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Damascenones are a series of closely related chemical compounds that are components of a variety of
Next two molecules of GGPP are condensed together to produce 
The mechanism for the cyclization of lycopene to β-carotene is shown in Scheme 2.
Next β-carotene reacts with O2 and the enzyme β-carotene ring hydroxylase producing 
In order to generate β-damascenone from neoxanthin there are a few more modifications needed. First neoxanthin undergoes an oxidative cleavage to create the grasshopper ketone. The grasshopper ketone then undergoes a reduction to generate the allenic triol. At this stage there are two main pathways the allenic triol can take to produce the final product. The allenic triol can undergo a dehydration reaction to generate either the acetylenic diol or the allenic diol. Finally one last dehydration reaction of either the acetylenic diol or the allenic diol produces the final product β-damascenone as shown in Figure 4.
The proposed mechanism for the conversion of the allenic triol to the acetylenic diol is shown in Scheme 3.
The proposed mechanism for the conversion of the acetylenic diol to the final product is shown in Scheme 4.
This mechanism is known as a Meyer-Schuster rearrangement.
essential oil
An essential oil is a concentrated hydrophobic liquid containing volatile (easily evaporated at normal temperatures) chemical compounds from plants. Essential oils are also known as volatile oils, ethereal oils, aetheroleum, or simply as the ...
s. The damascenones belong to a family of chemicals known as rose ketone
In organic chemistry, a ketone is an organic compound with the structure , where R and R' can be a variety of carbon-containing substituents. Ketones contain a carbonyl group (a carbon-oxygen double bond C=O). The simplest ketone is acetone ( ...
s, which also includes damascone
Damascones are a series of closely related chemical compounds that are components of a variety of essential oils. The damascones belong to a family of chemicals known as rose ketones, which also includes damascenones and ionones. ''beta''-Dama ...
s and ionone
The ionones, from greek ἴον ion "violet", are a series of closely related chemical substances that are part of a group of compounds known as rose ketones, which also includes damascones and damascenones. Ionones are aroma compounds found in ...
s. ''beta''-Damascenone is a major contributor to the aroma of roses, despite its very low concentration, and is an important fragrance chemical used in perfumery.
The damascenones are derived from the degradation of carotenoid
Carotenoids () are yellow, orange, and red organic pigments that are produced by plants and algae, as well as several bacteria, archaea, and fungi. Carotenoids give the characteristic color to pumpkins, carrots, parsnips, corn, tomatoes, cana ...
s.
In 2008, (E)-β-damascenone was identified as a primary odorant in Kentucky bourbon.
Biosynthesis
The biosynthesis for β-damascenone begins withfarnesyl pyrophosphate
Farnesyl pyrophosphate (FPP), also known as farnesyl diphosphate (FDP), is the precursor to all sesquiterpenes, which comprises thousands of compounds. These include all sesquiterpenes as well as sterols and carotenoids. It is also used in the syn ...
(FPP) and isopentenyl pyrophosphate
Isopentenyl pyrophosphate (IPP, isopentenyl diphosphate, or IDP) is an isoprenoid precursor. IPP is an intermediate in the classical, HMG-CoA reductase pathway (commonly called the mevalonate pathway) and in the ''non-mevalonate'' MEP pathway of i ...
(IPP) reacting to produce geranylgeranyl pyrophosphate
Geranylgeranyl pyrophosphate is an intermediate in the biosynthesis of diterpenes and diterpenoids. It is also the precursor to carotenoids, gibberellins, tocopherols, and chlorophylls.
It is also a precursor to geranylgeranylated proteins, whic ...
(GGPP) Figure 1. Next two molecules of GGPP are condensed together to produce phytoene
Phytoene () is a 40-carbon intermediate in the biosynthesis of carotenoids. The synthesis of phytoene is the first committed step in the synthesis of carotenoids in plants. Phytoene is produced from two molecules of geranylgeranyl pyrophosphate ( ...
by removal of diphosphate and a proton shift catalyzed by the enzyme phytoene synthase
Phytoene synthase (, ''prephytoene-diphosphate synthase'', ''15-cis-phytoene synthase'', ''PSase'', ''geranylgeranyl-diphosphate geranylgeranyltransferase'') is a transferase enzyme involved in the biosynthesis of carotenoids. It catalyzes the con ...
(PSY). Phytoene then goes through a series of desaturation reactions using the enzyme phytoene desaturase (PDS) to produce phytofluene
Phytofluene is a colorless carotenoid found naturally in tomatoes and other vegetables. It is the second product of carotenoid biosynthesis. It is formed from phytoene in a desaturation reaction leading to the formation of five conjugated doubl ...
then ζ-carotene
ζ-Carotene (''zeta''-carotene) is a carotenoid. It is different from α-carotene and β-carotene because it is acyclic. ζ-Carotene is similar in structure to lycopene, but has an additional 4 hydrogen atoms. ζ-carotene can be used as an in ...
. Other enzymes have been found to catalyze this reaction including CrtI and CrtP.
The next series of desaturation reactions is catalyzed by the enzyme ζ-carotene desaturase (ZDS) to produce neurosporene
Neurosporene is a carotenoid pigment. It is an intermediate in the biosynthesis of lycopene
Lycopene is an organic compound classified as a tetraterpene and a carotene. Lycopene (from the Neo-Latin '' Lycopersicon'', the name of a former toma ...
followed by lycopene
Lycopene is an organic compound classified as a tetraterpene and a carotene. Lycopene (from the Neo-Latin '' Lycopersicon'', the name of a former tomato genus) is a bright red carotenoid hydrocarbon found in tomatoes and other red fruits and ve ...
. Other enzymes that are able to catalyze this reaction include CtrI and CrtQ. Next lycopene goes through two cyclization reactions with the use of the enzyme lycopene β-cyclase first producing γ-carotene followed by the second cyclization producing β-carotene as shown in Figure 2. The mechanism for the cyclization of lycopene to β-carotene is shown in Scheme 2.
Next β-carotene reacts with O2 and the enzyme β-carotene ring hydroxylase producing zeaxanthin
Zeaxanthin is one of the most common carotenoids in nature, and is used in the xanthophyll cycle. Synthesized in plants and some micro-organisms, it is the pigment that gives paprika (made from bell peppers), corn, saffron, goji ( wolfberries) ...
.
Zeaxanthin then reacts with O2, NADPH (H+), and reduced ferredoxin ron-sulfurcluster in the presence of the enzyme zeaxanthin epoxidase (ZE) to produce antheraxanthin which reacts in a similar fashion to produce violaxanthin. Violaxanthin then reacts with the enzyme neoxanthin synthase to form neoxanthin the main precursor for β-damascenone as shown in Figure 3.
In order to generate β-damascenone from neoxanthin there are a few more modifications needed. First neoxanthin undergoes an oxidative cleavage to create the grasshopper ketone. The grasshopper ketone then undergoes a reduction to generate the allenic triol. At this stage there are two main pathways the allenic triol can take to produce the final product. The allenic triol can undergo a dehydration reaction to generate either the acetylenic diol or the allenic diol. Finally one last dehydration reaction of either the acetylenic diol or the allenic diol produces the final product β-damascenone as shown in Figure 4. The proposed mechanism for the conversion of the allenic triol to the acetylenic diol is shown in Scheme 3. The proposed mechanism for the conversion of the acetylenic diol to the final product is shown in Scheme 4. This mechanism is known as a Meyer-Schuster rearrangement.
See also
*Rose oil
Rose oil (rose otto, attar of rose, attar of roses, or rose essence) is an essential oil that is extracted from the petals of various types of rose. ''Rose ottos'' are extracted through steam distillation, while ''rose absolutes'' are obtained t ...
References
{{reflist Carotenoids Enones Perfume ingredients Cyclohexadienes