Assessment of the vacuolar Na+/H+ antiporter ( NHX1 ) transcriptional changes in Leptochloa fusca L. in response to salt and cadmium stresses

Sodium/proton exchangers (NHX) are key players in plant responses to salinity and have a central role in establishing ion homeostasis. NHXs can be localized in tonoplast or plasma membranes, where they exchange sodium ions for protons, resulting in the removal of ions from the cytosol into vacuole o...

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Veröffentlicht in:	Molecular biology research communications 2015-09, Vol.4 (3), p.133-142
Hauptverfasser:	Adabnejad, Hamed, Kavousi, Hamid Reza, Hamidi, Hadi, Tavassolian, Iraj
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creator	Adabnejad, Hamed Kavousi, Hamid Reza Hamidi, Hadi Tavassolian, Iraj
description	Sodium/proton exchangers (NHX) are key players in plant responses to salinity and have a central role in establishing ion homeostasis. NHXs can be localized in tonoplast or plasma membranes, where they exchange sodium ions for protons, resulting in the removal of ions from the cytosol into vacuole or extracellular spaces. In the present study, the expression pattern of the gene encoding Na+/H+ antiporter in the vacuolarmembrane (NHX1 gene) in (Kallar grass) was measured by a semi- quantitative RT-PCR method under different treatments of NaCl and CdCl2. Results indicated that NaCl positively affected expression levels of NHX1, and that the amount of NHX1 mRNA increased in conjunction with the rise of salinity pressure, This finding suggests that vacuolar Na+/H+ antiporter might play an important role in the salt tolerance ability of kallar grass. The results also showed that cadmium exposure significantly modulated the mRNA expression of the NHX1 gene, suggesting that cadmium exposure disturbed Na+ homeostasis across the tonoplast and decreased the salt tolerance ability of kallar grass.
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NHXs can be localized in tonoplast or plasma membranes, where they exchange sodium ions for protons, resulting in the removal of ions from the cytosol into vacuole or extracellular spaces. In the present study, the expression pattern of the gene encoding Na+/H+ antiporter in the vacuolarmembrane (NHX1 gene) in (Kallar grass) was measured by a semi- quantitative RT-PCR method under different treatments of NaCl and CdCl2. Results indicated that NaCl positively affected expression levels of NHX1, and that the amount of NHX1 mRNA increased in conjunction with the rise of salinity pressure, This finding suggests that vacuolar Na+/H+ antiporter might play an important role in the salt tolerance ability of kallar grass. 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title	Assessment of the vacuolar Na+/H+ antiporter ( NHX1 ) transcriptional changes in Leptochloa fusca L. in response to salt and cadmium stresses
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