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BRC Science Highlight OptSSeq: High-Throughput Sequencing Readout of Growth Enrichment Defines Optimal Gene Expression Elements Objective Designing synthetic.

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Presentation on theme: "BRC Science Highlight OptSSeq: High-Throughput Sequencing Readout of Growth Enrichment Defines Optimal Gene Expression Elements Objective Designing synthetic."— Presentation transcript:

1 BRC Science Highlight OptSSeq: High-Throughput Sequencing Readout of Growth Enrichment Defines Optimal Gene Expression Elements Objective Designing synthetic biofuel pathways with optimized and balanced enzyme levels can be challenging. Here we identified optimal gene expression elements for heterologous ethanol production from a combinatorial library of gene expression signals. Approach Generated libraries of promoter and ribosome binding site (RBS) variants representing pathway constructs spanning a range of gene strengths in different operon arrangements. Expressed library variants in E. coli and used high throughput sequencing to track enrichment of gene expression signals within cell populations. Result/Impacts Cassettes with promoters driving strong but not maximal rates of transcription support the fastest ethanologenic growth. Of two alcohol dehydrogenase genes tested, one was preferred for rapid growth. OptSSeq is a general tool for synthetic biology to tune pathway enzyme levels whose function can be linked to cell growth or survival. Notes: text Title again: Text 1-2 sentence summary? Ghosh, I. and Landick, R. OptSSeq: High-throughput sequencing readout of growth enrichment defines optimal gene expression elements for homoethanologenesis, ACS Synthetic Biology 5, 1519 (2016). DOI: /acssynbio.6b00121. GLBRC January 2017

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