Brassinosteroid signaling integrates multiple pathways to release apical dominance in tomato
Xiaojian Xia, Han Dong, Yanling Yin, Xuewei Song, Xiaohua Gu, Kangqi Sang, Jie Zhou, Kai Shi, Yanhong Zhou, Christine H. Foyer, Jingquan Yu
Abstract
mutants. Furthermore, the accumulation of BR and the dephosphorylated form of BZR1 were increased by apical bud removal, inhibition of auxin, and SLs synthesis or treatment with CK and sucrose. These responses were decreased in the DELLA-deficient mutant. In addition, CK accumulation was inhibited by auxin and SLs, and decreased in the DELLA-deficient mutant, but it was increased in response to sucrose treatment. CK promoted BR synthesis in axillary buds through the action of the type-B response regulator, RR10. Our results demonstrate that BR signaling integrates multiple pathways that control shoot branching. Local BR signaling in axillary buds is therefore a potential target for shaping plant architecture.