Hesari Neda, Szegő Anita, Mirmazloum Iman, Pónya Zsolt, Kiss-Bába Erzsébet, Kolozs Henriett, Gyöngyik Márta, Vasas Dominika, Papp István
Department of Plant Physiology and Plant Ecology, Institute of Agronomy, Hungarian University of Agriculture and Life Sciences, Ménesi Str. 44, 1118 Budapest, Hungary.
Division of Applied Food Crop Production, Department of Agronomy, Institute of Agronomy, Hungarian University of Agricultural and Life Sciences, Guba Sándor Str. 40, 7400 Kaposvár, Hungary.
Plants (Basel). 2023 Mar 13;12(6):1292. doi: 10.3390/plants12061292.
Nowadays open field and protected vegetable cultivation practices require and use genotypes which are precisely tailored to their intended growth environments. Variability of this kind provides a rich source of material to uncover molecular mechanisms supporting the necessarily divergent physiological traits. In this study, typical field-optimized and glasshouse-cultivated cucumber F1 hybrids were investigated, and displayed slower growth ('Joker') and faster growth ('Oitol') in seedlings. Antioxidant capacity was lower in 'Joker' and higher in 'Oitol', pointing to a potential redox regulation of growth. The growth response of seedlings to paraquat treatment indicated stronger oxidative stress tolerance in the fast-growing 'Oitol'. To test whether protection against nitrate-induced oxidative stress was also different, fertigation with increasing potassium nitrate content was applied. This treatment did not change growth but decreased the antioxidant capacities of both hybrids. Bioluminescence emission revealed stronger lipid peroxidation triggered by high nitrate fertigation in the leaves of 'Joker' seedlings. To explore the background of the more effective antioxidant protection of 'Oitol', levels of ascorbic acid (AsA), as well as transcriptional regulation of relevant genes of the Smirnoff-Wheeler biosynthetic pathway and ascorbate recycling, were investigated. Genes related to AsA biosynthesis were strongly upregulated at an elevated nitrate supply in 'Oitol' leaves only, but this was only reflected in a small increase in total AsA content. High nitrate provision also triggered expression of ascorbate-glutathion cycle genes with stronger or exclusive induction in 'Oitol'. AsA/dehydro-ascorbate ratios were higher in 'Oitol' for all treatments, with a more pronounced difference at high nitrate levels. Despite strong transcriptional upregulation of ascorbate peroxidase genes () in 'Oitol', APX activity only increased significantly in 'Joker'. This suggests potential inhibition of APX enzyme activity specifically in 'Oitol' at a high nitrate supply. Our results uncover an unexpected variability in redox stress management in cucumbers, including nitrate inducibility of AsA biosynthetic and recycling pathways in certain genotypes. Possible connections between AsA biosynthesis, recycling and nitro-oxidative stress protection are discussed. Cucumber hybrids emerge as an excellent model system for studying the regulation of AsA metabolism and the roles of AsA in growth and stress tolerance.
如今,露地和设施蔬菜种植实践需要并使用精确适应其预期生长环境的基因型。这种变异性为揭示支持必然不同生理特性的分子机制提供了丰富的材料来源。在本研究中,对典型的田间优化型和温室栽培型黄瓜F1杂交种进行了研究,其幼苗表现出生长较慢(“Joker”)和生长较快(“Oitol”)的情况。“Joker”的抗氧化能力较低,“Oitol”的抗氧化能力较高,这表明生长可能存在潜在的氧化还原调节。幼苗对百草枯处理的生长反应表明,生长较快的“Oitol”具有更强的氧化应激耐受性。为了测试对硝酸盐诱导的氧化应激的保护作用是否也不同,采用了增加硝酸钾含量的施肥处理。该处理没有改变生长,但降低了两个杂交种的抗氧化能力。生物发光显示,“Joker”幼苗叶片中高硝酸盐施肥引发了更强的脂质过氧化。为了探究“Oitol”更有效的抗氧化保护的背景,研究了抗坏血酸(AsA)水平以及Smirnoff-Wheeler生物合成途径和抗坏血酸循环相关基因的转录调控。仅在“Oitol”叶片中,与AsA生物合成相关的基因在硝酸盐供应增加时强烈上调,但这仅反映在总AsA含量的小幅增加上。高硝酸盐供应也触发了抗坏血酸-谷胱甘肽循环基因的表达,在“Oitol”中诱导更强或具有特异性。在所有处理中,“Oitol”的AsA/脱氢抗坏血酸比率较高,在高硝酸盐水平下差异更明显。尽管“Oitol”中抗坏血酸过氧化物酶基因()转录强烈上调,但APX活性仅在“Joker”中显著增加。这表明在高硝酸盐供应下,APX酶活性可能在“Oitol”中受到特异性抑制。我们的结果揭示了黄瓜氧化还原应激管理中意想不到的变异性,包括某些基因型中AsA生物合成和循环途径的硝酸盐诱导性。讨论了AsA生物合成、循环与硝基氧化应激保护之间可能的联系。黄瓜杂交种成为研究AsA代谢调控以及AsA在生长和胁迫耐受性中作用的优秀模型系统。
