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9311 allele of <i>OsNAR2.2</i> enhances nitrate transport to improve rice yield and nitrogen use efficiency

Linlin Hou, Dongdong Chen, Xiangliang Pan, Shenghang Jiang, Jiajia Liu, Qing Li, Yuanyuan Liu, Yi Tong, Li Zhu, Jiang Hu, Guangheng Zhang, Guojun Dong, Qiang Zhang, Deyong Ren, Lan Shen, Longbiao Guo, Qian Qian, Zhenyu Gao

2025Plant Biotechnology Journal7 citationsDOIOpen Access PDF

Abstract

Improving nitrogen use efficiency (NUE) in rice is a requirement for future sustainable agricultural production. However, key factors and regulatory networks involved in NUE remain unclear. Here, QTL analysis, fine-mapping and functional validation demonstrated that qCR4 encodes a putative high-affinity nitrate transporter-activating protein 2.2 (OsNAR2.2). Located in the endoplasmic reticulum (ER), OsNAR2.2 was confirmed to regulate nitrate transport from root-to-shoot and control panicle number, grain yield and NUE in rice. RNA-seq and RT-qPCR revealed that OsNAR2.2 modulates nitrogen utilization by altering the expressions of some nitrogen metabolism-related genes and auxin signal-related genes. Furthermore, the 9311 allele of OsNAR2.2 significantly enhanced panicle number, grain yield and NUE, which provides a potential target for rice yield and NUE improvement.

Topics & Concepts

PanicleBiologyAuxinYield (engineering)GeneNitrogenOryza sativaNitrateGrain yieldArabidopsisAgronomyGeneticsMutantChemistryMetallurgyEcologyMaterials scienceOrganic chemistryPlant nutrient uptake and metabolismAdvanced Data Storage TechnologiesRice Cultivation and Yield Improvement
9311 allele of <i>OsNAR2.2</i> enhances nitrate transport to improve rice yield and nitrogen use efficiency | Litcius