Cofactor-less oxygenases perform challenging catalytic reactions between singlet co-substrates and triplet oxygen, in spite of apparently violating the spin-conservation rule. In 1-H-3-hydroxy-4-oxoquinaldine-2,4-dioxygenase, the active site has been suggested by quantum chemical computations to fine tune triplet oxygen reactivity, allowing it to interact rapidly with its singlet substrate without the need for spin inversion, and in urate oxidase the reaction is thought to proceed through electron transfer from the deprotonated substrate to an aminoacid sidechain, which then feeds the electron to the oxygen molecule. In this work, we perform additional quantum chemical computations on these two systems to elucidate several intriguing featur...
The activation of dioxygen by oxygenase enzymes is one of the more remarkable reactions in biology, ...
The deprotonation of an organic substrate is a common preactivation step for the enzymatic cofactorl...
SummaryIn contrast to the majority of O2-activating enzymes, which depend on an organic cofactor or ...
Cofactor-less oxygenases perform challenging catalytic reactions between singlet co-substrates and t...
Cofactor-less oxygenases perform challenging catalytic reactions between singlet co-substrates and t...
The O2 (dioxygen) is paramagnetic molecule with two non-paired electron spins and triplet ground sta...
[EN]Despite being a very strong oxidizing agent, most organic molecules are not oxidized in the pres...
Dioxygenases catalyze a diverse range of biological reactions by incorporating molecular oxygen into...
Dioxygenases catalyze a diverse range of biological reactions by incorporating molecular oxygen into...
Molecular oxygen (O2), in spite being a potentially strong oxidant, typically displays very poor rea...
In this issue of Chemistry & Biology, Thierbach and colleagues establish the chemical mechanism for ...
Molecular oxygen (O 2 ) is a sustainable oxidation reagent. O 2 is strongly oxidizing but kineticall...
14 pags., 10 figs.Despite being a very strong oxidizing agent, most organic molecules are not oxidiz...
Over time, organisms have evolved strategies to cope with the abundance of dioxygen on Earth. Oxygen...
Over time, organisms have evolved strategies to cope with the abundance of dioxygen on Earth. Oxygen...
The activation of dioxygen by oxygenase enzymes is one of the more remarkable reactions in biology, ...
The deprotonation of an organic substrate is a common preactivation step for the enzymatic cofactorl...
SummaryIn contrast to the majority of O2-activating enzymes, which depend on an organic cofactor or ...
Cofactor-less oxygenases perform challenging catalytic reactions between singlet co-substrates and t...
Cofactor-less oxygenases perform challenging catalytic reactions between singlet co-substrates and t...
The O2 (dioxygen) is paramagnetic molecule with two non-paired electron spins and triplet ground sta...
[EN]Despite being a very strong oxidizing agent, most organic molecules are not oxidized in the pres...
Dioxygenases catalyze a diverse range of biological reactions by incorporating molecular oxygen into...
Dioxygenases catalyze a diverse range of biological reactions by incorporating molecular oxygen into...
Molecular oxygen (O2), in spite being a potentially strong oxidant, typically displays very poor rea...
In this issue of Chemistry & Biology, Thierbach and colleagues establish the chemical mechanism for ...
Molecular oxygen (O 2 ) is a sustainable oxidation reagent. O 2 is strongly oxidizing but kineticall...
14 pags., 10 figs.Despite being a very strong oxidizing agent, most organic molecules are not oxidiz...
Over time, organisms have evolved strategies to cope with the abundance of dioxygen on Earth. Oxygen...
Over time, organisms have evolved strategies to cope with the abundance of dioxygen on Earth. Oxygen...
The activation of dioxygen by oxygenase enzymes is one of the more remarkable reactions in biology, ...
The deprotonation of an organic substrate is a common preactivation step for the enzymatic cofactorl...
SummaryIn contrast to the majority of O2-activating enzymes, which depend on an organic cofactor or ...