PgLEA, a gene for late embryogenesis abundant proteinfrom Panax ginseng, enhances drought and salt tolerancein transgenic Arabidopsis thaliana

IF 0.8 4区 生物学 Q4 PLANT SCIENCES
W. Lian, R. Sun, L. Zhang, T. Sun, F. Hui, L. Feng, Y. Zhao
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引用次数: 0

Abstract

Plants are usually sessile species and their growth and development are substantially influenced by the surrounding environment. Additionally, diverse environmental stressors, including drought and high salinity, severely restrict plant development, damage plant tissues, and under extreme conditions, can lead to death (Wang et al. 2003, Wu et al. 2014). Plants have various physiological and biochemical mechanisms to mitigate the harm caused by adverse conditions (Zhang et al. 2018). When plants are subjected to abiotic stress, they often synthesize a range of functional proteins that protect different tissues from damage. Among the plant cell-protective proteins induced by abiotic stress, there has been considerable interest in the late embryogenesis
PgLEA基因是人参胚胎发生晚期丰富蛋白的基因,可增强转基因拟南芥的耐旱性和耐盐性
植物通常是无根的物种,它们的生长发育很大程度上受周围环境的影响。此外,干旱和高盐度等多种环境胁迫因素严重限制植物发育,损害植物组织,在极端条件下可导致死亡(Wang et al. 2003, Wu et al. 2014)。植物有多种生理生化机制来减轻不利条件造成的伤害(Zhang et al. 2018)。当植物受到非生物胁迫时,它们通常会合成一系列保护不同组织免受损害的功能性蛋白质。在非生物胁迫诱导的植物细胞保护蛋白中,晚期胚胎发生蛋白受到了广泛关注
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来源期刊
Biologia Plantarum
Biologia Plantarum 生物-植物科学
CiteScore
2.80
自引率
0.00%
发文量
28
审稿时长
3.3 months
期刊介绍: BIOLOGIA PLANTARUM is an international journal for experimental botany. It publishes original scientific papers and brief communications, reviews on specialized topics, and book reviews in plant physiology, plant biochemistry and biophysics, physiological anatomy, ecophysiology, genetics, molecular biology, cell biology, evolution, and pathophysiology. All papers should contribute substantially to the current level of plant science and combine originality with a potential general interest. The journal focuses on model and crop plants, as well as on under-investigated species.
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