A general method is presented for combining mass spectrometry-based metabolomics data. Such data are becoming more and more abundant, and proper tools for fusing these types of data sets are needed. Fusion of metabolomics data leads to a comprehensive view on the metabolome of an organism or biological system. The ideas presented draw upon established techniques in data analysis. Hence, they are also widely applicable to other types of X-omics data provided there is a proper pretreatment of the data. These issues are discussed using a real-life metabolomics data set from a microbial fermentation process. © 2005 American Chemical Society
The chemical identification of mass spectrometric signals in metabolomic applications is important t...
Metabolic profiling, metabonomics and metabolomics are terms coined in the late 1990s as they emerge...
International audienceMetabolites are small molecules produced by enzymatic reactions in a given org...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
Metabolomics refers to the study of small-molecule metabolites (e.g. fats, sugars, nuclear acids) wi...
Proteomics and metabolomics provide key insights into status and dynamics of biological systems. The...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
Modern analytical technologies afford comprehensive and quantitative investigation of a multitude of...
Metabolomics is a recently developed technique for the analysis of the small-molecule component of b...
The goal of data fusion in metabolomics is to combine data of various platforms measured on the same...
Untargeted metabolomics allows for detection of the thousands of biologically active, small molecule...
Achieving metabolome data with satisfactory coverage is a formidable challenge in metabolomics becau...
Metabolomics studies aim at a better understanding of biochemical processes by studying relations be...
Metabolomics, the global profiling of metabolites in different living systems, has experienced a rek...
Metabolomics research often requires the use of multiple analytical platforms, batches of samples, a...
The chemical identification of mass spectrometric signals in metabolomic applications is important t...
Metabolic profiling, metabonomics and metabolomics are terms coined in the late 1990s as they emerge...
International audienceMetabolites are small molecules produced by enzymatic reactions in a given org...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
Metabolomics refers to the study of small-molecule metabolites (e.g. fats, sugars, nuclear acids) wi...
Proteomics and metabolomics provide key insights into status and dynamics of biological systems. The...
The combination of analytical biochemistry to measure the metabolic complement with sophisticated in...
Modern analytical technologies afford comprehensive and quantitative investigation of a multitude of...
Metabolomics is a recently developed technique for the analysis of the small-molecule component of b...
The goal of data fusion in metabolomics is to combine data of various platforms measured on the same...
Untargeted metabolomics allows for detection of the thousands of biologically active, small molecule...
Achieving metabolome data with satisfactory coverage is a formidable challenge in metabolomics becau...
Metabolomics studies aim at a better understanding of biochemical processes by studying relations be...
Metabolomics, the global profiling of metabolites in different living systems, has experienced a rek...
Metabolomics research often requires the use of multiple analytical platforms, batches of samples, a...
The chemical identification of mass spectrometric signals in metabolomic applications is important t...
Metabolic profiling, metabonomics and metabolomics are terms coined in the late 1990s as they emerge...
International audienceMetabolites are small molecules produced by enzymatic reactions in a given org...