Metabolomics embraces several strategies that aim to quantify cell metabolites in order to increase our understanding of how metabolite levels and interactions influence phenotypes. Metabolic footprinting represents a niche within metabolomics, because it focuses on the analysis of extracellular metabolites. Although metabolic footprinting represents only a fraction of the entire metabolome, it provides important information for functional genomics and strain characterization, and it can also provide scientists with a key understanding of cell communication mechanisms, metabolic engineering and industrial biotechnological processes. Due to the tight and convoluted relationship between intracellular metabolism and metabolic footprinting, metabolic footprinting can provide precious information about the intracellular metabolic status. Hereby, we state that integrative information from metabolic footprinting can assist in further interpretation of metabolic networks.

Mapelli, V., Olsson, L., Nielsen, J. (2008). Metabolic footprinting in microbiology: methods and applications in functional genomics and biotechnology. TRENDS IN BIOTECHNOLOGY, 26(9), 490-497 [10.1016/j.tibtech.2008.05.008].

Metabolic footprinting in microbiology: methods and applications in functional genomics and biotechnology

Mapelli V
Primo
Membro del Collaboration Group
;
2008

Abstract

Metabolomics embraces several strategies that aim to quantify cell metabolites in order to increase our understanding of how metabolite levels and interactions influence phenotypes. Metabolic footprinting represents a niche within metabolomics, because it focuses on the analysis of extracellular metabolites. Although metabolic footprinting represents only a fraction of the entire metabolome, it provides important information for functional genomics and strain characterization, and it can also provide scientists with a key understanding of cell communication mechanisms, metabolic engineering and industrial biotechnological processes. Due to the tight and convoluted relationship between intracellular metabolism and metabolic footprinting, metabolic footprinting can provide precious information about the intracellular metabolic status. Hereby, we state that integrative information from metabolic footprinting can assist in further interpretation of metabolic networks.
Articolo in rivista - Articolo scientifico
Biomedical Engineering; Biotechnology; Cell Communication; Extracellular Space; Genomics; Metabolism;
English
2008
26
9
490
497
none
Mapelli, V., Olsson, L., Nielsen, J. (2008). Metabolic footprinting in microbiology: methods and applications in functional genomics and biotechnology. TRENDS IN BIOTECHNOLOGY, 26(9), 490-497 [10.1016/j.tibtech.2008.05.008].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/361104
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