Biologia Plantarum (Jul 2020)

Distribution of Na+ in roots and stem bases of buckwheat seedlings

  • W.-Y. ZHAN,
  • Y.-C. YU,
  • L.-X. HOU,
  • C.-Y. LIU,
  • F.-G. ZHAO,
  • Y.-P. ZHANG,
  • H.-B. YANG

DOI
https://doi.org/10.32615/bp.2020.051
Journal volume & issue
Vol. 64, no. 1
pp. 485 – 489

Abstract

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The localizations of sodium exclusion are roots and stem base, however, Na+ distribution in these localizations is unclear. Here, we used a salt-tolerant buckwheat cultivar Chuanqiao No.1 and a salt-sensitive cultivar TQ-0808 to demonstrate Na+ distribution. We found that Na+ content was highest in vacuole, the following was in cell wall or free space, and the least was in cytoplasm. Comparative analysis shows that Na+ accumulation in vacuole, cell wall, or free space of roots and stem base in 'Chuanqiao No.1' was obviously higher than in 'TQ-0808'; in contrast, Na+ accumulation in cytoplasm of 'Chuanqiao No.1' was less than in 'TQ-0808'. These results indicate that the capabilities of Na+ extrusion and Na+ compartmentalization of salt-tolerant buckwheat were obviously higher than of the salt-sensitive one, and the capabilities could effectively restrict Na+ transport to shoot. Compartmentalization of Na+ in the vacuole was the main way for Na+ exclusion of salt-tolerant buckwheat. In addition, the transcriptions of Na+/H+ antiporter 1 and salt overly sensitive 1 were remarkably higher in 'Chuanqiao No.1' than in 'TQ-0808', which is consistent with the above results.

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