BackgroundThe success of genome-scale models (GEMs) can be attributed to the high-quality, bottom-up reconstructions of metabolic, protein synthesis, and transcriptional regulatory networks on an organism-specific basis. Such reconstructions are biochemically, genetically, and genomically structured knowledge bases that can be converted into a mathematical format to enable a myriad of computational biological studies. In recent years, genome-scale reconstructions have been extended to include protein structural information, which has opened up new vistas in systems biology research and empowered applications in structural systems biology and systems pharmacology.ResultsHere, we present the generation, application, and dissemination of genom...
Biologists are awash with genomic sequence data. In large part, this is due to the rapid acceleratio...
Characterization of complex cellular behaviors on a molecular scale requires detailed understanding ...
Metabolic network reconstructions represent valuable scaffolds for '-omics' data integration and are...
BackgroundThe success of genome-scale models (GEMs) can be attributed to the high-quality, bottom-up...
The computational representation of metabolic networks has traditionally abstracted the representati...
Escherichia coli is considered to be the best-known microorganism given the large number of publishe...
Genome-scale network reconstruction has enabled predictive modeling of metabolism for many systems. ...
Biology is reaching a convergence point of its historic reductionist and modern holistic approaches ...
Omic technologies have enabled the complete readout of the molecular state of a cell at different bi...
The functional repertoire of a cell is largely embodied in its proteome, the collection of proteins ...
With the growing number of publicly available bacterial genome sequences, the ability to resolve the...
Genome-scale metabolic models (GEMs) describe the stoichiometry of all reactions in the cellular met...
Integrating omics data to refine or make context-specific models is an active field of constraint-ba...
Genome-scale metabolic models (GEMs) computationally describe gene-protein-reaction associations for...
Due to the relative prevalence and centrality of the proteome, it is unsurprising that a great numbe...
Biologists are awash with genomic sequence data. In large part, this is due to the rapid acceleratio...
Characterization of complex cellular behaviors on a molecular scale requires detailed understanding ...
Metabolic network reconstructions represent valuable scaffolds for '-omics' data integration and are...
BackgroundThe success of genome-scale models (GEMs) can be attributed to the high-quality, bottom-up...
The computational representation of metabolic networks has traditionally abstracted the representati...
Escherichia coli is considered to be the best-known microorganism given the large number of publishe...
Genome-scale network reconstruction has enabled predictive modeling of metabolism for many systems. ...
Biology is reaching a convergence point of its historic reductionist and modern holistic approaches ...
Omic technologies have enabled the complete readout of the molecular state of a cell at different bi...
The functional repertoire of a cell is largely embodied in its proteome, the collection of proteins ...
With the growing number of publicly available bacterial genome sequences, the ability to resolve the...
Genome-scale metabolic models (GEMs) describe the stoichiometry of all reactions in the cellular met...
Integrating omics data to refine or make context-specific models is an active field of constraint-ba...
Genome-scale metabolic models (GEMs) computationally describe gene-protein-reaction associations for...
Due to the relative prevalence and centrality of the proteome, it is unsurprising that a great numbe...
Biologists are awash with genomic sequence data. In large part, this is due to the rapid acceleratio...
Characterization of complex cellular behaviors on a molecular scale requires detailed understanding ...
Metabolic network reconstructions represent valuable scaffolds for '-omics' data integration and are...