The Plant Journal
Abstract
Brassinosteroids (BRs) are a class of phytohormones that modulate several important agronomic traits in rice (Oryza sativa). GSK2 is one of the critical suppressors of BR signaling and targets transcription factors such as OsBZR1 and DLT to regulate BR responses. Here, we identified OFP3 (OVATE FAMILY PROTEIN 3) as an interactor of both GSK2 and DLT by yeast two‐hybrid screening and demonstrated that OFP3 plays a distinctly negative role in BR responses. While knockout of OFP3 promoted rice seedling growth, overexpression of OFP3 led to strong BR insensitivity, which resulted in reduced plant height, leaf angle, and grain size. Interestingly, both BR biosynthetic and signaling genes had decreased expression in the overexpression plants. OFP3 overexpression also enhanced the phenotypes of BR‐deficient mutants, but largely suppressed those of BR‐enhanced plants. Moreover, treatment with either BR or bikinin, a GSK3‐like kinase inhibitor, induced OFP3 depletion, whereas GSK2 or brassinazole, a BR synthesis inhibitor, promoted OFP3 accumulation. Furthermore, OFP3 exhibited transcription repressor activity and was able to interact with itself as well as additional BR‐related components, including OFP1, OSH1, OSH15, OsBZR1, and GF14c. Importantly, GSK2 can phosphorylate OFP3 and enhance these interactions. We propose that OFP3, as a suppressor of both BR synthesis and signaling but stabilized by GSK2, incorporates into a transcription factor complex to facilitate BR signaling control, which is critical for the proper development of various tissues.
| 论文编号: | DOI:10.1111/tpj.14692 |
| 论文题目: | GSK2 Stabilizes OFP3 to Suppress Brassinosteroid Responses in Rice |
| 英文论文题目: | GSK2 Stabilizes OFP3 to Suppress Brassinosteroid Responses in Rice |
| 第一作者: | Yunhua Xiao, Guoxia Zhang, Dapu Liu, Mei Niu, Hongning Tong, Chengcai Chu |
| 英文第一作者: | Yunhua Xiao, Guoxia Zhang, Dapu Liu, Mei Niu, Hongning Tong, Chengcai Chu |
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| 发表年度: | 2020-01-20 |
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| 摘要: | Brassinosteroids (BRs) are a class of phytohormones that modulate several important agronomic traits in rice (Oryza sativa). GSK2 is one of the critical suppressors of BR signaling and targets transcription factors such as OsBZR1 and DLT to regulate BR responses. Here, we identified OFP3 (OVATE FAMILY PROTEIN 3) as an interactor of both GSK2 and DLT by yeast two‐hybrid screening and demonstrated that OFP3 plays a distinctly negative role in BR responses. While knockout of OFP3 promoted rice seedling growth, overexpression of OFP3 led to strong BR insensitivity, which resulted in reduced plant height, leaf angle, and grain size. Interestingly, both BR biosynthetic and signaling genes had decreased expression in the overexpression plants. OFP3 overexpression also enhanced the phenotypes of BR‐deficient mutants, but largely suppressed those of BR‐enhanced plants. Moreover, treatment with either BR or bikinin, a GSK3‐like kinase inhibitor, induced OFP3 depletion, whereas GSK2 or brassinazole, a BR synthesis inhibitor, promoted OFP3 accumulation. Furthermore, OFP3 exhibited transcription repressor activity and was able to interact with itself as well as additional BR‐related components, including OFP1, OSH1, OSH15, OsBZR1, and GF14c. Importantly, GSK2 can phosphorylate OFP3 and enhance these interactions. We propose that OFP3, as a suppressor of both BR synthesis and signaling but stabilized by GSK2, incorporates into a transcription factor complex to facilitate BR signaling control, which is critical for the proper development of various tissues. |
| 英文摘要: | Brassinosteroids (BRs) are a class of phytohormones that modulate several important agronomic traits in rice (Oryza sativa). GSK2 is one of the critical suppressors of BR signaling and targets transcription factors such as OsBZR1 and DLT to regulate BR responses. Here, we identified OFP3 (OVATE FAMILY PROTEIN 3) as an interactor of both GSK2 and DLT by yeast two‐hybrid screening and demonstrated that OFP3 plays a distinctly negative role in BR responses. While knockout of OFP3 promoted rice seedling growth, overexpression of OFP3 led to strong BR insensitivity, which resulted in reduced plant height, leaf angle, and grain size. Interestingly, both BR biosynthetic and signaling genes had decreased expression in the overexpression plants. OFP3 overexpression also enhanced the phenotypes of BR‐deficient mutants, but largely suppressed those of BR‐enhanced plants. Moreover, treatment with either BR or bikinin, a GSK3‐like kinase inhibitor, induced OFP3 depletion, whereas GSK2 or brassinazole, a BR synthesis inhibitor, promoted OFP3 accumulation. Furthermore, OFP3 exhibited transcription repressor activity and was able to interact with itself as well as additional BR‐related components, including OFP1, OSH1, OSH15, OsBZR1, and GF14c. Importantly, GSK2 can phosphorylate OFP3 and enhance these interactions. We propose that OFP3, as a suppressor of both BR synthesis and signaling but stabilized by GSK2, incorporates into a transcription factor complex to facilitate BR signaling control, which is critical for the proper development of various tissues. |
| 刊物名称: | The Plant Journal |
| 英文刊物名称: | The Plant Journal |
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| 其它备注: | Yunhua Xiao, Guoxia Zhang, Dapu Liu, Mei Niu, Hongning Tong, Chengcai Chu. GSK2 Stabilizes OFP3 to Suppress Brassinosteroid Responses in Rice. The Plant Journal. DOI:10.1111/tpj.14692 |
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