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NIN 样蛋白 7 转录因子是一种植物硝酸盐传感器。

NIN-like protein 7 transcription factor is a plant nitrate sensor.

机构信息

State Key Laboratory of Crop Stress Biology for Arid Areas and College of Life Sciences, Northwest Agriculture and Forestry University, Yangling, Shaanxi 712100, China.

Institute of Future Agriculture, Northwest Agriculture and Forestry University, Yangling, Shaanxi 712100, China.

出版信息

Science. 2022 Sep 23;377(6613):1419-1425. doi: 10.1126/science.add1104. Epub 2022 Sep 22.

DOI:10.1126/science.add1104
PMID:36137053
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9628810/
Abstract

Nitrate is an essential nutrient and signaling molecule for plant growth. Plants sense intracellular nitrate to adjust their metabolic and growth responses. Here we identify the primary nitrate sensor in plants. We found that mutation of all seven NIN-like protein (NLP) transcription factors abolished plants' primary nitrate responses and developmental programs. Analyses of NIN-NLP7 chimeras and nitrate binding revealed that NLP7 is derepressed upon nitrate perception via its amino terminus. A genetically encoded fluorescent split biosensor, mCitrine-NLP7, enabled visualization of single-cell nitrate dynamics in planta. The nitrate sensor domain of NLP7 resembles the bacterial nitrate sensor NreA. Substitutions of conserved residues in the ligand-binding pocket impaired the ability of nitrate-triggered NLP7 to control transcription, transport, metabolism, development, and biomass. We propose that NLP7 represents a nitrate sensor in land plants.

摘要

硝酸盐是植物生长所必需的营养物质和信号分子。植物通过感知细胞内的硝酸盐来调节其代谢和生长反应。在这里,我们鉴定出了植物中主要的硝酸盐传感器。我们发现,突变所有七个类似 NIN 的蛋白(NLP)转录因子会使植物失去对主要硝酸盐的反应和发育程序的调控。对 NIN-NLP7 嵌合体和硝酸盐结合的分析表明,NLP7 通过其氨基末端被硝酸盐感知后被去阻遏。一个遗传编码的荧光分裂生物传感器 mCitrine-NLP7,使我们能够在植物体内可视化单个细胞的硝酸盐动态。NLP7 的硝酸盐传感器结构域类似于细菌硝酸盐传感器 NreA。在配体结合口袋中的保守残基的取代,削弱了由硝酸盐触发的 NLP7 控制转录、运输、代谢、发育和生物量的能力。我们提出,NLP7 代表了陆地植物中的硝酸盐传感器。

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