1. Function and Regulation of Ammonium Transporters in Plants
- Author
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Dongli Hao, Jinyan Zhou, Shunying Yang, Yanhua Su, Wei Qi, and Ke-Jun Yang
- Subjects
0106 biological sciences ,0301 basic medicine ,Arabidopsis ,ammonium transporter ,chemistry.chemical_element ,functional regulation ,Review ,Plant Roots ,01 natural sciences ,Catalysis ,lcsh:Chemistry ,Inorganic Chemistry ,03 medical and health sciences ,chemistry.chemical_compound ,Gene Expression Regulation, Plant ,Soil pH ,Ammonium Compounds ,transport mechanism ,Ammonium ,Physical and Theoretical Chemistry ,Cation Transport Proteins ,physiological roles ,lcsh:QH301-705.5 ,Molecular Biology ,Plant Physiological Phenomena ,Spectroscopy ,Ion Transport ,Chemistry ,Organic Chemistry ,Membrane Transport Proteins ,Transporter ,General Medicine ,Plants ,electrophysiology ,Nitrogen ,genetic manipulation ,Computer Science Applications ,Plant Leaves ,yeast functional complementation ,030104 developmental biology ,lcsh:Biology (General) ,lcsh:QD1-999 ,Agronomy ,Shoot ,Growth inhibition ,Function (biology) ,010606 plant biology & botany ,Ammonium transport - Abstract
Ammonium transporter (AMT)-mediated acquisition of ammonium nitrogen from soils is essential for the nitrogen demand of plants, especially for those plants growing in flooded or acidic soils where ammonium is dominant. Recent advances show that AMTs additionally participate in many other physiological processes such as transporting ammonium from symbiotic fungi to plants, transporting ammonium from roots to shoots, transferring ammonium in leaves and reproductive organs, or facilitating resistance to plant diseases via ammonium transport. Besides being a transporter, several AMTs are required for the root development upon ammonium exposure. To avoid the adverse effects of inadequate or excessive intake of ammonium nitrogen on plant growth and development, activities of AMTs are fine-tuned not only at the transcriptional level by the participation of at least four transcription factors, but also at protein level by phosphorylation, pH, endocytosis, and heterotrimerization. Despite these progresses, it is worth noting that stronger growth inhibition, not facilitation, unfortunately occurs when AMT overexpression lines are exposed to optimal or slightly excessive ammonium. This implies that a long road remains towards overcoming potential limiting factors and achieving AMT-facilitated yield increase to accomplish the goal of persistent yield increase under the present high nitrogen input mode in agriculture.
- Published
- 2020