Add to ORKGThe explosion of genomic sequence data and the significant advancements in synthetic biology have led to the development of new technologies for natural products discovery and production. Using powerful genetic tools, the yeast Saccharomyces cerevisiae has been engineered as a production host for natural product pathways from bacterial, fungal, and plant species. With an expanding library of characterized genetic parts, biosynthetic pathways can be refactored for optimized expression in yeast. New engineering strategies have enabled the increased production of valuable secondary metabolites by tuning metabolic pathways. Improvements in high-throughput screening methods have facilitated the rapid identification of variants with improved bios...
Already for millennia, microbial fermentation is used for the production of dairy products, alcoholi...
textMetabolic engineering has enabled the advancement of biotechnology over the past few decades thr...
Yeast—especially Saccharomyces cerevisiae—have long been a preferred workhorse for the p...
Many pharmaceutical drugs currently available on the market are natural products, which are extracte...
Constant progress in genetic engineering has given rise to a number of promising areas of research t...
Constant progress in genetic engineering has given rise to a number of promising areas of research t...
BACKGROUND: Natural products are an important source of drugs and other commercially interesting co...
Cell factories can provide a sustainable supply of natural products with applications as pharmaceuti...
Abstract Background Natural products are an important source of drugs and other commercially interes...
Synthetic biology is founded on the idea that cells are living machines that execute genetically enc...
Engineered yeast are an important production platform for the biosynthesis of high-value compounds w...
Engineered yeast are an important production platform for the biosynthesis of high-value compounds w...
Abstract Industrial biotechnology employs the controlled use of microorganisms for the production of...
Many high-value metabolites are produced in nature by organisms that are not ideal for large-scale p...
Microbial production of chemicals and proteins from biomass-derived and waste sugar streams is a rap...
Already for millennia, microbial fermentation is used for the production of dairy products, alcoholi...
textMetabolic engineering has enabled the advancement of biotechnology over the past few decades thr...
Yeast—especially Saccharomyces cerevisiae—have long been a preferred workhorse for the p...
Many pharmaceutical drugs currently available on the market are natural products, which are extracte...
Constant progress in genetic engineering has given rise to a number of promising areas of research t...
Constant progress in genetic engineering has given rise to a number of promising areas of research t...
BACKGROUND: Natural products are an important source of drugs and other commercially interesting co...
Cell factories can provide a sustainable supply of natural products with applications as pharmaceuti...
Abstract Background Natural products are an important source of drugs and other commercially interes...
Synthetic biology is founded on the idea that cells are living machines that execute genetically enc...
Engineered yeast are an important production platform for the biosynthesis of high-value compounds w...
Engineered yeast are an important production platform for the biosynthesis of high-value compounds w...
Abstract Industrial biotechnology employs the controlled use of microorganisms for the production of...
Many high-value metabolites are produced in nature by organisms that are not ideal for large-scale p...
Microbial production of chemicals and proteins from biomass-derived and waste sugar streams is a rap...
Already for millennia, microbial fermentation is used for the production of dairy products, alcoholi...
textMetabolic engineering has enabled the advancement of biotechnology over the past few decades thr...
Yeast—especially Saccharomyces cerevisiae—have long been a preferred workhorse for the p...