Jasmone

6 Cyclopentenone Polyolefinic Compounds Jasmone.—Several new routes to c/j-jasmone (175), an important constituent of the essential oil of jasmine, have been described. Ellison and Woessner have outlined a convenient route to the 1,4-diketone (174), which readily 

Reagents i, EtCH=CHCH2CHaBr—Mg ii, ceric ammonium nitrate 

An attractive alternative route to (175), which does not involve the intermediate formation of 1,4-diketone (174), starts from cyclopentadiene.  

A novel route to (175) involves the thermal rearrangement of the 3-cyclopropyl-3-oxopropanoate (185), prepared from alkylation of /3-keto-ester (184) with c/j -l-chloropent-2-ene. The analogous dihydrojasmone (187) 

---

Cis-Jasmone (TM 422) is an important ingredient inmany perfumes. There are several obvious disconnections and it may help you to know that cychsation of the diketone 422A does indeed selectively give cis-jasmone. 

Fourteen syntheses of cis-jasmone are given in chart from in Natural Products Chemistry ed. K.Nakanishi et. ah. Academic Press, New York, 1975, vol.2, p.21. 

Allyl aryl ethers are used for allylation under basic conditionsfh], but they can be cleaved under neutral conditions. Formation of the five-membered ring compound 284 based on the cyclization of 283 has been applied to the syntheses of methyl jasmonate (285)[15], and sarkomycin[169]. The trisannulation reagent 286 for steroid synthesis undergoes Pd-catalyzed cyclization and aldol condensation to afford CD rings 287 of steroids with a functionalized 18-methyl group 170]. The 3-vinylcyclopentanonecarboxylate 289, formed from 288, is useful for the synthesis of 18-hydroxyestrone (290)[I7I]. 

Diketones are readily transformed to cycHc derivatives, such as cyclopentanones and furans. In this manner, the fragrance dihydrojasmone (3-meth5l-2-pentyl-2-cyclopenten-l-one) is prepared by the base-catalyzed aldol condensation of 2,5-undecanedione. 2,5-Undecanedione is itself prepared from heptanal and methyl vinyl ketone in the presence of thiazoHum salts (329). i7j -Jasmone can be similarly prepared (330,331). 

Many cycHc ketones occur in natural oils. Jasmone [488-10-8] (3-meth5l-2-(2-pentyl)-2-cyclopenten-l-one) (4) is an odoriferous component of the oil obtained from jasmine flowers. /-Menthone [14073-97-3] (5) is the most frequently occurring of four optically active isomers, and is a colorless Hquid with a minty odor obtained from Mentha species of plants. Muscone [541-91-3] (6) and civetone [542-46-1] (7) are expensive animal products. 

Of the 11 compounds which constitute approximately 86% of jasmin volatiles, only benzyl acetate, i7t-jasmone (18), and methyl jasmonate possess the characteristic odor of jasmin. Trace components including i7t-j asrnin lactone [34686-71-0] (20) (0.9%) andmethyl ( /-jasmonate (6) (0.1%) are the key contributors to the jasmin odor. 

Jasmine. Jasmine is one of the most precious florals used ia perfumery. The concrete of jasmine is produced by hydrocarbon extraction of flowers from Jasminum officinale (var. GrandijJorum). The concrete is then converted to absolute by alcohoHc extraction. It is produced ia many countries, the most important of which is India, followed by Egypt. Jasmine products are rather expensive and are produced ia relatively small amounts compared with other materials. However, jasmine is particularly important ia perfume creation for its great power and aesthetic quaUties. Eour of the principal odor contributors to jasmine are OT-jasmone [488-10-8] (14), methyl jasmonate [91905-974-] (15), benzyl acetate [140-11 ], and iudole [120-72-9] (16). 

Orange Flower. Extraction of freshly picked flowers of the bitter orange tree, dims aurantium (subspecies amard) for the production of concrete is carried out mainly ia Morocco and Tunisia. Most of this material is processed further to give orange flower absolute, one of the most important absolutes used ia perfumes after rose and jasmine. It is highly valued ia perfumery, even when used at low levels, for its long-lasting, rich, warm, yet dehcate and fresh floralcy. The material is a complex mixture, to which methyl anthranilate [134-20-3] linalool (3), methyl jasmonate (15), and iadole (16) are important odor contributors. 

Jacobson-Hugershofi synthesis benzothiazoles, 5, 135 Japp-KJingemann reaction JV-arylhydrazones from, 4, 337 1,2,4-triazole synthesis by, 5, 768 Jasmine lactone synthesis, 3, 847 Jasminine occurrence, 2, 626 y-Jasmolactone synthesis, 4, 674 cis-Jasmone synthesis, 1, 422, 427 Jatropham synthesis, 1, 426 Josephson junctions, 1, 359 Juliprospine... 

Construction of the carbon frameworks by using the activating property of the nitro group followed by denitration provides a useful tool for the preparation of various naniral products as shovm in Schemes 3 5-3 7 For example, fZ -jasmone and dihydrojasmone, constinients of the essential oilof jasmone flowers, have been prepared as shown in Scheme 3 5 Schemes 3 6 and 3 7 present a synthesis of pheromones via denitration of ct-nitro ketones " ... 

The Michael addition of nitro ilkanes to enones followed by reaction with TiCT provides an excellent route to 1,4-diketones and hence to cyclopentenones. For example, cii -jasmone is readily obtained," as shown in Eq. 6.18. 

Jasmone, CjjHjgO, is a ketone found in essential oil of jasmin, and also in neroli oil. It is a dark-coloured liquid with a powerful jasmin odour, and having the following characters —... 

When the cyclic enone is unsubstituted, but the resulting enolate is quenched with an electrophile under conditions of kinetic control the irons adduct is formed exclusively303. Particularly successful is the sequential Michael addition/enolate alkylation in diastereoselective routes to frans-a,/j-difunctionalized cycloalkanones and lactones304-308. The key steps in the synthesis of methyl ( + )-jasmonate (3)309-310 (syn/anti diastereoselection) and (-)-khushimone (4) (syn/anti and induced diastereoselection) illustrate this sequence311 (see also Section D. 1.1.1.3.). 

In a related study the adduct of the lithium enolate of methyl bis(trimethylsilyl)acetale and ( —)-(/J)-2-(4-methylphenylsulfinyl)-2-cyclopentanone was transformed to ( — )-methyl jasmonate in > 99% ee. In contrast to the previous study described in this section, addition of the enolate proceeded apparently through a chelated form of the enone15. 

In fact, we observed the ability of cationic PO (pi 9.3) to bind with the purified cell walls of this pathogen (Fig. 8, A). This isoform was activated in the infected plants and under the influence of the stress hormone jasmonic acid, both individually and in combination with salicylic acid. 

Fig. 8. Activation of the PO binding with P, infestans cell walls (glucan-specific ) under pathogen inoculation and treatment with salicylic (SA) and jasmonic (JA) acids (A) Peroxidase activity in stomata guard cells and intercellular spaces of adjoining epidermal leaf cells and on the surface of mycelium contacting with the stomata (B). (1) Non-treated control (2) infection (3) treatment with SA (4) treatment with SA + infection (5) treatment with JA (6) treatment with JA + infection (7) treatment with SA + JA (8) treatment with SA + JA + infection g - gifs of P. infestans s - stomata guard cell. Specific to P, infestans cell walls, PO is highlighted.

In this work, a suspension culture of Taxus chinensis, which produces a bioactive taxoid, taxuyunnanine C (Tc), was taken as a model plant cell system. Experiments on the timing of jasmonates addition and dose response indicated that day 7 and 100 pM was the optimal elicitation time and concentration for both cell growth and Tc accumulation [8]. ITie Tc accumulation was increased more in the presence of novel hydroxyl-containing jasmonates compared to that with methyl jasmonate (MJA) addition. For example, addition of 100 pM... 

Fig. 2. Time profiles of Tc content in T. chinensis suspension cultures elicited with methyl jasmonate (MJA), 2-Hydroxyethoxyethyl jasmonate (HEEJA), 2-hydroxyethyl jasmonate (HEJA), D-Glucosyl jasmonate (GJA) and 2,3-dihydroxypropyl jasmonate (DHPJA). One hundred pAf of each elicitor was added to the cultures in IpL of ethanol per ImL of culture medium on day 7 of cultivation. Data are the means of three flasks and vertical bars show standard deviations.

In the reaction of a-sulfonyl carbanion with lactones, the corresponding hydroxy-co-ketosulfones were obtained " . Thus, various o-hydroxyketones were shown by Umani-Ronchi and coworkers to be formed from the corresponding lactones. For example, the reaction of a, a-dilithioalkyl phenyl sulfones with lactones in THF at low temperatures afforded co-hydroxy-jS-ketosulfones which, upon desulfonylation with aluminium amalgam, gave the corresponding hydroxyketones . This process was applied for the syntheses of cis-jasmone and dihydrojasmone by treating y-valerolactone with ds-3-hexen-l-yl phenyl sulfone and n-hexyl phenyl sulfone. ... 

Jasmonates are important odorant compounds. For the synthesis of new substances of this type, Giersch and Forris developed a domino Claisen/ene/retro-ene process which allows the acid-catalyzed transformation of sorbyl alcohol 4-285 and the cyclic acetals 4-286 into the cycloalkenone 4-292 with the proposed intermediates 4-287 to 4-291 (Scheme 4.61) [97]. A similar domino process had been described by Srikrishna and coworkers [98]. Acyclic acetals gave only the Claisen rearrangement products. 

The Michael addition of nitroalkanes to a,P-unsaturated ketones followed by the Nef reaction has been extensively used as a method for the conjugated addition of acyl anions to enones (see Section 6.1, Nef Reaction). This strategy is one of the best methods for the preparation of 1,4-dicarbonyl compounds.156a h Various natural products have been prepared via this route.157 For example, r/.v-jasmone is prepared from readily available materials, as shown in Scheme 4.19.156f... 

---