Effect of salinity on transmembrane potential of the roots of Sesuvium portulacastrum (L.) L.

Scientific Research and Essays Pub Date : 2017-05-15 DOI:10.5897/SRE2014.6056

B. Moseki

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Abstract

Halophytes are plants that complete their life cycle in saline environments. Halophytes can therefore be viewed as potential gene sources for genetic manipulation of economically important crop plants. In this study the influence of salinity on potential difference (PD) and surface pH of root cortical cells was investigated. The effect of the metabolic inhibitor, potassium cyanide (KCN), on PD of the root cells was also investigated. A study of the electrophysiological characteristics of the membrane of the root cortical cells showed that there were two components to the root cell PD. One component (diffusional) was affected by the increasing NaCl concentration in the growth medium, while the other component (electrogenic) remained unaffected by the NaCl concentration up to 200 mol m-3. There is evidence to suggest that this electrogenic component of the PD was maintained by an efflux pump which presumably controls ion uptake and indirectly growth. It is concluded that this electrogenic efflux pump is a major factor contributing to salt tolerance in Sesuvium portulacastrum. Key words: Electrogenic pumps, halophyte, membrane potential difference, salinity, Sesuvium portulacastrum.

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盐度对梭子蟹根跨膜电位的影响。

盐生植物是在含盐环境中完成其生命周期的植物。因此，盐生植物可以被视为对经济上重要的作物进行遗传操作的潜在基因来源。研究了盐度对根皮质细胞电位差（PD）和表面pH值的影响。还研究了代谢抑制剂氰化钾（KCN）对根细胞PD的影响。对根皮质细胞膜电生理特性的研究表明，根细胞PD有两个成分。一个成分（扩散性）受到生长培养基中NaCl浓度增加的影响，而另一个组分（生电性）不受高达200 mol m-3的NaCl浓度的影响。有证据表明，PD的这种发电成分是由外排泵维持的，该外排泵可能控制离子摄取和间接生长。结果表明，这种电动外排泵是影响梭子牙耐盐性的主要因素。关键词：电泵，盐生植物，膜电位差，盐度，梭子蟹。

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3.3 months