Increased seed number per silique in Brassica juncea by deleting cis-regulatory region affecting BjCLV1 expression in carpel margin meristem.
Gang WangXiangxiang ZhangWei HuangPing XuZewen LvLun ZhaoJing WenBin YiChaozhi MaJinxing TuTingdong FuJinxiong ShenPublished in: Plant biotechnology journal (2021)
Mustard yield per plant is severely restricted by the seed number per silique. The seed number per silique in the Brassica juncea trilocular mutant J163-4 is significantly greater than that in normal bilocular plants. However, how the trilocular silique of J163-4 is formed remains unclear. Here, we studied the gene structure and function of mc2 in B. juncea and Arabidopsis using comparative morphology and molecular genetic experiments. We found that mc2 is a CLV1 ortholog, BjA7.CLV1. The deletion of cis-regulatory region in mc2 promoter, which affects Mc2 expression in carpel margin meristem (CMM), led to trilocular silique formation. The BjCLV1 sequence with its complete promoter containing the cis-regulatory region can restore the Bjclv1 and clv1 mutant phenotypes in B. juncea and Arabidopsis, respectively. Additionally, this cis-regulatory region had a collinear segment in the promoter of CLV1 homologous gene in most Brassicaceae species. Our results are consistent with the report that BjCLV1 represents a conserved pleiotropic role in shoot meristem and CMM development, which contains a cis-regulatory sequence specifically expressed BjCLV1 in CMM in its promoter, and this cis-regulatory region is conserved in Brassicaceae species. These results offer a reliable approach for fine-tuning the traits of seed yield in Brassicaceae crops.