High-temperature adaptation of an OsNRT2.3 allele is thermoregulated by small RNAs

Abstract

Climate change negatively affects crop yield, which hinders efforts to reach agricultural sustainability and food security. Here, we show that a previously unidentified allele of the nitrate transporter gene OsNRT2.3 is required to maintain high yield and high nitrogen use efficiency under high temperatures. We demonstrate that this tolerance to high temperatures in rice accessions harboring the HTNE-2 (high temperature resistant and nitrogen efficient-2) alleles from enhanced translation of the OsNRT2.3b mRNA isoform and the decreased abundance of a unique small RNA (sNRT2.3-1) derived from the 5′ untranslated region of OsNRT2.3. sNRT2.3-1 binds to the OsNRT2.3a mRNA in a temperature-dependent manner. Our findings reveal that allelic variation in the 5′ untranslated region of OsNRT2.3 leads to an increase in OsNRT2.3b protein levels and higher yield during high-temperature stress. Our results also provide a breeding strategy to produce rice varieties with higher grain yield and lower N fertilizer input suitable for a sustainable agriculture that is resilient against climate change.

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Copyright © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).

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Keywords

climate change, agricultural sustainability, food security, nitrate transporter gene, high temperatures, OsNRT2.3, HTNE-2 alleles, mRNA isoform, small RNA

Citation

Yong Zhang and Hisae Tateishi-Karimata and Tamaki Endoh and Qiongli Jin and Kexin Li and Xiaoru Fan and Yingjun Ma and Limin Gao and Haiyan Lu and Zhiye Wang and Art E. Cho and Xuefeng Yao and Chunming Liu and Naoki Sugimoto and Shiwei Guo and Xiangdong Fu and Qirong Shen and Guohua Xu and Luis Rafael Herrera-Estrella and Xiaorong Fan https://doi.org/10.1126/sciadv.adc9785

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