Add to ORKGC-H functionalization is an attractive strategy to construct and diversify molecules. Heme proteins, predominantly cytochromes P450, are responsible for an array of C-H oxidations in biology. Recent work has coupled concepts from synthetic chemistry, computation, and natural product biosynthesis to engineer heme protein systems to deliver products with tailored oxidation patterns. Heme protein catalysis has been shown to go well beyond these native reactions and now accesses new-to-nature C-H transformations, including C-N and C-C bond forming processes. Emerging work with these systems moves us along the ambitious path of building complexity from the ubiquitous C-H bond
The development of new catalytic methods to functionalize carbon–hydrogen (C–H) bonds continues to ...
A cytochrome c heme protein was recently engineered to catalyze the formation of carbon–silicon bond...
C–H bonds are ubiquitous structural units of organic molecules. Although these bonds are generally c...
One of the most important challenges in chemistry is the creation of new catalysts. Nature excels at...
We create enzymes that catalyze reactions not known in living systems. We direct the evolution of ne...
Primary amine is one of the most prevalent moieties in synthetic intermediates and pharmaceutical co...
Adapting enzymes for chemical synthesis is a longstanding and contemporary challenge; however, enzym...
Iron is an especially important redox-active cofactor in biology because of its ability to mediate r...
Heme proteins, in particular cytochromes P450, have been extensively used in biocatalytic applicatio...
Engineered heme protein biocatalysts provide an efficient and sustainable approach to develop amine-...
The successful use of man-made proteins to advance synthetic biology requires both the fabrication o...
Heme enzymes have the potential to be widely used as biocatalysts due to their capability to perform...
The selective functionalization of ubiquitous C-H bonds can greatly streamline the construction of c...
Metalloenzymes catalyze reactions that are among the “holy grails” of modern chemical research and d...
The surge in reports of heme-dependent proteins as catalysts for abiotic, synthetically valuable car...
The development of new catalytic methods to functionalize carbon–hydrogen (C–H) bonds continues to ...
A cytochrome c heme protein was recently engineered to catalyze the formation of carbon–silicon bond...
C–H bonds are ubiquitous structural units of organic molecules. Although these bonds are generally c...
One of the most important challenges in chemistry is the creation of new catalysts. Nature excels at...
We create enzymes that catalyze reactions not known in living systems. We direct the evolution of ne...
Primary amine is one of the most prevalent moieties in synthetic intermediates and pharmaceutical co...
Adapting enzymes for chemical synthesis is a longstanding and contemporary challenge; however, enzym...
Iron is an especially important redox-active cofactor in biology because of its ability to mediate r...
Heme proteins, in particular cytochromes P450, have been extensively used in biocatalytic applicatio...
Engineered heme protein biocatalysts provide an efficient and sustainable approach to develop amine-...
The successful use of man-made proteins to advance synthetic biology requires both the fabrication o...
Heme enzymes have the potential to be widely used as biocatalysts due to their capability to perform...
The selective functionalization of ubiquitous C-H bonds can greatly streamline the construction of c...
Metalloenzymes catalyze reactions that are among the “holy grails” of modern chemical research and d...
The surge in reports of heme-dependent proteins as catalysts for abiotic, synthetically valuable car...
The development of new catalytic methods to functionalize carbon–hydrogen (C–H) bonds continues to ...
A cytochrome c heme protein was recently engineered to catalyze the formation of carbon–silicon bond...
C–H bonds are ubiquitous structural units of organic molecules. Although these bonds are generally c...