Literature DB >> 31706984

A Highly Productive, One-Pot Cell-Free Protein Synthesis Platform Based on Genomically Recoded Escherichia coli.

Benjamin J Des Soye1, Vincent R Gerbasi2, Paul M Thomas3, Neil L Kelleher4, Michael C Jewett5.   

Abstract

The site-specific incorporation of non-canonical amino acids (ncAAs) into proteins via amber suppression provides access to novel protein properties, structures, and functions. Historically, poor protein expression yields resulting from release factor 1 (RF1) competition has limited this technology. To address this limitation, we develop a high-yield, one-pot cell-free platform for synthesizing proteins bearing ncAAs based on genomically recoded Escherichia coli lacking RF1. A key feature of this platform is the independence on the addition of purified T7 DNA-directed RNA polymerase (T7RNAP) to catalyze transcription. Extracts derived from our final strain demonstrate high productivity, synthesizing 2.67 ± 0.06 g/L superfolder GFP in batch mode without supplementation of purified T7RNAP. Using an optimized one-pot platform, we demonstrate multi-site incorporation of the ncAA p-acetyl-L-phenylalanine into an elastin-like polypeptide with high accuracy of incorporation and yield. Our work has implications for chemical and synthetic biology.
Copyright © 2019 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  cell-free protein synthesis; chemical biology; genetic code expansion; genome engineering; in vitro transcription and translation; non-canonical amino acids; synthetic biology

Mesh:

Substances:

Year:  2019        PMID: 31706984      PMCID: PMC7008506          DOI: 10.1016/j.chembiol.2019.10.008

Source DB:  PubMed          Journal:  Cell Chem Biol        ISSN: 2451-9448            Impact factor:   8.116


  101 in total

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8.  Cell-free protein synthesis from genomically recoded bacteria enables multisite incorporation of noncanonical amino acids.

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  13 in total

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Review 5.  Biological Materials: The Next Frontier for Cell-Free Synthetic Biology.

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Review 6.  Strategies for in vitro engineering of the translation machinery.

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