AI Article Synopsis
- The study presents a systematic approach for analyzing and optimizing metabolic pathways, specifically focusing on the microbial production of isopentenol, a potential biofuel.
- Using a correlation analysis of proteins and metabolites, researchers identified two key proteins that significantly influence isopentenol production from a seven-gene pathway, simplifying the pathway complexity.
- Their engineered microbial strain achieved isopentenol production at 1.5 g/L, demonstrating 46% of the theoretical yield, and the approach offers valuable insights for addressing bottlenecks and balancing complex metabolic pathways.
Article Abstract
The ability to rapidly assess and optimize heterologous pathway function is critical for effective metabolic engineering. Here, we develop a systematic approach to pathway analysis based on correlations between targeted proteins and metabolites and apply it to the microbial production of isopentenol, a promising biofuel. Starting with a seven-gene pathway, we performed a correlation analysis to reduce pathway complexity and identified two pathway proteins as the primary determinants of efficient isopentenol production. Aided by the targeted quantification of relevant pathway intermediates, we constructed and subsequently validated a conceptual model of isopentenol pathway function. Informed by our analysis, we assembled a strain which produced isopentenol at a titer 1.5 g/L, or 46% of theoretical yield. Our engineering approach allowed us to accurately identify bottlenecks and determine appropriate pathway balance. Paired with high-throughput cloning techniques and analytics, this strategy should prove useful for the analysis and optimization of increasingly complex heterologous pathways.
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| http://dx.doi.org/10.1002/bit.25226 | DOI Listing |
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