ppd - B1a表达的假定因素。通过分析Ppd - B1a的三个不同拷贝,我们鉴定出一个插入缺失和两个单核苷酸多态性,它们将所研究的等位基因与其他具有拷贝数变异的等位基因区分开来。我们研究了Ppd - A1、Ppd - B1a和Ppd - D1基因以及参与光感知(PhyA、PhyB、PhyC)和开花起始(Vrn - 1、TaFT1)的基因的表达,并讨论了它们之间的相互作用。在比“Ppd - w”早四天开花的“Ppd - m”品系中,Ppd - B1a的表达显著更高。我们发现PhyC在具有Ppd - B1a等位基因的品系中上调。“Ppd - m”中PhyC的表达更高。微卫星基因分型表明,在“Ppd - m”品系中,5B染色体着丝粒周围区域有来自早花亲本索诺拉的基因渗入,而“Ppd - w”没有这种渗入。已知FHY3/FAR1位于该区域。转录因子FHY3/FAR1在“Ppd - m”品系中的表达高于“Ppd - w”,这表明FHY3/FAR1对小麦开花时间很重要,并且可能导致“Ppd - m”比“Ppd - w”更早开花。
我们提出Ppd - B1a和PhyC之间存在正向双向调控,FHY3/FAR1起作用。这种双向调控也可推测适用于Ppd - A1a和Ppd - D1a。通过电子分析,我们证明与同源基因相比,Ppd - B1调控的特异性不仅涉及拷贝数变异,还涉及不同的调控元件。
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