Design of Fluorescent Membrane Scaffold Proteins for Nanodiscs

Nanodiscs are nanoscale lipid bilayer membrane mimetics surrounded by two membrane scaffold proteins (MSP). They are widely used as soluble cassettes for membrane proteins and lipids in diverse applications. The original MSP1 was derived directly from human apolipoprotein A-1, and novel constructs have been adapted from this original design, including nanodiscs with larger sizes and covalent circularization. Here, we developed MSPs with a range of different fluorescent C-terminal protein tags, including a versatile HaloTag fusion. These fluorescent MSP were purified following typical MSP purification procedures with similar yield. Then, we demonstrate that fluorescent MSPs form nanodiscs with similar structure and stoichiometry to conventional MSP nanodiscs. These fluorescent MSP constructs enable a range of different applications and provide a versatile template for future design of nanodiscs with unique functions.