Add to ORKGAdvances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological systems (i.e., enzymes, metabolic pathways, and cells) for chemical synthesis and production of chemicals from renewable resources such as plant sugars. The authors review these basic technologies, illustrate their connection to synthetic chemistry, and provide examples of enzyme and metabolic engineering for the synthesis of organic molecules with high efficiency and selectivity. Finally, the authors anticipate the potential for increased integration of engineered enzymes in metabolic pathways as well as the creation of enzymes with completely novel activities to expand the biosynthetic capabilities
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Natural products and their derivatives play an important role in modern healthcare as frontline trea...
In this perspective, we highlight recent examples and trends in metabolic engineering and synthetic ...
The combination of synthetic and systems biology is a powerful framework to study fundamental questi...
Enzymes as catalysts in synthetic organic chemistry gained importance in the latter half of the 20th...
Enzymes as catalysts in synthetic organic chemistry gained importance in the latter half of the 20th...
Metabolic engineering aims at modifying the endogenous metabolic network of an organism to harness i...
Natural products are complex small molecules produced by an array of organisms and which humans have...
Natural products are complex small molecules produced by an array of organisms and which humans have...
Biocatalysis has become a powerful tool for the synthesis of high-value compounds, particularly so i...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Advances in DNA technologies, metagenomics, and bioinformatics have enabled the use of biological sy...
Natural products and their derivatives play an important role in modern healthcare as frontline trea...
In this perspective, we highlight recent examples and trends in metabolic engineering and synthetic ...
The combination of synthetic and systems biology is a powerful framework to study fundamental questi...
Enzymes as catalysts in synthetic organic chemistry gained importance in the latter half of the 20th...
Enzymes as catalysts in synthetic organic chemistry gained importance in the latter half of the 20th...
Metabolic engineering aims at modifying the endogenous metabolic network of an organism to harness i...
Natural products are complex small molecules produced by an array of organisms and which humans have...
Natural products are complex small molecules produced by an array of organisms and which humans have...
Biocatalysis has become a powerful tool for the synthesis of high-value compounds, particularly so i...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...
The genomic revolution ushered in an era of discovery and characterization of enzymes from novel org...