Litcius/Paper detail

Bioengineering for robust tolerance against cold and drought stresses via co-overexpressing three Cu-miRNAs in major food crops

Zheyuan Hong, Hang Xu, Yuxin Shen, Chuanjia Liu, Fu Guo, Sajid Muhammad, Yaqi Zhang, Hongbin Niu, Shengping Li, Weijun Zhou, Liang Wu

2024Cell Reports19 citationsDOIOpen Access PDF

Abstract

Environmental stresses threaten global food security by reducing major crop productivity. MicroRNAs (miRNAs), a class of small non-coding RNAs, function as master regulators of gene expression in plants. In this study, we co-overexpressed three copper-miRNAs (miR397, miR408, and miR528) in three major food crops (referred to as 3miR-OE), which simultaneously silenced several target laccase genes, resulting in reduced lignin contents but increased flavonoid metabolites. Importantly, we observed that, compared to wild-type and single miRNA overexpression lines, the 3miR-OE transgenic Japonica and Indica rice exhibited significantly enhanced tolerance against cold and drought stresses throughout the growth period. In addition, 3miR-OE transgenic maize and wheat also exhibited robust resistance to cold and water-deficit conditions, suggesting that co-overexpressing three Cu-miRNAs is a powerful tool for improving resilience to abiotic stresses across diverse crops. Altogether, we have developed a bioengineering strategy to maintain crop growth and yield under unfavorable environmental conditions.

Topics & Concepts

microRNABiologyDrought toleranceBiotechnologyAgronomyGeneticsGenePlant Molecular Biology ResearchPlant Stress Responses and ToleranceLight effects on plants