Stereo-conserved synthesis of syn-diarylheptanoids, active principles of Zingiber, starting from d-glucose

A highly efficient and stereo-controlled synthetic strategy has been developed to access syn-diarylheptanoids, for example, 2, 3, 4, and 5b starting from d-glucose as a chiral pool. The 3-(R), 5-(S)-syn-diol stereochemistry present in these heptanoids was obtained after conserving C2 and C4 stereochemistry of d-glucose during the course of synthetic transformation. The key features of this synthetic strategy include: (i) conversion of d-glucose to a known chiral template 6 armored with the required 1,3-syn-diol stereochemistry as well as two terminal aldehyde functionalities for building up customized 'diaryl wings'; (ii) conversion of 6 to 7 via an initial Wittig olefination at the C5-aldehyde; (iii) use of the hemiacetal 7 as a common intermediate to obtain the individual heptanoids via a second Wittig reaction at its anomeric center using appropriately chosen ylides.