Microbial and plant specialized metabolites constitute an immense chemical diversity, and play key roles in mediating ecological interactions between organisms. Also referred to as natural products, they have been widely applied in medicine, agriculture, cosmetic and food industries. Traditionally, the main discovery strategies have centered around the use of activity-guided fractionation of metabolite extracts. Increasingly, omics data is being used to complement this, as it has the potential to reduce rediscovery rates, guide experimental work towards the most promising metabolites, and identify enzymatic pathways that enable their biosynthetic production. In recent years, genomic and metabolomic analyses of specialized metabolic diversit...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
After the establishment of technologies for high-throughput DNA sequencing (genomics), gene expressi...
Plants naturally produce a terrific diversity of molecules, which we exploit for promoting our overa...
Microbial and plant specialized metabolites constitute an immense chemical diversity, and play key r...
Background: Natural products (NP) from plants and microbes are a rich source for bioactive compounds...
Metabolomics is playing an increasingly prominent role in chemical ecology and in the discovery of b...
Genomics and metabolomics are widely used to explore specialized metabolite diversity. The Paired Om...
Plants and crops contain a staggering diversity of compounds, many of which have pharmacological act...
Microbial and plant specialized metabolites, also known as natural products, are key mediators of mi...
The pairing of analytical chemistry with genomic techniques represents a new wave in natural product...
International audienceThe high diversity of marine natural products represents promising opportuniti...
Natural products historically have been a rich source of lead molecules in drug discovery, based on ...
During the past decade metabolomics has emerged as one of the fastest developing branches of “-omics...
All organisms produce specialized organic molecules, ranging from small volatile chemicals to large ...
Metabolomics is a fast developing field of comprehensive untargeted chemical analyses. It has many a...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
After the establishment of technologies for high-throughput DNA sequencing (genomics), gene expressi...
Plants naturally produce a terrific diversity of molecules, which we exploit for promoting our overa...
Microbial and plant specialized metabolites constitute an immense chemical diversity, and play key r...
Background: Natural products (NP) from plants and microbes are a rich source for bioactive compounds...
Metabolomics is playing an increasingly prominent role in chemical ecology and in the discovery of b...
Genomics and metabolomics are widely used to explore specialized metabolite diversity. The Paired Om...
Plants and crops contain a staggering diversity of compounds, many of which have pharmacological act...
Microbial and plant specialized metabolites, also known as natural products, are key mediators of mi...
The pairing of analytical chemistry with genomic techniques represents a new wave in natural product...
International audienceThe high diversity of marine natural products represents promising opportuniti...
Natural products historically have been a rich source of lead molecules in drug discovery, based on ...
During the past decade metabolomics has emerged as one of the fastest developing branches of “-omics...
All organisms produce specialized organic molecules, ranging from small volatile chemicals to large ...
Metabolomics is a fast developing field of comprehensive untargeted chemical analyses. It has many a...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
After the establishment of technologies for high-throughput DNA sequencing (genomics), gene expressi...
Plants naturally produce a terrific diversity of molecules, which we exploit for promoting our overa...