A stimulatory subunit in the polypeptide elongation factor-1 of the chick brain

Abstract: The higher-molecular-weight elongation factor-1 (EF-1_H) of the chick brain was observed to contain three subunits (denominated α, β, and γ), contrary to a previous report that the brain EF-1_H consisted of aggregates of low-molecular-weight elongation factor- 1 (EF-1_L). Crude EF-1_H, obtained from 20-day embryonic brain, was treated with 0.4 M ammonium chloride and 0.1 mM GTP, and EF-1_βγ, was obtained using a DEAE-Sephadex column equilibrated in 0.025 mM GTP. Both EF-1_β, and EF-1_γ, were isolated by means of a DE-52 column equilibrated in 6 M urea and were found to have molecular weights of 2.8 and 4.8 × 10⁴, respectively. EF-1_β and EF-1_γ were also obtained from young rat and calf brains by the same procedures. The molecular weight of the isolated EF-1_α was 5 × 10⁴. It was found that EF-1_β stimulated the two EF-1_α-dependent reactions, i.e., phenylalanyl-tRNA binding (reaction 1) and polyphenylalanine synthesis (reaction 2), and also stimulated the nucleotide exchange reaction in the EF- 1_α-guanine nucleotide binary complex (reaction 3). The degrees of stimulation of reactions 1, 2, and 3 by the addition of EF-1_β were 2 to 3 times, about 18 times, and 2 to 3 times as much as with EF-1_α alone, respectively. The amino acid compositions of EF-1_α -1_β, and -1_γ and EF-2 were very similar to those of other eukaryotic tissues. Thus the constituents and properties of EFs of the brain were found to be basically similar to those of other tissues of eukaryotes, although EF-1_β, and EF-1, had not been reported in the brain. A possible physiological significance of EF-1_β during brain development is also discussed.