Abstract
A common approach for exploring the interactome, the network of protein-protein interactions in cells, uses a commercially available ORF library to express affinity tagged bait proteins; these can be expressed in cells and endogenous cellular proteins that copurify with the bait can be identified as putative interacting proteins using mass spectrometry. Control experiments can be used to limit false-positive results, but in many cases, there are still a surprising number of prey proteins that appear to copurify specifically with the bait. Here, we have identified one source of false-positive interactions in such studies. We have found that a combination of: 1) the variable sequence of the C-terminus of the bait with 2) a C-terminal valine “cloning scar” present in a commercially available ORF library, can in some cases create a peptide motif that results in the aberrant co-purification of endogenous cellular proteins. Control experiments may not identify false positives resulting from such artificial motifs, as aberrant binding depends on sequences that vary from one bait to another. It is possible that such cryptic protein binding might occur in other systems using affinity tagged proteins; this study highlights the importance of conducting careful follow-up studies where novel protein-protein interactions are suspected.
Highlights
A common approach for exploring the interactome, the network of protein-protein interactions in cells, uses a commercially available ORF library to express affinity tagged bait proteins; these can be expressed in cells and endogenous cellular proteins that copurify with the bait can be identified as putative interacting proteins using mass spectrometry
One of the approaches taken in large scale proteomics studies makes use of protein expression libraries containing collections of ORF clones[6]; these can be used for expressing a variety of bait proteins in cells
These baits are used to prepare protein complexes that can be analysed by mass spectrometry[24], enabling the network of interactions between cellular proteins to be mapped[25]
Summary
A common approach for exploring the interactome, the network of protein-protein interactions in cells, uses a commercially available ORF library to express affinity tagged bait proteins; these can be expressed in cells and endogenous cellular proteins that copurify with the bait can be identified as putative interacting proteins using mass spectrometry. We report a case in which a single valine, appended to the C terminus of bait proteins (a cloning scar), resulted in spurious interactions between some tagged bait proteins and endogenous prey proteins containing PDZ domains Such false positive interactions were not apparent from control purifications expressing the tag alone; the interactions depend both on the sequence of the C terminal amino acids of the bait protein and the presence of the additional valine. This highlights one possible source of false positive protein-protein interactions from AP-MS data commonly used to develop protein-protein interaction networks
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