Abstract

Abstract— Of seven amino acids studied, glutamic acid and phenylalanine were incorporated in highest amounts into the hot‐TCA‐insoluble material of the 100,000 g supernatant fraction of rat brain homogenate. The system for incorporation of phenylalanine was RNase‐insensitive and required ATP (apparent K m = 0.64 m m ), KC1 (apparent K m = 14 m m ) and MgCl 2 (optimal concentration range 4‐15 m m ). The apparent K m for phenylalanine was 2.9 m m . [ 14 C]Phenylalanine did not undergo modification before incorporation. Tyrosine and phenylalanine inhibited the incorporation, respectively, of [ 14 C]phenylalanine and [ 14 C]tyrosine when incubated simultaneously or successively. The K m and K t (3.3 m m ) values for phenylalanine in the incorporation reaction and as inhibitor of the incorporation of [ 14 C]tyrosine were similar. We suggest that both the enzyme and the acceptor for the incorporation of these two amino acids are the same. [ 14 C]Phenylalanine and [ 14 C]tyrosine entered into COOH‐terminal positions in the reactions described. Brain exhibited a 25‐ to 100‐fold higher capacity to incorporate phenylalanine than that of liver, kidney or thyroid. The acceptor capacity in rat brain rapidly decreased from day 5 to day 15 of postnatal age and then slowly until age 150 days.