亚胺类化合物:一类新的植物生长调节剂

A. Lukatkin, Anastasia S. Sokolova, A. Lukatkin, I. A. Cherepanov, N. Kalganova, S. K. Moiseev
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引用次数: 0

摘要

在全球气候变化的背景下,主要谷类作物产量的增加需要对植物产生额外的影响。天然和合成植物生长调节剂(pgr)被用于提高植物生产力和降低非生物胁迫对植物的伤害。人们越来越需要新型的高效植物生长刺激剂,以显示其低剂量的作用,而不是对环境构成威胁或损害作物质量。sydone -亚胺(SI)的衍生物是一种具有1,2,3-恶二唑核的中离子杂环,迄今为止已被用作药物,但尚未用于农业应用。一些SI衍生物最近被发现具有PGR性质。本文报道了九种SI衍生物在杂环的N(3)、C(4)和N6位置上具有可变取代基的PGR势的研究,旨在揭示该家族的“分子结构-PGR活性”关系。在较宽的浓度范围(10−9 ~ 10−4 mol/L)下,对冬小麦(Triticum aestivum L.,两个品种)和玉米(Zea mays L.,两个杂交品种)种子进行萌发试验。所有化合物都能影响萌发体轴向器官的生长,对小麦和玉米的生长刺激或抑制作用及其速率有很大的不同,在许多情况下,对根和芽也有很大的不同。此外,在许多情况下,揭示了明显的浓度依赖效应。阐明了影响其生长调节性能的分子结构特征。在发芽试验中表现出促生长作用的化合物4、6、7和8,以适当的浓度对同一作物进行盆栽试验。对于所有化合物,实验显示对根(高达80%)、芽(高达112%)、叶面积(高达113%)、根鲜重(高达83%)和植物地上部分(高达87%)的生长有刺激作用,或仅对这些参数中的某些参数有刺激作用。研究结果表明,SI衍生物在促进谷类作物生长方面具有良好的应用前景。
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Sydnone Imines: A Novel Class of Plant Growth Regulators
An increase in the yield of the main cereal crops in the context of global climate changes requires additional impacts on plants. Natural and synthetic plant growth regulators (PGRs) are used to increase plant productivity and reduce the injury level caused by abiotic stressors. There is a growing need for novel highly effective plant growth stimulants to exhibit their effects at low doses and to not pose an environmental threat or injury to the crop quality. The derivatives of sydnone imine (SI), a mesoionic heterocycle possessing a 1,2,3-oxadiazole core, have been used as medicines until now but have not been used for agricultural applications. Some SI derivatives have recently been found to exhibit PGR properties. Herein, we report on the study of the PGR potential of nine SI derivatives bearing variable substituents at N(3), C(4), and N6 positions of the heterocycle designed to disclose the “molecular structure-PGR activity” relationship in this family. The SI derivatives were used in a wide concentration range (10−9–10−4 mol/L) for a pre-sowing treatment of winter wheat (Triticum aestivum L., two cultivars) and maize (Zea mays L., two hybrids) seeds in germinating experiments. All compounds were found to affect the growth of the axial organs of germinants, with the growth-stimulating or -inhibitory effect as well as its rate being considerably different for wheat and maize and, in many cases, also for roots and shoots. In addition, a pronounced concentration dependence of the effect was disclosed for many cases. The features of the molecular structure of SIs affecting their growth-regulating properties were elucidated. Compounds 4, 6, 7, and 8, which had exhibited a growth-promoting effect in germinating experiments, were used at appropriate concentrations for pot experiments on the same crops. For all compounds, the experiments showed a stimulating effect on the growth of roots (up to 80%), shoots (up to 112%), leaf area (up to 113%), fresh weights of roots (up to 83%), and aerial parts of the plants (up to 87%) or only on some of these parameters. The obtained results show a healthy outlook for the use of SI derivatives as promoting agents for improving the growth of cereal crop plants.
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