揭示氯化钠胁迫下嫁接在不同柑橘砧木上的甜橙品种 Pusa Sharad 的代谢组学和抗氧化潜力

IF 6.8 Q1 PLANT SCIENCES Plant Stress Pub Date : 2024-08-10 DOI:10.1016/j.stress.2024.100562
Kripa Shankar , Om Prakash Awasthi , Supradip Saha , Jai Prakash , Renu Pandey , Theivanai Murugan , Aria Dolatabadian
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引用次数: 0

摘要

砧木作为嫁接材料可通过改变不同基因型、栽培品种或物种的生理、代谢物和基因表达模式来减轻氯化钠(NaCl)胁迫。在这项研究中,我们调查了嫁接到不同砧木上的甜橙栽培品种 Pusa Sharad(PS)的抗氧化和代谢反应:这些砧木包括:Jatti Khatti (JK)、X-639 (X9)、CRH-12 (C12)、NRCC-1 (N1)、NRCC-2 (N2)、NRCC-3 (N3)、NRCC-4 (N4)、NRCC-5 (N5)、Troyer citrange (TC)、CRH-47 (C47) 和 Cleopatra mandarin (CM)。在不同盐度胁迫水平下对这些反应进行了评估。分析了生化参数,包括糖、脯氨酸、酚、可溶性蛋白、过氧化氢(H2O2)、超氧自由基(O2-)、脂质过氧化、过氧化氢酶(CAT)、超氧化物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)、谷胱甘肽还原酶(GR)、过氧化物酶(POD)、维生素 C、维生素 E、有机酸和脂肪酸。结果表明,在嫁接到 TC、JK、N2 和 C12 砧木上的 PS 中,H2O2、O2- 和丙二醛(MDA)的积累呈上升趋势。相反,在 60 mM NaCl 胁迫下,嫁接到 CM、X9 和 C47 上的 PS 的 CAT、SOD、APX、维生素 C 和维生素 E 含量明显较高。代谢组学分析表明,在 NaCl 胁迫增加的情况下,在代谢调整中起关键作用的有曲哈糖、棉子糖、蔗糖、D-半乳糖、肌醇、哌嗪、乙酸、丙二酸、棕榈酸、硬脂酸和戊酸。此外,与接枝在 JK、C12、N2、N4、N5 或 TC 上的 PS 相比,接枝在 CM、C47、X9、N1 或 N3 上的 PS 对 NaCl 的耐受性更强,使这些组合对 60 mM NaCl 浓度的适应性更高。这项研究强调了潜在代谢物的作用,以及它在通过嫁接到耐NaCl砧木上增强耐NaCl能力方面的用途。
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Unravelling metabolomics and antioxidant potential of sweet orange cultivar Pusa Sharad grafted on various citrus rootstocks under sodium chloride stress

Rootstock as grafting material mitigates sodium chloride (NaCl) stress by altering physiological, metabolite, and gene expression patterns across different genotypes, cultivars, or species. In this study, we investigated the antioxidant and metabolic responses of sweet orange cultivar Pusa Sharad (PS) grafted onto various rootstocks: Jatti Khatti (JK), X–639 (X9), CRH–12 (C12), NRCC–1 (N1), NRCC–2 (N2), NRCC–3 (N3), NRCC–4 (N4), NRCC–5 (N5), Troyer citrange (TC), CRH–47 (C47), and Cleopatra mandarin (CM). These responses were assessed under different salinity stress levels. Biochemical parameters, including sugars, proline, phenol, soluble protein, hydrogen peroxide (H2O2), superoxide radicals (O2), lipid peroxidation, catalase (CAT), superoxide dismutase (SOD), ascorbate peroxidase (APX), glutathione reductase (GR), peroxidase (POD), vitamin C, vitamin E, organic acids, and fatty acids were analysed. Results demonstrated that the accumulation of H2O2, O2, and malondialdehyde (MDA) was upregulated in PS grafted onto the TC, JK, N2, and C12 rootstocks. Conversely, the CAT, SOD, APX, vitamin C, and vitamin E contents were notably higher in PS grafted onto CM, X9, and C47 under 60 mM NaCl stress. Metabolomic analysis indicated that trehalose, raffinose, sucrose, D-galactose, myo-inositol, piperazine, acetic acid, malonic acid, palmitic acid, stearic acid, and pentanoic acid played crucial roles in metabolic adjustments under increasing NaCl stress. Furthermore, PS grafted onto CM, C47, X9, N1, or N3 showed greater tolerance to NaCl compared to those grafted onto JK, C12, N2, N4, N5, or TC, making these combinations adaptable upto 60 mM NaCl concentrations. This study highlights the role of potential metabolites and its use in enhancing NaCl tolerance through grafting onto tolerant rootstocks.

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来源期刊
Plant Stress
Plant Stress PLANT SCIENCES-
CiteScore
5.20
自引率
8.00%
发文量
76
审稿时长
63 days
期刊介绍: The journal Plant Stress deals with plant (or other photoautotrophs, such as algae, cyanobacteria and lichens) responses to abiotic and biotic stress factors that can result in limited growth and productivity. Such responses can be analyzed and described at a physiological, biochemical and molecular level. Experimental approaches/technologies aiming to improve growth and productivity with a potential for downstream validation under stress conditions will also be considered. Both fundamental and applied research manuscripts are welcome, provided that clear mechanistic hypotheses are made and descriptive approaches are avoided. In addition, high-quality review articles will also be considered, provided they follow a critical approach and stimulate thought for future research avenues. Plant Stress welcomes high-quality manuscripts related (but not limited) to interactions between plants and: Lack of water (drought) and excess (flooding), Salinity stress, Elevated temperature and/or low temperature (chilling and freezing), Hypoxia and/or anoxia, Mineral nutrient excess and/or deficiency, Heavy metals and/or metalloids, Plant priming (chemical, biological, physiological, nanomaterial, biostimulant) approaches for improved stress protection, Viral, phytoplasma, bacterial and fungal plant-pathogen interactions. The journal welcomes basic and applied research articles, as well as review articles and short communications. All submitted manuscripts will be subject to a thorough peer-reviewing process.
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