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Thymol

Article Discussion

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Thymol (also known as 2-isopropyl-5-methylphenol, IPMP), Template:Chem2, is a natural monoterpenoid phenol derivative of p-Cymene, isomeric with carvacrol. It occurs naturally in the oil of thyme, and it is extracted from Thymus vulgaris (common thyme), ajwain,<ref>Template:Cite book</ref> and various other plants as a white crystalline substance of a pleasant aromatic odor and strong antiseptic properties. Thymol also provides the distinctive, strong flavor of the culinary herb thyme, also produced from T. vulgaris. Thymol is only slightly soluble in water at neutral pH, but it is extremely soluble in alcohols and other organic solvents. It is also soluble in strongly alkaline aqueous solutions due to deprotonation of the phenol. Its dissociation constant (pKa) is Template:Val.<ref>CAS Registry: Data obtained from SciFinderTemplate:Full citation needed</ref> Thymol absorbs maximum UV radiation at 274 nm.<ref>Template:Cite journal</ref>

Chemical synthesisEdit

Thymol is produced by the alkylation of m-cresol and propene:<ref>Template:Cite book</ref><ref>Template:Ullmann</ref>

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A predicted method of biosynthesis of thymol in thyme and oregano begins with the cyclization of geranyl diphosphate by TvTPS2 to γ-terpinene. Oxidation by a cytochrome P450 in the CYP71D subfamily creates a dienol intermediate, which is then converted into a ketone by short-chain dehydrogenase. Lastly, keto-enol tautomerization gives thymol.

File:Thymol biosynthesis.svg
Predicted biosynthesis of thymol in thyme and oregano. Reconstruction of figure 4 in Krause et. al. (2021).<ref name="r505">Template:Cite journal</ref>

HistoryEdit

Ancient Egyptians used thyme for embalming.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The ancient Greeks used it in their baths and burned it as incense in their temples, believing it was a source of courage. The spread of thyme throughout Europe was thought to be due to the Romans, as they used it to purify their rooms and to "give an aromatic flavour to cheese and liqueurs".<ref name=Maud>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In the European Middle Ages, the herb was placed beneath pillows to aid sleep and ward off nightmares.<ref name=Huxley>Huxley, A., ed. (1992). New RHS Dictionary of Gardening. Macmillan.</ref> In this period, women also often gave knights and warriors gifts that included thyme leaves, because it was believed to bring courage to the bearer. Thyme was also used as incense and placed on coffins during funerals, because it was supposed to ensure passage into the next life.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

The bee balms Monarda fistulosa and Monarda didyma, North American wildflowers, are natural sources of thymol. The Blackfoot Native Americans recognized these plants' strong antiseptic action and used poultices of the plants for skin infections and minor wounds. A tisane made from them was also used to treat mouth and throat infections caused by dental caries and gingivitis.<ref>Template:Cite book</ref>

Thymol was first isolated by German chemist Caspar Neumann in 1719.<ref>Template:Cite journal On page 324, Neumann mentions that in 1719 he distilled some essential oils from various herbs. On page 326, he mentions that during these experiments, he obtained a crystalline substance from thyme oil, which he called "Camphora Thymi" (camphor of thyme). (Neumann gave the name "camphor" not only to the specific substance that today is called camphor but to any crystalline substance that precipitated from a volatile, fragrant oil from some plant.)</ref> In 1853, French chemist Alexandre Lallemand<ref>Marie-Étienne-Alexandre Lallemand (December 25, 1816 - March 16, 1886)</ref> (1816-1886) named thymol and determined its empirical formula.<ref>Template:Cite journal</ref> Antiseptic properties of thymol were discovered in 1875,<ref>Template:Cite book</ref> and it was first synthesized by Swedish chemist Oskar Widman<ref>Karl Oskar Widman (aka Carl Oskar Widman) (January 2, 1852 - August 26, 1930)</ref> (1852-1930) in 1882.<ref>Template:Cite journal</ref>

ExtractionEdit

The conventional method of extracting is hydro-distillation (HD), but can also be extracted with solvent-free microwave extraction (SFME). In 30 minutes, SFME yields similar amounts of thymol with more oxygenated compounds than 4.5 hours of hydro-distillation at atmospheric pressures without the need for solvent.<ref>Template:Cite journal</ref>

UsesEdit

File:Thymolum by Danny S. - 001.JPG
Thymol

Thymol during the 1910s was the treatment of choice for hookworm infection in the United States.<ref>Template:Cite book</ref><ref name="Rosenau1913">Template:Cite book</ref> People of the Middle East continue to use za'atar, a delicacy made with large amounts of thyme, to reduce and eliminate internal parasites.<ref>Template:Cite news</ref> It is also used as a preservative in halothane, an anaesthetic, and as an antiseptic in mouthwash. When used to reduce plaque and gingivitis, thymol has been found to be more effective when used in combination with chlorhexidine than when used purely by itself.<ref>Template:Cite journal</ref> Thymol is also the active antiseptic ingredient in some toothpastes, such as Johnson & Johnson's Euthymol. Thymol has been used to successfully control varroa mites and prevent fermentation and the growth of mold in bee colonies.<ref name=bees>Template:Cite news</ref> Thymol is also used as a rapidly degrading, non-persisting pesticides<ref name="J. Coats 2008" /> such as insecticides and fungicides which are leveraged in plant care products, where its environmentally friendly, rapid degradation ensures it doesn’t leave persistent residues while effectively controlling pests and fungal issues.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Thymol can also be used as a medical disinfectant and general purpose disinfectant.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Thymol is also used in the production of menthol through the hydrogenation of the aromatic ring.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

List of plants that contain thymolEdit

Toxicology and environmental impactsEdit

In 2009, the U.S. Environmental Protection Agency (EPA) reviewed the research literature on the toxicology and environmental impact of thymol and concluded that "thymol has minimal potential toxicity and poses minimal risk".<ref>Template:Federal Register</ref>

Environmental breakdown and use as a pesticideEdit

Studies have shown that hydrocarbon monoterpenes and thymol in particular degrade rapidly (DT50 16 days in water, 5 days in soil<ref name="J. Coats 2008">Template:Cite journal</ref>) in the environment and are, thus, low risks because of rapid dissipation and low bound residues,<ref name="J. Coats 2008"/> supporting the use of thymol as a pesticide agent that offers a safe alternative to other more persistent chemical pesticides that can be dispersed in runoff and produce subsequent contamination. Though, there has been recent research into sustained released systems for botanically derived pesticides, such as using natural polysaccharides which would be biodegradable and biocompatible.<ref>Template:Cite journal</ref>

Compendial statusEdit

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See alsoEdit

Notes and referencesEdit

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External linksEdit

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Template:GABAAR PAMs Template:Transient receptor potential channel modulators Template:Terpenoids

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