利用蓝细菌提高薄荷醇生物合成相关基因的表达及精油产量
Enhancement of Essential Oil Production and Expression of Some Menthol Biosynthesis-Related Genes in Using Cyanobacteria.
作者信息
Ghotbi-Ravandi Ali Akbar, Shariatmadari Zeinab, Riahi Hossein, Hassani Seyedeh Batool, Heidari Fatemeh, Ghorbani Nohooji Majid
机构信息
Department of Plant Sciences and Biotechnology, Faculty of Life Sciences and Biotechnology, Shahid Beheshti University, Tehran, Iran.
Medicinal Plants Research Center, Institute of Medicinal Plants, ACECR, Karaj, Iran.
出版信息
Iran J Biotechnol. 2023 Oct 1;21(4):e3550. doi: 10.30498/ijb.2023.368377.3550. eCollection 2023 Oct.
BACKGROUND
L. is one of the most important aromatic crops and is cultivated worldwide for essential oils (EOs).
OBJECTIVES
The aim of the present study was to investigate the potential of two cyanobacteria, ISB42 and var. ISB65, as biological-elicitors to improve the growth and essential oil production of .
MATERIALS AND METHODS
In this experiment, inoculation of with cyanobacteria was performed by adding 1% cyanobacterial suspension to the soil of treated pots on the first time of planting and every 20 days thereafter. The experiment was performed in a randomized complete block design in an experimental greenhouse condition. After 90 days planting, the vegetative growth factors, the content of photosynthetic pigments, as well as the quantity and quality of EOs of treated and control plants were evaluated. Also, quantitative changes in the expression of some menthol biosynthesis-related genes were investigated.
RESULTS
Cyanobacterial application led to significant increases in growth indices including root and shoot biomass, leaf number, leaf area, node number and ramification, as well as photosynthetic pigments content. The statistical analysis showed a 41-75 % increase in some of these growth indices, especially in Nostoc-treated plants. and var. inoculation led to a 13% and 25% increase in the EOs content of , respectively. The EOs components were also affected by cyanobacterial treatments. According to the statistical analysis, Nostoc-treated plants showed the highest amount of (-)-menthone and (-)-limonene, with a 2.36 and 1.87-fold increase compared to the control. and var. inoculation also led to 40% and 98% increase in transcript level of (-)-limonene synthase gene, respectively. The expression of the (-)-menthone reductase gene, was also increased by 65% and 55% in response to and var. application, respectively.
CONCLUSIONS
Our data demonstrated that in addition to growth enhancement, these two heterocystous cyanobacteria improved the quantity and quality of EOs by up-regulating the key genes involved in the menthol biosynthetic pathway. Based on our results, these cyanobacteria can be considered valuable candidates in the formulation of low-cost and environmentally friendly biofertilizers in sustainable peppermint production.
背景
薄荷是最重要的芳香作物之一,在全球范围内种植用于生产精油(EOs)。
目的
本研究的目的是调查两种蓝藻,ISB42和ISB65变种,作为生物激发剂提高薄荷生长和精油产量的潜力。
材料与方法
在本实验中,通过在种植时首次向处理过的花盆土壤中添加1%的蓝藻悬浮液,并在之后每20天添加一次,来对薄荷接种蓝藻。实验在实验温室条件下采用随机完全区组设计进行。种植90天后,评估处理组和对照组植物的营养生长因子、光合色素含量以及精油的数量和质量。此外,还研究了一些薄荷醇生物合成相关基因表达的定量变化。
结果
施用蓝藻导致薄荷生长指标显著增加,包括根和茎生物量、叶片数量、叶面积、节数和分枝,以及光合色素含量。统计分析表明,其中一些生长指标增加了41%-75%,特别是在念珠藻处理的植物中。接种ISB42和ISB65变种分别使薄荷的精油含量增加了13%和25%。精油成分也受到蓝藻处理的影响。根据统计分析,念珠藻处理的植物中(-)-薄荷酮和(-)-柠檬烯含量最高,与对照组相比分别增加了2.36倍和1.87倍。接种ISB42和ISB65变种还分别使(-)-柠檬烯合酶基因的转录水平增加了40%和98%。响应于接种ISB42和ISB65变种,(-)-薄荷酮还原酶基因的表达也分别增加了65%和55%。
结论
我们的数据表明,除了促进生长外,这两种具异形胞的蓝藻通过上调薄荷醇生物合成途径中的关键基因,提高了精油的数量和质量。根据我们 的结果,这些蓝藻可被视为可持续薄荷生产中低成本和环境友好型生物肥料配方中有价值的候选者。
Zotero 插件