Amino acid incorporation by cell fractions from the oviduct of the laying hen and the synthesis of egg-white proteins

摘要

1. Homogenates of the magnum of the hen oviduct have been fractionated by differential centrifuging. 2. Centrifuging at 600g for 10min. gave a pellet containing most of the particulate material of the cell, but on washing this fraction some particles were removed from it. The washed 600g pellet contained most of the DNA of the homogenate. 3. Centrifuging the 600g supernatants at 10000g for 10min. gave particulate fractions (I particles) richer in RNA than other fractions which were active in incorporating amino acids into protein in isolation. When minced tissue was incubated with radioactive amino acids before homogenizing these particles were the most radioactive of the cell fractions. 4. The pellet obtained by centrifuging the 10000g supernatant at 105000g for 60min. was very small; its RNA/protein ratio was raised compared with that of the homogenate. It only incorporated amino acids in isolation to a small extent or not at all. 5. The 105000g supernatant contained a large proportion of the protein of the homogenate. 6. The I particles could be subfractionated by layering over denser sucrose to give a pellet with lower RNA content and incorporating activity, and also suspended material richer in both these properties. 7. Treatment of the I particles with deoxycholate gave rise to particles sedimenting at 105000g for 60min. containing most of the RNA of the original particles, but only about 34% of the protein, and with a high activity in incorporating amino acids. 8. The I particles, or particles derived from them by deoxycholate treatment, required GTP and phosphoenolpyruvate for the incorporation of free amino acids. The omission of ATP reduced the incorporation to varying extents. Chicken-liver cell sap stimulated the activity. 9. Radioactive amino acids linked to transfer RNA were transferred to protein by I particles. GTP and phosphoenolpyruvate were required for this transfer. The phosphoenolpyruvate requirement could not be replaced by increasing the GTP concentration. ATP partially inhibited the transfer. 10. After incorporation by the cell-free system, the hot-trichloroacetic acid extract, but not the lipid extract, was radioactive. Ribonuclease and puromycin inhibited at low concentrations. Lecithinase-C was much less inhibitory. Transfer of amino acid, from a radioactive lipid–amino acid complex prepared from hen oviduct, was not detected. 11. After short periods of incubation of minced tissue with [¹⁴C]lysine some of the radioactive protein of the isolated I particles behaved as ovalbumin. The distribution of radioactivity in the protein resembled that in ovalbumin in soluble extracts of the tissue obtained after longer periods of incubation.