Plant salt tolerance and Na+ sensing and transport

Salinity is a global challenge to agricultural production. Understanding Na+ sensing and transport in plants under salt stress will be of benefit for breeding robustly salt-tolerant crop species. In this review, first, possible salt stress sensor candidates and the root meristem zone as a tissue har...

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Published inThe Crop journal Vol. 6; no. 3; pp. 215 - 225
Main Author Wu, Honghong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2018
KeAi Communications Co., Ltd
Subjects
Channels
crops
cytosol
Na+ sensing
Na+ transport
phloem
plant breeding
Plant salt tolerance
root meristems
salinity
salt stress
salt tolerance
secretion
sodium
stress tolerance
Transporters
vacuoles
xylem
Transporters
Plant salt tolerance
Na+ sensing
Channels
Na+ transport
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Abstract Salinity is a global challenge to agricultural production. Understanding Na+ sensing and transport in plants under salt stress will be of benefit for breeding robustly salt-tolerant crop species. In this review, first, possible salt stress sensor candidates and the root meristem zone as a tissue harboring salt stress-sensing components are proposed. Then, the importance of Na+ exclusion and vacuolar Na+ sequestration in plant overall salt tolerance is highlighted. Other Na+ regulation processes, including xylem Na+ loading and unloading, phloem Na+ recirculation, and Na+ secretion, are discussed and summarized. Along with a summary of Na+ transporters and channels, the molecular regulation of Na+ transporters and channels in response to salt stress is discussed. Finally, some largely neglected issues in plant salt stress tolerance, including Na+ concentration in cytosol and the role of Na+ as a nutrient, are reviewed and discussed.
AbstractList Salinity is a global challenge to agricultural production. Understanding Na⁺ sensing and transport in plants under salt stress will be of benefit for breeding robustly salt-tolerant crop species. In this review, first, possible salt stress sensor candidates and the root meristem zone as a tissue harboring salt stress-sensing components are proposed. Then, the importance of Na⁺ exclusion and vacuolar Na⁺ sequestration in plant overall salt tolerance is highlighted. Other Na⁺ regulation processes, including xylem Na⁺ loading and unloading, phloem Na⁺ recirculation, and Na⁺ secretion, are discussed and summarized. Along with a summary of Na⁺ transporters and channels, the molecular regulation of Na⁺ transporters and channels in response to salt stress is discussed. Finally, some largely neglected issues in plant salt stress tolerance, including Na⁺ concentration in cytosol and the role of Na⁺ as a nutrient, are reviewed and discussed.
Salinity is a global challenge to agricultural production. Understanding Na+ sensing and transport in plants under salt stress will be of benefit for breeding robustly salt-tolerant crop species. In this review, first, possible salt stress sensor candidates and the root meristem zone as a tissue harboring salt stress-sensing components are proposed. Then, the importance of Na+ exclusion and vacuolar Na+ sequestration in plant overall salt tolerance is highlighted. Other Na+ regulation processes, including xylem Na+ loading and unloading, phloem Na+ recirculation, and Na+ secretion, are discussed and summarized. Along with a summary of Na+ transporters and channels, the molecular regulation of Na+ transporters and channels in response to salt stress is discussed. Finally, some largely neglected issues in plant salt stress tolerance, including Na+ concentration in cytosol and the role of Na+ as a nutrient, are reviewed and discussed. Keywords: Channels, Na+ sensing, Na+ transport, Plant salt tolerance, Transporters
Salinity is a global challenge to agricultural production. Understanding Na+ sensing and transport in plants under salt stress will be of benefit for breeding robustly salt-tolerant crop species. In this review, first, possible salt stress sensor candidates and the root meristem zone as a tissue harboring salt stress-sensing components are proposed. Then, the importance of Na+ exclusion and vacuolar Na+ sequestration in plant overall salt tolerance is highlighted. Other Na+ regulation processes, including xylem Na+ loading and unloading, phloem Na+ recirculation, and Na+ secretion, are discussed and summarized. Along with a summary of Na+ transporters and channels, the molecular regulation of Na+ transporters and channels in response to salt stress is discussed. Finally, some largely neglected issues in plant salt stress tolerance, including Na+ concentration in cytosol and the role of Na+ as a nutrient, are reviewed and discussed.
Author Wu, Honghong
Author_xml – sequence: 1
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  surname: Wu
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  email: Honghong.Wu@utas.edu.au, honghong.wu@ucr.edu
  organization: School of Land and Food, University of Tasmania, Hobart, Tas 7001, Australia
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Keywords Transporters
Plant salt tolerance
Na+ sensing
Channels
Na+ transport
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OpenAccessLink https://doaj.org/article/4c220975ee49494c899dfbf3394c2a13
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PublicationDate June 2018
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  text: June 2018
PublicationDecade 2010
PublicationTitle The Crop journal
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Snippet Salinity is a global challenge to agricultural production. Understanding Na+ sensing and transport in plants under salt stress will be of benefit for breeding...
Salinity is a global challenge to agricultural production. Understanding Na⁺ sensing and transport in plants under salt stress will be of benefit for breeding...
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SubjectTerms Channels
crops
cytosol
Na+ sensing
Na+ transport
phloem
plant breeding
Plant salt tolerance
root meristems
salinity
salt stress
salt tolerance
secretion
sodium
stress tolerance
Transporters
vacuoles
xylem
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Title Plant salt tolerance and Na+ sensing and transport
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