2-cyclohexenones

The addition of large enolate synthons to cyclohexenone derivatives via Michael addition leads to equatorial substitution. If the cyclohexenone conformation is fixed, e.g. as in decalones or steroids, the addition is highly stereoselective. This is also the case with the S-addition to conjugated dienones (Y. Abe, 1956). Large substituents at C-4 of cyclic a -synthons direct incoming carbanions to the /rans-position at C-3 (A.R. Battersby, 1960). The thermodynamically most stable products are formed in these cases, because the addition of 1,3-dioxo compounds to activated double bonds is essentially reversible. 

The cyclooctenonecarboxylate 169 undergoes smooth cycloaddition with 154 to give 170 in a good yield, but no reaction takes place with cyclooctenone (171)[111], Cyclohexenone behaves similarly. Cycloheptatrienone (172) undergoes [6-1-3] cycloaddition to form the nine-membered carbocycle 173[112],... 

The optically active 1,4-cyclohexenediol monoacetate 525, prepared by hydrolysis of the me.so-diacetate with lipase, was converted into the optically pure cyclohexenone 526 by an elimination reaction in the presence of ammonium formate. Optically active carvone (527) was prepared from 526[343],... 

Pd(II)-catalyzed cyclization of the siloxyhexatriene 34 offers a cyclohexe-none annulation method. The Pd enolate 35, formed by transraetallation of the silyl enol ether with Pd(II), is an intermediate which undergoes intramolecular eWo-alkene insertion. Then Pd(II) is regenerated to give 36, and finally cyclohexenone is formed[38]. 

The synthesis of cyclohexenone derivatives by Michael addition followed by intramolec ular aldol condensation is called the Robinson annulation, after Sir Robert Robinson who popularized its use By annulatwn we mean the building of a ring onto some start mg molecule (The alternative spelling annelation is also often used)... 

Total Synthesis. Poor yields encountered duriag the manufacture of vitamin D stimulated early attempts to synthesize vitamin D. In 1959 Inhoffen synthesized vitamin from 3-methyl-2-(2-carboxyethyl)-2-cyclohexenone (40), uskig the Wittig reaction extensively (103). 

The synthesis of this series involved the reaction of disubstituted or benzo fused 6-keto(formyl)-2-cyclohexenones with hydroxylamine (Scheme 176), Base degradation gave a-cyanoketones which can be further degraded to diacids (67AHC(8)277, 80IJC(B)406). 

FUJIMOTO - BELLEAU Cyclohexenone Synthesis Synthesis of fused cyclohexenones from lactones (an alternative to the Robinson annulation). 

In recent years the application of photocycloaddition reactions to organic synthesis has been growing in importance. - The procedure described is illustrative of a general method based on a photocycloaddition reaction for the introduction of an activated alkyl group specifically to the a-carhon atom of an a,/3-unsaturated cyclohexenone. Especially significant is the fact that the method is also applicable to... 

The preparation of 3-ethoxy-2-cyclohexenone is described elsewhere in this volume. ... 

The 2-cyclohexenone obtained by an ordinary distillation at this point is contaminated with lower-boiling impurities (see Note 5), primarily ether and ethanol. 

The purity of the 2-cyclohexenone may be assayed by gas chromatography on an 8 mm. x 215 cm. column heated to 125° and packed with di-(2-ethylhexyl) sebacate suspended on ground firebrick. This method of analysis indicates that the 3-cyclo-hexenone in the product amounts to no more than 3%. The fore-run from this fractional distillation contains substantial amounts of 2-cyclohexenone accompanied by ether, ethanol, and minor amounts of other lower-boiling impurities. Additional quantities of pure 2-cyclohexenone can be recovered by redistillation of this fore-run. The preparation of 2-cyclohexenone has been run on twice the scale described with no loss in yield. The ultraviolet spectrum of an ethanol solution of the 2-cyclohexenone obtained has a maximum at 226 m/i (s = 10,400). 

Cyclohexenone has been prepared by dehydrohalogenation of 2-bromocyclohexanone, by the hydrolysis and oxidation of 3-chlorocyclohexene, by the dehydration of a-hydroxycyclohexa- ione, by the oxidation of cyclohexene with chromic acid or hydrogen peroxide in the presence of a vanadium catalyst, by I lie addition of acroleiti to ethyl acetoacctate followed by cycliza-lion, hydroly.sis, and decar])oxylation, by the reduction of N,N-dimelliyliiniline with sodium and ethanol itt liquid ammonia... 

In a 2-1. flask fitted with a total-reflux, variable-take-off distillation head is placed a solution of 53 g. (0.472 mole) of dihydroresorcinol (Note 1), 2.3 g. of -toluenesulfonic acid monohydrate and 250 ml. of absolute ethanol in 900 ml. of benzene. The mixture is heated to boiling and the azeotrope composed of benzene, alcohol, and water is removed at the rate of 100 ml. per hour. When the temperature of the distilling vapor reaches 78° (Note 2), the distillation is stopped and the residual solution is washed with four 100-ml. portions of 10% aqueous sodium hydroxide which have been saturated with sodium chloride. The resulting organic solution is washed with successive 50-ml. portions of water until the aqueous washings are neutral and then concentrated under reduced pressure. The residual liquid is distilled under reduced pressure. The yield of 3-ethoxy-2-cyclohexenone (Note 3), b.p. 66-68.5°/0.4 mm. or 115-121°/11 mm., Mq 1.5015, is 46.6-49.9 g. (70-75%). 

Ethoxy-2-cyclohexenone has been prepared by reaction of the silver salt of dihydroresorcinol with ethyl iodide and by the reaction of dihydroresorcinol with ethyl orthoformate, ethanol and sulfuric acid." The acid-catalyzed reaction of dihydroresorcinol with ethanol in benzene solution utilized in this preparation is patterned after the procedure of Frank and Hall. ... 

Ethoxy-2-cyclohexenone is a useful intermediate in the synthesis of certain cyclohexenones. The reduction of 3-ethoxy-2-cyclohexenone with lithium aluminum hydride followed by hydrolysis and dehydration of the reduction product yields 2-cyclo-hexenone. Similarly, the reaction of 3-ethoxy-2-cyclohexenone with Grignard reagents followed by hydrolysis and dehydration of the addition product affords a variety of 3-substituted 2-cyclo-hexenones. ... 

---