Study of transgen functionality in T2 biotechnological plants of winter wheat on the sign of osmoresistance

A. Komisarenko, S. Mykhalska, V. M. Kurchii
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Abstract

Aim. To investigate the functionality of the transgene in the seed generation (T2) of genetically modified winter wheat plants (Triticum aestivum L.) in terms of productivity in conditions of normal and insufficient water supply. Methods. Determination of yield structure and protein content. Results. The indicators of productivity of control and T2 biotechnological plants under normal growing conditions and water deficit are analyzed. The quantitative composition of protein in the conditions before and after osmotic stress and in the period of rehydration was determined. Conclusions. It is shown that under the action of water deficit there is a decrease in productivity for all studied plants. In this case, genetically modified plants had an advantage in the main elements of the crop structure over the original form under both analyzed growing conditions. It was found that under normal conditions of hydration, the amount of protein in the studied plants did not differ significantly. An increase in its content in control plants under the action of osmotic stress was recorded, which may indicate the synthesis of stress response proteins. Decreased protein content during rehydration may indicate the passage of normal metabolic processes. Keywords: Triticum aestivum L., biotechnological plants, proline dehydrogenase gene, structural analysis of yield, osmostability.
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冬小麦T2生物技术植株抗渗透标志的转基因功能研究
的目标。研究在正常和缺水条件下转基因冬小麦(Triticum aestivum L.)种子代(T2)中转基因基因的生产功能。方法。产量结构和蛋白质含量的测定。结果。分析了正常生长条件和水分亏缺条件下对照和T2生物技术植株的生产力指标。测定了渗透胁迫前后和复水期蛋白质的定量组成。结论。结果表明,在水分亏缺的作用下,所有研究植物的生产力都有所下降。在这种情况下,在两种分析的生长条件下,转基因植物在作物结构的主要元素上比原始形式具有优势。结果表明,在正常水化条件下,所研究植物的蛋白质含量差异不显著。在渗透胁迫作用下,对照植株中其含量有所增加,这可能表明胁迫响应蛋白的合成。补液过程中蛋白质含量的降低可能表明正常代谢过程的通过。关键词:小麦,生物技术植物,脯氨酸脱氢酶基因,产量结构分析,渗透稳定性
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