Dual Expression System Suitable for High-Throughput Fluorescence-Based Screening and Production of Soluble Proteins

Many studies that aim to characterize the proteome structurally or functionally require the production of pure protein in a high-throughput format. We have developed a fast and flexible integrated system for cloning, protein expression in Escherichia coli, solubility screening and purification that...

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Published in:Journal of proteome research Vol. 4; no. 6; pp. 2137 - 2147
Main Authors: Braud, Sandrine, Moutiez, Mireille, Belin, Pascal, Abello, Nicolas, Drevet, Pascal, Zinn-Justin, Sophie, Courçon, Marie, Masson, Cédric, Dassa, Janie, Charbonnier, Jean-Baptiste, Boulain, Jean-Claude, Ménez, André, Genet, Roger, Gondry, Muriel
Format: Journal Article
Language:English
Published: United States American Chemical Society 01-11-2005
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Summary:Many studies that aim to characterize the proteome structurally or functionally require the production of pure protein in a high-throughput format. We have developed a fast and flexible integrated system for cloning, protein expression in Escherichia coli, solubility screening and purification that can be completely automated in a 96-well microplate format. We used recombination cloning in custom-designed vectors including (i) a (His)6 tag-encoding sequence, (ii) a variable solubilizing partner gene, (iii) the DNA sequence corresponding to the TEV protease cleavage site, (iv) the gene (or DNA fragment) of interest, (v) a suppressible amber stop codon, and (vi) an S·tag peptide-encoding sequence. First, conditions of bacterial culture in microplates (250 μL) were optimized to obtain expression and solubility patterns identical to those obtained in a 1-L flask (100-mL culture). Such conditions enabled the screening of various parameters in addition to the fusion partners (E. coli strains, temperature, inducer...). Second, expression of fusion proteins in amber suppressor strains allowed quantification of soluble and insoluble proteins by fluorescence through the detection of the S·tag. This technique is faster and more sensitive than other commonly used methods (dot blots, Western blots, SDS-PAGE). The presence of the amber suppressor tRNA was shown to affect neither the expression pattern nor the solubility of the target proteins. Third, production of the most interesting soluble fusion proteins, as detected by our screening method, could be performed in nonsuppressor strains. After cleavage with the TEV protease, the target proteins were obtained in a native form with a unique additional N-terminal glycine. Keywords: protein expression • high-throughput screening • fluorescence • amber suppressor • S·tag • recombination cloning • fusion proteins
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ISSN:1535-3893
1535-3907
DOI:10.1021/pr050230i