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Article
2023
The wheat AMT2 (AMmonium Transporter) family, possible functions in ammonium uptake and pathogenic/symbiotic interactions
The wheat AMT2 (AMmonium Transporter) family, possible functions in ammonium uptake and pathogenic/symbiotic interactions
Abstract (English)
Ammonium uptake into wheat roots relies primarily on two AMmonium Transporters of subfamily one, while the wheat genome comprises 4 to 6 AMT2 type transporters. Plant AMT2s generally show functions in root‐to‐shoot translocation or pathogenic and symbiotic plant–microorganism interactions. We addressed the activity of TaAMT2s in ammonium transport. Nitrogen‐dependent expression implicated a physiological function in ammonium uptake for TaAMT2;1 and in ammonium distribution for TaAMT2;2‐6.
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Journal of plant nutrition and soil science, 186 (2023), 2.
https://doi.org/10.1002/jpln.202200362.
ISSN: 1522-2624
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@article{Porras‐Murillo2023,
url = {https://hohpublica.uni-hohenheim.de/handle/123456789/16352},
doi = {10.1002/jpln.202200362},
author = {Porras‐Murillo, Romano and Zhao, Yufen and Hu, Jinling et al.},
title = {The wheat AMT2 (AMmonium Transporter) family, possible functions in ammonium uptake and pathogenic/symbiotic interactions},
journal = {Journal of plant nutrition and soil science},
year = {2023},
volume = {186},
number = {2},
}