Drought stress in Lens culinaris: effects, tolerance mechanism, and its smart reprogramming by using modern biotechnological approaches

IF 3.4 3区 生物学 Q1 PLANT SCIENCES
Sakshi Saini, Priyanka Sharma, Jyoti Sharma, Pooja Pooja, Asha Sharma
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Abstract

Among legumes, lentil serves as an imperative source of dietary proteins and are considered an important pillar of global food and nutritional security. The crop is majorly cultivated in arid and semi-arid regions and exposed to different abiotic stresses. Drought stress is a polygenic stress that poses a major threat to the crop productivity of lentils. It negatively influenced the seed emergence, water relations traits, photosynthetic machinery, metabolites, seed development, quality, and yield in lentil. Plants develop several complex physiological and molecular protective mechanisms for tolerance against drought stress. These complicated networks are enabled to enhance the cellular potential to survive under extreme water-scarce conditions. As a result, proper drought stress-mitigating novel and modern approaches are required to improve lentil productivity. The currently existing biotechnological techniques such as transcriptomics, genomics, proteomics, metabolomics, CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats/cas9), and detection of QTLs (quantitative trait loci), proteins, and genes responsible for drought tolerance have gained appreciation among plant breeders for developing climate-resilient lentil varieties. In this review, we critically elaborate the impact of drought on lentil, mechanisms employed by plants to tolerate drought, and the contribution of omics approaches in lentils for dealing with drought, providing deep insights to enhance lentil productivity and improve resistance against abiotic stresses. We hope this updated review will directly help the lentil breeders to develop resistance against drought stress.

Graphical Abstract

Abstract Image

大菱鲆的干旱胁迫:影响、耐受机制以及利用现代生物技术方法对其进行智能重编程
在豆科植物中,扁豆是膳食蛋白质的重要来源,被认为是全球粮食和营养安全的重要支柱。这种作物主要在干旱和半干旱地区种植,面临不同的非生物胁迫。干旱胁迫是一种多基因胁迫,对扁豆作物的产量构成了重大威胁。它对扁豆的种子萌发、水分关系性状、光合机械、代谢产物、种子发育、质量和产量都有负面影响。植物发展出多种复杂的生理和分子保护机制,以抵御干旱胁迫。这些复杂的网络能够增强细胞在极端缺水条件下生存的潜力。因此,需要采用适当的缓解干旱胁迫的新型现代方法来提高小扁豆的产量。目前现有的生物技术,如转录组学、基因组学、蛋白质组学、代谢组学、CRISPR/Cas9(簇状规则间隔短回文重复序列/cas9),以及 QTLs(数量性状位点)、蛋白质和耐旱基因的检测,在植物育种家开发气候抗逆性小扁豆品种的过程中得到了重视。在这篇综述中,我们认真阐述了干旱对小扁豆的影响、植物耐旱的机制以及小扁豆应对干旱的奥米克方法的贡献,为提高小扁豆的产量和改善对非生物胁迫的抗性提供了深刻的见解。我们希望这篇最新综述能直接帮助小扁豆育种者开发抗干旱胁迫的能力。
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来源期刊
CiteScore
7.10
自引率
0.00%
发文量
126
期刊介绍: Founded in 1995, Physiology and Molecular Biology of Plants (PMBP) is a peer reviewed monthly journal co-published by Springer Nature. It contains research and review articles, short communications, commentaries, book reviews etc., in all areas of functional plant biology including, but not limited to plant physiology, biochemistry, molecular genetics, molecular pathology, biophysics, cell and molecular biology, genetics, genomics and bioinformatics. Its integrated and interdisciplinary approach reflects the global growth trajectories in functional plant biology, attracting authors/editors/reviewers from over 98 countries.
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