He Zhizhou, Xin Yeyun, Wang Chunlian, Yang Hanshu, Xu Zhi, Cheng Jihua, Li Zhouwei, Ye Changrong, Yin Hexing, Xie Zhenyu, Jiang Nan, Huang Jing, Xiao Jinhua, Tian Bingchuan, Liang Yan, Zhao Kaijun, Peng Junhua
Huazhi Bio-Tech Co., Ltd., Changsha, China.
Tropical Crops Genetic Resources Institute, Chinese Academy of Tropical Agricultural Sciences, Haikou, China.
Front Plant Sci. 2022 May 20;13:881244. doi: 10.3389/fpls.2022.881244. eCollection 2022.
The two-line rice hybrid "Super 1000" (GX24S × R900) represents a major landmark achievement of breeding for super-hybrid rice in China. However, both male parent R900 and hybrid "Super 1000" have an obvious defect of high susceptibility to rice bacterial blight (BB) and blast. Thus, improving disease resistance and maintaining the original high-yield capacity are essential for the sustainable application of "Super 1000." In this study, the application of closely linked single-nucleotide polymorphism (SNP) markers for foreground selection of dominant resistance gene loci together with genome-wide SNP markers for the background selection rapidly improved the disease resistance of R900 without disturbing its high-yield capacity. A series of improved R900 lines (iR900, in BCFn and BCFn generations) were developed to stack resistance genes (+++) by marker-assisted backcrossing and field selection for phenotypes, and further crossed with the female line GX24S to obtain improved hybrid variety Super 1000 (iS1000). The genetic backgrounds of iS1000 and "Super 1000" were profiled by using a 56 K SNP-Chip, and results showed that they shared 98.76% of similarity. Meanwhile, evaluation of the field disease resistance showed that the iR900 lines and iS1000 hybrids possess significantly enhanced resistance to both BB and rice blast. Resistance spectrum assays revealed that the iR900 lines and their derived hybrids exhibited high-level resistance to 28 strains tested, and enhanced resistance to leaf blast at the seedling stage when infected with 38 isolates. Between 2019 and 2020, the multi-location field trials across the middle and lower reaches of the Yangtze River were launched and showed that the iS1000 slightly out-yielded than the original variety. In a large-scale demonstration site (6.73 ha, Yunnan, China), the iS1000 achieved 17.06 t/hm of yield in 2019. Moreover, the high similarity was observed in main agronomic traits and grain quality when comparing the improved lines/hybrids to original ones (iR900 vs. R900, iS1000 vs. S1000). This work presented a typical genomics-assisted breeding strategy and practice, which involves in directional introgression and rapid stack of multiple disease resistance genes, endowing the super-high-yield hybrid rice variety with holistic disease resistance but without yield penalty.
两系杂交水稻“超优千号”(GX24S×R900)是中国超级杂交水稻育种的一项重大标志性成果。然而,父本R900和杂交种“超优千号”都存在明显缺陷,即对水稻白叶枯病(BB)和稻瘟病高度敏感。因此,提高抗病性并保持原有的高产能力对于“超优千号”的可持续应用至关重要。在本研究中,应用紧密连锁的单核苷酸多态性(SNP)标记进行显性抗病基因位点的前景选择,同时结合全基因组SNP标记进行背景选择,在不影响R900高产能力的情况下迅速提高了其抗病性。通过标记辅助回交和田间表型选择,培育出一系列改良的R900株系(BCFn和BCFn世代的iR900),以累加抗病基因(+++),并进一步与母本系GX24S杂交,获得改良杂交品种超优千号(iS1000)。利用56K SNP芯片对iS1000和“超优千号”的遗传背景进行分析,结果表明它们的相似性为98.76%。同时,田间抗病性评价表明,iR900株系和iS1000杂交种对水稻白叶枯病和稻瘟病的抗性均显著增强。抗性谱分析表明,iR900株系及其衍生杂交种对28个测试菌株表现出高水平抗性,在苗期接种38个分离株时对叶瘟的抗性增强。2019年至2020年,在长江中下游地区开展了多点田间试验,结果表明iS1000的产量略高于原品种。在一个大规模示范基地(中国云南,6.73公顷),iS1000在2019年的产量达到17.06吨/公顷。此外,将改良株系/杂交种与原品种(iR900与R900,iS1000与S1000)进行比较时,在主要农艺性状和稻米品质方面观察到高度相似性。这项工作展示了一种典型的基因组辅助育种策略与实践,涉及多个抗病基因的定向导入和快速累加,赋予超高产杂交水稻品种全面抗病性且不减产。
