Literature DB >> 20495345

How do vacuolar NHX exchangers function in plant salt tolerance?

Xingyu Jiang1, Eduardo O Leidi, Jose M Pardo.   

Abstract

Potassium (K(+)) is a major osmoticum of plant cells, and the vacuolar accumulation of this element is a especially crucial feature for plants under high-salt conditions. Emerging evidence indicates that cation/proton transporters of the NHX family are instrumental in the H(+)-linked K(+) transport that mediate active K(+) uptake at the tonoplast for the unequal partitioning of K(+) between vacuole and cytosol. However, and in spite of tenuous supporting evidence, NHX proteins are widely regarded as key players in the sequestration of sodium (Na(+)) into vacuoles to avert ion toxicity in the cytosol of plants under salinity stress. Here, we propose an updated model positing that NHX proteins fulfill a protective function to minimize salt-related stress mainly through the vacuolar compartmentalization of K(+) and, in some cases, of Na(+) as well thereby preventing toxic Na(+)-K(+) ratios in the cytosol while accruing solutes for osmotic balance.

Entities:  

Keywords:  NHX exchangers; nutrition; potassium; salinity; sodium; vacuole

Mesh:

Substances:

Year:  2010        PMID: 20495345      PMCID: PMC3014531          DOI: 10.4161/psb.5.7.11767

Source DB:  PubMed          Journal:  Plant Signal Behav        ISSN: 1559-2316


  30 in total

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Authors:  H X Zhang; E Blumwald
Journal:  Nat Biotechnol       Date:  2001-08       Impact factor: 54.908

2.  Differential expression and function of Arabidopsis thaliana NHX Na+/H+ antiporters in the salt stress response.

Authors:  Shuji Yokoi; Francisco J Quintero; Beatriz Cubero; Maria T Ruiz; Ray A Bressan; Paul M Hasegawa; Jose M Pardo
Journal:  Plant J       Date:  2002-06       Impact factor: 6.417

3.  Ion Homeostasis in NaCl Stress Environments.

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Journal:  Plant Physiol       Date:  1995-11       Impact factor: 8.340

Review 4.  Alkali cation exchangers: roles in cellular homeostasis and stress tolerance.

Authors:  José M Pardo; Beatriz Cubero; Eduardo O Leidi; Francisco J Quintero
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5.  Introduction of a Na+/H+ antiporter gene from Atriplex gmelini confers salt tolerance to rice.

Authors:  Masaru Ohta; Yasuyuki Hayashi; Asae Nakashima; Akira Hamada; Akira Tanaka; Tatsunosuke Nakamura; Takahiko Hayakawa
Journal:  FEBS Lett       Date:  2002-12-18       Impact factor: 4.124

Review 6.  Flavonoids: a colorful model for the regulation and evolution of biochemical pathways.

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7.  Single-cell measurements of the contributions of cytosolic Na(+) and K(+) to salt tolerance.

Authors:  David E Carden; David J Walker; Timothy J Flowers; Anthony J Miller
Journal:  Plant Physiol       Date:  2003-02       Impact factor: 8.340

8.  PH4 of Petunia is an R2R3 MYB protein that activates vacuolar acidification through interactions with basic-helix-loop-helix transcription factors of the anthocyanin pathway.

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Journal:  Plant Cell       Date:  2006-04-07       Impact factor: 11.277

9.  Overexpression of the tomato K+/H+ antiporter LeNHX2 confers salt tolerance by improving potassium compartmentalization.

Authors:  María Pilar Rodríguez-Rosales; Xingyu Jiang; Francisco Javier Gálvez; María Nieves Aranda; Beatriz Cubero; Kees Venema
Journal:  New Phytol       Date:  2008-07       Impact factor: 10.151

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  50 in total

1.  Expression of wheat Na(+)/H(+) antiporter TNHXS1 and H(+)- pyrophosphatase TVP1 genes in tobacco from a bicistronic transcriptional unit improves salt tolerance.

Authors:  Sandra Gouiaa; Habib Khoudi; Eduardo O Leidi; Jose M Pardo; Khaled Masmoudi
Journal:  Plant Mol Biol       Date:  2012-03-14       Impact factor: 4.076

2.  The wheat NHX antiporter gene TaNHX2 confers salt tolerance in transgenic alfalfa by increasing the retention capacity of intracellular potassium.

Authors:  Yan-Min Zhang; Hong-Mei Zhang; Zi-Hui Liu; Hui-Cong Li; Xiu-Lin Guo; Guo-Liang Li
Journal:  Plant Mol Biol       Date:  2014-12-31       Impact factor: 4.076

Review 3.  Halophytism: What Have We Learnt From Arabidopsis thaliana Relative Model Systems?

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4.  Developing and validating a high-throughput assay for salinity tissue tolerance in wheat and barley.

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Journal:  Planta       Date:  2015-05-20       Impact factor: 4.116

5.  Growth, physiological adaptation, and NHX gene expression analysis of Iris halophila under salt stress.

Authors:  Yongheng Yang; Zhi Guo; Qingquan Liu; Jun Tang; Suzhen Huang; Om Parkash Dhankher; Haiyan Yuan
Journal:  Environ Sci Pollut Res Int       Date:  2018-06-25       Impact factor: 4.223

6.  Ion exchangers NHX1 and NHX2 mediate active potassium uptake into vacuoles to regulate cell turgor and stomatal function in Arabidopsis.

Authors:  Verónica Barragán; Eduardo O Leidi; Zaida Andrés; Lourdes Rubio; Anna De Luca; José A Fernández; Beatriz Cubero; José M Pardo
Journal:  Plant Cell       Date:  2012-03-20       Impact factor: 11.277

7.  Molecular characterization and expression analysis of the Na+/H+ exchanger gene family in Medicago truncatula.

Authors:  Devinder Sandhu; Manju V Pudussery; Rakesh Kaundal; Donald L Suarez; Amita Kaundal; Rajandeep S Sekhon
Journal:  Funct Integr Genomics       Date:  2017-12-26       Impact factor: 3.410

8.  Reduced tonoplast fast-activating and slow-activating channel activity is essential for conferring salinity tolerance in a facultative halophyte, quinoa.

Authors:  Edgar Bonales-Alatorre; Sergey Shabala; Zhong-Hua Chen; Igor Pottosin
Journal:  Plant Physiol       Date:  2013-04-26       Impact factor: 8.340

9.  A Critical Role of Lyst-Interacting Protein5, a Positive Regulator of Multivesicular Body Biogenesis, in Plant Responses to Heat and Salt Stresses.

Authors:  Fei Wang; Yan Yang; Zhe Wang; Jie Zhou; Baofang Fan; Zhixiang Chen
Journal:  Plant Physiol       Date:  2015-07-30       Impact factor: 8.340

10.  Vacuolar Chloride Fluxes Impact Ion Content and Distribution during Early Salinity Stress.

Authors:  Ulrike Baetz; Cornelia Eisenach; Takayuki Tohge; Enrico Martinoia; Alexis De Angeli
Journal:  Plant Physiol       Date:  2016-08-08       Impact factor: 8.340
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