Exogenous nitric oxide extends longevity in cut Lilium tigrinum flowers by orchestrating biochemical and molecular aspects.

IF 2.6 4区 生物学 Q2 PLANT SCIENCES Functional Plant Biology Pub Date : 2024-11-01 DOI:10.1071/FP24202
Moonisah Aftab, Haris Yousuf Lone, Aijaz A Wani, Mohamad Arif Zargar, Inayatullah Tahir
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Abstract

Senescence represents a developmentally orchestrated and precisely regulated cascade of events, culminating in the abscission of plant organs and ultimately leading to the demise of the plant or its constituent parts. In this study, we observed that senescence in cut Lilium tigrinum flowers is induced by elevated ABA levels and the hyperactivation of lipoxygenase (LOX) activity. This cascade increased ROS concentrations, heightened oxidative damage, and disrupted cellular redox equilibrium. This was evidenced by elevated lipid peroxidation, attenuated antioxidant machinery, and reduced membrane stability index (MSI). Despite its known role in delaying flower senescence, the specific biochemical and molecular mechanisms by which nitric oxide (NO) regulates senescence in cut L. tigrinum flowers are not fully elucidated. Specifically, the interactions between NO signaling and ABA metabolism, the regulation of protease activity, and the influence of NO-mediated ROS scavenging, senescence-associated gene expression requires further exploration. Exogenous application of sodium nitroprusside (SNP), a source of NO, mitigated senescence in L. tigrinum cut flowers by upregulating the activity of superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX) and reducing the LOX activity, an indicator of lipid peroxidation. SNP treatment also downregulated the relative expression of senescence-associated gene (SAG12 ),lipoxygenase 1 (LOX1 ), and abscisic aldehyde oxidase 3 (AAO3 ). NO also upregulated defender against apoptotic death 1 (DAD1 ) expression correlated with minimized protease activity and reduced α-amino acid content in SNP-treated tepals. This regulation was accompanied by increased contents of sugars, proteins and phenols and reduced abscisic acid content, which collectively delayed the senesecence and enhanced the longevity of L. tigrinum cut flowers. This study demonstrates that exogenous SNP application can effectively mitigate senescence in cut L. tigrinum flowers by modulating antioxidant enzyme activities, reducing oxidative stress, and regulating the expression of key senescence-associated genes. This study unravels the complex molecular networks involved in NO-mediated senescence delay, which may lead to the development of innovative approaches for improving flower longevity.

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外源性一氧化氮通过协调生物化学和分子方面的作用延长了百合切花的寿命。
衰老是一连串经过精心策划和精确调控的发育过程,其高潮是植物器官的脱落,最终导致植物或其组成部分的消亡。在这项研究中,我们观察到,ABA 水平的升高和脂氧合酶(LOX)活性的过度激活诱导了百合切花的衰老。这种级联反应增加了 ROS 浓度,加剧了氧化损伤,破坏了细胞的氧化还原平衡。具体表现为脂质过氧化反应加剧、抗氧化机制减弱以及膜稳定性指数(MSI)降低。尽管一氧化氮(NO)在延缓花朵衰老方面的作用众所周知,但一氧化氮调节虎尾兰切花衰老的具体生化和分子机制尚未完全阐明。具体来说,NO 信号传导与 ABA 代谢之间的相互作用、蛋白酶活性的调控以及 NO 介导的 ROS 清除、衰老相关基因表达的影响都需要进一步探索。通过上调超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)的活性以及降低脂质过氧化指标 LOX 的活性,外源施用硝普钠(SNP)(NO 的一种来源)减轻了虎尾兰切花的衰老。SNP 处理还下调了衰老相关基因(SAG12)、脂氧合酶 1(LOX1)和脱落酸醛氧化酶 3(AAO3)的相对表达。NO 还能上调抗凋亡防御因子 1(DAD1)的表达,这与 SNP 处理的花被片中蛋白酶活性降低和 α-氨基酸含量减少有关。这种调节还伴随着糖、蛋白质和酚类含量的增加以及脱落酸含量的减少,它们共同延缓了虎尾兰切花的衰老并延长了其寿命。本研究表明,外源 SNP 的应用可通过调节抗氧化酶活性、减少氧化应激和调控关键衰老相关基因的表达,有效缓解虎尾兰切花的衰老。这项研究揭示了氮氧化物介导的衰老延缓所涉及的复杂分子网络,可能有助于开发提高花卉寿命的创新方法。
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来源期刊
Functional Plant Biology
Functional Plant Biology 生物-植物科学
CiteScore
5.50
自引率
3.30%
发文量
156
审稿时长
1 months
期刊介绍: Functional Plant Biology (formerly known as Australian Journal of Plant Physiology) publishes papers of a broad interest that advance our knowledge on mechanisms by which plants operate and interact with environment. Of specific interest are mechanisms and signal transduction pathways by which plants adapt to extreme environmental conditions such as high and low temperatures, drought, flooding, salinity, pathogens, and other major abiotic and biotic stress factors. FPB also encourages papers on emerging concepts and new tools in plant biology, and studies on the following functional areas encompassing work from the molecular through whole plant to community scale. FPB does not publish merely phenomenological observations or findings of merely applied significance. Functional Plant Biology is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science. Functional Plant Biology is published in affiliation with the Federation of European Societies of Plant Biology and in Australia, is associated with the Australian Society of Plant Scientists and the New Zealand Society of Plant Biologists.
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Overexpression of AtNHX1 increases leaf potassium content by improving enrichment capacity in tobacco (Nicotiana tabacum) roots. Exogenous nitric oxide extends longevity in cut Lilium tigrinum flowers by orchestrating biochemical and molecular aspects. Overexpression of HvVDE gene improved light protection in transgenic tobacco (Nicotiana tabacum). High-throughput phenotyping of soybean (Glycine max) transpiration response curves to rising atmospheric drying in a mapping population. Evaluating non-photochemical quenching (NPQ) kinetics and photosynthetic efficiency in cassava (Manihot esculenta) subjected to variable high light conditions.
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