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Position: Home > Articles > Effects of NaCl and Iso-Osmotic Polyethylene Glycol Stress on Na⁺/H⁺ Antiport Activity of Three Malus species with Different Salt Tolerance Journal of Integrative Agriculture 2014,13 (6)

Effects of NaCl and Iso-Osmotic Polyethylene Glycol Stress on Na⁺/H⁺ Antiport Activity of Three Malus species with Different Salt Tolerance

作者：

Yang Hong-bing;Dung Chun-hai;Xu Xue-feng;Wang Yi;Han Zhen-hai

单位：

China Agr Univ, Stress Physiol & Mol Biol Lab Fruit Trees, Beijing 100193, Peoples R China;Qingdao Agr Univ, Coll Life Sci, Key Lab Plant Biotechnol Univ Shandong, Qingdao 266109, Peoples R China

关键词：

Malus;NaCl;polyethylene glycol (PEG);Na+/H+ antiport activity;salt tolerance

摘要：

Salt stress contains osmotic and ionic stress, while iso-osmotic polyethylene glycol (PEG) has only osmotic stress. This study aimed to compare the different effects on the activity of H+-ATPase, proton pump and Na+/H+ antiport in Malus seedlings between osmotic and ionic stress. Species of salt tolerant Malus zumi, middle salt tolerant Malus xiaojinensis and salt sensitive Malus baccata were used as experimental materials. Malus seedlings were treated with NaCl and iso-osmotic PEG stress. The activity of H+-ATPase, proton pump and Na+/H+ antiport of plasmolemma and tonoplast in Malus seedlings were obviously increased under salt stress, and those in salt-tolerant species increased more. Under the same NaCl concentration, the activity of H(+-)ATPase, proton pump and Na+/H+ antiport of plasmolemma and tonoplast in salt-tolerant species were all obviously higher than those in salt-sensitive one. Higher Na+/H+ antiport activity of plasmolemma and tonoplast in salt-tolerant species could help to extrude and compartmentalize sodium in roots under salt stress. The ascent rate of activity of H+-ATPase, proton pump and Na+/H+ antiport in Malus seedlings under the three salt concentration stress was all obviously higher than that under the iso-osmotic PEG stress. It indicated that the sodium ion effect had more stimulation on the activity of H+-ATPase, proton pump and Na+/H+ antiport in salt-tolerant species, and salt-tolerant species has higher capability of sodium extrusion and compartmentalization in roots and is therefore more salt tolerant.

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Effects of NaCl and Iso-Osmotic Polyethylene Glycol Stress on Na⁺/H⁺ Antiport Activity of Three Malus species with Different Salt Tolerance

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农业科学学报 (英文)

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农业科学学报 (英文)

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Effects of NaCl and Iso-Osmotic Polyethylene Glycol Stress on Na+/H+ Antiport Activity of Three Malus species with Different Salt Tolerance

相似文章

所属期刊

农业科学学报 (英文)

推荐期刊

农业科学学报 (英文)

中国果业信息

Effects of NaCl and Iso-Osmotic Polyethylene Glycol Stress on Na⁺/H⁺ Antiport Activity of Three Malus species with Different Salt Tolerance