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Int J Mol Sci


Title:Extraction of High-Value Chemicals from Plants for Technical and Medical Applications
Author(s):Kapadia P; Newell AS; Cunningham J; Roberts MR; Hardy JG;
Address:"Department of Chemistry, Lancaster University, Lancaster LA1 4YB, UK. Lancaster Environment Centre, Lancaster University, Lancaster LA1 4YQ, UK. Centre for Global Eco-Innovation, Lancaster University, Lancaster LA1 4YQ, UK. CO2 Extraction Ltd., 7 Stevant Way, Northgate, Morecambe LA3 3PU, UK. Materials Science Institute, Lancaster University, Lancaster LA1 4YB, UK"
Journal Title:Int J Mol Sci
Year:2022
Volume:20220907
Issue:18
Page Number: -
DOI: 10.3390/ijms231810334
ISSN/ISBN:1422-0067 (Electronic) 1422-0067 (Linking)
Abstract:"Plants produce a variety of high-value chemicals (e.g., secondary metabolites) which have a plethora of biological activities, which may be utilised in many facets of industry (e.g., agrisciences, cosmetics, drugs, neutraceuticals, household products, etc.). Exposure to various different environments, as well as their treatment (e.g., exposure to chemicals), can influence the chemical makeup of these plants and, in turn, which chemicals will be prevalent within them. Essential oils (EOs) usually have complex compositions (>300 organic compounds, e.g., alkaloids, flavonoids, phenolic acids, saponins and terpenes) and are obtained from botanically defined plant raw materials by dry/steam distillation or a suitable mechanical process (without heating). In certain cases, an antioxidant may be added to the EO (EOs are produced by more than 17,500 species of plants, but only ca. 250 EOs are commercially available). The interesting bioactivity of the chemicals produced by plants renders them high in value, motivating investment in their production, extraction and analysis. Traditional methods for effectively extracting plant-derived biomolecules include cold pressing and hydro/steam distillation; newer methods include solvent/Soxhlet extractions and sustainable processes that reduce waste, decrease processing times and deliver competitive yields, examples of which include microwave-assisted extraction (MAE), ultrasound-assisted extraction (UAE), subcritical water extraction (SWE) and supercritical CO2 extraction (scCO2). Once extracted, analytical techniques such as chromatography and mass spectrometry may be used to analyse the contents of the high-value extracts within a given feedstock. The bioactive components, which can be used in a variety of formulations and products (e.g., displaying anti-aging, antibacterial, anticancer, anti-depressive, antifungal, anti-inflammatory, antioxidant, antiparasitic, antiviral and anti-stress properties), are biorenewable high-value chemicals"
Keywords:"Anti-Bacterial Agents/chemistry Antifungal Agents/analysis Antioxidants/chemistry Antiparasitic Agents Antiviral Agents/analysis Carbon Dioxide/chemistry Flavonoids *Oils, Volatile/chemistry Plant Extracts/chemistry Plants *Saponins Solvents/chemistry Ste;"
Notes:"MedlineKapadia, Pritam Newell, Amy S Cunningham, John Roberts, Michael R Hardy, John G eng Review Switzerland 2022/09/24 Int J Mol Sci. 2022 Sep 7; 23(18):10334. doi: 10.3390/ijms231810334"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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