Jiaxing Liu,Jie Deng,Fugui Zhu,Yuan Li,Zheng Lu,Peibin Qin,Tao Wang,and Jiangli Dong. The MtDMI2-MtPUB2 Negative Feedback Loop Plays a Role in Nodulation Homeostasis. Plant Physiology. DOI: 10.1104/pp.17.01587
发布日期:2019-11-12 浏览次数:  信息来源:生物学院

The MtDMI2-MtPUB2 Negative Feedback Loop Plays a Role in Nodulation Homeostasis

Jiaxing Liu,Jie Deng,Fugui Zhu,Yuan Li,Zheng Lu,Peibin Qin,Tao Wang,and Jiangli Dong

 

Plant Physiology

DOI: 10.1104/pp.17.01587

 

ABSTRACT

DOES NOT MAKE INFECTION 2 (MtDMI2) is a Leu rich repeat-type receptor kinase required for signal transduction in the Medicago truncatula/Sinorhizobium melilotisymbiosis pathway. However, the mechanisms through which MtDMI2 participates in nodulation homeostasis are poorly understood. In this study, we identified MtPUB2—a novel plant U-box (PUB)–type E3 ligase —and showed that it interacts with MtDMI2. MtDMI2 and MtPUB2 accumulation were shown to be similar in various tissues. Roots of plants in which MtPUB2was silenced by RNAi (MtPUB2-RNAi plants) exhibited impaired infection threads, fewer nodules, and shorter primary root lengths compared to those of control plants transformed with empty vector. Using liquid chromatography-tandem mass spectrometry, we showed that MtDMI2 phosphorylates MtPUB2 at Ser-316, Ser-421, and Thr-488 residues. When MtPUB2-RNAi plants were transformed with MtPUB2S421D, which mimics the phosphorylated state, MtDMI2 was persistently ubiquitinated and degraded by MtPUB2S421D, resulting in fewer nodules than observed in MtPUB2/MtPUB2-RNAi-complemented plants. However, MtPUB2S421A/MtPUB2-RNAi-complemented plants showed no MtPUB2 ubiquitination activity, and their nodulation phenotype was similar to that of MtPUB2-RNAi plants transformed with empty vector. Further studies demonstrated that these proteins form a negative feedback loop of the prey (MtDMI2)-predator (MtPUB2) type. Our results suggest that the MtDMI2-MtPUB2 negative feedback loop, which displays crosstalk with the long-distance autoregulation of nodulation via MtNIN, plays an important role in nodulation homeostasis.

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