Abstract Recent developments in metabolic engineering have led to the successful biosynthesis of valuable products, such as the precursor of the antimalarial compound, artemisinin, and opioid precursor, thebaine. Synthesizing these traditionally plant-derived compounds in genetically modified yeast cells introduces the possibility of significantly reducing the total time and resources required for their production, and in turn, allows these valuable compounds to become cheaper and more readily available. Most biosynthesis pathways used in metabolic engineering applications have been discovered manually, requiring a tedious search of existing literature and metabolic databases. However, the recent rapid development of available...
Understanding the metabolism of new species (e.g. endophytic fungi that produce fuel) have tremendou...
Cell‐free systems containing multiple enzymes are becoming an increasingly interesting tool for one‐...
Innovation in biotechnology has led to the possibility of engineering metabolic pathways in microorg...
Metabolic Engineering (ME) aims to design microbial cell factories towards the production of valuabl...
Metabolic pathways have become increasingly available for variousmicroorganisms. Such pathways have ...
Metabolic pathway analysis is increasingly promising for assessing inherent network properties in bi...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
Motivation: Construction of synthetic metabolic pathways promises sustainable production of diverse ...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
AbstractA metabolic pathway is a set of enzyme catalysed biochemical reactions by which a living org...
Design and selection of efficient metabolic pathways is critical for the success of metabolic engine...
Motivation: Construction of synthetic metabolic pathways promises sustainable production of di-verse...
AbstractCells of living organisms simultaneously operate hundreds or thousands of interconnected che...
Understanding the metabolism of new species (e.g. endophytic fungi that produce fuel) have tremendou...
Cell‐free systems containing multiple enzymes are becoming an increasingly interesting tool for one‐...
Innovation in biotechnology has led to the possibility of engineering metabolic pathways in microorg...
Metabolic Engineering (ME) aims to design microbial cell factories towards the production of valuabl...
Metabolic pathways have become increasingly available for variousmicroorganisms. Such pathways have ...
Metabolic pathway analysis is increasingly promising for assessing inherent network properties in bi...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
Motivation: Construction of synthetic metabolic pathways promises sustainable production of diverse ...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
As the field of synthetic biology is developing, the prospects for de novo design of biosynthetic pa...
AbstractA metabolic pathway is a set of enzyme catalysed biochemical reactions by which a living org...
Design and selection of efficient metabolic pathways is critical for the success of metabolic engine...
Motivation: Construction of synthetic metabolic pathways promises sustainable production of di-verse...
AbstractCells of living organisms simultaneously operate hundreds or thousands of interconnected che...
Understanding the metabolism of new species (e.g. endophytic fungi that produce fuel) have tremendou...
Cell‐free systems containing multiple enzymes are becoming an increasingly interesting tool for one‐...
Innovation in biotechnology has led to the possibility of engineering metabolic pathways in microorg...