A procedure for the purification of radioactively labeled bovine viral diarrhea virus was critically evaluated. Purification of virus from artificial mixtures of unlabeled infected and labeled noninfected cells indicated that the extent of purification was approximately 100-fold with respect to host proteins. Residual host proteins were found to contaminate the viral preparation even after extensive purification by differential and isopycnic zonal centrifugation. Co-electrophoresis of 3H-labeled virus with 14C-labeled host cell material in neutral sodium dodecyl sulfate-7.5% polyacrylamide gels provided a means to distinguish viral specific proteins from host cell protein contaminants. Four major electrophoretic components were identified as being of viral origin; molecular weights of the components were estimated from their migration rates relative to protein markers of known molecular weight. Two viral components (VC), VC 1 and VC 3, migrated heterogeneously and had molecular weights of 93,000 to 110,000 and 50,000 to 59,000 daltons, respectively. Molecular weights of VC 2 and VC 4 were 70,000 and 25,000 daltons, respectively.