Identification of symbiotic nitrogen fixation‐modulating factors in alfalfa and mechanism elucidation of MsHHO3
Yajing Wu, Qian Liu, Fei He, Siqi Wang, Yuxuan Ding, Junmei Kang, Pengbo Liang, Qingchuan Yang, Xue Wang

TL;DR
This study identifies MsHHO3 as a key regulator of nitrogen fixation in alfalfa, showing how it controls nodule formation and nitrogenase activity in response to nitrate.
Contribution
The paper reveals a nitrate-responsive regulatory network in alfalfa and identifies MsHHO3 as a central regulator of symbiotic nitrogen fixation.
Findings
MsHHO3 overexpression reduces nodule number and nitrogenase activity in alfalfa.
MsHHO3 directly binds to the promoter of MsMYC2, a key gene in the JA signaling pathway.
MsHHO3 regulates a transcriptional cascade involving hormone-related transcription factors and core nodulation genes.
Abstract
Symbiotic nitrogen fixation (SNF), a unique nitrogen acquisition mechanism formed through the interaction between leguminous plants and rhizobia, plays a critical role in reducing dependence on chemical fertilizers. However, in alfalfa (Medicago sativa L.), the mechanisms underlying nitrate‐responsive SNF remain poorly understood. In this study, we elucidate a nitrate‐responsive regulatory network governing SNF in alfalfa and identify MsHHO3 as a key regulator. qRT‐PCR analysis revealed that MsHHO3 expression is significantly higher in the LAPIOSZELEI (LA) variety, which exhibits fewer nodules and lower nitrogenase activity, than in the TING SI (TS) variety, which shows a greater number of nodules and higher nitrogenase activity. Morphological characterization demonstrated that MsHHO3‐overexpressing lines exhibited significantly reduced nodule number, nodule fresh weight, and…
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Taxonomy
TopicsLegume Nitrogen Fixing Symbiosis · Plant nutrient uptake and metabolism · Plant Molecular Biology Research
