Abstract—Radioactive fucose was incorporated into glycoproteins of brain in vivo. After intracerebral administration of this precursor, radioactive glycoproteins were the sole detectable product. The glycoproteins formed appeared to have a slow turnover but this was due, at least in part, to re‐utilization of fucose released from degraded glycoproteins. Incorporation of fucose into glycoproteins differed from that of glucosamine, since a much smaller proportion of the radioactive fucose was incorporated into soluble glycoproteins. Fucose was rapidly incorporated into glycoproteins of nerve endings, although there was relatively little incorporation into glycoproteins associated with the soluble component of the nerve‐ending fraction. As found in previous studies with glucosamine, soluble glycoproteins of nerve endings turned over relatively rapidly. Pretreatment with acetoxycycloheximide markedly inhibited incorporation of fucose into glycoproteins of brain. In contrast to the results with glucosamine, comparable inhibition was observed for fucose in all subcellular fractions of brain including the particulate and soluble components derived from the nerve‐ending fraction.