Add to ORKGMass spectrometry has become an invaluable tool in the discovery and characterization of specialized metabolites and biotechnologically relevant molecules. One aspect of characterizing specialized metabolites involves connecting these molecules to their biosynthetic machineries. Here we employ several mass spectrometry methods and introduce the idea of connecting molecular families to their gene cluster families on a large scale that takes advantage of publicly accessible genomes. As proof of principle, we used molecular networking to analyze sixty bacteria, 42 bacilli and 18 pseudomonads, simultaneously and matched eight molecular families to their gene cluster families. To illustrate the effectiveness of this technique, we combined it wit...
Pseudomonads are cosmopolitan microorganisms able to produce a wide array of specialized metabolites...
Genome mining has become an invaluable approach in aiding the discovery of peptide natural products;...
Although biosynthetic gene clusters (BGCs) have been discovered for hundreds of bacterial metabolite...
The ability to correlate the production of specialized metabolites to the genetic capacity of the or...
In 1886, physicist Eugen Goldstein discovered Kanalstrahlen or "canal rays," rays that moved from an...
Integrating the governing chemistry with the genomics and phenotypes of microbial colonies has been ...
SummaryGenome sequencing has revealed that bacteria contain many more biosynthetic gene clusters tha...
Genome sequencing has revealed that bacteria contain many more biosynthetic gene clusters than predi...
Recently, there has been remarkable interest in mining the chemical diversity in specialized metabol...
Microorganisms are a rich source of bioactives; however, chemical identification is a major bottlene...
Microbes are everywhere. One teaspoon of soil contains an estimated 100 million to one billion bacte...
The overall theme of this thesis is the use of mass spectrometry to answer questions of biological r...
Streptomyces bacteria have a remarkable capacity to biosynthesize natural products. The discovery of...
Actinobacteria encode a wealth of natural product biosynthetic gene clusters (NPGCs), whose systemat...
Pseudomonads are cosmopolitan microorganisms able to produce a wide array of specialized metabolites...
Genome mining has become an invaluable approach in aiding the discovery of peptide natural products;...
Although biosynthetic gene clusters (BGCs) have been discovered for hundreds of bacterial metabolite...
The ability to correlate the production of specialized metabolites to the genetic capacity of the or...
In 1886, physicist Eugen Goldstein discovered Kanalstrahlen or "canal rays," rays that moved from an...
Integrating the governing chemistry with the genomics and phenotypes of microbial colonies has been ...
SummaryGenome sequencing has revealed that bacteria contain many more biosynthetic gene clusters tha...
Genome sequencing has revealed that bacteria contain many more biosynthetic gene clusters than predi...
Recently, there has been remarkable interest in mining the chemical diversity in specialized metabol...
Microorganisms are a rich source of bioactives; however, chemical identification is a major bottlene...
Microbes are everywhere. One teaspoon of soil contains an estimated 100 million to one billion bacte...
The overall theme of this thesis is the use of mass spectrometry to answer questions of biological r...
Streptomyces bacteria have a remarkable capacity to biosynthesize natural products. The discovery of...
Actinobacteria encode a wealth of natural product biosynthetic gene clusters (NPGCs), whose systemat...
Pseudomonads are cosmopolitan microorganisms able to produce a wide array of specialized metabolites...
Genome mining has become an invaluable approach in aiding the discovery of peptide natural products;...
Although biosynthetic gene clusters (BGCs) have been discovered for hundreds of bacterial metabolite...