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Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean

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Zeitschriftentitel: International Journal of Molecular Sciences
Personen und Körperschaften: Jin, Ting, Sun, Yangyang, Zhao, Ranran, Shan, Zhong, Gai, Junyi, Li, Yan
In: International Journal of Molecular Sciences, 20, 2019, 15, S. 3745
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Inorganic Chemistry
Organic Chemistry
Physical and Theoretical Chemistry
Computer Science Applications
Spectroscopy
Molecular Biology
General Medicine
Catalysis
author_facet Jin, Ting
Sun, Yangyang
Zhao, Ranran
Shan, Zhong
Gai, Junyi
Li, Yan
Jin, Ting
Sun, Yangyang
Zhao, Ranran
Shan, Zhong
Gai, Junyi
Li, Yan
author Jin, Ting
Sun, Yangyang
Zhao, Ranran
Shan, Zhong
Gai, Junyi
Li, Yan
spellingShingle Jin, Ting
Sun, Yangyang
Zhao, Ranran
Shan, Zhong
Gai, Junyi
Li, Yan
International Journal of Molecular Sciences
Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
Inorganic Chemistry
Organic Chemistry
Physical and Theoretical Chemistry
Computer Science Applications
Spectroscopy
Molecular Biology
General Medicine
Catalysis
author_sort jin, ting
spelling Jin, Ting Sun, Yangyang Zhao, Ranran Shan, Zhong Gai, Junyi Li, Yan 1422-0067 MDPI AG Inorganic Chemistry Organic Chemistry Physical and Theoretical Chemistry Computer Science Applications Spectroscopy Molecular Biology General Medicine Catalysis http://dx.doi.org/10.3390/ijms20153745 <jats:p>Peroxidases play prominent roles in antioxidant responses and stress tolerance in plants; however, their functions in soybean tolerance to salt stress remain unclear. Here, we investigated the role of a peroxidase gene from the wild soybean (Glycine soja), GsPRX9, in soybean tolerance to salt stress. GsPRX9 gene expression was induced by salt treatment in the roots of both salt-tolerant and -sensitive soybean varieties, and its relative expression level in the roots of salt-tolerant soybean varieties showed a significantly higher increase than in salt-sensitive varieties after NaCl treatment, suggesting its possible role in soybean response to salt stress. GsPRX9-overexpressing yeast (strains of INVSc1 and G19) grew better than the control under salt and H2O2 stress, and GsPRX9-overexpressing soybean composite plants showed higher shoot fresh weight and leaf relative water content than control plants after NaCl treatment. Moreover, the GsPRX9-overexpressing soybean hairy roots had higher root fresh weight, primary root length, activities of peroxidase and superoxide dismutase, and glutathione level, but lower H2O2 content than those in control roots under salt stress. These findings suggest that the overexpression of the GsPRX9 gene enhanced the salt tolerance and antioxidant response in soybean. This study would provide new insights into the role of peroxidase in plant tolerance to salt stress.</jats:p> Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean International Journal of Molecular Sciences
doi_str_mv 10.3390/ijms20153745
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series International Journal of Molecular Sciences
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title Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_unstemmed Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_full Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_fullStr Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_full_unstemmed Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_short Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_sort overexpression of peroxidase gene gsprx9 confers salt tolerance in soybean
topic Inorganic Chemistry
Organic Chemistry
Physical and Theoretical Chemistry
Computer Science Applications
Spectroscopy
Molecular Biology
General Medicine
Catalysis
url http://dx.doi.org/10.3390/ijms20153745
publishDate 2019
physical 3745
description <jats:p>Peroxidases play prominent roles in antioxidant responses and stress tolerance in plants; however, their functions in soybean tolerance to salt stress remain unclear. Here, we investigated the role of a peroxidase gene from the wild soybean (Glycine soja), GsPRX9, in soybean tolerance to salt stress. GsPRX9 gene expression was induced by salt treatment in the roots of both salt-tolerant and -sensitive soybean varieties, and its relative expression level in the roots of salt-tolerant soybean varieties showed a significantly higher increase than in salt-sensitive varieties after NaCl treatment, suggesting its possible role in soybean response to salt stress. GsPRX9-overexpressing yeast (strains of INVSc1 and G19) grew better than the control under salt and H2O2 stress, and GsPRX9-overexpressing soybean composite plants showed higher shoot fresh weight and leaf relative water content than control plants after NaCl treatment. Moreover, the GsPRX9-overexpressing soybean hairy roots had higher root fresh weight, primary root length, activities of peroxidase and superoxide dismutase, and glutathione level, but lower H2O2 content than those in control roots under salt stress. These findings suggest that the overexpression of the GsPRX9 gene enhanced the salt tolerance and antioxidant response in soybean. This study would provide new insights into the role of peroxidase in plant tolerance to salt stress.</jats:p>
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author Jin, Ting, Sun, Yangyang, Zhao, Ranran, Shan, Zhong, Gai, Junyi, Li, Yan
author_facet Jin, Ting, Sun, Yangyang, Zhao, Ranran, Shan, Zhong, Gai, Junyi, Li, Yan, Jin, Ting, Sun, Yangyang, Zhao, Ranran, Shan, Zhong, Gai, Junyi, Li, Yan
author_sort jin, ting
container_issue 15
container_start_page 0
container_title International Journal of Molecular Sciences
container_volume 20
description <jats:p>Peroxidases play prominent roles in antioxidant responses and stress tolerance in plants; however, their functions in soybean tolerance to salt stress remain unclear. Here, we investigated the role of a peroxidase gene from the wild soybean (Glycine soja), GsPRX9, in soybean tolerance to salt stress. GsPRX9 gene expression was induced by salt treatment in the roots of both salt-tolerant and -sensitive soybean varieties, and its relative expression level in the roots of salt-tolerant soybean varieties showed a significantly higher increase than in salt-sensitive varieties after NaCl treatment, suggesting its possible role in soybean response to salt stress. GsPRX9-overexpressing yeast (strains of INVSc1 and G19) grew better than the control under salt and H2O2 stress, and GsPRX9-overexpressing soybean composite plants showed higher shoot fresh weight and leaf relative water content than control plants after NaCl treatment. Moreover, the GsPRX9-overexpressing soybean hairy roots had higher root fresh weight, primary root length, activities of peroxidase and superoxide dismutase, and glutathione level, but lower H2O2 content than those in control roots under salt stress. These findings suggest that the overexpression of the GsPRX9 gene enhanced the salt tolerance and antioxidant response in soybean. This study would provide new insights into the role of peroxidase in plant tolerance to salt stress.</jats:p>
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spelling Jin, Ting Sun, Yangyang Zhao, Ranran Shan, Zhong Gai, Junyi Li, Yan 1422-0067 MDPI AG Inorganic Chemistry Organic Chemistry Physical and Theoretical Chemistry Computer Science Applications Spectroscopy Molecular Biology General Medicine Catalysis http://dx.doi.org/10.3390/ijms20153745 <jats:p>Peroxidases play prominent roles in antioxidant responses and stress tolerance in plants; however, their functions in soybean tolerance to salt stress remain unclear. Here, we investigated the role of a peroxidase gene from the wild soybean (Glycine soja), GsPRX9, in soybean tolerance to salt stress. GsPRX9 gene expression was induced by salt treatment in the roots of both salt-tolerant and -sensitive soybean varieties, and its relative expression level in the roots of salt-tolerant soybean varieties showed a significantly higher increase than in salt-sensitive varieties after NaCl treatment, suggesting its possible role in soybean response to salt stress. GsPRX9-overexpressing yeast (strains of INVSc1 and G19) grew better than the control under salt and H2O2 stress, and GsPRX9-overexpressing soybean composite plants showed higher shoot fresh weight and leaf relative water content than control plants after NaCl treatment. Moreover, the GsPRX9-overexpressing soybean hairy roots had higher root fresh weight, primary root length, activities of peroxidase and superoxide dismutase, and glutathione level, but lower H2O2 content than those in control roots under salt stress. These findings suggest that the overexpression of the GsPRX9 gene enhanced the salt tolerance and antioxidant response in soybean. This study would provide new insights into the role of peroxidase in plant tolerance to salt stress.</jats:p> Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean International Journal of Molecular Sciences
spellingShingle Jin, Ting, Sun, Yangyang, Zhao, Ranran, Shan, Zhong, Gai, Junyi, Li, Yan, International Journal of Molecular Sciences, Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean, Inorganic Chemistry, Organic Chemistry, Physical and Theoretical Chemistry, Computer Science Applications, Spectroscopy, Molecular Biology, General Medicine, Catalysis
title Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_full Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_fullStr Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_full_unstemmed Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_short Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
title_sort overexpression of peroxidase gene gsprx9 confers salt tolerance in soybean
title_unstemmed Overexpression of Peroxidase Gene GsPRX9 Confers Salt Tolerance in Soybean
topic Inorganic Chemistry, Organic Chemistry, Physical and Theoretical Chemistry, Computer Science Applications, Spectroscopy, Molecular Biology, General Medicine, Catalysis
url http://dx.doi.org/10.3390/ijms20153745