On the mode of action of Origanum vulgare spp. hirtum methanolic extract and essential oil on Chlamydomonas reinhardtii

Q4 Environmental Science

BioRisk Pub Date : 2022-04-21 DOI:10.3897/biorisk.17.77313

M. D. Todorova, P. Parvanova, T. Todorova, Georgi D. Dronchev, M. Nikolova, S. Berkov, S. Chankova

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Abstract

Aim: To reveal whether methanolic extract and essential oil from Origanum vulgare subsp. hirtum in doses causing even low levels of mortality in aphids, would have harmful effects on plants-genotoxic, mutagenic and/or DNA damaging. Materials and methods: Aerial parts of Origanum vulgare ssp. hirtum from the ex-situ collection of IBER, BAS during flowering were collected. Extraction and isolation procedures, as well as GC/MS analysis of essential oil and methanolic extract were performed by standard protocols. The components were identified by comparing their relative retention times to the retention times of authentic standards, and with mass spectra with the NIST. Test system: Chlamydomonas reinhardtii strain 137 C+ (WT). Endpoints: “clonal” assay, the test of “visible mutations”, constant field gel electrophoresis. Statistics: GraphPad Prism version 6.04 (San Diego, USA) and One-way Analysis of Variance ANOVA with multiple comparisons using the Tukey method. Results: A good correlation was observed between chemical composition of essential oil and methanolic extract, and their mode of action. Our genotoxic and double strand breaks results demonstrated mild genotoxic and statistically non-significant DNA damaging potential of methanolic extract and concentration-dependent well - expressed genotoxic and DNA damaging potential of essential oil. A good relationship between increased double strand breaks levels and decreased survival might be related to one of the main constituents of essential oil, suspected to be carvacrol. No mutagenic effect for ME and EO was found. Conclusion: Well-expressed toxic/genotoxic capacity of essential oil, as well as its capacity to damage DNA inducing double strand breaks, but the absence of mutagenic potential, could be considered as a good reason to recommend Origanum vulgare subsp. hirtum essential oil as a promising candidate for purposes of “green” technologies.

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On土豆泥甲醇提取物和精油对莱茵衣藻的作用模式

目的:研究土一枝的醇提物和挥发油是否具有抗氧化活性。即使是在蚜虫中造成低死亡率的剂量的hirtum，也会对植物产生有害影响——基因毒性、诱变和/或DNA破坏。材料与方法:土一枝的地上部分。从IBER迁地采集地中收集开花期间的hirtum, BAS。按标准方案进行提取、分离、挥发油和甲醇提取物的GC/MS分析。通过将其相对保留时间与正品标准品的保留时间进行比较，并与NIST的质谱进行比较，确定了这些成分。测试系统:莱茵衣藻菌株137c + (WT)。终点:“克隆”检测，“可见突变”检测，恒场凝胶电泳。统计学:GraphPad Prism version 6.04 (San Diego, USA)，采用Tukey方法进行多重比较的单因素方差分析。结果:挥发油与甲醇提取物的化学成分及其作用方式具有良好的相关性。我们的基因毒性和双链断裂结果表明，甲醇提取物具有轻微的基因毒性和统计学上不显著的DNA损伤潜力，而精油具有浓度依赖性的良好表达的基因毒性和DNA损伤潜力。增加的双链断裂水平和降低的存活率之间的良好关系可能与精油的主要成分之一有关，怀疑是香芹酚。对ME和EO均无诱变作用。结论:精油具有良好的毒性/遗传毒性，且具有损伤DNA诱导双链断裂的能力，但不具有致突变的潜力，可作为推荐土一枝的一个很好的理由。Hirtum精油作为“绿色”技术的一个有前途的候选者。

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