A substantial oxidative N-debenzylation reaction along with PhCHO formation occurs from a hydroperoxo-copper(II) complex that has a dibenzylamino substrate (N(CH 2Ph) 2 appended as a substituent on one pyridyl group of its tripodal tetradentate TMPA (also TPA, (2-pyridylmethyl)amine)) ligand framework. During the course of the (L (N(CH 2 ) (Ph) 2 ))Cu (II)( (-)OOH) reactivity, the formation of a substrate and a (-)OOH-derived (an oxygen atom) alkoxo Cu (II)( (-)OR) complex occurs. The observation that the same Cu (II)( (-)OR) species occurs from Cu (Iota)/PhIO chemistry suggests the possibility that a copper-oxo (cupryl) reactive intermediate forms during the alkoxo species formation; new ESI-MS data provide further support for this high-valent intermediate. A net H atom abstraction chemistry is proposed on the basis of the kinetic isotope effect studies provided here and the previously published study for a closely related Cu (II)( (-)OOH) species incorporating dimethylamine (N(CH 3) 2) as the internal substrate; the Cu (Iota)/PhIO reactivity with similar isotope effect results provides further support. The reactivity of these chemical systems closely resembles the proposed oxidative N-dealkylation mechanisms that are effected by the copper monooxygenases, dopamine beta-monooxygenase (DbetaM) and peptidylglycine- alpha-hydroxylating monooxygenase (PHM).
A substantial oxidative N-debenzylation reaction along with n class="CellLine">PhCHO formation occurs from a hydroperoxo-copper(II) complex that has a dibenzylamino substrate (N(CH 2Ph) 2 appended as a substituent on one pyridyl group of its tripodal tetradentate TMPA (also TPA, (2-pyridylmethyl)amine)) ligand framework. During the course of the (L (N(CH 2 ) (Ph) 2 ))Cu (II)( (-)OOH) reactivity, the formation of a substrate and a (-)OOH-derived (an oxygen atom) alkoxoCu (II)( (-)OR) complex occurs. The observation that the same Cu (II)( (-)OR) species occurs from Cu (Iota)/PhIO chemistry suggests the possibility that a copper-oxo (cupryl) reactive intermediate forms during the alkoxo species formation; new ESI-MS data provide further support for this high-valent intermediate. A net H atom abstraction chemistry is proposed on the basis of the kinetic isotope effect studies provided here and the previously published study for a closely related Cu (II)( (-)OOH) species incorporating dimethylamine (N(CH 3) 2) as the internal substrate; the Cu (Iota)/PhIO reactivity with similar isotope effect results provides further support. The reactivity of these chemical systems closely resembles the proposed oxidative N-dealkylation mechanisms that are effected by the copper monooxygenases, dopamine beta-monooxygenase (DbetaM) and peptidylglycine- alpha-hydroxylating monooxygenase (PHM).
Authors: Debabrata Maiti; H Christopher Fry; Julia S Woertink; Michael A Vance; Edward I Solomon; Kenneth D Karlin Journal: J Am Chem Soc Date: 2007-01-17 Impact factor: 15.419
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