Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing 100081, China.
Hubei Key Laboratory of Food Crop Germplasm and Genetic Improvement, Wheat Disease Biology Research Station for Central China, Food Crops Institute, Hubei Academy of Agricultural Sciences, Wuhan, Hubei 430064, China.
Plant Dis. 2021 May;105(5):1339-1345. doi: 10.1094/PDIS-06-20-1186-RE. Epub 2021 Apr 2.
Fusarium head blight (FHB) is a destructive disease of wheat worldwide, particularly in China. To map genetic loci underlying FHB resistance, a doubled haploid (DH) population consisting of 174 lines was developed from a cross between widely grown Chinese cultivars Yangmai 16 and Zhongmai 895. The DH population and parents were evaluated in field nurseries at Wuhan in 2016 to 2017 and 2017 to 2018 crop seasons with both spray inoculation and natural infection, and at Jingzhou in 2017 to 2018 crop season with grain-spawn inoculation. The DH lines were genotyped with a wheat 660K SNP array. The FHB index, plant height, anther extrusion, and days to anthesis were recorded and used for quantitative trait loci (QTL) analysis. Seven QTL for FHB resistance were mapped to chromosome arms 3BL, 4AS, 4BS, 4DS, 5AL, 6AL, and 6BS in at least two environments. and co-located with semi-dwarfing alleles and , respectively, and were associated with anther extrusion. The other five QTL were genetically independent of the agronomic traits, indicating their potential value when breeding for FHB resistance. Based on correlations between FHB indices and agronomic traits in this population, we concluded that increasing plant height to some extent would enhance FHB resistance, that anther extrusion had a more important role in environments with less severe FHB, and that days to anthesis were independent of the FHB response when viewed across years. PCR-based markers were developed for the 3BL and 5AL QTL, which were detected in more than three environments. The InDel marker for was also validated on a wheat panel, confirming its effectiveness for marker-assisted breeding for improvements in FHB resistance.
镰刀菌穗腐病(FHB)是一种全球性的小麦破坏性疾病,尤其在中国。为了绘制 FHB 抗性的遗传基因座图谱,利用广泛种植的中国品种扬麦 16 和中麦 895 杂交开发了一个由 174 个系组成的双单倍体(DH)群体。在 2016-2017 年和 2017-2018 年作物季节,在武汉田间试验和荆州田间试验中,利用喷雾接种和自然感染对 DH 群体和亲本进行了评估。在 2017-2018 年作物季节,利用麦粒接种进行了评估。用小麦 660K SNP 阵列对 DH 系进行了基因型分析。记录 FHB 指数、株高、花药外露和抽穗期,并用于数量性状基因座(QTL)分析。在至少两个环境中,将 7 个 FHB 抗性 QTL 定位到 3BL、4AS、4BS、4DS、5AL、6AL 和 6BS 染色体臂上。 和 分别与半矮化等位基因 和 共定位,与花药外露有关。另外 5 个 QTL 在遗传上与农艺性状无关,这表明它们在培育 FHB 抗性方面具有潜在价值。基于该群体中 FHB 指数与农艺性状之间的相关性,我们得出结论,在一定程度上增加株高会增强 FHB 抗性,花药外露在 FHB 相对较轻的环境中作用更为重要,抽穗期在跨年度观察时与 FHB 反应无关。为 3BL 和 5AL QTL 开发了基于 PCR 的标记,这些标记在三个以上的环境中得到了检测。还在小麦面板上验证了用于 3BL 的 InDel 标记 ,证实了其在标记辅助育种方面提高 FHB 抗性的有效性。
