Lipid nanodiscs have become a widely used approach for studying membrane proteins thanks to several advantages they offer. They have been especially useful for studying ABC transporters, despite the growing concern about the possible restriction of the conformational changes of the transporters due to the small size of the discs. Here, we performed a systematic study to determine the effect of the nanodisc size on the ATPase activity of model ABC transporters from human, plant, and bacteria. Our data confirm that the activity of the transporters and their response to regulatory molecules is affected by the nanodisc size. Our findings suggest the use of larger membrane scaffold proteins (MSPs), such as MSP2N2 nanodiscs, to minimize alterations caused by the commonly used small MSP1D1.
Keywords: ABC transporter; ATPase activity; MSP1D1; MSP2E3D1; MSP2N2; liposomes; nanodiscs.
© 2025 The Author(s). FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.