The application of biostimulants Regoplant and Stimpo to increase wheat resistance to salinity conditions

V. Tsygankova, S. Spivak, O. M. Shysha, N. Pastukhova, A. Yemets, Y. Blume
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Abstract

aim. Investigation of bioprotective action of polycomponent biostimulants of natural origin Regoplant and Stimpo according to physiological and molecular genetic parameters of resistance of winter wheat plants (Triticum aestivum L.) varieties Antonivka ta Hoduval'nytsya odes'ka to the salinity conditions. Methods. The physiological parameters of resistance of experimental wheat plants obtained from seeds treated and untreated with solutions of Regoplant and Stimpo biostimulants used at concentrations of 50 μl/L and 75 μl/L grown under salt stress on 0,1 M sodium chloride solution were studied. Using Dot blotting method the degree of hybridization between cytoplasmic si/miRNA isolated from cells of experimental wheat plants grown under salinity conditions and mRNA of control plants grown in the absence of salinity conditions was determined. In the wheat embryo cell-free system of protein synthesis in vitro the silencing activity of si/miRNA on the template of mRNA isolated from cells of experimental wheat plants grown under salt stress conditions and control plants was studied. Results. It was found that the use of biostimulants Regoplant and Stimpo by soaking the seeds of wheat plants for 24 hours at concentrations of 50 μl/L and 75 μl/L improved the physiological parameters of wheat plants grown under salt stress conditions, which increased on average: seed germination – up to 69-75%, the length of seedlings – up to 28-37%, the length of roots – up to 41-42%, leaf area – up to 25-38%, the raw weight of seedlings – up to 48-53%, the dry weight of seedlings – up to 37-46 %, respectively, compared to control. The Dot-blot hybridization method showed that the largest decrease in the percentage of hybridized mRNA and si/miRNA molecules was observed in experimental wheat plants grown from seeds treated with Regoplant and Stimpo biostimulants under salt stress conditions - up to 66-75%, respectively, compared to control. The increase of silencing activity of si/miRNA on the template of mRNA isolated from experimental wheat plants obtained from seeds treated with Regoplant and Stimpo biostimulants and grown under salt stress conditions was shown to be 39-42%, respectively, compared to control. Conclusions. The use of biostimulants Regoplant and Stimpo in concentrations of 50 μl/L and 75 μl/L for presowing seed treatment contributes to the increase of the resistance of winter wheat plants to salinity conditions. Keywords: Triticum aestivum L., polycomponent biostimulants, resistance of wheat to salinity conditions, RNA interference.
生物刺激剂Regoplant和Stimpo在提高小麦耐盐性中的应用
的目标。根据冬小麦品种Antonivka ta Hoduval'nytsya odes'ka对盐碱条件抗性的生理和分子遗传参数,研究天然来源Regoplant和Stimpo多组分生物刺激剂的生物保护作用方法。用浓度为50 μl/L和75 μl/L的Regoplant和Stimpo两种生物刺激素在0.1 M氯化钠盐胁迫下生长,研究了处理和未处理小麦种子的抗性生理参数。采用点印迹法测定了盐胁迫下小麦实验植株细胞质si/miRNA与无盐胁迫下对照植株mRNA的杂交程度。在小麦胚无细胞体外蛋白质合成系统中,研究了si/miRNA对盐胁迫条件下小麦实验植株和对照植株细胞分离的mRNA模板的沉默活性。结果。结果表明,在50 μl/L和75 μl/L浓度下,用Regoplant和Stimpo生物刺激剂浸泡小麦种子24 h,可改善盐胁迫条件下小麦植株的生理参数,平均提高;与对照相比,种子发芽率达69-75%,幼苗长度达28-37%,根系长度达41-42%,叶面积达25-38%,幼苗生重达48-53%,幼苗干重达37- 46%。斑点杂交方法显示,在盐胁迫条件下,用Regoplant和Stimpo生物刺激剂处理的小麦种子,其杂交mRNA和si/miRNA分子的百分比下降幅度最大,分别为66-75%。经Regoplant和Stimpo生物刺激剂处理和盐胁迫条件下生长的小麦实验植株的mRNA模板上的si/miRNA沉默活性分别比对照提高了39-42%。结论。在播种前施用浓度为50 μl/L和75 μl/L的生物刺激素Regoplant和Stimpo有利于提高冬小麦植株的耐盐性。关键词:小麦,多组分生物刺激素,小麦耐盐性,RNA干扰
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