Development of Hybrid Rice Variety FY7206 with Blast Resistance Gene Pid3 and Cold Tolerance Gene Ctb1

Hybrid rice Fanyou 7206（FY7206）, derived from the cross between a sterile line Fanyuan A and a restorer line Fuhui 7206, was bred by the Rice Research Institute, Fujian Academy of Agricultural Sciences, China. FY7206 was characterized by moderate blast resistance, cold tolerance, as well as wide adaptability, and high yields. The blast resistance results indicated that the frequencies of blast races in race B, race C and the total resistance frequency for FY7206 were 95.5%, 100.0% and 97.2%, respectively. The disease resistance results showed that the leaf blast grade for FY7206 was level 1 and panicle blast was level 5. The indoor spray results indicated that FY7206 was resistant to 11 isolates of Magnorpathe oryzae. The blast resistance of FY7206 might be derived from the high expression of blast resistance gene Pid3. The results for simulated cold resistance in an artificial climate chamber indicated that the cold tolerance for FY7206 was moderate at the booting and flowering stages. The cold tolerance results also indicated that FY7206 could be tolerant to temperatures as low as 10 °C at the seedling stage. The q RT-PCR results showed that the expression of cold tolerance gene Ctb1 in FY7206 was relatively high. These results suggested that FY7206 is a hybrid indica rice variety with good comprehensive characteristics, including blast resistance and cold tolerance.

应用GST pull-down技术筛选水稻抗稻瘟病蛋白PID3互作蛋白的研究

Pid3是从水稻中克隆获得的编码CC-NBS-LRR类蛋白的稻瘟病抗病基因。为了更深入地研究Pid3编码蛋白PID3介导的稻瘟病抗性的分子调节机制,我们应用GST pull-down结合质谱技术,对水稻抗稻瘟病蛋白PID3的互作蛋白进行了鉴定和分析。首先,成功构建了带有GST标签且能够表达PID3的CC-NBS结构域的融合蛋白表达载体p GEX6P1-PID3CC-NBS,经诱导表达和GST beads纯化后获得GST-PID3CC-NBS融合蛋白。我们以Pid3的转基因水稻纯合株系Pid3-TP309为研究材料,分别用对其致病和不致病的稻瘟病菌生理小种ZB13和ZHONG-10-8-14接种,然后取叶片分别提取获得两组总蛋白。用纯化后的蛋白GST-PID3CC-NBS分别与两组总蛋白共培养后,利用GST pull-down技术获得了分别在抗病、感病反应中能与PID3CC-NBS互作的两组候选蛋白。通过质谱技术鉴定这些蛋白的氨基酸序列,比对分析其在抗病、感病途径中与PID3结合的差异性,我们共筛选出31个只在PID3介导的抗稻瘟病反应中能与其特异结合的PID3互作蛋白,这些互作蛋白包括受体激酶、LRR类蛋白、ATP酶、磷酸羧化酶和离子通道蛋白等,广泛参与了调控细胞程序化死亡、胁迫防御反应、物质与能量代谢和信号传导等多个生物学过程。本研究探寻了PID3介导的抗病信号转导过程的关键因子,研究结果为揭示PID3介导的稻瘟病抗病分子机理奠定了良好基础。

抗稻瘟病Pid3/Pid3-A4基因特异InDel分子标记开发与应用

为更加高效利用抗稻瘟病基因Pid3/Pid3-A4,通过分析3K水稻测序数据中Pid3基因等位变异,设计了Pid3和Pid3-A4基因特异InDel分子标记Pdg-C与PA4-C,利用这2个标记对中国杂交水稻常用亲本材料或品种以及美国水稻微核心种质资源进行检测.结果 显示,Pdg-C和PA4-C能够分别快速、准确、经济地区分Pid3和Pid3-A4基因;通过克隆测序、表达分析及接菌鉴定,明确了水稻品种华占携带Pid3基因,栽培稻311100携带Pid3-A4基因,它们作为抗病基因供体更便于在水稻育种中利用.

利用CRISPR/Cas9基因编辑技术改良大粒香稻瘟病抗性

优质稻米大粒香是采用粳籼杂交方法育成的香稻品系,多年来是贵州省优质稻米企业开发生产的主推品种。但稻瘟病抗性差,限制了其大规模推广应用。本研究以大粒香为材料,根据CRISPR/Cas 9靶点设计要求设计稻瘟病基因pid3特异性靶点sgRNA序列,构建crispr-pid3双靶点载体,通过农杆菌介导遗传转化大粒香愈伤组织,获得45株转基因苗,有30株阳性苗。在T1代中共获得9株无Cas 9转基因位点的pid3纯合突变体,对其进行稻瘟病病情鉴定,与原种大粒香相比,稻瘟病抗性均有一定程度提高。且对改良株系进行米质鉴定,与野生型大粒香相比,稻米品质并未发生显著改变。说明改良株系的米质并未因pid3基因的编辑而受到影响。