Scanning ion‐selective electrode technique and X‐ray microanalysis provide direct evidence of contrasting Na<sup>+</sup> transport ability from root to shoot in salt‐sensitive cucumber and salt‐tolerant pumpkin under <scp>NaCl</scp> stress

Physiologia Plantarum - Tập 152 Số 4 - Trang 738-748 - 2014
Bo Lei1, Yuan Huang1, Jingyu Sun1, Junjun Xie1, Mengliang Niu1, Zhixiong Liu1, Molin Fan1, Zhilong Bie1
1Key Laboratory of Horticultural Plant Biology, College of Horticulture and Forestry Sciences, Huazhong Agricultural University, Wuhan, 430070 PR China

Tóm tắt

Grafting onto salt‐tolerant pumpkin rootstock can increase cucumber salt tolerance. Previous studies have suggested that this can be attributed to pumpkin roots with higher capacity to limit the transport of Na+ to the shoot than cucumber roots. However, the mechanism remains unclear. This study investigated the transport of Na+ in salt‐tolerant pumpkin and salt‐sensitive cucumber plants under high (200 mM) or moderate (90 mM) NaCl stress. Scanning ion‐selective electrode technique showed that pumpkin roots exhibited a higher capacity to extrude Na+, and a correspondingly increased H+ influx under 200 or 90 mM NaCl stress. The 200 mM NaCl induced Na+/H+ exchange in the root was inhibited by amiloride (a Na+/H+ antiporter inhibitor) or vanadate [a plasma membrane (PM) H+ATPase inhibitor], indicating that Na+ exclusion in salt stressed pumpkin and cucumber roots was the result of an active Na+/H+ antiporter across the PM, and the Na+/H+ antiporter system in salt stressed pumpkin roots was sufficient to exclude Na+. X‐ray microanalysis showed higher Na+ in the cortex, but lower Na+ in the stele of pumpkin roots than that in cucumber roots under 90 mM NaCl stress, suggesting that the highly vacuolated root cortical cells of pumpkin roots could sequester more Na+, limit the radial transport of Na+ to the stele and thus restrict the transport of Na+ to the shoot. These results provide direct evidence for pumpkin roots with higher capacity to limit the transport of Na+ to the shoot than cucumber roots.

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Physiologia Plantarum

Tập 152 Số 4

738-748

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