Wei Minyi, Yan Qun, Huang Dahui, Ma Zengfeng, Chen Shen, Yin Xiaoting, Liu Chi, Qin Yuanyuan, Zhou Xiaolong, Wu Zishuai, Lu Yingping, Yan Liuhui, Qin Gang, Zhang Yuexiong
Rice Research Institute, Guangxi Academy of Agricultural Sciences/Guangxi Key Laboratory of Rice Genetics and Breeding/State Key Laboratory for Conservation and Utillzation of Subtropical Agro-bioresources, Nanning, China.
Plant Protection Research Institute, Guangxi Academy of Agricultural Sciences, Nanning, China.
Front Plant Sci. 2024 Jun 7;15:1390603. doi: 10.3389/fpls.2024.1390603. eCollection 2024.
Rice, a critical staple on a global scale, faces escalating challenges in yield preservation due to the rising prevalence of abiotic and biotic stressors, exacerbated by frequent climatic fluctuations in recent years. Moreover, the scorching climate prevalent in the rice-growing regions of South China poses obstacles to the cultivation of good-quality, heavy-grain varieties. Addressing this dilemma requires the development of resilient varieties capable of withstanding multiple stress factors. To achieve this objective, our study employed the broad-spectrum blast-resistant line Digu, the brown planthopper (BPH)-resistant line ASD7, and the heavy-grain backbone restorer lines Fuhui838 (FH838) and Shuhui527 (SH527) as parental materials for hybridization and multiple crossings. The incorporation of molecular markers facilitated the rapid pyramiding of six target genes (, , , , , and ). Through a comprehensive evaluation encompassing blast resistance, BPH resistance, cold tolerance, grain appearance, and quality, alongside agronomic trait selection, a promising restorer line, Guihui5501 (GH5501), was successfully developed. It demonstrated broad-spectrum resistance to blast, exhibiting a resistance frequency of 77.33% against 75 artificially inoculated isolates, moderate resistance to BPH (3.78 grade), strong cold tolerance during the seedling stage (1.80 grade), and characteristics of heavy grains (1,000-grain weight reaching 35.64 g) with good grain quality. The primary rice quality parameters for GH5501, with the exception of alkali spreading value, either met or exceeded the second-grade national standard for premium edible rice varieties, signifying a significant advancement in the production of good-quality heavy-grain varieties in the southern rice-growing regions. Utilizing GH5501, a hybrid combination named Nayou5501, characterized by high yield, good quality, and resistance to multiple stresses, was bred and received approval as a rice variety in Guangxi in 2021. Furthermore, genomic analysis with gene chips revealed that GH5501 possessed an additional 20 exceptional alleles, such as for efficient nitrogen utilization, for salt tolerance, and for resistance to rice stripe virus. Consequently, the restorer line GH5501 could serve as a valuable resource for the subsequent breeding of high-yielding, good-quality, and stress-tolerant hybrid rice varieties.
水稻作为全球至关重要的主食作物,由于非生物和生物胁迫因素的日益普遍,以及近年来频繁的气候波动加剧,在产量保持上面临着不断升级的挑战。此外,中国南方水稻种植区普遍存在的炎热气候,对优质、重粒品种的种植构成了障碍。解决这一困境需要培育能够抵御多种胁迫因素的抗逆品种。为实现这一目标,我们的研究采用了广谱抗稻瘟病品系地谷、抗褐飞虱品系ASD7,以及重粒骨干恢复系福恢838(FH838)和蜀恢527(SH527)作为亲本材料进行杂交和多次回交。分子标记的引入促进了六个目标基因(、、、、、和)的快速聚合。通过包括抗稻瘟病、抗褐飞虱、耐寒性、粒形外观和品质在内的综合评价,以及农艺性状选择,成功培育出了一个有前景的恢复系桂恢5501(GH5501)。它表现出对稻瘟病的广谱抗性,对75个人工接种菌株的抗性频率为77.33%,对褐飞虱具有中等抗性(3.78级),苗期耐寒性强(1.80级),具有重粒特性(千粒重达到35.64克)且米质优良。除碱消值外,GH5501的主要稻米品质参数均达到或超过了优质食用稻品种的国家二级标准,这标志着南方水稻种植区优质重粒品种的生产取得了重大进展。利用GH5501,培育出了一个名为纳优5501的杂交组合,该组合具有高产、优质和抗多种胁迫的特点,并于2021年在广西被批准为水稻品种。此外,基因芯片基因组分析表明,GH5501还拥有另外20个优异等位基因,如用于高效氮利用的、用于耐盐性的和用于抗水稻条纹病毒的。因此,恢复系GH5501可作为后续高产、优质和耐胁迫杂交水稻品种育种的宝贵资源。
