Sakshi Devkar scite author profile

Plant derived oils have recently been found to be more effective in pharmaceutical sectors than synthetic goods since these plants contain physiologically active chemicals with a wide range of therapeutic effects. Essential oil, also known as essence, volatile oil, etheric oil, or aetheroleum, is a complex mixture of volatile elements biosynthesised by living organisms, which is particularly abundant in aromatic plants. This research summarizes facts on the chemistry of essential oil isolated from Cyperus scariosus on the one hand and their most important biological activities on the other. The essential oil components were determined to be a complex mixture of volatile chemicals such as monoterpenes, sesquiterpene hydrocarbons, and their oxygenated derivatives using Gas Chromatography-Mass Spectrometry (GC-MS). Thermoanalytical techniques such as TGA and DSC were used to investigate the oil's stability. Infrared spectroscopy was used to provide further information on the existence of various functional groups. Furthermore, the extracted oil's antibacterial, antioxidant, and antimalarial activities were investigated. The antimalarial activity was tested against Plasmodium falciparum, and the antioxidant and free radical scavenging activity were calculated using the DPPH reagent. This comprehensive study will provide an overview of the chemicals extracted from Cyperus scariosus as well as the plant's convincing pharmacological qualities.

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Exploration of Chemical Composition and Unveiling the Phytopharmaceutical Potentials of Essential Oil from Fossilized Resin of Pinus succinefera

Jha¹,

Shaikh²,

Devkar³

et al. 2022

IRJPAC

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Background: Most of the plant natural flora contributes significantly to medicinal benefits. To address the shortcoming usage of synthetic drugs, natural products are in demand which offer a broad spectrum of activities with negligible side effects. Pinus succinefera is a fossilized resin from coniferous woods that belongs to the genus Pinus of the Pinaceae family and is widely known as Amber. The present study explores the physiochemical properties and broad spectrum of biological activities of the essential oil. Method: The essential oil obtained using the hydro-distillation process, and chemical composition was examined by Gas Chromatography-Mass Spectrometric analysis as well as the functional groups present in the essential oil were determined using Fourier Transform Infrared Spectrometry. Thermal characterisation was performed using the Thermo Gravimetric Analysis and Differential Scanning Calorimetry. The antimicrobial potential of the essential oil was evaluated against different microorganisms meanwhile antimalarial activity against Plasmodium falciparum was examined. The free radical scavenging capability of the essential oil was assessed using 2,2-diphenyl-1-picryl-hydrazyl-hydrate (DPPH) reagent. High-performance thin-layer chromatography was used to examine the qualitative components of the essential oil. Results: The Gas Chromatography-Mass Spectrometric analysis profile indicated 5 major compounds in the essential oil, which consisted of 99% of the total oil. The thermal analysis of the essential oil established thermal stability. The essential oil showed moderate antioxidant and a moderate to significant potential was observed against microbial species including Plasmodium falciparum. In High-performance thin-layer chromatography five bands of essential oil components with Retention factor ranging from 0.2 to 0.7 at 254nm were represented. Conclusion: The results indicated that the essential oil obtained from Pinus succinefera has the potential to be used in the pharmaceutical industry to manufacture medicinal substances, as well as it can show a significant capability in other domains.

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In Silico Prediction of Potential Inhibitors for the M2 Protein of Influenza a Virus Using Molecular Docking Studies

Jha¹,

DHAMAPURKAR²,

THAKUR³

et al. 2022

Asian J Pharm Clin Res

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Objective: In this study, the M2 protein of influenza A virus was selected as a target for various phytochemical compounds and an attempt was made to determine their inhibitory activity against the target protein using computational biology. Thus, seeking novel therapeutic strategies against the influenza A virus. Methods: With the aid of the computational approach in biology, using in-silico techniques, the evaluation of drug-likeness, molecular properties, and bioactivity of the identified eight phytocompounds (Pseudo beta colubrine, Withaferin, Shinjulactone D, 5-Dehydrouzarigenin, Cinchonidine, Corylidin, Amarolide, and Deoxyartemisinin) was carried out using Swiss absorption, distribution, metabolism, and excretion, while Protox-II server was used to identify its toxicity. The in silico molecular docking of the phytochemical ligands with the M2 protein motif was carried out using AutoDock (Vina), which evaluated the binding affinity for further selection of the most compatible and pharmacologically significant ligand. All the potent ligands could be considered as lead molecules based on their pharmacokinetic and drug likeness properties. Results: Results suggested that Shinjulactone D, Cinchonidine, and Deoxyartemisinin ligands with the best binding pose could be selected as promising candidate, showing high potency for drug development. Conclusion: This study concludes the relevance of selected phytochemical compounds as prospective leads for the treatment of influenza A virus.

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Human immunodeficiency virus type 1: Role of proteins in the context of viral life cycle

Jha¹,

Rustagi²,

Gharat³

et al. 2022

J Adv Biotechnol Exp Ther

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Sakshi Devkar

Screening of Phytochemicals as Potential Inhibitors of Breast Cancer using Structure Based Multitargeted Molecular Docking Analysis

Chemical Composition, Bioactive Potential, and Thermal Behaviour of Cyperus scariosus Essential Oil

Exploration of Chemical Composition and Unveiling the Phytopharmaceutical Potentials of Essential Oil from Fossilized Resin of Pinus succinefera

In Silico Prediction of Potential Inhibitors for the M2 Protein of Influenza a Virus Using Molecular Docking Studies

Human immunodeficiency virus type 1: Role of proteins in the context of viral life cycle

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