Carbonate esters, oxidative ozonolysis

Carbenes, dioxirane preparation, 1132 Carbocations, antimalarial endoperoxides, 1309 Carbohydrate hydroperoxides, Mo-catalyzed olefin epoxidation, 432, 436 Carbohydrates, TBARS assay, 669 Carbonate esters, oxidative ozonolysis, 737, 738... 

Total syntheses of diterpenoid hydrokempenones have been accomplished by Paquette et al.,f using the Pd-catalyzed [3 + 2] cycloaddition methodology. One example is outlined on Scheme 43 and describes the synthesis of an isomeric compound 208 of 3/3-hydroxy-7/3-kemp-8(9)-en-6-one, a defense secretion agent of the neotropical species Nasutitermes octopilis. 3-AUcoxy-2-cyclohexenone 204 was efficiently functionalized and transformed to bicylic adduct 205 via a Robinson annulation reaction. Reduction of the double bond followed by condensation of dimethyl carbonate and oxidation gave the keto ester 206, which was treated with [2-(acetoxymethyl)-3-allyl]trimethylsilane, palladium acetate, and triisopropyl phosphite in refluxing tetrahydrofuran to afford a 98% yield of 207. Substituted methylenecyclopentane 207 was then functionalized by stereoselective reduction and protections, and final closure was done under basic conditions after an ozonolysis step. A modified Barton-McCombie reaction produced the desired tetracyclic adduct 208. 

More recently, Danishefsky reported a fully synthetic route to tunicamin-yluracil (274) derived from tunicamycin (85JA7761) and hikosamine (284) (85JA7762). Cyclocondensation of the ribosederived aldehyde (260) (84JOC1955) (Scheme 35) with diene 259 under catalysis by Eu(fod)3 (83JA3716) afforded an 86% yield of the carbon-linked disaccharide 261. Ozonolysis of 261, followed by oxidative treatment and esterification, furnished the /3-hydroxy ester 262 and its benzyloxymethyl ether 263. 

The alkaloids are chiral as a result of restricted rotation of the biaryl system as well as of the possession of asymmetric carbon atoms the methyl at C-3 is on the a-face in all alkaloids and that at C-1 on the B-face in most, but not all cases. The structure of ancistrocladine has been determined by oxidation to the acid (13) the methyl ester of which is prepared by two routes, and by Hofmann degradation of its 0,n-dimethyl-derivative successively to the methine base (14) and the nitrogen-free products (15) and (16), the second of which on ozonolysis gives an aldehyde which yields the lactone (17) on oxidation. The position of the phenolic hydroxyl group in the alkaloid has been confirmed by Claisen rearrangement of the allyl ether (T.R. Govindachari and P.C. Parthasarathy, Tetrahedron, 1971, 1013). 

Inversion of the C-4 hydroxyl group on 805 and 807 would provide either of the lyxo-deoxyimino sugars 810 or 813. Deprotection of the OTBS groups on 802 followed by ozonolysis and oxidation with silver carbonate on Celite of the resulting anomeric mixture provides in 89% yield the lactone (li ,5i ,8R)-6-benzyl-8-hydroxy-2-oxa-6-azabicyclo-[3.3.0]octane-3,7-dione (808), determined by proton NMR of the MTPA ester to have 96% ee. 

Methyl oleate 6 was among the first unsaturated esters to be examined by Bickford et The reaction was conducted at 220°C, under a carbon dioxide atmosphere for 2 h. A structure was speculated on, again, involving allylic hydrogen. An ozonolysis study of the reaction product gave no conclusive information. Ross et showed, based on oxidation of the products, that the reaction produces a succinic acid derivative by first attack at either the 9 or 10 position of methyl oleate 6 with consequent migration of the double bond to the adjacent 10,11 or 8,9 positions, respectively. 

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