Add to ORKGWhile biocatalysis is increasingly incorporated into drug development pipelines, it is less commonly used in the early stages of drug discovery. By engineering a protein to produce a chiral motif with a derivatizable functional handle, biocatalysts can be used to help generate diverse building blocks for drug discovery. Here we show the engineering of two variants of Rhodothermus marinus nitric oxide dioxygenase (RmaNOD) to catalyze the formation of cis- and trans-diastereomers of a pinacolboronate-substituted cyclopropane which can be readily derivatized to generate diverse stereopure cyclopropane building blocks
The many strategies for functionalizing C=C and C–H bonds that have evolved in Nature have captivate...
We report a biocatalytic platform of engineered cytochrome P450 enzymes to carry out efficient cyclo...
The repurposing of hemoproteins for non-natural carbene transfer activities has generated enzymes fo...
Extending the scope of biocatalysis to important non-natural reactions such as olefin cyclopropanati...
Cyclopropane rings are an important structural motif frequently found in many natural products and p...
The repurposing of hemoproteins for non-natural carbene transfer activities has generated enzymes fo...
Biocatalysts have shown themselves to be extremely powerful for the synthesis of pharmaceuticals, fr...
Building complex compounds such as fine chemicals and pharmaceuticals by linking carbon-carbon bonds...
Cyclopropyl motifs are present in a variety of compounds important to pharmaceutical, agrochemical, ...
Engineering enzymes capable of modes of activation unprecedented in nature will increase the range o...
In nature and synthetic chemistry, stereoselective [2 + 1] cyclopropanation is the most prevalent st...
Cyclopropylamines are characteristic structural motifs found in a variety of natural products and ph...
Cytochrome P450s and other heme-containing proteins have recently been shown to have promiscuous act...
The many strategies for functionalizing C=C and C–H bonds that have evolved in Nature have captivate...
We report a biocatalytic platform of engineered cytochrome P450 enzymes to carry out efficient cyclo...
The repurposing of hemoproteins for non-natural carbene transfer activities has generated enzymes fo...
Extending the scope of biocatalysis to important non-natural reactions such as olefin cyclopropanati...
Cyclopropane rings are an important structural motif frequently found in many natural products and p...
The repurposing of hemoproteins for non-natural carbene transfer activities has generated enzymes fo...
Biocatalysts have shown themselves to be extremely powerful for the synthesis of pharmaceuticals, fr...
Building complex compounds such as fine chemicals and pharmaceuticals by linking carbon-carbon bonds...
Cyclopropyl motifs are present in a variety of compounds important to pharmaceutical, agrochemical, ...
Engineering enzymes capable of modes of activation unprecedented in nature will increase the range o...
In nature and synthetic chemistry, stereoselective [2 + 1] cyclopropanation is the most prevalent st...
Cyclopropylamines are characteristic structural motifs found in a variety of natural products and ph...
Cytochrome P450s and other heme-containing proteins have recently been shown to have promiscuous act...
The many strategies for functionalizing C=C and C–H bonds that have evolved in Nature have captivate...
We report a biocatalytic platform of engineered cytochrome P450 enzymes to carry out efficient cyclo...
The repurposing of hemoproteins for non-natural carbene transfer activities has generated enzymes fo...