Ping Xiaoke, Ye Qianjun, Yan Mei, Zeng Jianyan, Yan Xingying, Li Haitao, Li Jiana, Liu Liezhao
College of Agronomy and Biotechnology, Academy of Agricultural Sciences, State Cultivation Base of Crop Stress Biology for Southern Mountainous Land, Southwest University, Chongqing, 400715, China.
Biotechnology Research Center, Southwest University, Chongqing, 400715, China.
Theor Appl Genet. 2022 Oct;135(10):3497-3510. doi: 10.1007/s00122-022-04196-8. Epub 2022 Aug 12.
A novel mutation in the BnaA03.IAA7 protein reduces plant height and enhances gibberellin signaling in Brassica napus L. Rapeseed (Brassica napus) is an excellent and important source for vegetable oil production, but its production is severely affected by lodging. Lodging hinders mechanization and decreases yield, and an ideal solution is semidwarf breeding. Limited by germplasm resources, semidwarf breeding developed slowly in rapeseed. In the current study, a mutant called sdA03 was isolated from EMS-mutagenized lines of Zhongshuang 11 (ZS11). The inheritance analysis showed that phenotypes of sdA03 were controlled by a single semidominant gene. Genetic mapping, RNA-seq and candidate gene analysis identified BnaA03.IAA7 as a candidate gene, and a function test confirmed that the mutated BnaA03.iaa7 regulates plant architecture in a dose-dependent manner. Yeast two-hybrid and transient expression experiments illustrated the P87L substitution in the GWPPV/I degron motif of BnaA03.iaa7 impaired the interaction between BnaA03.IAA7 and TIR1 proteins, and BnaA03.iaa7 prevented ARF from activating the auxin signaling pathway.The gibberellin (GA) content was higher in sdA03 hypocotyls than in those of ZS11. Further expression analysis showed more active gibberellin signaling in hypocotyl and richer expression of GA synthetic genes in root and cotyledon of sdA03 seedlings. Finally, a marker was developed based on the SNP found in BnaA03.iaa7 and used in molecular breeding. The study enriched our understanding of the architectural regulation of rapeseed and provided germplasm resources for breeding.
甘蓝型油菜中BnaA03.IAA7蛋白的一个新突变降低了株高并增强了赤霉素信号传导 油菜(甘蓝型油菜)是植物油生产的优质且重要来源,但其产量受到倒伏的严重影响。倒伏阻碍机械化并降低产量,理想的解决办法是半矮化育种。受种质资源限制,油菜的半矮化育种发展缓慢。在本研究中,从经甲基磺酸乙酯诱变的中双11(ZS11)品系中分离出一个名为sdA03的突变体。遗传分析表明,sdA03的表型由单个半显性基因控制。遗传定位、RNA测序和候选基因分析确定BnaA03.IAA7为候选基因,功能测试证实突变的BnaA03.iaa7以剂量依赖方式调节植株形态。酵母双杂交和瞬时表达实验表明,BnaA03.iaa7的GWPPV/I降解基序中的P87L取代削弱了BnaA03.IAA7与TIR1蛋白之间的相互作用,并且BnaA03.iaa7阻止ARF激活生长素信号通路。sdA03下胚轴中的赤霉素(GA)含量高于ZS11。进一步的表达分析表明,sdA03幼苗的下胚轴中赤霉素信号更活跃,根和子叶中GA合成基因的表达更丰富。最后,基于在BnaA03.iaa7中发现的单核苷酸多态性开发了一个标记,并将其用于分子育种。该研究丰富了我们对油菜株型调控的理解,并为育种提供了种质资源。
