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J Bacteriol. 1965 October; 90(4): 1109-1119
Copyright © 1965 American Society for Microbiology. All Rights Reserved.

Inhibition of Protein Synthesis by Polypeptide Antibiotics II. In Vitro Protein Synthesis

Laboratory of Bacteriology, St. Jude Children's Research Hospital, and Department of Biochemistry, University of Tennessee Medical Units, Memphis, Tennessee

ABSTRACT

ENNIS, HERBERT L. (St. Jude Children's Research Hospital, Memphis, Tenn.). Inhibition of protein synthesis by polypeptide antibiotics. II. In vitro protein synthesis. J. Bacteriol. 90:1109–1119. 1965.—This investigation has shown that the polypeptide antibiotics of the PA 114, vernamycin, and streptogramin complexes are potent inhibitors of the synthetic polynucleotide-stimulated incorporation of amino acids into hot trichloroacetic acid-insoluble peptide. The antibiotics inhibited the transfer of amino acid from aminoacyl-soluble ribonucleic acid (s-RNA) to peptide. The A component of the antibiotic complex was active alone in inhibiting in vitro protein synthesis, whereas the B fraction was totally inactive. However, the A component, when in combination with the B component, gave a greater degree of inhibition than that observed with the A fraction alone. On the other hand, the endogenous incorporation of amino acid was much less susceptible to inhibition than the incorporation of the corresponding amino acid in a system stimulated by synthetic polynucleotide. In addition, synthesis of polyphenylalanine stimulated by polyuridylic acid was inhibited to a greater extent when the antibiotics were added before the addition of polyuridylic acid to the reaction mixture than when the antibiotics were added after the polynucleotide had a chance to attach to the ribosomes. However, the antibiotics apparently did not inhibit the binding of C¹⁴-polyuridylic acid or C¹⁴-phenylalanyl-s-RNA to ribosomes. The antibiotics did not affect the normal release of nascent protein from ribosomes and did not disturb protein synthesis by causing misreading of the genetic code. The antibiotics bind irreversibly to the ribosome, or destroy the functional identity of the ribosome. The antibiotic action is apparently a result of the competition between antibiotic and messenger RNA for a functional site(s) on the ribosome.