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Description
Cell-free protein synthesis (CFPS) is becoming an increasingly popular method of in vitro protein expression for biotechnology applications. However, there is still no comprehensive resource that outlines the most effective lysate and template combinations for efficient eukaryotic CFPS. To address

Cell-free protein synthesis (CFPS) is becoming an increasingly popular method of in vitro protein expression for biotechnology applications. However, there is still no comprehensive resource that outlines the most effective lysate and template combinations for efficient eukaryotic CFPS. To address this issue, expression vectors were constructed and assayed in order to determine their activity within three commercial eukaryotic CFPS systems: Wheat Germ Extract (WGE), Rabbit Reticulocyte Lysate (RRL), and HeLa Cell Lysate (HCL). Previously in the Chaput lab, a luciferase reporter vector was expressed in each lysate system, testing different template variables impacting protein expression, including the 5' UTR sequence, presence of poly(A) tail, and DNA type. It was found that plasmid DNA templates generally yielded ~500-fold greater amount of protein than linear DNA templates and the inclusion of a poly(A) tail did not significantly increase protein expression in the plasmid systems. Additionally, the incorporation of a viral translation enhancing sequence into the 5' UTR increased translation in a lysate-specific manner. The HCL system had a strong preference for the EMCV sequence, WGE had a preference for the sequences from AMV and TMV, and RRL showed no specific preference. Overall, the HCL-EMCV system generated the greatest amount of protein per volume, producing 10-fold more protein than the second best template-lysate combination tested. Here, four human genes fused with a c-Myc tag were expressed in each lysate using the EMCV 5' UTR sequence in order to test the generality of the previous results. Protein synthesis was assayed using a luciferase construct with a c-Myc tag to recapitulate the previous luminometer data and western blotting of the human proteins. These analyses showed the same EMCV expression trends across all systems, with the HCL system synthesizing the greatest amount of each protein. In the future, when choosing commercial eukaryotic CFPS systems for gene expression, these template variables should be considered when performing cost analysis for cell-free protein production.


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Details

Title
  • Comparative Analysis of Eukaryotic Cell-Free Translation Systems
Contributors
Date Created
2015-05
Resource Type
  • Text
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