Co-incorporation of heterologously expressed Arabidopsis cytochrome P450 and P450 reductase into soluble nanoscale lipid bilayers.

Heterologous expression of CYP73A5, an Arabidopsis cytochrome P450 monooxygenase, in baculovirus-infected insect cells yields correctly configured P450 detectable by reduced CO spectral analysis in microsomes and cell lysates. Co-expression of a housefly NADPH P450 reductase substantially increases the ability of this P450 to hydroxylate trans-cinnamic acid, its natural phenylpropanoid substrate. For development of high-throughput P450 substrate profiling procedures, membrane proteins derived from cells overexpressing CYP73A5 and/or NADPH P450 reductase were incorporated into soluble His(6)-tagged nanoscale lipid bilayers (Nanodiscs) using a simple self-assembly process.

Direct solubilization of heterologously expressed membrane proteins by incorporation into nanoscale lipid bilayers.

One of the biggest challenges in the field of proteomics is obtaining functional membrane proteins solubilized and dispersed into a physiologically relevant environment that maintains the spectrum of in vivo activities. Here we describe a system composed of nanoscale self-assembled particles, termed Nanodiscs, which contain a single phospholipid bilayer stabilized by an encircling membrane scaffold protein (MSP). Using microsomal membranes of baculovirus-infected Spodoptera frugiperda (Sf9) insect cells overexpressing an N-terminally anchored cytochrome P450 monoxygenase (P450), we demonstrate that target membrane proteins can be directly solubilized and incorporated into distinct populations of Nanodiscs, which can be separated by size chromatography.