Disparlure

The method has been applied in asymmetric and regioselective syntheses of several natural compounds. Two simple examples are the commercial syntheses of the gipsy moth hydrophobic sex attractant, disparlure (RE. Rossiter, 1981, 1985) and < mono-epoxidation of a diene in a leukotriene B4 synthesis (L.S. Mills, 1983). 

Functional group transformations of epoxides rank among the fundamental reactions of organic chemistry and epoxides are commonplace natural products The female gypsy moth for example attracts the male by emittmg an epoxide known as disparlure On detechng the presence of this pheromone the male follows the scent to its ongm and mates with the female... 

Give the structure of the alkene including stereochemistry that ] you would choose as the starting material in a preparation of synthetic disparlure J... 

Many naturally occurring substances are epoxides You have seen two examples of such compounds already m disparlure the sex attractant of the gypsy moth (Section 6 18) and m the carcinogenic epoxydiol formed from benzo[a]pyrene (Section 118) In most cases epoxides are biosynthesized by the enzyme catalyzed transfer of one of the oxy gen atoms of an O2 molecule to an alkene Because only one of the atoms of O2 is trans ferred to the substrate the enzymes that catalyze such transfers are classified as monooxy genases A biological reducing agent usually the coenzyme NADH (Section 15 11) is required as well... 

How would you synthesize racemic disparlure (Problem 18.46) from compounds having ten or fewer carbons ... 

Scheme 4. The Sharpless asymmetric epoxidation in the J.T. Baker Company s commercial synthesis of (7/ ,8S)-disparlure (15).

When n-BuLi is used instead of t-BuLi, the byproduct after desulfinylation (n-BuS(O)Ph) possesses an acidic proton, which is abstracted by the metalated epoxide. Hence, overall, a stereoselective protodesulfmylation is achieved. This can be used for the asymmetric synthesis of epoxides, such as that of (-)-disparlure from enantiopure sulfoxide 222 (Scheme 5.53) [78]. 

Of course, (+)-disparlure is only one of the many natural products that contain either an epoxide or an aziridine. Important and intriguing biologically active compounds such as the mitomycins, azinomycins, and epothilones also bear these functional groups. 

Muscalure 20, the pheromone of the housefly has been prepared from oleic acid or erucic acid, similarly (Z)-l 1-heneicosene 21, the synergist of muscalure was obtained [189]. The intermediate 22 for the pheromone of the Cabbage looper was prepared using (Z)-methyl-4-octenedioate [166bJ, that was obtained by partial ozonolysis of (Z,Z)-l,5-cyclooctadiene. Similarly disparlure 23, the sex attractant of the gypsy moth, has been synthesized by two successive crossed-couplings with (Z)-4-octene dioate [191],... 

This is the first example of a reaction for which the presence of a chelating ligand was observed to facilitate rather than retard metal-catalysed epoxidation (Gao et al., 1987). It was found that the use of molecular sieves greatly improves this process by removing minute amounts of water present in the reaction medium. Water was found to deactivate the catalyst. All these developments led to an improved catalytic version that allows a five-fold increased substrate concentration relative to the stoichiometric method. Sensitive water-soluble, optically active glycidols can be prepared in an efficient manner by an in situ derivatisation. This epoxidation method appears to be competitive with enzyme-catalysed processes and was applied in 1981 for the commercial production of the gypsy moth pheromone, (-1-) disparlure, used for insect control (Eqn. (25)). 

R,8S)-(+)-Disparlure (12) is the female sex pheromone of the gypsy moth (Lymantria dispar). Advent of Sharpless asymmetric dihydroxylation (AD) allowed several new syntheses of 12 possible. Sharpless synthesized 12 as shown in Scheme 17 [27]. Scheme 18 summarizes Ko s synthesis of 12 employing AD-mix-a [28]. He extended the carbon chain of A by Payne rearrangement followed by alkylation of an alkynide anion with the resulting epoxide to give B. Keinan developed another AD-based synthesis of 12 as shown in Scheme 19 [29]. Mit-sunobu inversion of A to give B was the key step, and the diol C could be purified by recrystallization. 

Some lepidopteran species secret methyl-branched chemicals for their sexual communication. These have been abbreviated with Me to indicate the position of the methyl group. Disparlure (Me2,epo7-18 H) is a well-known pheromone identified from Lymantria dispar [3] and two other species in the same genus, L.fumida [95] and L. monacha [96]. L. monacha also secrets an... 

Forest Lymantria dispar (gypsy moth) Me2,epo7-18 H (disparlure) USA 10,000 150,000... 

A study using the gypsy moth, Lymantria dispar, illustrates the overall pathways involved in production of epoxide pheromone components (Fig. 3) [77]. This insect uses disparlure, Me2,epo7-18 H, as a pheromone component. In-... 

It should be added that many other groups have contributed to the predevelopments of these inventions and also to later developments. All four reactions find wide application in organic synthesis. The Sharpless epoxidation of allylic alcohols finds industrial application in Arco s synthesis of glycidol, the epoxidation product of allyl alcohol, and Upjohn s synthesis of disparlure (Figure 14.4), a sex pheromone for the gypsy moth. The synthesis of disparlure starts with a Ci3 allylic alcohol in which, after asymmetric epoxidation, the alcohol is replaced by the other carbon chain. Perhaps today the Jacobsen method can be used directly on a suitable Ci9 alkene, although the steric differences between both ends of the molecules are extremely small ... 

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