Metabolomics, the global characterization of metabolite profiles, is becoming an increasingly powerful tool for research on secondary metabolite discovery and production. In this review we discuss examples of recent technological advances and biological applications of metabolomics in the search for chemical novelty and the engineered production of bioactive secondary metabolites
Metabolomics is the systemic study of all small molecules (metabolites) and their concentration as a...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
In recent years, metabolomics developed to an accepted and valuable tool in life sciences. Substanti...
Many microbial secondary metabolites are of high biotechnological value for medicine, agriculture, a...
AbstractMany microbial secondary metabolites are of high biotechnological value for medicine, agricu...
Metabolomics is a rapidly emerging field in life sciences, which aims to identify and quantify metab...
The emerging field of metabolomics had profound importance in recent years as its wide applications ...
Since 1940s, microbial secondary metabolites (SMs) have attracted the attention of the scientific co...
The major aim of metabolomics is to identify and quantify all endogenous and exogenous small molecul...
International audienceMetabolites are small molecules produced by enzymatic reactions in a given org...
Nature is a huge library for bioactive compounds. The challenge of natural chemists is to identify a...
Natural products historically have been a rich source of lead molecules in drug discovery, based on ...
Over the last decades there has been a change in biomedical research with the search for single gene...
Metabolomics experiments have become commonplace in a wide variety of disciplines. By identifying an...
"Omics" sciences have been developed to provide a holistic point of view of biology and to better un...
Metabolomics is the systemic study of all small molecules (metabolites) and their concentration as a...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
In recent years, metabolomics developed to an accepted and valuable tool in life sciences. Substanti...
Many microbial secondary metabolites are of high biotechnological value for medicine, agriculture, a...
AbstractMany microbial secondary metabolites are of high biotechnological value for medicine, agricu...
Metabolomics is a rapidly emerging field in life sciences, which aims to identify and quantify metab...
The emerging field of metabolomics had profound importance in recent years as its wide applications ...
Since 1940s, microbial secondary metabolites (SMs) have attracted the attention of the scientific co...
The major aim of metabolomics is to identify and quantify all endogenous and exogenous small molecul...
International audienceMetabolites are small molecules produced by enzymatic reactions in a given org...
Nature is a huge library for bioactive compounds. The challenge of natural chemists is to identify a...
Natural products historically have been a rich source of lead molecules in drug discovery, based on ...
Over the last decades there has been a change in biomedical research with the search for single gene...
Metabolomics experiments have become commonplace in a wide variety of disciplines. By identifying an...
"Omics" sciences have been developed to provide a holistic point of view of biology and to better un...
Metabolomics is the systemic study of all small molecules (metabolites) and their concentration as a...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
In recent years, metabolomics developed to an accepted and valuable tool in life sciences. Substanti...
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