Add to ORKGEngineered heme protein biocatalysts provide an efficient and sustainable approach to develop amine-containing compounds through C−H amination. A quantum chemical study to reveal the complete heme catalyzed intramolecular C−H amination pathway and protein axial ligand effect was reported, using reactions of an experimentally used arylsulfonylazide with hemes containing L=none, SH−, MeO−, and MeOH to simulate no axial ligand, negatively charged Cys and Ser ligands, and a neutral ligand for comparison. Nitrene formation was found as the overall rate-determining step (RDS) and the catalyst with Ser ligand has the best reactivity, consistent with experimental reports. Both RDS and non-RDS (nitrene transfer) transition states follow the barrier ...
Heme proteins, in particular cytochromes P450, have been extensively used in biocatalytic applicatio...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...
Primary amine is one of the most prevalent moieties in synthetic intermediates and pharmaceutical co...
One of the most important challenges in chemistry is the creation of new catalysts. Nature excels at...
The surge in reports of heme-dependent proteins as catalysts for abiotic, synthetically valuable car...
Heme enzymes have the potential to be widely used as biocatalysts due to their capability to perform...
C-H functionalization is an attractive strategy to construct and diversify molecules. Heme proteins,...
Adapting enzymes for chemical synthesis is a longstanding and contemporary challenge; however, enzym...
Here we report a cytochrome P450 variant that catalyzes C_2-amidation of 1-methylindoles with tosyl ...
C–H bonds are ubiquitous structural units of organic molecules. Although these bonds are generally c...
Cytochrome P450 enzymes were recently engineered to catalyze the C–H amination reaction of aryl sulf...
Nitrogen activation: Though P450 enzymes are masters of oxygen activation and insertion into C-H bon...
Despite the astonishing diversity of naturally occurring biocatalytic processes, enzymes do not cata...
We create enzymes that catalyze reactions not known in living systems. We direct the evolution of ne...
Heme proteins, in particular cytochromes P450, have been extensively used in biocatalytic applicatio...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...
Primary amine is one of the most prevalent moieties in synthetic intermediates and pharmaceutical co...
One of the most important challenges in chemistry is the creation of new catalysts. Nature excels at...
The surge in reports of heme-dependent proteins as catalysts for abiotic, synthetically valuable car...
Heme enzymes have the potential to be widely used as biocatalysts due to their capability to perform...
C-H functionalization is an attractive strategy to construct and diversify molecules. Heme proteins,...
Adapting enzymes for chemical synthesis is a longstanding and contemporary challenge; however, enzym...
Here we report a cytochrome P450 variant that catalyzes C_2-amidation of 1-methylindoles with tosyl ...
C–H bonds are ubiquitous structural units of organic molecules. Although these bonds are generally c...
Cytochrome P450 enzymes were recently engineered to catalyze the C–H amination reaction of aryl sulf...
Nitrogen activation: Though P450 enzymes are masters of oxygen activation and insertion into C-H bon...
Despite the astonishing diversity of naturally occurring biocatalytic processes, enzymes do not cata...
We create enzymes that catalyze reactions not known in living systems. We direct the evolution of ne...
Heme proteins, in particular cytochromes P450, have been extensively used in biocatalytic applicatio...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...
Transition-metal catalysis is a powerful tool for the construction of chemical bonds. Here we show t...