TaNRAMP3 is essential for manganese transport in Triticum aestivum

Zhangqing Wang; Yanting Zhang; Chenyu Cao; Jiaming Liu; Yuan Deng; Zhenqian Zhang; Cun Wang

doi:10.1007/s44154-023-00120-2

Stress Biology (Sep 2023)

TaNRAMP3 is essential for manganese transport in Triticum aestivum

Zhangqing Wang,
Yanting Zhang,
Chenyu Cao,
Jiaming Liu,
Yuan Deng,
Zhenqian Zhang,
Cun Wang

Affiliations

Zhangqing Wang: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Yanting Zhang: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Chenyu Cao: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Jiaming Liu: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Yuan Deng: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Zhenqian Zhang: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University
Cun Wang: National Key Laboratory of Crop Improvement for Stress Tolerance and Production, Northwest A&F University

DOI: https://doi.org/10.1007/s44154-023-00120-2
Journal volume & issue: Vol. 3, no. 1
pp. 1 – 10

Abstract

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Abstract Manganese (Mn) is an essential trace element for almost all living organisms. In plants, Mn deficiency, which is occurs in calcareous soils or alkaline soils, severely limiting crop yields. However, the potential mechanism of Mn transport in Triticum aestivum is still obscure. Here, we found that TaNRAMP3, a member of the naturally resistant macrophage protein (NRAMP) family in Triticum aestivum, is located in the plasma membrane of protoplasts and functions as an influx transporter for Mn in yeast (Δsmf1). The expression of TaNRAMP3 was induced under Mn-deficiency conditions. Furthermore, TaNRAMP3-RNAi plants exhibited a sensitive phenotype, while transgenic plants overexpressing TaNRAMP3 showed a tolerant phenotype. In addition, TaNRAMP3 rescued the sensitive phenotype of Arabidopsis nramp1 mutant under Mn deficiency condition. In summary, our study reveals the key role of TaNRAMP3 in Mn transport in Triticum aestivum, allowing it to adapt to Mn-deficiency stress. These findings provide new insights for the cultivation of Mn-deficiency tolerant wheat varieties.

Published in Stress Biology

ISSN: 2731-0450 (Online)
Publisher: Springer
Country of publisher: Singapore
LCC subjects: Science: Biology (General)
Website: https://www.springer.com/journal/44154

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