Good agreement between theoretical and experimental vibrational circular dichroism curves of (1S,11S,12S)-(+)-verticilla-3E,7E-dien-12-ol (1) established the absolute configuration of this natural diterpene isolated from Bursera suntui.
Molecular modeling of 1 was carried out using the Monte Carlo protocol followed by geometry optimization at the
B3LYP 6-31G(d,p) level of theory. The 12-membered ring of 1 was found in a single preferred chair−chair−chair−chair conformation. In the six-membered ring a chair prevails over a distorted boat, and the C−OH bond rotation
generates three predominant rotamers. Validation of the minimum energy conformation for 1 was achieved by comparison
of theoretical and experimental infrared frequencies, vicinal 1H NMR coupling constants, and X-ray diffraction data.
This study confirms that (+)-verticillol 1 isolated from Bursera species has the 1S,11S,12S absolute configuration that
corresponds to the same enantiomeric series as verticillanes from Sciadopitys and Taxus, while verticillanes from Jackiella
and Jungermannia have antipodal structures.
The exceptional case of a natural compound that shows drastic absolute configuration variations within the same species was examined. Sequential samples of areolal (1) isolated from Piptothrix areolare showed dextrorotatory (ee 32%), almost racemic (ee 4%), levorotatory (ee 82%), and again dextrorotatory (ee 10%) values. Enantiomeric compositions of this epoxythymol derivative were determined from individual plant specimens collected from the same geographical location over a 46-day period, which were processed using the same extraction and isolation methods. Detection of this unusual phenomenon was possible by analysis of NMR data recorded in the presence of BINOL as a chiral solvating agent. The absolute configuration of (−)-(8S)-areolal followed from vibrational circular dichroism data of an enantiomerically enriched sample, while single-crystal X-ray diffraction and supramolecular analyses revealed interactions that diminish the crystal entropy in rac-1. These results might be related with environmental factors and biochemical processes, suggesting the need of strict evaluations of enantiomeric composition of natural products that could be considered for human applications.
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