Seed Halopriming Improves Salinity Tolerance of Some Rice Cultivars During Seedling Stage.

IF 3.4 3区 生物学 Q1 Agricultural and Biological Sciences
Anik Hidayah, Rizka Rohmatin Nisak, Febri Adi Susanto, Tri Rini Nuringtyas, Nobutoshi Yamaguchi, Yekti Asih Purwestri
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引用次数: 9

Abstract

Background: Saline land in coastal areas has great potential for crop cultivation. Improving salt tolerance in rice is a key to expanding the available area for its growth and thus improving global food security. Seed priming with salt (halopriming) can enhance plant growth and decrease saline intolerance under salt stress conditions during the subsequent seedling stage. However, there is little known about rice defense mechanisms against salinity at seedling stages after seed halopriming treatment. This study focused on the effect of seed halopriming treatment on salinity tolerance in a susceptible cultivar, IR 64, a resistant cultivar, Pokkali, and two pigmented rice cultivars, Merah Kalimantan Selatan (Merah Kalsel) and Cempo Ireng Pendek (CI Pendek). We grew these cultivars in hydroponic culture, with and without halopriming at the seed stage, under either non-salt or salt stress conditions during the seedling stage.

Results: The SES scoring assessment showed that the level of salinity tolerance in susceptible cultivar, IR 64, and moderate cultivar, Merah Kalsel, improved after seed halopriming treatment. Furthermore, seed halopriming improved the growth performance of IR 64 and Merah Kalsel rice seedlings. Quantitative PCR revealed that seed halopriming induced expression of the OsNHX1 and OsHKT1 genes in susceptible rice cultivar, IR 64 and Merah Kalsel thereby increasing the level of resistance to salinity. The expression levels of OsSOS1 and OsHKT1 genes in resistant cultivar, Pokkali, also increased but there was no affect on the level of salinity tolerance. On the contrary, seed halopriming decreased the expression level of OsSOS1 genes in pigmented rice cultivar, CI Pendek, but did not affect the level of salinity tolerance. The transporter gene expression induction significantly improved salinity tolerance in salinity-susceptible rice, IR 64, and moderately tolerant rice cultivar, Merah Kalsel. Induction of expression of the OsNHX1 and OsHKT1 genes in susceptible rice, IR 64, after halopriming seed treatment balances the osmotic pressure and prevents the accumulation of toxic concentrations of Na+, resulting in tolerance to salinity stress.

Conclusion: These results suggest that seed halopriming can improve salinity tolerance of salinity-susceptible and moderately tolerant rice cultivars.

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种子卤化处理提高水稻苗期耐盐性。
背景:沿海盐碱地具有巨大的作物种植潜力。提高水稻耐盐性是扩大水稻种植面积从而改善全球粮食安全的关键。在盐胁迫条件下,盐灌种(halopriming)可以促进植株生长,降低幼苗期的耐盐性。然而,目前对水稻幼苗期盐胁迫的防御机制知之甚少。本研究主要研究了种子卤化处理对易感品种IR 64、抗性品种Pokkali和色素水稻Merah Kalsel (Merah Kalsel)和Cempo Ireng Pendek (CI Pendek)耐盐性的影响。我们在水培中培养这些品种,在种子期有和没有盐处理,在苗期无盐或盐胁迫条件下。结果:SES评分评估结果显示,敏感品种IR 64和中度品种麦拉·卡赛尔(Merah Kalsel)的耐盐性水平在种子淹盐处理后均有提高。此外,种子卤化处理改善了IR 64和麦麦水稻幼苗的生长性能。定量PCR结果显示,盐浸种子诱导易感水稻品种IR 64和Merah Kalsel表达OsNHX1和OsHKT1基因,从而提高了耐盐水平。抗性品种Pokkali中OsSOS1和OsHKT1基因的表达量也有所增加,但对耐盐水平没有影响。相反,盐处理降低了有色水稻品种CI Pendek中OsSOS1基因的表达水平,但不影响耐盐水平。转运蛋白基因的表达诱导显著提高了耐盐水稻IR 64和中耐盐水稻Merah Kalsel的耐盐性。在易感水稻IR 64中,盐处理后诱导OsNHX1和OsHKT1基因的表达,平衡了渗透压,阻止了Na+毒性浓度的积累,导致耐盐胁迫。结论:对盐敏感型和中耐型水稻品种进行种子盐蒸处理可提高其耐盐性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Botanical Studies
Botanical Studies 生物-植物科学
CiteScore
5.50
自引率
2.90%
发文量
32
审稿时长
2.4 months
期刊介绍: Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.
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