Quantifying the insertion of membrane proteins into lipid bilayer nanodiscs using a fusion protein strategy

Elisabeth Häusler, Kai Fredriksson, Inguna Goba, Carsten Peters, Kolio Raltchev, Laura Sperl, Andrea Steiner, Sevil Weinkauf, Franz Hagn

Research output: Contribution to journalArticlepeer-review

11 Scopus citations

Abstract

A membrane protein's oligomeric state modulates its functionality in various cellular processes. Since membrane proteins have to be solubilized in an appropriate membrane mimetic, the use of classical biophysical methods to analyze protein oligomers is challenging. We here present a method to determine the number of membrane proteins inserted into lipid nanodiscs. It is based on the ability to selectively quantify the amount of a small and robust fusion protein that can be proteolytically cleaved off from a membrane protein after incorporation into lipid nanodiscs. A detailed knowledge of the number of membrane proteins per nanodisc at defined assembly conditions is essential to estimate the tendency for oligomerization, but also for guiding sample optimization for structural investigations that require the presence of a homogenous oligomeric state. We show that this method can efficiently be used to determine the number of VDAC1 channels in nanodiscs at various assembly conditions, as confirmed by negative stain EM. The presented method is suitable in particular for membrane proteins that cannot be probed easily by other methods such as single span transmembrane helices. This assay can be applied to any membrane protein that can be incorporated into a nanodisc without the requirement for special instrumentation and will thus be widely applicable and complementary to other methods that quantify membrane protein insertion in lipid nanodiscs.

Original languageEnglish
Article number183190
JournalBiochimica et Biophysica Acta - Biomembranes
Volume1862
Issue number4
DOIs
StatePublished - 1 Apr 2020

Keywords

  • BclxL
  • Glycophorin
  • Nanodisc
  • Transmembrane helices
  • VDAC1

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