Cell-free cotranslation and selection using in vitro virus for high-throughput analysis of protein-protein interactions and complexes.

We have developed a simple and totally in vitro selection procedure based on cell-free cotranslation using a highly stable and efficient in vitro virus (IVV). Cell-free cotranslation of tagged bait and prey proteins is advantageous for the formation of protein complexes and allows high-throughput analysis of protein-protein interactions (PPI) as ...
a result of providing in vitro instead of in vivo preparation of bait proteins. The use of plural selection rounds and a two-step purification of the IVV selection, followed by in vitro post-selection, is advantageous for decreasing false positives. In a single experiment using bait Fos, more than 10 interactors, including not only direct, but also indirect interactions, were enriched. Further, previously unidentified proteins containing novel leucine zipper (L-ZIP) motifs with minimal binding sites identified by sequence alignment as functional elements were detected as a result of using a randomly primed cDNA library. Thus, we consider that this simple IVV selection system based on cell-free cotranslation could be applicable to high-throughput and comprehensive analysis of PPI and complexes in large-scale settings involving parallel bait proteins.
Mesh Terms:
Animals, Base Sequence, Brain, DNA Primers, Gene Library, Immunoprecipitation, Leucine Zippers, Mice, Molecular Sequence Data, Protein Interaction Mapping, Proteins, Proto-Oncogene Proteins c-fos, Sequence Analysis, DNA, Tobacco Mosaic Virus
Genome Res.
Date: May. 01, 2005
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