Substituents on quinone methides strongly modulate formation and stability of their nucleophilic adducts |
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Authors: | Weinert Emily E Dondi Ruggero Colloredo-Melz Stefano Frankenfield Kristen N Mitchell Charles H Freccero Mauro Rokita Steven E |
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Affiliation: | Department of Chemistry and Biochemistry, University of Maryland, College Park, Maryland 20742, USA. |
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Abstract: | Electronic perturbation of quinone methides (QM) greatly influences their stability and in turn alters the kinetics and product profile of QM reaction with deoxynucleosides. Consistent with the electron-deficient nature of this reactive intermediate, electron-donating substituents are stabilizing and electron-withdrawing substituents are destabilizing. For example, a dC N3-QM adduct is made stable over the course of observation (7 days) by the presence of an electron-withdrawing ester group that inhibits QM regeneration. Conversely, a related adduct with an electron-donating methyl group is very labile and regenerates its QM with a half-life of approximately 5 h. The generality of these effects is demonstrated with a series of alternative quinone methide precursors (QMP) containing a variety of substituents attached at different positions with respect to the exocyclic methylene. The rates of nucleophilic addition to substituted QMs measured by laser flash photolysis similarly span 5 orders of magnitude with electron-rich species reacting most slowly and electron-deficient species reacting most quickly. The reversibility of QM reaction can now be predictably adjusted for any desired application. |
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