Key Laboratory of Germplasm Enhancement, Physiology and Ecology of Food Crops in Cold Region, Ministry of Education, Northeast Agricultural University, Harbin, 150030, China.
Institute of Crop Cultivation and Cultivation, Heilongjiang Academy of Agricultural Sciences, Harbin, 150086, China.
Theor Appl Genet. 2023 May 24;136(6):135. doi: 10.1007/s00122-023-04388-w.
LOC_Os07g07690 on qCTB7 is associated with cold tolerance at the booting stage in rice, and analysis of transgenic plants demonstrated that qCTB7 influenced cold tolerance by altering the morphology and cytoarchitecture of anthers and pollen. Cold tolerance at the booting stage (CTB) in rice can significantly affect yield in high-latitude regions. Although several CTB genes have been isolated, their ability to induce cold tolerance is insufficient to ensure adequate rice yields in cold regions at high latitudes. Here, we identified the PHD-finger domain-containing protein gene qCTB7 using QTL-seq and linkage analysis through systematic measurement of CTB differences and the spike fertility of the Longjing31 and Longdao3 cultivars, resulting in the derivation of 1570 F2 progeny under cold stress. We then characterized the function of qCTB7 in rice. It was found that overexpression of qCTB7 promoted CTB and the same yield as Longdao3 under normal growing conditions while the phenotype of qctb7 knockout showed anther and pollen failure under cold stress. When subjected to cold stress, the germination of qctb7 pollen on the stigma was reduced, resulting in lower spike fertility. These findings indicate that qCTB7 regulates the appearance, morphology, and cytoarchitecture of the anthers and pollen. Three SNPs in the promoter region and coding region of qCTB7 were identified as recognition signals for CTB in rice and could assist breeding efforts to improve cold tolerance for rice production in high latitudes.
LOC_Os07g07690 位于 qCTB7 上,与水稻抽穗期的耐寒性有关,对转基因植物的分析表明,qCTB7 通过改变花药和花粉的形态和细胞结构来影响耐寒性。水稻抽穗期(CTB)的耐寒性在高纬度地区对产量有显著影响。尽管已经分离出几个 CTB 基因,但它们诱导耐寒性的能力不足以确保在高纬度寒冷地区获得足够的水稻产量。在这里,我们使用 QTL-seq 和连锁分析通过系统测量 CTB 差异和龙井 31 号和龙稻 3 号的穗育性来识别 PHD-finger 结构域包含蛋白基因 qCTB7,从而在冷胁迫下得出了 1570 个 F2 后代。然后,我们对 qCTB7 在水稻中的功能进行了表征。结果发现,qCTB7 的过表达促进了 CTB 和在正常生长条件下与龙稻 3 号相同的产量,而 qctb7 敲除突变体的表型在冷胁迫下表现为花药和花粉失效。当受到冷胁迫时,qctb7 花粉在柱头的萌发减少,导致穗育性降低。这些发现表明 qCTB7 调节花药和花粉的外观、形态和细胞结构。在 qCTB7 的启动子区域和编码区域中鉴定出三个 SNP 作为水稻中 CTB 的识别信号,可辅助水稻的选育工作,以提高高纬度地区的水稻耐寒性。
