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Australian Journal of Chemistry Australian Journal of Chemistry Society
An international journal for chemical science
RESEARCH ARTICLE

MM3(92) Analysis of Inositol Ring Puckering

MK Dowd, AD French and PJ Reilly

Australian Journal of Chemistry 49(3) 327 - 335
Published: 1996

Abstract

The molecular mechanics method MM3(92) was used to study the puckering of the nine inositol isomers. Energy surfaces were generated based on the Cremer-Pople puckering definitions and the geometric plate carree representations of Pickett and Strauss. Chair forms are favoured for all the inositol isomers in agreement with experiment. The lowest energy non-chair form, more than 10 kJ/mol in free energy above the chair, is a skew of muco-inositol , in which all the hydroxyls are oriented either equatorially or pseudo-equatorially. Hydrogen-hydrogen coupling constants are in good agreement with experiment. The predicted order of stability for the isomers is scyllo - > myo - > chiro - > neo- >   epi -> muco - ≈ allo -> cis-inositol. This order generally agrees with Angyal's proposed stability order based on the number and type of gauche and 1,3-diaxial ring substituents. In contrast with recent ab initio calculations and values calculated with Angyal's method, the MM3   gas-phase free energy of scyllo-inositol was lower than that of myo-inositol by 5.5 kJ/mol. The calculated transition energy for the chair-to-chair conversion of cis-inositol differs by 12.5-17.2 kJ/mol from the experimental value, depending on the strength of the electrostatic field.

https://doi.org/10.1071/CH9960327

© CSIRO 1996

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