BHK-21 cells, infected with Semliki Forest virus, were treated with cycloheximide to stop further synthesis but not intracellular transport of the viral membrane proteins. These proteins were then localized in thin, frozen sections using specific antibodies labelled indirectly with ferritin or gold. Quantitation of the labelling on micrographs showed the movement of spike proteins from the rough endoplasmic reticulum and through the Golgi stacks. The spike proteins spent about 15 minutes in each of these intracellular organelles and their final destination was the plasma membrane. Parallel biochemical studies showed that most of the simple oligosaccharides on the viral spike proteins were modified to the complex form at the same time as these membrane proteins were passing through the Golgi stacks. Cell fractionation studies revealed the same pattern; the proteins passed from the rough endoplasmic reticulum to the plasma membrane via a vesicle fraction isolated according to its content of galactosyl transferase. Independent evidence that this fraction was derived at least in part from the Golgi complex in BHK cells was obtained by showing that it reacted specifically with an antibody raised to rat liver Golgi membranes.