Ricardo Gutiérrez-Gallego scite author profile

To understand basic principles of bacterial metabolism organization and regulation, but also the impact of genome size, we systematically studied one of the smallest bacteria, Mycoplasma pneumoniae. A manually curated metabolic network of 189 reactions catalyzed by 129 enzymes allowed the design of a defined, minimal medium with 19 essential nutrients. More than 1300 growth curves were recorded in the presence of various nutrient concentrations. Measurements of biomass indicators, metabolites, and 13C-glucose experiments provided information on directionality, fluxes, and energetics; integration with transcription profiling enabled the global analysis of metabolic regulation. Compared with more complex bacteria, the M. pneumoniae metabolic network has a more linear topology and contains a higher fraction of multifunctional enzymes; general features such as metabolite concentrations, cellular energetics, adaptability, and global gene expression responses are similar, however.

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Dissecting the energy metabolism in Mycoplasma pneumoniae through genome‐scale metabolic modeling

Wodke

Puchałka

Lluch‐Senar

et al. 2013

Molecular Systems Biology

131

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Structural analysis of the glycosylation of gene-activated erythropoietin (epoetin delta, Dynepo)

Llop

Gutiérrez-Gallego

Segura

et al. 2008

Analytical Biochemistry

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