Menthone

Menthone is a constituent of the essential oils of pennyroyal, peppermint, corn mint, pelargonium geraniums, and other plant species. Menthone was first synthesized by oxidation of menthol in 1881, before being found as a component in essential oils in 1891. Of the isomers possible for this chemical structure (see below), the one termed '''l-menthone'—formally, the (2S,5R)-trans''-2-isopropyl-5-methylcyclohexanone (see infobox and below)—is the most abundant in nature. ==Physical and sensory properties==

Menthone is a liquid under standard conditions, and has a density of 0.895g/cm3. Under the same conditions, the melting point is −6°C, and its boiling point is 207°C. Menthone interacts cognitively with other components in food, drink, and other consumables, to present with what is termed a minty flavor. Pure l-menthone has been described as having an intensely minty clean aroma; in contrast, d-isomenthone has a "green" note, increasing levels of which are perceived to detract from the aroma quality of l-menthone. == Structure and stereochemistry==

The structure of 2-isopropyl-5-methylcyclohexanone (menthones and isomenthones, see following) were established historically by establishing identity of natural and synthetic products after chemical synthesis of this structure from other chemical compounds of established structure; these inferential understandings have, in modern organic chemistry, been augmented by supporting mass spectrometric and spectroscopic evidence (e.g., from NMR spectroscopy and circular dichroism) to make the conclusions secure. The structure 2-isopropyl-5-methylcyclohexanone has two asymmetric carbon centers, one at each attachment point of the two alkyl group substituents, the isopropyl in the 2-position and the methyl in the 5-position of the cyclohexane framework. The spatial arrangement of atoms—the absolute configuration—at these two points are designated by the descriptors R (Latin rectus, right) or S (Latin sinister, left) based on the Cahn–Ingold–Prelog priority rules. Hence, four unique stereoisomers are possible for this structure: (2S,5S), (2R,5S), (2S,5R) and (2R,5R). The (2S,5S) and (2R,5R) stereoisomers project the isopropyl and methyl groups from the same "side" of the cyclohexane ring, are the so-called cis isomers, and are termed isomenthone; the (2R,5S) and (2S,5R) stereoisomers project the two groups on the opposite side of the ring, are the so-called trans isomers, and are referred to as menthone. if menthone and isomenthone are equilibrated at room temperature, the isomenthone content will reach 29%. ==Preparation==

Biochemical The enzyme (+)-pulegone reductase from peppermint catalyses a reduction reaction which gives a mixture of (–)-menthone and (+)-isomenthone: It uses nicotinamide adenine dinucleotide phosphate (NADPH) as its cofactor. Chemical Menthone is obtained commercially by fractional crystallization of the oils pressed from peppermint and cornmint, genus Mentha. If the chromic acid oxidation is performed with stoichiometric oxidant in the presence of diethyl ether as co-solvent, a method introduced by H.C. Brown and colleagues in 1971, the epimerization of l-menthone to d-isomenthone is largely avoided. == History ==

Menthone was first described by Moriya in 1881. In 1889, Ernst Beckmann discovered that dissolving menthone in concentrated sulfuric acid gave a new ketonic material which gave an equal but opposite optical rotation to the starting material. Beckmann's inferences from his results situated menthone as a crucial player in a great mechanistic discovery in organic chemistry. Beckmann concluded that the change in structure underlying the observed opposite optical rotation was the result of an inversion of configuration at the asymmetric carbon atom next to the carbonyl group (which, at that time was believed to be the carbon atom attached to the methyl rather than the isopropyl group). He postulated that this occurred through an intermediate enol—a tautomer of the ketone—such that the original absolute configuration of that carbon atom changed as its geometry went from terahedral to trigonal planar. This report is an early example of an inference that an otherwise undetectable intermediate was involved in a reaction mechanism, one that could account for the observed structural outcome of the reaction. ==See also==