Computational assessment of lipid production in Rhodosporidium toruloides in two-stage and one-stage batch bioprocesses

TítuloComputational assessment of lipid production in Rhodosporidium toruloides in two-stage and one-stage batch bioprocesses
Tipo de PublicaciónJournal Article
Año de Publicación2023
AutoresCastañeda MTeresita, Nuñez S, Jamilis M, De Battista H
JournalBiotechnology and Bioengineering
Volumenn/a
Resumen

Oleaginous yeasts are promising platforms for microbial lipids production as a renewable and sustainable alternative to vegetable oils in biodiesel production. In this paper, a thorough in silico assessment of lipid production in batch cultivation by Rhodosporidium toruloides was developed. By means of dynamic flux balance analysis, the traditional two-stage bioprocess (TSB) performed by the native strain was contrasted with one-stage bioprocess (OSB) using four designed strains obtained by gene knockout strategies. Lipid titer, yield, content, and productivity were analyzed at different initial C/N ratios as relevant performance indicators used in bioprocesses. By weighting these indicators, a global lipid efficiency metric (GLEM) was defined to consider different scenarios. Under simulated conditions, designed strains for lipid overproduction in OSB outperformed the TSB in terms of lipid title (up to threefold), lipid yield (up to 2.4-fold), lipid content (up to 2.8-fold, with a maximum of 76%), and productivity (up to 1.3-fold), depending on C/N ratios. Using these efficiency parameters and the proposed GLEM, the process of selecting the most suitable candidates for lipid production could be carried out before experimental assays. This methodology holds the potential to be extended to other oleaginous microorganisms and diverse strain design techniques.

DOI10.1002/bit.28579
Líneas de investigación: 
Control and monitoring of bioprocesses
Control y monitoreo de bioprocesos