Abstract
AbstractAll eight theoretical stereoisomers of (10S)‐Ambrox have been synthesized by enzymatic polycyclization of the four geometric isomers of homofarnesol with selected squalene hopene cyclases. This includes the highly strained (+)‐(8S,9S)‐Ambrox, an isomer historically considered unlikely to exist. The enantiomeric (10R)‐series has been prepared by a combination of diastereoselective synthesis and preparative chiral HPLC. Thus, for the first time, the synthesis and sensory properties of all but one stereoisomers of Ambrox are presented. The results solve a long standing peradventure: the commercial product (−)‐Ambrox exhibits by far the strongest odour, the previously described 9‐epi‐Ambrox is 26 times weaker. The enantiomer difference between (−)‐and (+)‐Ambrox was also found much higher than in previous reports (1000 vs. 8 times). The (8R)‐configuration was identified as the single most important structural feature for high odour strength.
Published Version
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