Isoborneol synthesis

The most important and frequently used terpene esters in flavours are the acetates of nerol, geraniol, citronellol, linalool and isoborneol [12], As discussed before, all these terpene alcohols are available both from renewable resources and from petrochemical origin. Acetic acid can be obtained from renewable resources by pyrolysis of wood as wood vinegar, and also by synthesis from petrochemical origin. 

A vast array of chiral auxiliaries have been derived from naturally occurring compounds containing the bicyclo[2.2.1]heptane unit (for review articles, see refs 1 -3). In all cases, the ultimate sources of these auxiliaries are the ketones camphor and fenchone, and the alcohols borneol and fenchol, as at least one enantiomer of each compound is provided in enantiomericaUy pure form by nature. Thus. ( + )-camphor [( + )-2], (-)-borneol [(-)- ], and (+)-fenchonc [( + )-5] are enan-tiomerically pure, convenient and inexpensive starting materials for organic synthesis and deriva-tization to give chiral auxiliaries. Most other compounds of this series are also commercially available, but can be prepared by oxidation or reduction of inexpensive precursors by standard methods. The evo-alcohols, such as the enantiomeric isoborneols, are accessible by standard complex hydride reductions of the ketones. The interconnection between these compounds is shown diagrammatically. 

Adipic acid Butyl alcohol N-Hydroxysuccinic acid Isoborneol Isostearic acid PEG-6 acrylate PEG-9 acrylate Perchloric acid Succinic anhydride Xylene sulfonic acid ester mfg., flavoring n-Butyric acid ester mfg., flavoring agents Isobutyric acid Phenylacetyl chloride ester mfg., fragrances n-Butyric acid ester mfg., perfume bases Isobutyric acid ester mfg., plasticizers PPG-2 methyl ether ester mfg., solvents Isobutyric acid ester modifier Dimethyloctanyl acetate ester oil mfg., complex Isooctanoic acid ester synthesis Isocetyl alcohol... 

Koizumi and coworkers have developed a new enantiomerically pure a,p-unsaturated sulfoxide dienophile bearing the isoborneol group as a chiral auxiliary, dimethyl (f )-2-(10-isoborneolsulfinyl)maleate (214), which has been successfully employed as a chiral synthetic equivalent of dimethyl acetylenedicarboxylate [174], The dienophile (214) underwent cycloaddition with cyclopentadiene, in the presence of zinc chloride, with high stereo- and diastereoselectivity (92% single endo diastereoisomer, 6% single exo diastereoisomer) to yield the major cycloadduct (215), which was subsequently transformed into the half-ester (216), an intermediate in the syntheses of (-)-aristeromycin (199) and (-)-neplanocin A (200). Cycloadduct (215) has also recently been used for the synthesis of bicyclo[2.2.1]heptane lactone (217) [175,177], which itself is an intermediate in the synthesis of the iridoid (-)-boschnialactone [176] (218) (Scheme 5.69), and also in the formal synthesis of (-)-aristeromycin (199) and (-)-neplanocin (200) [177]. 

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