OsPIP2;1 Positively Regulates Rice Tolerance to Water Stress Under Coupling of Partial Root-Zone Drying and Nitrogen Forms
Chunyi Kuang, Ziying Han, Xiang Zhang, Xiaoyuan Chen, Zhihong Gao, Yongyong Zhu

TL;DR
This study shows that the OsPIP2;1 gene helps rice tolerate water stress when combined with specific nitrogen forms and partial root-zone drying.
Contribution
The study reveals the novel role of OsPIP2;1 in enhancing rice water stress tolerance through gene overexpression and its interaction with nitrogen forms.
Findings
OsPIP2;1 overexpression increased ABA levels and SOD activity, reducing water potential and tissue damage under water stress.
Overexpression of OsPIP2;1 improved WUE and correlated with transpiration rate, chlorophyll content, and nitrogen content.
OsPIP2;1 promotes root growth and total biomass in rice under PRD and A50/N50 nitrogen conditions.
Abstract
The coupling of partial root-zone drying (PRD) with nitrogen forms exerts an interactive “water-promoted fertilization” effect, which enhances rice (Oryza sativa L.) growth and development, improves water use efficiency (WUE), mediates the expression of aquaporins (AQPs), and alters root water conductivity. In this study, gene cloning and CRISPR-Cas9 technologies were employed to construct overexpression and knockout vectors of the OsPIP2;1 gene, which were then transformed into rice (cv. Meixiangzhan 2). Three water treatments were set: normal irrigation (CK); partial root-zone drying (PRD); and 10% PEG-simulated water stress (PEG), combined with a nitrogen form ratio of ammonium nitrogen (NH4+) to nitrate nitrogen (NO3−) at 50:50 (A50/N50) for the coupled treatment of rice seedlings. The results showed that under the coupled treatment of PRD and the aforementioned nitrogen form, the…
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Taxonomy
TopicsPlant nutrient uptake and metabolism · Plant Stress Responses and Tolerance · Plant responses to water stress
