The aim of present study was to evaluate chemical composition and different biological activities viz., pharmacological and antioxidant activities of essential oils.The chemical composition of essential oils was determined by gas chromatography/ mass spectrometry while biological activities were evaluated by standard protocols.Essential oils of Hedychium spicatum Sm. from two different ecological niches viz; Nainital (Site-I) and Himachal Pradesh (Site-II) of India revealed the qualitative and quantitative chemo-diversity. Both the oils were dominated by oxygenated terpenoids.Major marker compounds identifi ed were eucalyptol, camphor, linalool, α-eudesmol, 10-epi-γ-eudesmol, and iso-borneol. Both the oils exhibited anti-infl ammatory activity suppressing 17.60 % to 33.57 % infl ammation at 100mg/kg b. wt. dose levels compared to ibuprofen-treated group (40.06 %). The sub-acute infl ammation in oils-treated mice groups (50 and 100 mg/kg b. wt.) increased on day 2 but showed a gradual decrease from day 3 onwards and then recovered to normal by day 10. The antinociception percentage for doses (50 and 100 mg/kg b. wt.) ranged from 33. in Site-II compared to standard drug, ibuprofen (43.08 %). The oils also showed a good antipyretic effect by suppressing Brewer's yeast (Saccharomyces cerevisiae) induced pyrexia after oil dose injection. The oils also exhibited good antioxidant activity.
Hedychium coronarium J. Koenig belongs to the family Zingiberaceae, generally known as butterfly ginger, butterfly lily, cinnamon jasmine, garland flower and ginger lily. It is a medicinal plant grown throughout India, Southeast Asian countries, China, Japan, and Brazil. Traditionally, it is used as a febrifuge, tonic, anti-rheumatic, used to treat asthma, headache, arthritis, bronchitis, blood diseases, eye diseases, gastric diseases, and many other diseases. H. coronarium contains important secondary metabolites such as alcohols, aldehydes, ketones, esters, oxides, phenolics, flavonoids, saponins, glycosides, labdane diterpenes, and sesquiterpenes. Limonene, myrcene, p-cymene, camphene, γ-terpinene, β-pinene, 1,8-cineole, linalool, α-pinene, and 10-epi-γ-eudesmol have been identified as the main constituents of volatile oils of H. coronarium along with the key elements like trans-meta-mentha-2, 8-diene, linalool, α-terpineol, terpin-4-ol, α-pinene, γ-terpinene, and camphene. Phytochemical studies on various solvent extracts of H. coronarium revealed that the plant holds the diterpenes- coronarin-A-I, isocoronarin-D, pacovatin A; sesquiterpene- (+)-nerolidol, hedychiol A, hedychiol B 8,9-diacetate; sterols- daucosterol, stigmasterol, β-sitosterol and flavonoid- 5-hydroxy-3,7,4’-trimethoxyflavon, chrysin. Coronarin D, a bioactive compound, is reported for anti-cancer activities of H. coronarium. Diterpenes isolated from H. coronarium extracts and essential have been reported as antioxidant, antitumor, antidiabetic, antiproliferative, antihelmintic, mosquitocidal, larvicidal, antilithiatic, chemopreventive, antiophidian, insecticide, antifungal, allelopathic, and antimicrobial agent. Based on the literature, the essential oils, extracts and isolated active compounds of H. coronarium could be used to develop as flavor and fragrance agents, food preservatives, botanical pesticide, neutraceuticals and pharmaceuticals. This review paper aims to go over traditional uses, phytochemical analysis, pharmacological activities, scientific techniques for variety development, conservation, and proper utilization and identify future opportunities for H. coronarium.
The objective of the present study was to examine the chemical compositions of Salvia coccinea oleoresins prepared in methanol and petroleum ether. GC-MS analysis of Salvia coccinea methanolic oleoresin (SCMO) and Salvia coccinea ether oleoresin (SCEO) resulted in the identification of 15 and 12 constituents, comprising 84.7 and 81.2% of the total composition, respectively. Both SCMO and SCEO varied in their chemical composition in terms of quantity, namely, oleic acid (22.3-25.9%), palmitic acid (8.9-8.4%), stigmasta-3,5-dien-7-one (3.4-11.8%), stigmasterol acetate (3.5-5.3%), neophytadiene (4.8-1.7%), phytol (1.6-7.8%) and phthalic acid (2.1-3.1%). In addition to the qualitative differences between SCMO and SCEO concomitantly, both oleoresins were examined for their pesticidal activities. Oleoresins demonstrated significant nematicidal activity against Meloidogyne incognita, insecticidal activity against Lipaphis erysimi, antifungal activity against Curvularia lunata, and antibacterial activity against Staphylococcus aureus. For nematicidal activity, SCMO and SCEO exhibited a high mortality of 65.66±1.69 and 54.33±1.24 and egg hatching inhibition of 26.33±1.20and 33.33±1.24 at 200 μg/mL. Similarly, SCMO and SCEO exhibited excellent insecticidal activity with 94.87±1.44 % and 86.75±1.85 % mortality at 1000 μg/mL. However, both oleoresins exhibited moderate antifungal and antibacterial activities compared to standards. Due to the quantitative difference in chemical composition and the presence of several phytoconstituents that were absent in SCEO, SCMO displayed stronger pesticidal effects than SCEO. To estimate the binding energy and structure-activity relationships between chemical constituents and pesticidal activities, in silico molecular docking and ADME/Tox studies have also been performed using a web-based online tool. On the basis of the present study, it is inferred that the herb Salvia coccinea might be a good source of phytochemicals and can be used for the development of herbal-based pesticides/formulations after proper clinical trials.
The objective of the current study was to re-examine the chemical components of the essential oil (EO) from the aerial parts of Skimmia anquetilia N.P. Taylor & Airy Shaw in two different seasons designated as Skimmia anquetilia rainy season essential oil (SKREO) and Skimmia anquetilia winter season essential oil (SKWEO). The GC-MS analysis of SKREO and SKWEO resulted in the identification of 42 and 48 constituents, comprising of 95.3 % and 95.4 % of the total composition respectively. Both SKREO and SKWEO varied in their chemical composition in terms of quantity viz: linalyl acetate (15.8% - 17.6%), linalool (13.2% - 13.9%), geijerene (11.6% - 11.7%), α-thujene (11.3% - 11.1%), α-terpineol (6.1% - 6.1%), geranyl acetate (5.0% - 5.1%), α-terpinyl acetate (3.3% - 3.1%), myrcene (3.0% - 3.1%), geraniol (2.6% - 1.9%), α-pinene (2.1% - 2.2%), trans-β-ocimene (2.1% - 2.3%), cis-β-ocimene (2.0% - 2.2%) and neryl acetate (2.3% - 2.4%). Besides qualitative differences SKREO and SKWEO, both were studied for their pesticidal activities. The study exhibited potent antifeedant activity against Spodoptera litura and nematicidal activity against Meloidogyne incognita. Based on the present observations, it was found that besides its academic importance, shrub Skimmia anquetilia can be a good source of phytochemicals like linalyl acetate, linalool, geijerene, thujene and can be used for the development of herbal source for antifeedant and nematicidal activity after proper clinical trials.
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