National Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural University, Wuhan, 430070, China.
Hubei Key Laboratory of Agricultural Bioinformatics, College of Informatics, Huazhong Agricultural University, Wuhan, 430070, China.
Plant J. 2020 Dec;104(5):1410-1422. doi: 10.1111/tpj.15003. Epub 2020 Nov 23.
Brassica napus is an important oilseed crop in the world, and the mechanism of seed oil biosynthesis in B. napus remains unclear. In order to study the mechanism of oil biosynthesis and generate germplasms for breeding, an ethyl methanesulfonate (EMS) mutant population with ~100 000 M2 lines was generated using Zhongshuang 11 as the parent line. The EMS-induced genome-wide mutations in M2-M4 plants were assessed. The average number of mutations including single nucleotide polymorphisms and insertion/deletion in M2-M4 was 21 177, 28 675 and 17 915, respectively. The effects of the mutations on gene function were predicted in M2-M4 mutants, respectively. We screened the seeds from 98 113 M2 lines, and 9415 seed oil content and fatty acid mutants were identified. We further confirmed 686 mutants with altered seed oil content and fatty acid in advanced generation (M4 seeds). Five representative M4 mutants with increased oleic acid were re-sequenced, and the potential causal variations in FAD2 and ROD1 genes were identified. This study generated and screened a large scale of B. napus EMS mutant population, and the identified mutants could provide useful genetic resources for the study of oil biosynthesis and genetic improvement of seed oil content and fatty acid composition of B. napus in the future.
油菜是世界上重要的油料作物,但其种子油脂生物合成的分子机制尚不清楚。为了研究油脂生物合成的机制并创造用于育种的种质资源,本研究以中双 11 为母本,通过甲基磺酸乙酯(EMS)诱变创制了一个约 10 万株 M2 代的突变体群体。对 M2-M4 代植株的 EMS 诱导的全基因组突变进行了评估。M2-M4 代突变体中单核苷酸多态性和插入/缺失的平均突变数分别为 21177、28675 和 17915。分别预测了突变对 M2-M4 代突变体中基因功能的影响。我们从 98113 个 M2 系的种子中进行了筛选,鉴定了 9415 个种子油含量和脂肪酸突变体。我们进一步在高级世代(M4 种子)中证实了 686 个改变种子油含量和脂肪酸的突变体。对 5 个代表性油酸含量增加的 M4 突变体进行了重测序,并鉴定了 FAD2 和 ROD1 基因中的潜在因果变异。本研究创制和筛选了一个大规模的油菜 EMS 突变体群体,所鉴定的突变体可为研究油菜种子油脂生物合成以及未来油菜种子油含量和脂肪酸组成的遗传改良提供有用的遗传资源。
