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- Title
Promotion of BR Biosynthesis by miR444 Is Required for Ammonium-Triggered Inhibition of Root Growth.
- Authors
Xiaoming Jiao; Huacai Wang; Jijun Yan; Xiaoyu Kong; Yawen Liu; Jinfang Chu; Xiaoying Chen; Rongxiang Fang; Yongsheng Yan
- Abstract
Rice (Oryza sativa), the staple food for almost half of the world's population, prefers ammonium (NH4+) as the major nitrogen resource, and while NH4+ has profound effects on rice growth and yields, the underlying regulatory mechanisms remain largely unknown. Brassinosteroids (BRs) are a class of steroidal hormones playing key roles in plant growth and development. In this study, we show that NH4+ promotes BR biosynthesis through miR444 to regulate rice root growth. miR444 targeted five homologous MADS-box transcription repressors potentially forming homologous or heterogeneous complexes in rice. miR444 positively regulated BR biosynthesis through its MADS-box targets, which directly repress the transcription of BR-deficient dwarf 1 (OsBRD1), a key BR biosynthetic gene. NH4+ induced the miR444-OsBRD1 signaling cascade in roots, thereby increasing the amount of BRs, whose biosynthesis and signaling were required for NH4+-dependent root elongation inhibition. Consistently, miR444-overexpressing rice roots were hypersensitive to NH4+ depending on BR biosynthesis, and overexpression of miR444's target, OsMADS57, resulted in rice hyposensitivity to NH4+ in root elongation, which was associated with a reduction of BR content. In summary, our findings reveal a cross talk mechanism between NH4+ and BR in which NH4+ activates miR444-OsBRD1, an undescribed BR biosynthesis-promoting signaling cascade, to increase BR content, inhibiting root elongation in rice.
- Publication
Plant Physiology, 2020, Vol 182, Issue 3, p1454
- ISSN
0032-0889
- Publication type
Article
- DOI
10.1104/pp.19.00190