Wang Huacai, Jiao Xiaoming, Kong Xiaoyu, Liu Yawen, Chen Xiaoying, Fang Rongxiang, Yan Yongsheng
State Key Laboratory of Plant Genomics, Institute of Microbiology, Chinese Academy of Sciences, Beijing, China.
Innovation Academy for Seed Design, Chinese Academy of Sciences, Beijing, 100101, China.
Plant J. 2020 Oct;104(2):447-459. doi: 10.1111/tpj.14936. Epub 2020 Aug 14.
The plant steroid hormones brassinosteroids (BRs) play crucial roles in plant growth and development. The BR signal transduction pathway from perception to the key transcription factors has been well understood in Arabidopsis thaliana and in rice (Oryza sativa); however, the mechanisms conferring BR-mediated growth and flowering remain largely unknown, especially in rice. In this study, we show that HDA703 is a histone H4K8 and H4K12 deacetylase in rice. Hda703 mutants display a typical BR loss-of-function phenotype and reduced sensitivity to brassinolide, the most active BR. Rice plants overexpressing HDA703 exhibit some BR gain-of-function phenotypes dependent on BR biosynthesis and signaling. We also show that HDA703 is a direct target of BRASSINAZOLE-RESISTANT1 (OsBZR1), a primary regulator of rice BR signaling, and HDA703 interacts with OsBZR1 in rice. We further show that GRAIN NUMBER, PLANT HEIGHT, and HEADING DATE 7 (Ghd7), a central regulator of growth, development, and the stress response, is a direct target of OsBZR1. HDA703 directly targets Ghd7 and represses its expression through histone H4 deacetylation. HDA703-overexpressing rice plants phenocopy Ghd7-silencing rice plants in both growth and heading date. Together, our study suggests that HDA703, a histone H4 deacetylase, interacts with OsBZR1 to regulate rice BR signaling, growth, and heading date through epigenetic regulation of Ghd7.
植物甾体激素油菜素甾醇(BRs)在植物生长发育中发挥着关键作用。在拟南芥和水稻中,从感知到关键转录因子的BR信号转导途径已得到充分了解;然而,BR介导的生长和开花的机制仍 largely未知,尤其是在水稻中。在本研究中,我们表明HDA703是水稻中的组蛋白H4K8和H4K12去乙酰化酶。Hda703突变体表现出典型的BR功能丧失表型,并且对最活跃的BR油菜素内酯的敏感性降低。过表达HDA703的水稻植株表现出一些依赖于BR生物合成和信号传导的BR功能获得表型。我们还表明,HDA703是水稻BR信号的主要调节因子BRASSINAZOLE-RESISTANT1(OsBZR1)的直接靶标,并且HDA703在水稻中与OsBZR1相互作用。我们进一步表明,生长、发育和应激反应的核心调节因子粒数、株高和抽穗期7(Ghd7)是OsBZR1的直接靶标。HDA703直接靶向Ghd7并通过组蛋白H4去乙酰化抑制其表达。过表达HDA703的水稻植株在生长和抽穗期上模拟Ghd7沉默的水稻植株。总之,我们的研究表明,组蛋白H4去乙酰化酶HDA703通过对Ghd7的表观遗传调控与OsBZR1相互作用,以调节水稻的BR信号传导、生长和抽穗期。
