AI Article Synopsis
- Understanding the interactions between different biochemical pathways is crucial for advancements in metabolic engineering and synthetic biology.
- This study introduces a workflow that combines various biological and computational techniques to analyze how introducing new pathways affects E. coli metabolism and the organism's environment.
- The research demonstrated the effectiveness of this workflow by improving the productivity of engineered strains that produce biofuels, and it is shared as an open-source tool for further use in the field.
Article Abstract
Understanding the complex interactions that occur between heterologous and native biochemical pathways represents a major challenge in metabolic engineering and synthetic biology. We present a workflow that integrates metabolomics, proteomics, and genome-scale models of Escherichia coli metabolism to study the effects of introducing a heterologous pathway into a microbial host. This workflow incorporates complementary approaches from computational systems biology, metabolic engineering, and synthetic biology; provides molecular insight into how the host organism microenvironment changes due to pathway engineering; and demonstrates how biological mechanisms underlying strain variation can be exploited as an engineering strategy to increase product yield. As a proof of concept, we present the analysis of eight engineered strains producing three biofuels: isopentenol, limonene, and bisabolene. Application of this workflow identified the roles of candidate genes, pathways, and biochemical reactions in observed experimental phenomena and facilitated the construction of a mutant strain with improved productivity. The contributed workflow is available as an open-source tool in the form of iPython notebooks.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4882250 | PMC |
| http://dx.doi.org/10.1016/j.cels.2016.04.004 | DOI Listing |
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