Liposomes as Carriers of Membrane‐Associated Proteins and Peptides for Mass Spectrometric Analysis

Membrane proteins are key players of the cell. Their structure and the interactions they form with their lipid environment are required to understand their function. Here we explore liposomes as membrane mimetics for mass spectrometric analysis of peripheral membrane proteins and peptides. Liposomes are advantageous over other membrane mimetics in that they are easy to prepare, can be varied in size and composition, and are suitable for functional assays. We demonstrate that they dissociate into lipid clusters in the gas phase of a mass spectrometer while intact protein and protein–lipid complexes are retained. We exemplify this approach by employing different liposomes including proteoliposomes of two model peptides/proteins differing in size. Our results pave the way for the general application of liposomes for mass spectrometric analysis of membrane‐associated proteins.

Proteoliposome carriers for mass spectrometric analysis of membrane‐associated proteins and peptides enable the investigation of lipid clusters, protein oligomers, and protein–lipid interactions. This approach is versatile, applicable to many peripheral membrane proteins/peptides, and can be linked with functional assays.