EC Number |
Reaction |
Reference |
---|
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
- |
- |
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
CO initially binds rapidly to the enzyme, possibly at the Cu(I) of the active site, prior to undergoing oxidation. A Mo(V) species exhibits strong coupling to the copper of the active center, the rate-limiting step of overall turnover is likely in the reductive half-reaction |
725392 |
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
hypothetical reaction mechanism, overview |
390482 |
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
proposed reaction mechanisms for CO dehydrogenase, the rate-limiting step for overall turnover resides in the reductive half-reaction, reoxidation of reduced enzyme by quinones occurs at the FAD site |
736514 |
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
reaction mechanism that initially involves nucleophilic attack of a Mo=O oxo on the carbon center of Cu(I)-CO, resulting in a 5-membered cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex I that can bind HO-/H2O to yield 1-OH. This is followed by a second nucleophilic attack on the activated mu2-nu2 CO2 carbon centre of 1-OH to yield a Mo(IV)-bicarbonate product complex, 1-P. This second nucleophilic attack is suggested based on electronic structure description of cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex I, which possesses a bent and activated CO2 bound to the Mo and Cu ions. Proposed catalytic cycle for CODH that avoids formation of a stable C-S bonded cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex II |
735935 |
1.2.5.3 | CO + a quinone + H2O = CO2 + a quinol |
reaction mechanism that initially involves nucleophilic attack of a Mo=O oxo on the carbon center of Cu(I)-CO, resulting in a 5-membered cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex I that can bind HO-/H2O to yield 1-OH. This is followed by a second nucleophilic attack on the activated mu2-nu2 CO2 carbon centre of 1-OH to yield a Mo(IV)-bicarbonate product complex, 1-P. This second nucleophilic attack is suggested based on our electronic structure description of cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex I, which possesses a bent and activated CO2 bound to the Mo and Cu ions. Proposed catalytic cycle for CODH that avoids formation of a stable C-S bonded cyclic m2-e(2) CO2-bridged Mo(VI)-Cu(I)-Cys complex II |
735935 |