Bicyclic lactone

Barrelene was obtained via a double Diels-Alder reaction from a-pyrone with methyl acrylate (H.E. Zimmerman, I969A). The primarily forming bicyclic lactone decarboxylates in the heat, and the resulting cyclohexadiene rapidly undergoes another Diels-Alder cyclization. Standard reactions have then been used to eliminate the methoxycarbonyl groups and to introduce C—C double bonds. Irradiation of barrelene produces semibullvalene and cyclooctatetraene (H.E. Zimmerman. 1969B). 

The action of aqueous potassium hydroxide on chloronitrile 14 in DMSO at 25-30°C accomplishes the hydrolysis of the chloronitrile moiety and furnishes ketone 13 in a yield of 80%. Treatment of a solution of ketone 13 in CH2CI2 with mCPBA and sodium bicarbonate results in a selective Baeyer-Villiger oxidation to give bicyclic lactone 12 in >95% yield. It is noteworthy that the Baeyer-Villiger oxidation is completely regioselective and that the... 

Curran s synthesis of ( )-A9(l2)-capnellene [( )-2] is detailed in Schemes 30 and 31. This synthesis commences with the preparation of racemic bicyclic vinyl lactone 147 from ( )-norbomenone [( )-145] by a well-known route.61 Thus, Baeyer-Villiger oxidation of (+)-145 provides unsaturated bicyclic lactone 146, a compound that can be converted to the isomeric fused bicyclic lactone 147 by acid-catalyzed rearrangement. Reaction of 147 with methylmagne-sium bromide/CuBr SMe2 in THF at -20 °C takes the desired course and affords unsaturated carboxylic acid 148 in nearly quantitative yield. Iodolactonization of 148 to 149, followed by base-induced elimination, then provides the methyl-substituted bicyclic vinyl lactone 150 as a single regioisomer in 66% overall yield from 147. 

A careful assessment of the constitution of compound 10 led to the development of a rather efficient strategy featuring the Diels-Alder reaction (see Scheme 3). Although the unassisted intermole-cular reaction between 3-hydroxy-2-pyrone (16)23 and a,/ -unsatu-rated ester 17 is unacceptable in terms of both regioselectivity and chemical yield, compounds 16 and 17 combine smoothly in refluxing benzene and in the presence of phenylboronic acid to give fused bicyclic lactone 12 (61% yield) after workup with 2,2-... 

In contrast to the fact that cyclic acetals can be polymerized only by cationic initiators, lactones undergo polymerization both cationically and anionically, and therefore a wide variety of initiators including coordinated catalysts can be used. In this section, the polymerization of bicyclic lactones is described, although only a limited number of papers on this subject have been published. 

Because of their low reactivity, a Diels-Alder reaction of 2-pyrones usually requires such a high temperature that the initial bicyclic lactone adducts often undergo cycloreversion [30,33] with loss of CO2. In some cases this limitation has been overcome by carrying out the reaction imder high pressure conditions. Posner and coworkers have shown [34-36] that the presence of a tolylthio group or a bromine atom at the 3- or 5-position increases the reactivity of 2-pyrones. 3-Bromo-2-pyrone (35) (Scheme 2.15), as well as its regioisomer 5-bromo (36)... 

Treatment of bicyclic lactones 66, derived from Diels-Alder reaction of 3-carboxy-2-pyrone under standard radical conditions using (TMSlsSiH, leads to bridged lactones 67, which can smoothly be converted to bicyclo[3.3.0]-lactones 68 (Scheme 10). For X = CHaOMe, this cascade of rearrangements took place in a 78% overall yield, providing 68 in diastereomerically pure form. Three additional steps provided a novel route toward Corey s lactone 69. 

Enone disconnection gives bicyclic lactone (7) which... 

Entries 15 to 18 are examples of use of iodocyclization in multistep syntheses. In Entry 15, iodolactonization was followed by elimination of HI from the bicyclic lactone. In Entry 16, a cyclic peroxide group remained unaffected by the standard iodolactonization and subsequent Bu3SnH reductive deiodination. (See Section 5.5 for... 

Scheme 13.17 depicts a synthesis based on enantioselective reduction of bicyclo[2.2.2]octane-2,6-dione by Baker s yeast.21 This is an example of desym-metrization (see Part A, Topic 2.2). The unreduced carbonyl group was converted to an alkene by the Shapiro reaction. The alcohol was then reoxidized to a ketone. The enantiomerically pure intermediate was converted to the lactone by Baeyer-Villiger oxidation and an allylic rearrangement. The methyl group was introduced stereoselec-tively from the exo face of the bicyclic lactone by an enolate alkylation in Step C-l. 

Bicyclic lactones such as 6/1-101 were synthesized by Negishi and coworkers [57] using a domino Heck carbopalladation as the key step of vinyl halides as 6/1-99 to give 6/1-100. The product can be transformed into the desired lactone 6/1-101 in a few steps (Scheme 6/1.26). 

The grem-dibromocyclopropanes 152 bearing a hydroxyalkyl group, prepared by the addition of dibromocarbene to allylic or homoallylic alcohols, undergo an intramolecular reductive carbonylation to the bicyclic lactones 153. bicyclic lactone derived from prenyl alcohol is an important precursor for the synthesis of ris-chrysanthemic acid. (Scheme 54)... 

The low yield in this reaction might be caused by a number of reasons. First, the overall reaction is only rapid for readily enolizable compounds. 1,3-Dicarbonyl compounds will therefore be a better choice as compared to acetic acid. Second, to prevent oxidation of radical 54, it is advantageous to work with excess diene and therefore speed up trapping of 54 through diene addition. Finally, lactone 55 can, as an enolizable compound itself, also be oxidized by manganese(III) acetate and form various oxidation products. Shorter reaction time and the use of understoichiometric amounts of oxidant might therefore benefit the overall result. All these factors have been taken into account in the synthesis of bicyclic /-lactone 56, which has been obtained from cyanoacetic acid and 1,3-cyclohexadiene in 78% yield within 15 min reaction time (equation 25)60,88. 

Addition of halocarbons to alkenes in the presence of transition metals is a well-known radical reaction. Weinreb etal. have now reported an intramolecular version leading to cyclic esters or bicyclic lactones. Typical substrates are the a,a-dichloro ester 1 or the a,a-dichloro acid 2, readily available by reaction of ethyl lithiodi-chloroacetate with 5-bromo-l-pentene. When 1 is heated in benzene at 160° with a metal catalyst, mixtures of epimeric ot,w-dichloro esters 3 and 4 are obtained. The ratio and yields of 3 and 4 are dependent on the catalyst and concentration of 1, but 3 and 4 are the major products formed in the presence of Ru(II) and Fe(II) catalysts. In contrast cyclization of 2 under the same conditions gives the bicyclic y-lactone 5 in high yield. 

In an analogous approach explored by Dixneuf et al., a conjugated enynyl carbonate is converted into an oxolenone or a bicyclic lactone in significant yields via double carbonylation in the presence of methanol (Scheme 22) [128]. When a neighboring carbonyl group is present in the substrate, it can also participate in palladium-catalyzed cyclization-carbonylation. Indeed, 4-yn-l-ones lead to cyclic ketals that can be easily converted into 2-cyclopentenone carboxylates in an acidic medium (Scheme 22) [129]. 

Analysis of product distributions has often been used to evince the presence of 774-vinylketenes in the Dotz reaction. Wulff has studied the reactions of a wide variety of substituted aryl chromiumcarbenes and drawn conclusions from the data that point directly toward i74-vinylketene complexes as key intermediates.13 He has also isolated40 bicyclic lactone products (e.g., 23) characteristic of a van Halban-White cyclization41-44 from the reaction of vinylcarbenes and ketoalkynes. These bicyclic lactones are not generally... 

Fig. 6 Bicyclic lactones tentatively identified in the preorbital secretion of the female suni... 

G. Sabbioni, J. B. Jones, Enzymes in Organic Synthesis. 39. Preparations of Chiral Cyclic Acid-Esters and Bicyclic Lactones via Stereoselective Pig Liver Esterase Catalyzed Hydrolyses of Cyclic meso Diesters ,./. Org. Chem. 1987, 52, 4565 - 4570. 

E. Guibe-Jampel, G. Rousseau, L. Blanco, Enzymatic Resolution of Racemic Bicyclic Lactones by Horse Liver Esterase , Tetrahedron Lett. 1989, 30, 67-68. 

Another heterocyclization is presented by Panifilow et al. Cyclic acetals and ethers are obtained by electrochemical oxidation of the terpenoid alcohol linalool 57 in methanol containing alkaline and sodium methoxide as electrolyt [102]. Anodic oxidation of the C(6)-C 7) double bond of linalool leads to the radical cation 58. In addition to direct methoxylation of the radical cation an attack on the hydroxyl group takes place. After a second one-electron oxidation and following methoxylation the regioisomeric cyclic acetal and a subsequent 1,2-hydride shift, the cyclic acetal 60 and the cyclic ether 61 are finally formed in yields of 16 and 24%, respectively (Scheme 13). As shown by Utley and co-workers bicyclic lactones 65 and 66 can be synthesized by anodic oxidation... 

The reaction with monomethyl malonate in acetic acid, which does not occur at 0-10°C, proceeds smoothly when sonication is applied (Allegretti et al. 1993). From cyclohexene, only the cis ring fusion in bicyclic lactone is observed the product is formed at 80% yield for 15 min at 10°C. The overall transformation, in brief, is shown in Scheme 6.16. The stereoselectivity of the sonochemical process probably reflects the enhanced reaction rate, which does not allow equilibration processes to take place. 

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