College of Horticulture, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang, 110866, People's Republic of China.
College of Agriculture, Jilin Agriculture Science and Technology University, Jilin City, 132101, People's Republic of China.
Theor Appl Genet. 2024 Feb 7;137(2):44. doi: 10.1007/s00122-024-04552-w.
BrFLS mutation promoted anthocyanin accumulation in Chinese cabbage, which was verified in four allelic mutants. Chinese cabbage is a major vegetable crop in Eastern Asia. Anthocyanin-rich vibrantly colored varieties are increasingly favored by consumers for their higher nutritional and aesthetic value compared to the typical green varieties of Chinese cabbage. Herein, we identified an anthocyanin accumulation mutant aam1 from a mutant library of EMS-mutagenized Chinese cabbage DH line 'FT', which appeared partial purple on leaves, bolting stems and floral buds. This anthocyanin accumulation trait was genetically controlled by a recessive nuclear gene, and through MutMap mapping and KASP genotyping, BraA10g030950.3C was identified as the candidate causal gene with a G to A non-synonymous SNP variation in exon 1. Three additional mutants allelic to aam1 were obtained via screening of similar-phenotype mutants from the mutant library, namely aam2/3/4, where the causal SNPs reside in the same gene as aam1, corroborating that the mutation of BraA10g030950.3C caused anthocyanin accumulation. BraA10g030950.3C encodes a flavonol synthase that catalyzes dihydroflavonols substrate into flavonols and is homologous to Arabidopsis FLS1 (AT5G08640), named BrFLS. Compared to wildtype, the expression level of BrFLS was significantly reduced in the mutants, while BrDFR, which is involved in the anthocyanin biosynthesis and competes with FLS for the common substrate dihydroflavonols, was increased. The flavonol synthase activity decreased, and dihydroflavonol 4-reductase activity was elevated. Differentially accumulated flavonoid metabolites were detected between wildtype and aam1, which were enriched primarily in flavonol and anthocyanin pathways. Our results revealed that mutations in the BrFLS gene could contribute to anthocyanin accumulation and provide a new target for Chinese cabbage color modification.
BrFLS 突变促进了白菜中的花色素苷积累,这在四个等位突变体中得到了验证。白菜是东亚地区的主要蔬菜作物。与典型的白菜绿色品种相比,富含花色素苷的鲜艳品种因其更高的营养价值和美学价值而越来越受到消费者的青睐。在此,我们从白菜 DH 系'FT'的 EMS 诱变突变体文库中鉴定出一个花色素苷积累突变体 aam1,该突变体叶片、抽薹茎和花芽呈部分紫色。这种花色素苷积累性状由一个隐性核基因控制,通过 MutMap 作图和 KASP 基因分型,确定 BraA10g030950.3C 是候选的致病基因,其在第 1 外显子中存在 G 到 A 的非同义 SNP 变异。通过从突变体文库中筛选具有类似表型的突变体,获得了另外 3 个与 aam1 等位的突变体 aam2/3/4,其中致病 SNP 位于与 aam1 相同的基因中,这证实了 BraA10g030950.3C 突变导致了花色素苷的积累。BraA10g030950.3C 编码黄酮醇合酶,催化二氢黄酮醇底物生成黄酮醇,与拟南芥 FLS1(AT5G08640)同源,命名为 BrFLS。与野生型相比,突变体中 BrFLS 的表达水平显著降低,而参与花色素苷生物合成并与 FLS 竞争共同底物二氢黄酮醇的 BrDFR 则增加。黄酮醇合酶活性降低,二氢黄酮醇 4-还原酶活性升高。在野生型和 aam1 之间检测到差异积累的类黄酮代谢物,主要富集在黄酮醇和花色素苷途径中。我们的结果表明,BrFLS 基因的突变可能导致花色素苷的积累,并为白菜颜色修饰提供了一个新的目标。
