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Lavandula genus is a considerable medicinal plant in pharmaceutical and cosmetics industries. Considering increasing threat of drought in the world, it is important to identify genotypes which can tolerate drought. It is also important to characterize quantity and quality of essential oils, and tolerance indicators of these genotypes against drought stress. Therefore, an experiment was conducted in Gorgan University of Agricultural Sciences and Natural Resources, Iran, during 2017 and 2018, to investigate these factors. It was a factorial experiment based on randomized complete block design with two treatments, three genotypes ( Lavandula angustifolia cv. Hidcote, Lavandula angustifolia cv. Munstead, and Lavandula stricta ), and four levels of drought stress (irrigation regimes) (I 1 : 100–90% (control), I 2 : 80–70%, I 3 : 60–50% and I 4 : 30–40% of field capacity) which was done with three repetitions. Drought increased amount of proline in leaves, antioxidant activity, activity of catalase, peroxidase, ascorbate peroxidase, and superoxide enzymes, malondialdehyde content, total flavonoids, total phenol, total sugar and essential oil percentage. The PCA analysis of different irrigation regimes showed that in the first component, the best traits are antioxidant enzymes CAT, SOD, APX, while in the second component, only the trait Catalase is the best trait. The results of PCA analysis in lavender genotypes showed that L. stricta exhibits the most affected physiological changes while trying to adjust to changes in the water status of the environment, under the imposed conditions and shows the highest resistance. But it reduced dry weight of aerial parts, relative water content of leaves, and efficacy of essential oil. Lavandula stricta genotype had the highest amount of essential oil, but the highest dry weight of the aerial parts and essential oil yield were related to L. angustifolia cv. Hidcote and L. angustifolia cv. Munstead genotypes. In all evaluated genotypes, with increasing drought stress, monoterpene compounds were decreased and sesquiterpene compounds were increased. Totally it was shown that drought effect on evaluated traits depends on genotype and nature of traits; this indicates that by choosing drought-tolerant genotypes in breeding programs, high quantity and quality of essential oil, as well as tolerance to drought stress can be achieved.

Background. Conscious patients admitted to intensive care units (ICU) suffer from anxiety and agitation for various reasons, which can affect their recovery processes. Aims. To compare the effects of lavender and Citrus aurantium essential oils on anxiety and agitation of conscious patients admitted to ICUs. Design. A randomized parallel placebo-controlled trial. Methods. One hundred and fifty conscious patients admitted to ICUs were selected by convenience sampling and were randomly divided into three groups, groups of lavender aromatherapy and Citrus aurantium aromatherapy, in addition to the routine care and inhalation of five drops of lavender or Citrus aurantium essential oils for 30 minutes. The placebo group, in addition to routine care, was provided with 5 drops of normal saline for 30 minutes. Anxiety was assessed with the state subscale of State-Trait Anxiety Inventory, and agitation was examined with Richmond Agitation-Sedation Scale before, immediately, one hour, and three hours after the intervention. Results. All three groups suffered from relatively severe state anxiety before the intervention. The level of anxiety in the lavender and Citrus aurantium groups was significantly lower than that of the placebo group immediately and three hours after the intervention (P<0.05). No significant difference was observed between the two groups of lavender and Citrus aurantium. The majority of the samples in all three groups were agitated before the intervention, but agitation of all three groups decreased after the intervention. Restless/agitation reduced significantly in all three groups. Although restless/agitation of the lavender and Citrus aurantium groups reduced more than that of the placebo, no significant difference was found between the three groups. Conclusion. The results of the present study showed the positive effects of lavender aromatherapy and Citrus aurantium aromatherapy on reducing the anxiety of patients admitted to ICUs. Relevance to Clinical Practice. Aromatherapy can be used as an effective and safe intervention to reduce anxiety in ICUs.

Background The basic helix-loop-helix (bHLH) transcription factors (TFs), as one of the largest families of TFs, are essential regulators of plant terpenoid biosynthesis and response to stresses. Lavender has more than 75 volatile terpenoids, yet few TFs have been identified to be involved in the terpenoid biosynthesis. Results Based on RNA-Seq, reverse transcription-quantitative polymerase chain reaction, and transgenic technology, this study characterized the stress-responsive transcription factor LaMYC4 regulates terpenoid biosynthesis. Methyl jasmonate (MeJA) treatment increased volatile terpenoid emission, and the differentially expressed gene LaMYC4 was isolated. LaMYC4 expression level was higher in leaf than in other tissues. The expression of LaMYC4 decreased during flower development. The promoter of LaMYC4 contained hormone and stress-responsive regulatory elements and was responsive to various treatments, including UV, MeJA treatment, drought, low temperature, Pseudomonas syringae infection, and NaCl treatment. LaMYC4 overexpression increased the levels of sesquiterpenoids, including caryophyllenes, in Arabidopsis and tobacco plants. Furthermore, the expression of crucial node genes involved in terpenoid biosynthesis and glandular trichome number and size increased in transgenic tobacco. Conclusions We have shown that the stress-responsive MYC TF LaMYC4 from ‘Jingxun 2’ lavender regulates volatile terpenoid synthesis. This study is the first to describe the cloning of LaMYC4 , and the results help understand the role of LaMYC4 in terpenoid biosynthesis.

Background Lavandula angustifolia Mill., a valuable aromatic plant, often encounters low temperature stress during its growth in Northeast China. Understanding the mechanisms behind its resistance to low temperatures is essential for enhancing this trait. Flavonoids play a vital role as stress-resistant compounds, significantly contributing to plants’ responses to low-temperature stress. However, the molecular mechanism governing flavonoid biosynthesis in L. angustifolia under low-temperature stress is remains inadequately understood. Results In this study, the physiological indexes, metabolome, and transcriptome of L. angustifolia were studied under temperatures of 30 °C, 20 °C, 10 °C, and 0 °C. The activities of peroxidase (POD) and superoxide dismutase (SOD) were notably the highest at 0 ℃, demonstrating optimal scavenging of reactive oxygen species (ROS). Among the 1150 metabolites analyzed, 52 flavonoid differential expression metabolites (DEMs) significantly increased at 10 °C and 0 °C. Furthermore, 55 differential expression genes (DEGs) involved in the flavonoid biosynthesis pathway showed significant up-regulation as the temperature dropped from 30 °C to 0 °C, indicating their role in positively regulating flavonoid biosynthesis under low temperatures. The flavonoid biosynthetic pathway was established based on key DEGs, including LaPAL - 5 , LaPAL - 11 , LaC4H - 2 , LaHCT , LaC3’H - 4 , LaCHS , LaF3PH - 3 , LaCCoAOMT - 2 , LaCCoAOMT - 3 , and LaDFR . Conserved domains predicted in 10 key proteins were identified as being responsible for catalytic functions that promote flavonoid biosynthesis under low temperatures. The synergistic enhancement between flavonoid DEMs and antioxidant enzymes was found to significantly contribute to the cold resistance of L.angustifolia . Conclusions The findings of this study provide a valuable reference for understanding the molecular regulation of L. angustifolia in response to low temperatures, laying a crucial foundation for future molecular breeding efforts aimed at developing cold-resistant varieties.

Lavender species are economically valuable plants, widely cultivated for their essential oils (EOs), which include sesquiterpenes. The sesquiterpenes caryophyllene and cadinol are major constituents, contributing woody and balsamic notes. However, the specific enzymes catalyzing their formation in lavender have not been elucidated. This study reports the comprehensive functional and structural characterization of two pivotal sesquiterpene synthases from Lavandula angustifolia (lavender): caryophyllene synthase (CARS) and cadinol synthase (CADS). Mutation experiments were performed based on molecular docking predictions, revealing that negatively charged residues interact electrostatically with magnesium ions (Mg2+). Both deletion of 1–226 and 1–228 (∆1–226 and ∆1–228) display activity levels equivalent to their corresponding wild-type proteins, while deletions at positions 522–548 and 529–555 significantly enhanced enzyme activity. Additionally, the highest expression levels of CARS were in the flowers under white light for 8 h, while CADS exhibited peak expression in the leaves under white light for 12 h. These findings deepen our understanding of the regulatory mechanisms involved in sesquiterpene biosynthesis in lavender and provide insights for genetic engineering strategies aimed at enhancing EO production. Such advances could also inform the development of cosmetic, personal care, and medicinal products.

Oxidative stress and inflammation induced by ultraviolet (UV) exposure significantly accelerate skin aging, necessitating effective bioactive agents to prevent photodamage. This study investigates the antioxidant and anti-inflammatory properties of cell extracts from Lavandula angustifolia cell suspension cultures, assessing their potential applications in preventing skin aging and mitigating inflammation. L. angustifolia cell suspension cultures were established from callus derived from lavender stem tissues. Notably, treatment with methyl jasmonate (MJ) significantly enhanced secondary metabolite production, as confirmed by gas chromatography-mass spectrometry analysis. The MJ-treated lavender cell extract (LC-MJ) improved cell viability and inhibited early apoptosis in mouse fibroblasts exposed to ultraviolet B-induced oxidative stress. Additionally, LC-MJ extract effectively downregulated inflammatory pathways in lipopolysaccharide-induced RAW 264.7 macrophages by reducing the secretion of pro-inflammatory cytokines, including TNF-α and IL-6. This anti-inflammatory effect was associated with the inhibition of MAPK and NF-κB signaling pathways, indicating a protective role in inflammation-related conditions. These observations imply that LC-MJ extract could be utilized as a functional bioactive agent in the management of oxidative stress and inflammation, particularly in the prevention of skin aging and UV-induced photodamage.

Lavandula species are one of the most useful aromatic and medicinal plants and have great economic potential. The phytopharmaceutical contribution of the secondary metabolites of the species is unquestionable. Most recent studies have been focusing on the elucidation of the genetic background of secondary metabolite production in lavender species. Therefore, knowledge of not only genetic but especially epigenetic mechanisms for the regulation of secondary metabolites is necessary for the modification of those biosynthesis processes and the understanding of genotypic differences in the content and compositional variability of these products. The review discusses the genetic diversity of Lavandula species in relation to the geographic area, occurrence, and morphogenetic factors. The role of microRNAs in secondary-metabolites biosynthesis is described.

Global warming, climate change, and drought are global issues. Thus, drought-tolerant and water-efficient plant species must be chosen. Selection helps maintain crop productivity. Arid-area xerophytic plant Lavandula coronopifolia Poir has little scientific research on its water use and drought tolerance. This study examined the biochemical and phytochemical changes in this plant after ABA treatment and drought stress. Specifically, we analyzed key physiological parameters (relative water content and biomass), biochemical markers (proline content, superoxide dismutase and catalase enzyme activities), and phytochemical components (essential oil composition including monoterpenes and sesquiterpenes). The drought stress treatments were applied at 50–60% and 30–40% of field capacity, while ABA was applied at concentrations of 15 and 30 µM. In low-water conditions, plant biomass and dry weight decreased. However, external ABA application increased RWC, proline, antioxidant response, essential oil percentage, and yield. It reduced drought’s negative effects. Additionally, principal component analysis (PCA) found that measured variables explained 88.42% of trait variance. Changes in essential oil composition, including increased oxygenated monoterpenes and sesquiterpene hydrocarbons, were considerable. Significant changes were noticed in linalool (30.76%), decanal (20.90%), linalyl acetate (21.39%), Kessane (11.50%), and Hexadecane (15.91%). These results are indicative of the excellent drought tolerance of L. coronopifolia and ABA-mediated adaptive strategies, and may provide a basis for future applications in agriculture and essential oil production under water-stress conditions.

Main conclusion We cloned eight transcription factors that activate lavender monoterpene synthase promoters. In this study, we employed the Yeast One-Hybrid (Y1H) assay system to identify transcription factors that control promoters for two Lavandula  ×  intermedia monoterpene synthase genes, linalool synthase (LiLINS) and 1,8-cineole synthase (LiCINS). The bait sequences used in the assay were either a 768-bp LiLINS, or a 1087-bp LiCINS promoter. The prey included proteins expressed in L.  ×  intermedia floral tissue. The assay identified 96 sequences encoding proteins that interacted with one or both promoters. To explore the nature of this interaction, the LiLINS and LiCINS promoter fragments were each fused to the E. coli gusA (GUS) reporter gene. The constructs were separately transformed into tobacco ( Nicotiana benthamiana ) leaves co-expressing individually a subset of ten representative transcription factors (TFs) predicted to control these promoters. Six TFs induced expression from both promoters, two activated LiCINS promoter alone, and two did not induce expression from either promoter. The TFs identified in this study belong to various groups including those containing conserved domains typical of MYB, bZIP, NAC, GeBP and SBP-related proteins.

In recent years, it has been shown that biostimulants can efficiently enhance plant metabolic processes, leading to an increased production of essential oil (EO) in aromatic plants. The present study aimed to evaluate the effects of two different commercial biostimulants composed of amino acids and seaweed extract, normally used for food organic crops, on the production and composition of EO and hydrosol of Lavandula x intermedia, cultivar “Grosso”. The products were applied during 2020 growing season on lavender crops in three different locations of the Northern Italian (Emilia-Romagna Region) Apennines. Plants were harvested and EOs extracted by steam distillation and analyzed by gas chromatography. Both biostimulants affected the yield of EO per plant (+11% to +49% depending on the treatment/farm combination) without significantly changing the chemical composition of EOs and hydrosols. Conversely, the composition of EOs and hydrosols are related to the location, and the main compounds of “Grosso” cultivar, limonene, 1,8-cineole, cis-ocimene, linalool, camphor, borneol, terpinen-4-ol, and linalyl acetate, show different ratios at the experimental test sites. The differences might be due to the sunlight exposure and various maintenance of the crops over the years. In conclusion, these results suggest that the employment of biostimulants on lavandin crops do not endanger the quality of the EO while increasing biomass production and promoting the sustainability of the crop.