Laboratory of Plant Genetics and Molecular Evolution, School of Life Sciences, Nanjing University, 163 XianLin Avenue, Nanjing, 210023, China.
Huaiyin Institute of Agricultural Sciences of Xuhuai Region in Jiangsu, Huai'an, 223001, Jiangsu Province, China.
Theor Appl Genet. 2018 Sep;131(9):1851-1860. doi: 10.1007/s00122-018-3117-3. Epub 2018 Jun 16.
In the soybean cultivar Suweon 97, BCMV-resistance gene was fine-mapped to a 58.1-kb region co-localizing with the Soybean mosaic virus (SMV)-resistance gene, Rsv1-h raising a possibility that the same gene is utilized against both viral pathogens. Certain soybean cultivars exhibit resistance against soybean mosaic virus (SMV) or bean common mosaic virus (BCMV). Although several SMV-resistance loci have been reported, the understanding of the mechanism underlying BCMV resistance in soybean is limited. Here, by crossing a resistant cultivar Suweon 97 with a susceptible cultivar Williams 82 and inoculating 220 F individuals with a BCMV strain (HZZB011), we observed a 3:1 (resistant/susceptible) segregation ratio, suggesting that Suweon 97 possesses a single dominant resistance gene against BCMV. By performing bulked segregant analysis with 186 polymorphic simple sequence repeat (SSR) markers across the genome, the resistance gene was determined to be linked with marker BARSOYSSR_13_1109. Examining the genotypes of nearby SSR markers on all 220 F individuals then narrowed down the gene between markers BARSOYSSR_13_1109 and BARSOYSSR_13_1122. Furthermore, 14 previously established F lines showing crossovers between the two markers were assayed for their phenotypes upon BCMV inoculation. By developing six more SNP (single nucleotide polymorphism) markers, the resistance gene was finally delimited to a 58.1-kb interval flanked by BARSOYSSR_13_1114 and SNP-49. Five genes were annotated in this interval of the Williams 82 genome, including a characteristic coiled-coil nucleotide-binding site-leucine-rich repeat (CC-NBS-LRR, CNL)-type of resistance gene, Glyma13g184800. Coincidentally, the SMV-resistance allele Rsv1-h was previously mapped to almost the same region, thereby suggesting that soybean Suweon 97 likely relies on the same CNL-type R gene to resist both viral pathogens.
在大豆品种 Suweon 97 中,BCMV 抗性基因被精细定位到一个 58.1-kb 区域,该区域与大豆花叶病毒 (SMV) 抗性基因 Rsv1-h 共定位,这增加了该基因可能同时用于抵抗两种病毒病原体的可能性。某些大豆品种对大豆花叶病毒 (SMV) 或豆普通花叶病毒 (BCMV) 表现出抗性。虽然已经报道了几个 SMV 抗性基因座,但对大豆 BCMV 抗性的机制知之甚少。在这里,通过将抗性品种 Suweon 97 与易感品种 Williams 82 杂交,并将 220 个 F 个体用 BCMV 菌株 (HZZB011) 接种,我们观察到 3:1(抗性/易感)分离比,表明 Suweon 97 对 BCMV 具有单一显性抗性基因。通过对全基因组 186 个多态性简单重复序列 (SSR) 标记进行混池分离分析,确定抗性基因与标记 BARSOYSSR_13_1109 连锁。然后检查所有 220 个 F 个体上附近 SSR 标记的基因型,将基因缩小到标记 BARSOYSSR_13_1109 和 BARSOYSSR_13_1122 之间。此外,还对 14 个之前建立的显示两个标记之间发生交叉的 F 系进行了 BCMV 接种后的表型测定。通过开发六个更多的 SNP(单核苷酸多态性)标记,最终将抗性基因限定在一个 58.1-kb 区间内,该区间由 BARSOYSSR_13_1114 和 SNP-49 标记。在 Williams 82 基因组的这个区间内注释了五个基因,包括一个特征性卷曲螺旋核苷酸结合位点富含亮氨酸重复 (CC-NBS-LRR,CNL)- 型抗性基因 Glyma13g184800。巧合的是,SMV 抗性等位基因 Rsv1-h 之前也被定位到几乎相同的区域,这表明大豆 Suweon 97 可能依赖于相同的 CNL 型 R 基因来抵抗两种病毒病原体。
