Given that up to 20% of N-termini of human proteins differ from canonical N-termini as retrieved from sequence databases, a variety of N-terminal proteoforms exists in human cells. These N-terminal proteoforms arise through alternative translation initiation or alternative splicing among others. While such proteoforms diversify the biological functions of the proteome, they remain largely understudied. Recent studies showed that proteoforms expand protein interaction networks by interacting with different prey proteins. As a mass spectrometry-based method to study protein-protein interactions, Virotrap avoids cell lysis by trapping protein complexes in viral-like particles, thereby allowing for the identification of transient and less stable interactions. This chapter describes an adjusted version of Virotrap, decoupled Virotrap, that allows for the detection of interaction partners specific for N-terminal proteoforms.
Keywords: Mass spectrometry; N-terminal proteoforms; Protein-protein interactions; Proteome complexity; Virotrap.
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