硝酸盐
液泡
转录因子
细胞生物学
细胞外
营养物
化学
运输机
抄写(语言学)
生物
生物化学
扎梅斯
基因表达
发起人
基因表达调控
作物
转录调控
作者
Chaonan Zhang,Elsa Demes,Xujian Li,Zhenhui Guo,Hanshu Zhao,Huairong Cao,Yajing Song,Lijun Mu,Kaikai Zhang,Jing Zhang,Jing Zhang,Zhongtao Jia,Lixing Yuan,Alexis De Angeli,Jingbo Zhang,Jingbo Zhang
标识
DOI:10.1002/advs.202520219
摘要
Nitrate (NO3 -) is a major nutrient promoting plant growth and crop yield. Vacuolar nitrate storage is essential for nitrate acquisition and remobilization within the plant. However, the transcriptional regulation of transporters facilitating nitrate influx into the vacuole remains unclear. Here, we identified a bHLH transcription factor, ZmbHLH118, that negatively regulates the expression of ZmCLCa, thereby modulating nitrate vacuolar loading and uptake in maize (Zea mays). ZmbHLH118 overexpression and ZmCLCa loss-of-function in maize impaired root NO3 - uptake, and further reduced nitrate content and plant growth. Moreover, ZmbHLH118 directly binds to the promoter and inhibits the expression of ZmCLCa, which encodes a tonoplast-localized nitrate transporter. Electrophysiological analysis showed that ZmCLCa mediates NO3 - fluxes across the vacuolar membrane, indicating that ZmCLCa-mediated NO3 - influx is required for vacuolar nitrate storage. Our data identify the ZmbHLH118 as a molecular actor of the transcriptional regulation of ZmCLCa in response to extracellular nitrate. This provides insights into the regulatory mechanisms acting upstream of the CLCa-mediated vacuolar nitrate transport. Finally, field assays showed that the regulation mechanisms of vacuolar nitrate affect maize growth and grain yield, highlighting their value for nitrogen use efficiency improvement in crop plants.
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