2020
DOI: 10.1101/2020.01.27.921296
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Systematically gap-filling the genome-scale metabolic model of CHO cells

Abstract: ObjectiveChinese hamster ovary (CHO) cells are the leading cell factories for producing recombinant proteins in the biopharmaceutical industry. In comparison to other mammalian cell types, in vitro handling of CHO cells is relatively easy. For example, CHO cells can grow in suspension and reach high cellular densities in bioreactors. Therefore, studying the metabolism of CHO cells to improve the bio-production of these cells is an important subject of research. In this regard, constraint-based metabolic models… Show more

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Cited by 7 publications
(5 citation statements)
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“…[ 152,153 ] However, the gap‐filling process is vital for developing an accurate and predictive reconstruction. [ 154 ] ML methods such as ensemble methods have shown improvements in the refinements of genome‐scale metabolic reconstructions. [ 155 ] Third, although very accurate, the results of the integrated models are not necessarily appropriate for large‐scale industrial fermentations.…”
Section: Challenges and Perspectivesmentioning
confidence: 99%
“…[ 152,153 ] However, the gap‐filling process is vital for developing an accurate and predictive reconstruction. [ 154 ] ML methods such as ensemble methods have shown improvements in the refinements of genome‐scale metabolic reconstructions. [ 155 ] Third, although very accurate, the results of the integrated models are not necessarily appropriate for large‐scale industrial fermentations.…”
Section: Challenges and Perspectivesmentioning
confidence: 99%
“…In 2016, a community-derived, consensus genome-scale metabolic model (GSMM) of CHO was published [8] and several updates have been made since [9][10][11]. These serve as a basis for applying genome-scale metabolic modeling to CHO.…”
Section: Introductionmentioning
confidence: 99%
“…The inclusion of gene-protein reaction associations provided a direct link between genes and metabolic reactions. Since then, significant expansions and improvements to iCHO1766 have been achieved, such as gap-filling studies that also removed dead-end reactions (Fouladiha et al, 2021), and the integration of a core protein secretory pathway, iCHO2048, enabling the computation of energetic costs and machinery demands of each secreted protein (Gutierrez et al, 2020). Interestingly, iCHO2048 was subsequently used to direct host cell protein knockout studies which resulted in increased recombinant protein productivity and a cleaner feedstock for downstream processing steps (Kol et al, 2020), highlighting the power these models hold for identifying diverse cellular engineering strategies.…”
Section: Introductionmentioning
confidence: 99%