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Hydrolysis of α-Alkyl-α-(methylthio)methylene Meldrum's Acids. A Kinetic and Computational Investigation of Steric Effects.

Authors :
Bernasconi, Claude F.
Brown, Shoshana D.
Ali, Mahammad
Rappoport, Zvi
Yamataka, Hiroshi
Salim, Hatim
Source :
Journal of Organic Chemistry. 6/23/2006, Vol. 71 Issue 13, p4795-4802. 8p. 2 Diagrams, 2 Charts.
Publication Year :
2006

Abstract

The rates of hydrolysis of α-R-α-(methylthio)methylene Meldrum's acids (8-R with R = H, Me, Et, s-Bu, and t-Bu) were determined in basic and acidic solution in 50% DMSO-50% water (v/v) at 20 °C. In basic solution (KOH), nucleophilic attack to form a tetrahedral intermediate (T-OH) is rate limiting for all substrates (k1OH). In acidic solution (HCI) and at intermediate pH values (acetate buffers), water attack (k1H2O) is rate limiting for 8-Me, 8-Et, and 8-s-Bu; the same is presumably the case for 8-t-Bu, but rates were too slow for accurate measurements at low pH. For 8-H, water attack is rate limiting at intermediate pH but at pH < 4.5 MeS- departure from the tetrahedral intermediate becomes rate limiting. Our interpretation of these results is based on a reaction scheme that involves three pathways for the conversion of T-OH to products, two of which being unique to hydrolysis reactions and taking advantage of the acidic nature of the OH group in T-OH. This scheme provides an explanation why even at high [KOH] T-OH does not accumulate to detectable levels even though the equilibrium for OH- addition to 8-R is expected to favor T-OH, and why at low pH water attack is rate limiting for R = Me, Et, s-Bu, and t-Bu but leaving group departure becomes rate limiting with the sterically small R = H. The trend in the k1OH and k1H2O indicates increasing steric crowding at the transition state with increasing size of R, but this effect is partially offset by a sterically induced twisting of the C=C double bond in 8-R which leads to its elongation and makes the substrate less stable and hence more reactive. Our computational results suggest that this effect becomes particularly pronounced for R = t-Bu and explains why k1OH for 8-t-Bu is somewhat higher than for the less crowded 8-s-Bu. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00223263
Volume :
71
Issue :
13
Database :
Academic Search Index
Journal :
Journal of Organic Chemistry
Publication Type :
Academic Journal
Accession number :
21408709
Full Text :
https://doi.org/10.1021/jo060254o