Beijing Vegetable Research Center (BVRC), Beijing Academy of Agriculture and Forestry Science (BAAFS), Beijing, 100097, China.
National Engineering Research Center for Vegetables, Beijing, 100097, China.
New Phytol. 2021 Sep;231(6):2186-2199. doi: 10.1111/nph.17515. Epub 2021 Aug 16.
Selection for yield during B. rapa breeding may have unintended consequences for other traits, such as flavour. LYH-type (light yellow head) Chinese cabbage (Brassica rapa ssp. pekinensis) and wucai (Brassica rapa L. ssp. chinensis var. rosularis) varieties are becoming popular because of their unique flavour and yellow leaves. However, the molecular mechanism underlying the interplay for these traits remains unknown. We conducted a fine mapping and genome-wide exploration analysis of the leaf yellowing of LYH and wucai, including transgenic plants, to identify causal genes. We identified that BrHISN2, a rate-limiting enzyme in histidine biosynthesis, causes leaf yellowing by destroying LYH chloroplasts. Normal growing Brhisn2 mutant plants became etiolated and senesced at the cotyledon-seedling stage. Sequence variations in the promoter confers cold-dependent expression on BrHISN2, probably resulting in leaf yellowing in LYH and wucai. Insertions of two DRE cis elements and the subsequent recruitment of two CBF2 proteins by the DREs to the promoter provided the cold-induced expression plasticity of BrHISN2 in plants. Both LYH and wucai are farmed in the fall, in which the temperature gradually decreases, therefore the CBF2-BrHISN2 module probably maximises the benefits of gene-environment interaction for breeding. We determined the mechanistic connections of chlorophyll synthesis and the growth-flavour trade-off in these B. rapa varieties.
在白菜育种过程中选择产量可能会对其他性状产生意想不到的后果,例如风味。LYH 型(浅黄色头)白菜(Brassica rapa ssp. pekinensis)和五彩(Brassica rapa L. ssp. chinensis var. rosularis)品种因其独特的风味和黄色叶片而越来越受欢迎。然而,这些性状相互作用的分子机制尚不清楚。我们对 LYH 和五彩的叶片黄化进行了精细定位和全基因组探索分析,包括转基因植物,以鉴定因果基因。我们发现,组氨酸生物合成的限速酶 BrHISN2 通过破坏 LYH 叶绿体导致叶片黄化。正常生长的 Brhisn2 突变体植物在子叶-幼苗阶段就会出现黄化和衰老。启动子中的序列变异赋予 BrHISN2 对冷的依赖性表达,可能导致 LYH 和五彩叶片黄化。两个 DRE 顺式元件的插入以及随后两个 CBF2 蛋白被 DRE 募集到启动子上,为 BrHISN2 在植物中的冷诱导表达提供了可塑性。LYH 和五彩都是在秋季种植的,温度逐渐降低,因此 CBF2-BrHISN2 模块可能最大限度地提高了基因-环境相互作用在育种中的效益。我们确定了这些白菜品种中叶绿素合成和生长-风味权衡的机制联系。
