Release Factor 1 Research Articles

Bacterial peptide chain release factors: conserved primary structure and possible frameshift regulation of release factor 2.

Escherichia coli peptide chain release factors are proteins that direct the termination of translation in response to specific peptide chain termination codons. The mechanisms of codon recognition and peptidyl-tRNA hydrolysis are unknown. We have characterized the genes encoding release factor 1 (RF-1) and release factor 2 (RF-2) to study the structure-function relationships of the proteins and their regulation in the bacterium. In this report, we present the gene structure of RF-1 and RF-2, and a partial peptide sequence of RF-2. RF-1 and RF-2 are highly homologous in their primary structure. In addition, an in-frame premature opal (UGA) termination codon is located within the RF-2 coding region at amino acid position 26. This region of the protein was sequenced by automated Edman degradation to confirm the predicted reading frame, and a second independent isolate of the RF-2 gene was identified and sequenced to confirm the DNA sequence. These results imply that a frameshift occurs prior to the premature termination codon, thus allowing for translation of RF-2 to be completed. This may represent a mechanism of translational control of RF-2 expression. An alternative possible means of translational regulation is discussed.

Cloning of the Escherichia coli release factor 2 gene.

The protein release factor 2 (RF2) participates in Escherichia coli polypeptide chain termination with codon specificity (UAA or UGA). A colicin E1 recombinant identified in the Carbon and Clarke E. coli bank contains the protein release factor 2 gene. A 1.7-kilobase E. coli fragment has been subcloned into the plasmid pUC9 vector. Bacterial cells, containing the plasmid recombinant, produce elevated levels of protein release factor 2 as detected by an immune precipitation assay and in vitro measurement of UGA-directed peptide chain termination and [3H]UGA codon recognition.

The Escherichia coli ribosomal protein L11 suppresses release factor 2 but promotes the release factor 1 activities in peptide chain termination.

The incubation of the 50 S ribosomal subunits of Escherichia coli with 1.5 M LiCl yields 1.5c core particles depleted in 14 proteins and inactive in peptide chain termination. In codon-dependent peptidyl-tRNA hydrolysis the release factor 1 (RF-1)-induced reaction essentially depends on both L11 and L16 whereas the release factor 2 (RF-2)-induced reaction is depressed by L11 and stimulated by L16. Omission of L11 results in a several-fold increase in the specific activity of the RF-2. Functional complexes are formed with RF-2 at an apparent Km (dissociation constant) for the termination codon 5-fold lower than with reconstituted ribosomes containing L11; the Vmax for the hydrolysis is unchanged. L11 suppresses this effect when added to the core at close to molar equivalence. In contrast, RF-1 has a very low activity if ribosomes lack L11 and this can be restored by titration of L11 back to the core. This is the first example of a differential or an opposite effect of a ribosomal component on the activities of the two release factors, and the studies suggest that L11 has a critical role in the binding domain for the two factors.

Purification and Properties of the Polypeptide Chain Release Factor 1 (RF-l) from an Extreme Thermophile, <italic>Thermus thermophilus</italic> HB8

The polypeptide chain release factor 1 (RF-1) has been purified from an extreme thermophile, Thermus thermophilus HB8. The purification procedure included steps of aqueous two-phase partition, ammonium sulfate fractionation, and column chromatographies on DEAE-Sephadex, Sephadex G-150, and CM-Sephadex. The preparation was more than 90% pure as judged by polyacrylamide gel electrophoresis. The specific activity was about 3.3 pmol of formyl-[3H]-methionine released in 1 min at 25 degrees C per microgram of protein under the standard assay conditions using 4 pmol of the initiation complex and 1 nmol of UpApG. The molecular weight as determined by gel filtration on Sephadex G-150 and by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, was 58,000 and 45,000, respectively. As expected, the factor was extremely heat-stable, 50% of its activity remaining after incubation for 5 min at 84 degrees C. Several properties of the reaction catalyzed by RF-1 are also described.