期刊论文详细信息
Proteome Science
Development of high-yield autofluorescent protein microarrays using hybrid cell-free expression with combined Escherichia coli S30 and wheat germ extracts
Methodology
David C Henderson1  Xristo Zárate1  Keenan C Phillips1  April D Lake1  David W Galbraith2 
[1] BIO5 Institute, University of Arizona, 85721, Tucson, AZ, USA;BIO5 Institute, University of Arizona, 85721, Tucson, AZ, USA;Department of Plant Sciences, University of Arizona, 85721, Tucson, AZ, USA;
关键词: Green Fluorescent Protein;    Wheat Germ;    Array Element;    Protein Array;    Protein Microarrays;   
DOI  :  10.1186/1477-5956-8-32
 received in 2009-11-11, accepted in 2010-06-15,  发布年份 2010
来源: Springer
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【 摘 要 】

BackgroundProtein-based microarray platforms offer considerable promise as high-throughput technologies in proteomics. Particular advantages are provided by self-assembling protein microarrays and much interest centers around analysis of eukaryotic proteins and their molecular interactions. Efficient cell-free protein synthesis is paramount for the production of self-assembling protein microarrays, requiring optimal transcription, translation, and protein folding. The Escherichia coli S30 extract demonstrates high translation rates but lacks the protein-folding efficiency of its eukaryotic counterparts derived from rabbit reticulocyte and wheat germ extract. In comparison to E. coli, eukaryotic extracts, on the other hand, exhibit slower translation rates and poor overall protein yields. A cell-free expression system that synthesizes folded eukaryotic proteins in considerable yields would optimize in vitro translation for protein microarray assembly.ResultsSelf-assembling autofluorescent protein microarrays were produced by in situ transcription and translation of chimeric proteins containing a C-terminal Green Fluorescent Protein tag. Proteins were immobilized as array elements using an anti-GFP monoclonal antibody. The amounts of correctly-folded chimeric proteins were quantified by measuring the fluorescence intensity from each array element. During cell-free expression, very little or no fluorescence was observed from GFP-tagged multidomain eukaryotic plant proteins when in vitro translation was performed with E. coli S30 extract. Improvement was seen using wheat germ extract, but fluorescence intensities were still low because of poor protein yields. A hybrid in vitro translation system, combining S30 and wheat germ extracts, produced high levels of correctly-folded proteins for most of the constructs that were tested.ConclusionThe results are consistent with the hypothesis that the wheat germ extract enhances the protein folding capabilities of the in vitro system by providing eukaryotic ribosomes and chaperones and, at the same time, the E. coli S30 extract, which includes an ATP regeneration system, translates the polypeptides at high rates. This hybrid cell-free expression system allows the facile production of high-yield protein arrays suitable for downstream assays.

【 授权许可】

CC BY   
© Zárate et al; licensee BioMed Central Ltd. 2010

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