Genus Cymbopogon Research Articles

Exploring the hepatoprotective properties of citronellol: In vitro and in silico studies on ethanol-induced damage in HepG2 cells.

Citronellol (CT) is a monoterpene alcohol present in the essential oil of plants of the genus Cymbopogon and exhibits diverse pharmacological activities. The aim of the current study was to investigate the hepatoprotective potential of CT against ethanol-induced toxicity in HepG2 cell lines. Silymarin (SIL) was used as a standard drug. MTT, crystal violet assay, DAPI, and PI staining were carried out to assess the effect of ethanol and CT on cell viability. RT-PCR determined the molecular mechanisms of hepatoprotective action of CT. CT ameliorated cell viability and restricted ethanol-induced cell death. DAPI and PI staining showed distinct differences in cell number and morphology. Less cell viability was observed in the diseased group obviously from strong PI staining when compared to the CT- and SIL-treated group. Moreover, CT showed downregulation of interleukin (IL-6), transforming growth factor-beta 1 (TGF-β1), collagen type 1 A 1 (COL1A1), matrix metalloproteinase-1 (MMP-1), tissue inhibitor of metalloproteinase-1 (TIMP-1) and glutathione peroxidase-7 (GPX-7) levels. Molecular docking studies supported the biochemical findings. It is concluded that the cytoprotective activity of CT against ethanol-induced toxicity might be explained by its anti-inflammatory, immunomodulatory, and collagen-regulating effects.

Combustion enhancement and emission reduction in RCCI engine using green synthesized CuO nanoparticles with Cymbopogon martinii methyl ester and phytol blends

Cymbopogon martini, also known as Palmarosa, is a grass species in the Cymbopogon genus, native to India and widely cultivated in tropical regions for oil production. Phytol, a constituent of chlorophyll, has garnered attention in the biofuels industry due to its potential for conversion into biodiesel through transesterification. Its abundance and renewable nature underscore its relevance for sustainable development. This study investigates the energy potential of waste Cymbopogon martinii Methyl Ester (CMME) in engine combustion systems using reactivity-controlled compression ignition (RCCI) in a single-cylinder, four-stroke diesel engine for low-temperature combustion. The process involves blending low-reactivity fuel (LRF), such as phytol (Acyclic diterpene alcohol and a constituent of chlorophyll), with high-reactivity fuel (HRF), namely CMME, in carefully monitored proportions. CMME25 is used as the primary fuel, supplemented with varying amounts of phytol (10 %, 20 %, and 30 %). Heat release rate (HRR) analysis indicates that phytol improves combustion efficiency up to a 20 % blend in RCCI mode. However, exceeding a 30 % phytol blend reduces brake thermal efficiency (BTE). RCCI mode also shows decreased nitrogen oxide and smoke emissions but increased hydrocarbon (HC) and carbon monoxide (CO) emissions. Improved homogeneity and ignition delay result in higher peak pressure and HRR compared to traditional methods. Further investigation focuses on the effects of CuO nanoparticles on a CMME25 and PHY20 % blend in RCCI mode. CuO nanoparticles (50–100 ppm) enhance brake thermal efficiency, improve combustion parameters (ignition delay, HRR, and cylinder pressure), and reduce emissions. The study concludes that a blend of CMME25+PHY20 % with 100 ppm CuO in RCCI mode is a promising alternative to traditional diesel fuel, offering a sustainable and efficient energy solution.

Influence of Lemongrass Essential Oil (Cymbopogon flexuosus) Supplementation on Diabetes in Rat Model.

(1) Background: Species of the genus Cymbopogon and its essential oil are known for their antioxidant and hypoglycemic effects. This study aimed to investigate the impact of the essential oil of Cymbopogon flexuosus (EOCF), and its major component, citral, on glycemic, lipid, antioxidant parameters, and oxidative stress in a type 1 diabetes (DM1) rat model. (2) Methods: Initially, EOCF was analyzed by Gas chromatography-mass spectrometry (GC-MS) and the antioxidant activity of EOCF and citral was evaluated. Next, male Wistar rats (3 months old, 200-250 g) induced with DM1 using Streptozotocin (STZ) were divided into four groups: negative control supplemented with an 80% Tween solution, two groups of animals supplemented with EOCF (32 mg/kg and 64 mg/kg) and with citral (32 mg/kg), and treated for 14 days. Measurements of blood glucose levels and body weight were taken; after euthanasia, biochemical markers, including lipid profile, uric acid, alanine aminotransferase (ALT), and aspartate aminotransferase (AST), were evaluated. (3) Results: The predominant compounds in EOCF were α-citral (53.21%) and neral (19.42%), constituting 72.63% citral. EOCF showed good antioxidant activity, significantly greater than citral. EOCF supplementation demonstrated a mitigating effect on glycemic, lipid, and hepatic abnormalities induced by DM1. (4) Conclusions: EOCF emerges as a promising therapeutic option for the management of DM1.

Regulation of gene transcription in Escherichia coli O157:H7 in response to a natural derivate peptide of esculentin-1a used in combination with essential oils from plants of the Cymbopogon genus.

We analyzed the expression of several genes implicated in the pathogenicity of Escherichia coli O157:H7, treating bacteria with Esc(1-21), a derivative of peptide esculentin-1 in combination with three essential oils obtained from plants from the Cympopogon genus. We used the checkerboard assay to determine the antimicrobial activity of the combinations. We analyzed the expression of some genes implicated in the pathogenicity and quorum sensing system of E. coli O157:H7 by real-time RT-PCR technique. Treatment of the bacteria with the peptide combined with oils had an efficacious antimicrobial activity. The analysis of gene expression showed that all used combinations regulate positively the espAD and ler genes, located in the pathogenicity island, named the locus of enterocyte effacement. None of the combinations affects the quorum sensing genes: lsrABCFKR and qseBC. This study demonstrates that the use of essential oil/peptide combinations can be effective in fighting microbial infections.

Fighting Microbial Infections from Escherichia coli O157:H7: The Combined Use of Three Essential Oils of the Cymbopogon Genus and a Derivative of Esculentin-1a Peptide.

The absence of effective therapy against Escherichia coli O157:H7 infections has led to the need to develop new antimicrobial agents. As the use of synergistic combinations of natural antimicrobial compounds is growing as a new weapon in the fight against multidrug-resistant bacteria, here, we have tested new synergistic combinations of natural agents. Notably, we investigated a possible synergistic effect of combinations of essential oils and natural peptides to counteract the formation of biofilm. We chose three essential oils (i.e., Cymbopogon citratus, C. flexuosus and C. martinii) and one peptide already studied in our previous works. We determined the fractional inhibitory concentration (FIC) by analyzing the combination of the peptide derived from esculentin-1a, Esc(1-21), with the three essential oils. We also studied the effects of combinations by time-kill curves, scanning electron microscopy on biofilm and Sytox Green on cell membrane permeability. Finally, we analyzed the expression of different genes implicated in motility, biofilm formation and stress responses. The results showed a different pattern of gene expression in bacteria treated with the mixtures compared to those treated with the peptide or the single C. citratus essential oil. In conclusion, we demonstrated that the three essential oils used in combination with the peptide showed synergy against the E. coli O157:H7, proving attractive as an alternative strategy against E. coli pathogen infections.

An updated review on the phytopharmacological significance of genus Cymbopogon

An updated review on the phytopharmacological significance of genus Cymbopogon

Development and analysis of de novo transcriptome assemblies of multiple genotypes of Cymbopogon spp. reveal candidate genes involved in the biosynthesis of aromatic monoterpenes

Despite the high economic value of the monoterpene-rich essential oils from different genotypes of Cymbopogon, the knowledge about the genes and metabolic route(s) involved in the biosynthesis of aromatic monoterpenes in this genus is limited. In the present study, a comprehensive transcriptome analysis of four genotypes of Cymbopogon, displaying diverse quantitative and qualitative profiles of volatile monoterpenes in their essential oils has been carried out. The comparative analysis of the deduced protein sequences corresponding to the transcriptomes of the four genotypes revealed 4609 genotype-specific orthogroups, which might contribute in defining genotype-specific phenotypes. The transcriptome data mining led to the identification of unigenes involved in the isoprenogenesis. The homology searches, combined with the phylogenetic and expression analyses provided information about candidate genes concerning the biosynthesis of monoterpene aldehyde, monoterpene alcohol, and monoterpene esters. In addition, the present study suggests a potential role of geranial reductase like enzyme in the biosynthesis of monoterpene aldehyde in Cymbopogon spp. The detailed analysis of the candidate pathway genes suggested that multiple enzymatic routes might be involved in the biosynthesis of aromatic monoterpenes in the genus Cymbopogon. The present study provides deeper insights into the biosynthesis of monoterpenes, which will be useful for the genetic improvement of these aromatic grasses.

Effect of drying methods and soaking of Ascorbic acid on the chemical content and specific qualities of oil in lemongrass leaves Cymbopogon citratus L.

Lemongrass (Cymbopogon citratus) is an herb that belongs to the genus Cymbopogon of aromatic grasses and contains volatile oil with a fine lemon flavor. There needs to be more information on how drying affects the chemical content and specific qualities promoting the properties of the leaves. Hence, this study sought to investigate the effect of different drying methods and soaking with ascorbic acid on the chemical content and specific qualities of oil in the leaves of the lemongrass plant. An experiment was applied according to the CRD design. The experiment included two factors. The first factor was soaking with ascorbic acid at a (0.5) g / L concentration for 15 minutes. In addition to a non-soaking treatment and the second factor, the drying methods (solar drying, shadow drying, electric oven drying at a temperature of 40 °C for 8 hours) and the comparison by soft weight. The following characteristics were measured (percentage of nitrogen, phosphorus, potassium, volatile oil, oil density and oil refractive index), and the results were statistically analyzed using the SAS statistical analysis program. The mean of the coefficients was compared according to the Duncan polynomial test. The results showed significantly superior drying in the oven over other treatments, as well as superior soaking of ascorbic over non-soaking treatment and gave the interference (drying in the oven + soaking with ascorbic) the highest averages of the studied traits amounted to (2.3806)% for nitrogen and (2.691)% for potassium and (1.092)% for volatile oil and (0.879) mg/microliter of volatile oil density. The differences between these drying methods selection were significant variations in the oil content of lemongrass leaves and election in obtaining high-quality products. Essential oil compositions have also been observed to depend on the drying conditions. However, the order of preference of the drying methods that ensure adequate retention of chemical content and volatile oil of the leaves, as observed in this study, is oven drying > shadow drying > sun drying >, in the order of decreasing magnitude. Keywords: lemongrass, drying methods, ascorbic, chemical composition.

Antifungal Properties of Essential Oils Derived from the Genus Cymbopogon: A Systematic Review.

Essential oils (EOs) are products of secondary metabolism with recognized organoleptic characteristics and biological properties. Recently, there has been a growing demand for EOs in the national and international market, mainly due to the recognition of their use as complementary medicine practices, and the increased use in the industries of pharmaceutics, cosmetics, well-being, veterinary and agroecology, boosting the productive sector. In this context, EOs from grasses of the Cymbopogon (Poaceae) are promising sources of bioactive compounds, due to their recognized biological properties, such as anti-inflammatory, antibacterial, antifungal, antidiabetic, repellent, and larvicide. Thus, the present study aims to carry out a review of the scientific literature of the main works related to the evaluation of the antifungal action of essential oils extracted from plants of the Cymbopogon genus, compiling the species that showed the best results and relating them to their main chemical constituents. This review covers the following species: C. citratus, C. flexuosus, C. winterianus, C. martinii, C. nardus, C. giganteus, C. schoenanthus, C. khasans, and C. proximus. Among them, C. citratus was the most assessed, being associated with the vast majority of studies (61.9 %), and it was also the species that showed the best results in terms of MIC.

Effect of stress hormones on the metabolome of a suspension culture of the aromatic medicinal plant Cymbopogon schoenanthus subsp. proximus

The current study aimed to evaluate and compare the effect of different concentrations (0.0–200.0 µM) of jasmonic acid (JA), methyl jasmonate (MeJA), and salicylic acid (SA) on suspension culture mass production and untargeted metabolic profiling of the medicinal plant Cymbopogon schoenanthus subsp. proximus. The addition of 50 µM MeJA improved the fresh weight of embryogenic tissue significantly. MeJA and SA did not affect tissue dry weight, whereas JA significantly decreased it. Based on 1H and 1H–13C NMR data and NMR databases, 50 compounds were identified. The addition of stress hormones resulted in the biosynthesis of novel metabolites like theophylline and syringate that were absent in control samples. In addition, significant variations in the concentrations of numerous compounds, including sugars, amino acids, organic acids, phenols, and alkaloids, were observed. The upregulation of trigonelline concentration was observed upon the addition of a higher concentration of MeJA (200 µM), whereas all tested concentrations of SA resulted in its upregulation. Addition of JA and SA causes significant changes in aminoacyl-tRNA biosynthesis pathway and amino acid metabolism pathways, such as alanine-aspartate and glutamate metabolism and arginine and proline metabolism. MeJA had significant impacts on glycolysis and starch-glucose metabolism pathways in addition to amino acids metabolism pathways. The present findings were successful in demonstrating a correlation and distinction between the effects of JA, MeJA, and SA, on the metabolome of Cymbopogon schoenanthus, a valuable medicinal plant. The identified metabolites and their associated pathways would be valuable in future biotechnology applications of the genus Cymbopogon.

Fungicidal activities of Cymbopogon winterianus against anthracnose of banana caused by Colletotrichum musae

The genus Cymbopogon (Poaceae) species have been widely cultivated throughout the world for a wide range of uses in the pharmaceutical and agricultural fields. The current work investigates the fungicidal activities of Cymbopogon winterianus extract (CWE) in controlling the C. musae that caused anthracnose disease in banana fruit. In vitro assay results showed that CWE at 1.5–2.5 gL−1 concentrations controlled the development of the test pathogen. Mycelial blast, cytoplasmic discharge, and spore edema were noticed when CWE was applied. The Minimum Effective Concentration (MEC) of CWE for the in vivo assay was 1.50 gL−1 and can be used as a postharvest treatment on banana fruit to deter anthracnose infection. Moreover, no visible phytotoxicity or changes in aroma were observed on banana fruit treated with CWE, even at the highest concentration of 2.5 gL−1. The GCMS analysis revealed 41 chemical components associated with CWE. The five main compounds were the following: Methyl oleyl ether (40.20%), γ-Sitosterol (15.80%), 6-Methylheptan-3-ol (7.13%), α-Terpineol (5.56%), and n-Pentadecanol (4.05%). The CWE possesses excellent fungicidal effects against C. musae; in the near future, it can be used as an alternative to commercially available traditional fungicides on the market.

Anti-aspergillosis and anti-mucormycosis potential of essential oils from two Cymbopogon spp. targeting riboflavin synthesis pathway

BackgroundCymbopogon martinii (palmrose essential oil, PEO) and Cymbopogon citratus (lemon grass essential oil, (LEO) are used as complementary and traditional medicine worldwide. PEO and LEO from Cymbopogon genus, contains a diversity of pharmacologically active compounds. Due to the complex nature of essential oils, their antifungal mechanism of action against aspergillosis and mucormycosis is still not completely understood. PurposeHence, the present study aimed at determining the chemical profile of each PEO and LEO and performing a molecular docking of two of their components geraniol and geranial against fungal enzymes involved in riboflavin synthesis pathway viz: riboflavin synthase (RS), riboflavin biosynthesis protein RibD domain-containing protein (RibD), and 3,4-dihydroxy-2-butanone 4-phosphate synthase (DBPS) as opposite sites for drug designing against aspergillosis and mucormycosis and in vitro confirmation. Study design and methodChemical profile of PEO and LEO was performed by GC-FID analysis. For molecular docking, patch-dock tool was conducted. Ligand-enzyme 3-D interactions were also calculated. ADMET properties (absorption, distribution, metabolism, excretion and toxicity) were also calculated. Antifungal activity was evaluated agaist three test pathogens Aspergillus niger, Aspergillus oryzae and Mucor indicus using poisoned food technique. ResultsGC-FID showed geraniol/geranial as the major components in PEO/LEO, thus, they were selected for docking analysis. Docking analysis specified active binding of geraniol and geranial to riboflavin synthase (RS), riboflavin biosynthesis protein RibD domain-containing protein (RibD), and 3,4-dihydroxy-2-butanone 4-phosphate synthase (DBPS) fungal enzymes. Wet-lab authentication was achieved by three fungal strains A. niger, A. oryzae and M. indicus. Docking studies revealed that the ligands geraniol/geranial exhibited interactions with RS, RibD, and DBPS fungal enzymes by H- bond and hydrophobic interactions. Geraniol and geranial obeyed LIPINSKY rule, and exhibited adequate bioactivity. Wet lab results indicated that PEO/LEO was able to inhibit fungal growth against test pathogens. ConclusionsThese findings confirm the fungicidal properties PEO/LEO essential oils as possible alternatives to synthetic fungicides.

The An Update on Pharmacological activities of herbal plant Cymbopogon citratus

Herbs and other natural plant products have medical significance because of the phytochemical components in them that have specific physiological or pathological effects on the human body. Lemon grass, also known as citronella grass, is a member of the Poaceae family and is a member of the Cymbopogon genus. The word "Cymbopogon" is derived from the Greek word "Kymbe-Pogon," which means "boat-beard." In tropical nations, particularly in Southeast Asia, the herb Cymbopogon citratus, Stapf (lemon grass), is widely used. Due to the substantial amount of citral in its oil, this grass has a distinct lemon scent, which is one of its distinguishing characteristics. According to studies on its phytoconstituents, the herb contains tannins, saponins, flavonoids, phenols, anthraquinones, alkaloids, deoxysugars, and a variety of essential oil constituents. The nutritional, therapeutic, and cosmetic properties of C. citratus have made it a widely consumed plant around the world. However, research indicates that other species might be useful pharmaceutically. Cymbopogon citratus is intensively studied for its pharmacological effects.
 Keywords: Lemongrass, Cymbopogon citratus, phytochemical, physiological, pathological, pharmacological effects.

Review of phytomedicine, phytochemistry, ethnopharmacology, toxicology, and pharmacological activities of Cymbopogon genus.

The Cymbopogon genus belongs to the Andropoganeae family of the family Poaceae, which is famous for its high essential oil concentration. Cymbopogon possesses a diverse set of characteristics that supports its applications in cosmetic, pharmaceuticals and phytotherapy. The purpose of this review is to summarize and connect the evidence supporting the use of phytotherapy, phytomedicine, phytochemistry, ethnopharmacology, toxicology, pharmacological activities, and quality control of the Cymbopogon species and their extracts. To ensure the successful completion of this review, data and studies relating to this review were strategically searched and obtained from scientific databases like PubMed, Google Scholar, ResearchGate, ScienceDirect, and Elsevier. Approximately 120 acceptable reviews, original research articles, and other observational studies were included and incorporated for further analysis. Studies showed that the genus Cymbopogon mainly contained flavonoids and phenolic compounds, which were the pivotal pharmacological active ingredients. When combined with the complex β-cyclodextrin, phytochemicals such as citronellal have been shown to have their own mechanism of action in inhibiting the descending pain pathway. Another mechanism of action described in this review is that of geraniol and citral phytochemicals, which have rose and lemon-like scents and can be exploited in soaps, detergents, mouthwash, cosmetics, and other products. Many other pharmacological effects, such as anti-protozoal, anti-bacterial, anti-inflammatory and anti-cancer have been discussed sequentially, along with how and which phytochemicals are responsible for the observed effect. Cymbopogon species have proven to be extremely valuable, with many applications. Its phytotherapy is proven to be due to its rich phytochemicals, obtained from different parts of the plant like leaves, roots, aerial parts, rhizomes, and even its essential oils. For herbs of Cymbopogon genus as a characteristic plant therapy, significant research is required to ensure their efficacy and safety for a variety of ailments.

Cymbopogon sp. from ethnobotany to antimicrobial: an integrative review

Considering the broad potential of the genus Cymbopogon, here we present a systematic literature survey on it’s antimicrobial potential. This is a review, articles from the Scielo and PubMed platforms. The articles surveyed were published between 2015 and 2020, with the theme of microbiology, including ethnobotanical studies, literature reviews, in vitro, in vivo, reports of clinical trials. Works outside the selected period, duplicate articles, and those only reporting infections of plants by the microorganism were excluded. 98 studies were selected, 74% found in PubMed and 26% in Scielo. Of this total, 21% were ethnobotanical/ethnopharmacology or literature reviews, most of them reporting the use of infusions of the species C. citratus (DC.) Stapf. Moreover, in 57% of the studies, survey respondents did not report antimicrobial use. In relation to 79% of the experimental studies, it was observed that 77% reported total inhibition of microbial growth, 3% indicated moderate growth inhibition, 4% low growth inhibition and 5% reported no inhibition. Among the microbial species analyzed were Escherichia coli, Pseudomonas aeruginosa, Borrelia burgdorferi, Candida albicans, Salmonella enterica and Saccharomyces cerevisiae. In addition, 5% of the articles reported antiviral activity, 5% parasitic control, 1% preventive action against contamination by mesophilic microorganisms. Although the population is not aware of the antimicrobial activity of Cymbopogon sp., studies have demonstrated its antimicrobial potential, thus the extracts of this genus can be an alternative for use in folk medicine as well as a source of new drugs with antimicrobial action.

In-silico ADMET Pharmacoinformatics of Geraniol (3,7-dimethylocta-trans-2,6-dien-1-ol) - acyclic monoterpene alcohol drug from Leaf Essential Oil of Cymbopogon martinii from Sirumalai Hills (Eastern Ghats), INDIA

Cymbopogon martinii is a grass from genus Cymbopogon (lemongrasses) native to India, but widely cultivated in other places for its aromatic essential oil. C. martinii known as Palmarosa smells sweet with rose-like odor. Geraniol, a terpene alcohol present in Cymbopogon martinii essential oil (CMEO) is much valued for its typical aroma and medicinal uses. In addition to the pleasant odor, Geraniol is known for fungicidal, nematicidal, acaricidal, insecticidal, repellent properties hence, used as Natural Pest Control Agent (NPCA) exhibiting low toxicity. Furthermore, geraniol has been suggested to exemplify a new class of chemoprevention agents in the treatment of cancer. Biological activities such as antimicrobial, anti-oxidant, anti-inflammatory and vascular effects have been investigated. In the present study, GCMS based in-silico ADMET pharmacoinformatics aspects (Physicochemical, Lipophilicity, Medicinal Chemistry, Druglikeness, Absorption, Water Solubility, Distribution, Metabolism, Pharmacokinetics, Excretion, Environmental Toxicity, Tox21 Pathway and Toxicophore Rules) with PASS prediction of geraniol from CMEO has been bioprospected from human health perspective point of view.
 Keywords: GCMS; ADMET; Pharmacoinformatics; Geraniol; Essential Oil; Cymbopogon martinii; Palmarosa; CMEO; PBNPs; Sirumalai Hills; Eastern Ghats

A Review of Ethnopharmacology, Phytochemistry and Pharmacology of Cymbopogon Species

The genus Cymbopogon belongs to Poaceae family and contain about 54 species, commonly known as lemongrass. Cymbopogon is a medicinal plant native to tropical and subtropical areas which is applied traditionally for its numerous properties including antirheumatic, antispasmodic, analgesic, antiseptic, hypotensive, antitussive and anticonvulsant ctivities, and as a treatment for gastrointestinal and nervous disorders and fever. The aims of this study were to discuss about current state of phytochemistry, pharmacology, and pharmacological effects of different species of Cymbopogon. Electronic databases including PubMed, Scopus, Cochrane library and Google Scholar were searched with the scientific name and the common name of the plant until November 2019. In spite of the small number of clinical investigations, Cymbopogon genus is widely evaluated for its phytochemistry, ethnopharmacology and biological activities. Monoterpenes specially geranial, citronellol and citral are the chief components of the essential oil. Biological activities including antioxidant, antibacterial, antiviral, insecticidal, anticancer, hepatoprotective activities as well as its effect on skin, urogenital, gastrointestinal, neuropsychological and cardiovascular systems are proved in cell lines and animal models. Extensive studies have been done on various biological activities of lemongrass; nevertheless, safety and efficacy of Cymbopogon species are not fully evaluated in human and further well-designed clinical trials are required to confirm preclinical findings.

Coppicing impact on the essential oil yield and its chemical composition of lemongrass cultivars of the genus Cymbopogon under the semi-arid region of South India

A study was carried out at CSIR-CIMAP, RC. Hyderabad (India) to study the impact of coppicing time on the oil percent and its chemical composition of different cultivars of lemongrass using a randomized block design. The freshly harvested herb was used for the hydro-distillation for essential oil, and subsequent chemical analysis. The chemical components identification of the essential oil was performed by GC–MS. In the results coppicing time influenced significant changes in the essential oil content, essential oil yield, and its chemical composition especially, total citral, and geraniol content. The four top rankers varieties/cultivars of lemongrass for the essential oil yield were CIM-Shikhar > Krishna > CKP-25 > CIMAP-Suwarna; for the essential oil content CIM–Shikhar > Krishna > CIMAP-Suwarna > Praman; for total citral content Nima > CIM–Shikhar > Krishna > Pragati, and for the total geraniol content Himrosa > CN-5 > Tawirosa > Kalam, respectively. Therefore, we can recommend these varieties/cultivars for commercial cultivation in large areas under the semi-arid region of south India.

Neurobehavioral properties of Cymbopogon essential oils and its components

Aromatic grasses of Cymbopogon (Poaceae) are a known genus of medicinal plants used in traditional medicine by the native people of America, Asia, and Africa. Due to large amounts of valuable essential oils they are readily used in many branches of industry. The potential therapeutic effects of Cymbopogon essential oils as well as the potential therapeutic effects of their active substances (such as citronellal, citronellol, geraniol, and eugenol) have been widely studied. Their neurobehavioral properties, including antinociceptive-, antidepressant-, antistress-, anxiolytic-, anticonvulsant-, and hypnotic/sedative-like activity are of particular interest. As civilization grows, the prevalence of neural and mental disorders increases and as a consequence, the demand for new drugs with aforementioned properties increases as well. In the light of the above, the plants from Cymbopogon genus are suggested by many scientists as a perfect candidate for further pharmaceutical research. The aim of current study is to critically review the available data in order to evaluate the pharmacological relevance of essential oils from Cymbopogon genus.

Review of the Chemical Properties, Pharmacological Properties, and Development Studies of Cymbopogon sp.

Cymbopogon is a genus of aromatic plants that famed because of the essential oil production that has many benefit in industrial, daily life, or even for disease treatment. The Cymbopogon genus consists of about 180 plants, including different species, subspecies, varieties, and subvarieties. The aim of this review is to present chemical properties, pharmacological, and development of the Cymbopogon genus from books and research studies. There were many types of research that have been done to prove the benefits of the Cymbopogon genus, including studies about the extract, essential oil, the chemical compound biological activity, and development studies. Some pharmacological studies that have been confirmed are regarding the pharmacological effects of Cymbopogon in the central nervous system, anti-inflammatory, antimicrobial, antioxidant, and anticancer activity. In addition, there have been studied to improve Cymbopogon benefits.