Functional analysis of DA1-Related Protein 2 in Arabidopsis under salt stress: Functional analysis of DA1-Related Protein 2 in Arabidopsis under salt stress

Q3 Agricultural and Biological Sciences
L. Yang, Hongtao Zhao, Zhijuan Wang, Xia Li
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引用次数: 0

Abstract

Salt stress inhibits plant growth and development, resulting in low crop yield. Therefore, the mechanism of plant response to salt stress has received much attention in plant science research. Early development (including seed germination and greening) is not only critical for seedling establishment and subsequent plant growth and development, but is also more sensitive to salt stress. However, the molecular mechanisms underlying plant salt tolerance during this developmental stage has remained largely unknown. In this study, we identified a gene, DAR2 (DA1-Related Protein 2), which regulated primary root growth by map-based cloning in Arabidopsis. We noted that DAR2 gene was induced by 200 mmol·L NaCl in 10-day-old Col-0 seedlings. GUS staining showed that the expression of pDAR2::GUS was altered, suggesting that DAR2 gene was induced in root tip and leaf apex phloem. We counted the Col-0 and dar2-3 seed germination and greening rates in different MS medium — 0 (CK), 100 mmol·L NaCl, 150 mmol·L NaCl, 200 mmol·L NaCl, 150 mmol·L KCl and 200 mmol·L mannitol. These results showed that compared with the wild type, either seed germination or greening of dar2-3 mutant obviously delayed with gradual increase in NaCl concentration. Under 150 mmol·L KCl and 200 mmol·L mannitol treatments, dar2-3 mutant seed germination and greening delayed in relation to the wild type. Interestingly, the mutant exhibited increased sensitivity to NaCl, KCl and mannitol treatments during seed germination and greening compared with the wild type. These results suggested that while DAR2 was effective in mediating plant response to general osmotic stress, it was not specific to ion stress in the early growth and development phase. Our findings provided novel 64 中国生态农业学报 2014 第 22卷 insights into salt tolerance and enhanced crop resistance to salt stress.
盐胁迫下拟南芥da1相关蛋白2的功能分析:盐胁迫下拟南芥da1相关蛋白2的功能分析
盐胁迫抑制植物生长发育,导致作物产量降低。因此,植物对盐胁迫的响应机制一直是植物科学研究的热点。早期发育(包括种子发芽和绿化)不仅对幼苗的建立和随后的植物生长发育至关重要,而且对盐胁迫更为敏感。然而,在这一发育阶段,植物耐盐的分子机制仍然是未知的。在本研究中,我们通过定位克隆的方法鉴定了一个调控拟南芥初生根生长的基因DAR2 (DA1-Related Protein 2)。结果表明,200 mmol·L NaCl可诱导10 d龄Col-0幼苗中DAR2基因的表达。GUS染色显示pDAR2::GUS基因表达发生改变,表明DAR2基因在根尖和叶尖韧皮部被诱导。对不同MS培养基(0 (CK)、100 mmol·L NaCl、150 mmol·L NaCl、200 mmol·L NaCl、150 mmol·L KCl和200 mmol·L甘露醇)中Col-0和dar2-3种子的发芽率和绿化率进行了统计。结果表明,与野生型相比,随着NaCl浓度的逐渐升高,dar2-3突变体的种子萌发和变绿均明显延迟。150 mmol·L KCl和200 mmol·L甘露醇处理下,dar2-3突变体种子萌发和绿色化较野生型延迟。有趣的是,与野生型相比,突变体在种子萌发和绿化过程中对NaCl、KCl和甘露醇处理的敏感性增加。这些结果表明,虽然DAR2能有效地介导植物对一般渗透胁迫的响应,但在生长发育早期,它并不是特定于离子胁迫的。我们的研究结果为耐盐性和增强作物对盐胁迫的抗性提供了新的见解。
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来源期刊
Chinese Journal of Eco-agriculture
Chinese Journal of Eco-agriculture Environmental Science-Ecology
CiteScore
2.70
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0.00%
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