M. Musienko, Ya.M. Gadzalo, M. Kovalenko, L. Batsmanova, Yevheniia Konotop, N. Taran
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The development of lipid peroxidation processes under stress conditions was observed only in the cv. Trypilska seedlings. It was established that proline content in common wheat seedlings of both cultivars under stress had signifi cant (10 : 1) predominance in roots, while in roots and shoots of emmer seedlings proline content\nincreased equally. SOD activity in the leaves of the studied cultivars under stress conditions was not changed. At the same time, an increase of SOD activity by 30 % under osmotic stress was shown in the roots of common wheat of cv. Favorytka, while it decreased by 25 % in the roots of cv. Trypilska. It was established that CAT activity in the roots of both cultivars of common wheat decreased by 25 and 38 %, respectively, whereas in emmer of cv. Holikovska this parameter increased by 35 % under osmotic stress. Presowing treatment using a colloidal solution of a mixture of biogenic metal nanoparticles contributed to the induction of SOD activity in the roots of cv. Favorytka, CAT activity in the leaves of cv. Trypilska, and CAT activity in the roots and leaves of cv. Holikovska compared to non-treated plants. It should be noted that the treatment of plants with metal nanoparticles promoted the restoration of CAT activity in the roots under osmotic stress conditions to the level of the control plants in both\nwheat varieties. Conclusions. It was established that osmotic stress provoked the development of oxidative processes and inhibition of the activities of antioxidant enzymes, in particular, SOD and CAT, in the seedling roots of common wheat cultivars. It was shown that emmer wheat seedlings of cv. Holikovska can maintain redox homeostasis and avoid oxidative damage under osmotic stress conditions. It was found that the seedlings of common wheat and emmer demonstrated different strategies of osmotic regulation under osmotic stress, which is confi rmed, in particular, at the level of proline accumulation. It was shown that the application of colloidal solutions of metal nanoparticles induced an antioxidant protection system and reduced the oxidative processes, which are inevitable effects of drought. The obtained results indicate that common wheat cultivars are more susceptible to drought compared to emmer wheat of cv. Holikovska.","PeriodicalId":55933,"journal":{"name":"Agricultural Science and Practice","volume":null,"pages":null},"PeriodicalIF":0.4000,"publicationDate":"2019-12-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Adaptation reactions of common wheat (Triticum aestivum L.) and emmer (T. dicoccum Schrank ex Schübl.) seedlings under osmotic stress and treatment with metal nanoparticles\",\"authors\":\"M. Musienko, Ya.M. Gadzalo, M. Kovalenko, L. Batsmanova, Yevheniia Konotop, N. Taran\",\"doi\":\"10.15407/agrisp6.03.003\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Aim. To study the adaptive reactions of common wheat (Triticum aestivum L.) and emmer (T. dicoccum Schrank ex Schübl.) seedlings using the parameters of oxidative homeostasis under polyethylene glycol (PEG)-induced osmotic stress and metal (Fe, Cu, Mn, Zn) mixture nanoparticles treatment. Methods. Biochemical assays: spectrophotometric measurements of the activity of antioxidant enzymes (SOD, CAT), the content of proline and products of lipid peroxidation; mathematical statistics. Results. The state of oxidative homeostasis of common wheat (cv. Favorytka, cv. Trypilska) and emmer (cv. Holikovska) seedlings under PEG-induced osmotic stress conditions was investigated and analyzed. The development of lipid peroxidation processes under stress conditions was observed only in the cv. Trypilska seedlings. It was established that proline content in common wheat seedlings of both cultivars under stress had signifi cant (10 : 1) predominance in roots, while in roots and shoots of emmer seedlings proline content\\nincreased equally. SOD activity in the leaves of the studied cultivars under stress conditions was not changed. At the same time, an increase of SOD activity by 30 % under osmotic stress was shown in the roots of common wheat of cv. Favorytka, while it decreased by 25 % in the roots of cv. Trypilska. It was established that CAT activity in the roots of both cultivars of common wheat decreased by 25 and 38 %, respectively, whereas in emmer of cv. Holikovska this parameter increased by 35 % under osmotic stress. Presowing treatment using a colloidal solution of a mixture of biogenic metal nanoparticles contributed to the induction of SOD activity in the roots of cv. Favorytka, CAT activity in the leaves of cv. Trypilska, and CAT activity in the roots and leaves of cv. Holikovska compared to non-treated plants. It should be noted that the treatment of plants with metal nanoparticles promoted the restoration of CAT activity in the roots under osmotic stress conditions to the level of the control plants in both\\nwheat varieties. Conclusions. 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引用次数: 0
摘要
目标利用聚乙二醇(PEG)诱导的渗透胁迫和金属(Fe,Cu,Mn,Zn)混合物纳米颗粒处理下的氧化稳态参数,研究普通小麦(Triticum aestivum L.)和普通小麦(T.dicocum Schrank ex Schübl.)幼苗的适应反应。方法。生化测定:分光光度法测定抗氧化酶(SOD、CAT)活性、脯氨酸含量和脂质过氧化产物;数理统计。后果对普通小麦(Favorytka,Trypilska)和二熟小麦(Holikovska)幼苗在PEG诱导的渗透胁迫条件下的氧化稳态进行了研究和分析。在胁迫条件下,仅在Trypilska幼苗中观察到脂质过氧化过程的发展。结果表明,在胁迫条件下,两个品种的普通小麦幼苗中脯氨酸含量在根中具有显著的(10∶1)优势,而在二熟小麦幼苗的根和芽中脯氨酸含量平均增加。在胁迫条件下,研究品种叶片中SOD活性没有变化。同时,在渗透胁迫下,Favorytka普通小麦根系的SOD活性增加了30%,而Trypilska普通小麦根系则降低了25%。结果表明,在渗透胁迫下,两个普通小麦品种根系的CAT活性分别下降了25%和38%,而在实粒小麦品种Holikovska中,这一参数增加了35%。与未处理的植物相比,使用生物金属纳米颗粒混合物的胶体溶液的预处理有助于诱导Favorytka的根中的SOD活性、Trypilska的叶中的CAT活性以及Holikovska的根和叶中的CAT活性。应该注意的是,在两个小麦品种中,用金属纳米颗粒处理植物促进了渗透胁迫条件下根系中CAT活性恢复到对照植物的水平。结论。研究表明,渗透胁迫促进了普通小麦幼苗根系氧化过程的发展,并抑制了抗氧化酶,特别是SOD和CAT的活性。结果表明,在渗透胁迫条件下,Holikovska二熟小麦幼苗能保持氧化还原稳态,避免氧化损伤。研究发现,普通小麦和普通小麦幼苗在渗透胁迫下表现出不同的渗透调节策略,特别是在脯氨酸积累水平上。结果表明,金属纳米颗粒胶体溶液的应用诱导了抗氧化保护系统,减少了氧化过程,这是干旱不可避免的影响。结果表明,普通小麦品种比Holikovska普通小麦品种更容易受到干旱的影响。
Adaptation reactions of common wheat (Triticum aestivum L.) and emmer (T. dicoccum Schrank ex Schübl.) seedlings under osmotic stress and treatment with metal nanoparticles
Aim. To study the adaptive reactions of common wheat (Triticum aestivum L.) and emmer (T. dicoccum Schrank ex Schübl.) seedlings using the parameters of oxidative homeostasis under polyethylene glycol (PEG)-induced osmotic stress and metal (Fe, Cu, Mn, Zn) mixture nanoparticles treatment. Methods. Biochemical assays: spectrophotometric measurements of the activity of antioxidant enzymes (SOD, CAT), the content of proline and products of lipid peroxidation; mathematical statistics. Results. The state of oxidative homeostasis of common wheat (cv. Favorytka, cv. Trypilska) and emmer (cv. Holikovska) seedlings under PEG-induced osmotic stress conditions was investigated and analyzed. The development of lipid peroxidation processes under stress conditions was observed only in the cv. Trypilska seedlings. It was established that proline content in common wheat seedlings of both cultivars under stress had signifi cant (10 : 1) predominance in roots, while in roots and shoots of emmer seedlings proline content
increased equally. SOD activity in the leaves of the studied cultivars under stress conditions was not changed. At the same time, an increase of SOD activity by 30 % under osmotic stress was shown in the roots of common wheat of cv. Favorytka, while it decreased by 25 % in the roots of cv. Trypilska. It was established that CAT activity in the roots of both cultivars of common wheat decreased by 25 and 38 %, respectively, whereas in emmer of cv. Holikovska this parameter increased by 35 % under osmotic stress. Presowing treatment using a colloidal solution of a mixture of biogenic metal nanoparticles contributed to the induction of SOD activity in the roots of cv. Favorytka, CAT activity in the leaves of cv. Trypilska, and CAT activity in the roots and leaves of cv. Holikovska compared to non-treated plants. It should be noted that the treatment of plants with metal nanoparticles promoted the restoration of CAT activity in the roots under osmotic stress conditions to the level of the control plants in both
wheat varieties. Conclusions. It was established that osmotic stress provoked the development of oxidative processes and inhibition of the activities of antioxidant enzymes, in particular, SOD and CAT, in the seedling roots of common wheat cultivars. It was shown that emmer wheat seedlings of cv. Holikovska can maintain redox homeostasis and avoid oxidative damage under osmotic stress conditions. It was found that the seedlings of common wheat and emmer demonstrated different strategies of osmotic regulation under osmotic stress, which is confi rmed, in particular, at the level of proline accumulation. It was shown that the application of colloidal solutions of metal nanoparticles induced an antioxidant protection system and reduced the oxidative processes, which are inevitable effects of drought. The obtained results indicate that common wheat cultivars are more susceptible to drought compared to emmer wheat of cv. Holikovska.