Carol Milena Barreto-Rodriguez scite author profile

Carol Milena Barreto-Rodriguez

2Publications

5Citation Statements Received

12Citation Statements Given

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Affiliations

Universidad de Los Andes

Publications

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Optimization of the bioconversion of glycerol to ethanol using <i>Escherichia coli</i> by implementing a bi-level programming framework for proposing gene transcription control strategies based on genetic algorithms

Barreto-Rodriguez¹,

Ramirez-Angulo²,

Gomez-Ramirez³

et al. 2012

ABB

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In silico approaches for metabolites optimization have been derived from the flood of sequenced and annotated genomes. However, there exist still numerous degrees of freedom in terms of optimization algorithm approaches that can be exploited in order to enhance yield of processes which are based on biological reactions. Here, we propose an evolutionary approach aiming to suggest different mutant for augmenting ethanol yield using glycerol as substrate in Escherichia coli. We found that this algorithm, even though is far from providing the global optimum, is able to uncover genes that a global optimizer would be incapable of. By over-expressing accB, eno, dapE, and accA mutants in ethanol production was augmented up to 2 fold compared to its counterpart E. coli BW25113.

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Dynamic Flux Balance Analysis for Predicting Gene Overexpression Effects in Batch Cultures

et al. 2014

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The advent of numerous technological platforms for genome sequencing has led to increasing understanding and construction of metabolic networks. A popular system engineering strategy is used to analyze microbial metabolic networks is flux balance analysis (FBA). In recent times, there has been a lot of interest in the study of the metabolic network dynamics when genes are overexpressed in the system. Herein, an optimization framework, which employs dynamic flux balance analysis (DFBA) is proposed for predicting ethanol concentration profiles in glycerol fermentations using Escherichia coli. In silico results were experimentally validated by overexpressing alcohol/acetaldehyde dehydrogenase adhE, pyruvate kinase pykF, pyruvate formate-lyase pflB and isoleucine-valine enzymes ilvC and llvL.

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