Long-term net H<sup>+</sup> influx in maize roots and its potential role in salt tolerance.

Wang, Zhenghao; Huang, Xin; Li, Xuewen; Yu, Min; Wegner, Lars H

Long-term net H⁺ influx in maize roots and its potential role in salt tolerance.

Wang, Zhenghao; Huang, Xin; Li, Xuewen; Yu, Min; Wegner, Lars H.

Affiliation

Wang Z; International Research Centre for Environmental Membrane Biology & Department of Horticulture, Foshan University, No.18 Jiangwan-Yi-Lu, Foshan, 528041, China.
Huang X; International Research Centre for Environmental Membrane Biology & Department of Horticulture, Foshan University, No.18 Jiangwan-Yi-Lu, Foshan, 528041, China.
Li X; International Research Centre for Environmental Membrane Biology & Department of Horticulture, Foshan University, No.18 Jiangwan-Yi-Lu, Foshan, 528041, China.
Yu M; International Research Centre for Environmental Membrane Biology & Department of Horticulture, Foshan University, No.18 Jiangwan-Yi-Lu, Foshan, 528041, China.
Wegner LH; International Research Centre for Environmental Membrane Biology & Department of Horticulture, Foshan University, No.18 Jiangwan-Yi-Lu, Foshan, 528041, China.

New Phytol ; 243(4): 1293-1298, 2024 Aug.

Article in En | MEDLINE | ID: mdl-38952010

Subject(s)

Plant Roots; Salt Tolerance; Zea mays; Zea mays/physiology; Zea mays/genetics; Zea mays/metabolism; Plant Roots/metabolism; Plant Roots/physiology

Key words

active buffering; biochemical pH clamp hypothesis; microelectrode ion flux estimation (MIFE) technique; root; salinity

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Plant Roots / Zea mays / Salt Tolerance Language: En Journal: New Phytol Journal subject: BOTANICA Year: 2024 Document type: Article Affiliation country: China Country of publication: United kingdom

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