Reconstitution of glucose-transporting vesicles from erythrocyte membranes disaggregated in detergent

Abstract

With the eventual aim of purifying a membrane transport system by using reconstitution of transport activity as an assay, I showed that if, after the erythrocyte membrane is solubilized in deoxycholate, the detergent is removed, membrane vesicles re-form which retain glucose-transport activity. They take up and release D-glucose in preference to L-glucose and the uptake and release are sensitive to Hg2+ and phloretin. Release of tracer D-glucose is competitively inhibited by transported sugars inside the vesicles and increased by unlabelling D-glucose in the outside medium. Uptake of tracer is increased so much by preloading vesicles with unlabelled transported sugars that the tracer is probably concentrated against a gradient. When the membrane is solubilized, two proteins that span the membrane can be separated, suggesting that it will be possible to fractionate the membrane before reconstitution.