Abstract

SUMMARY The interaction of initiation factor IF-Z with ribosomes during initiation of protein synthesis was studied in vifro with the radioactive factor, [32P]phosphoryl initiation factor IF-Z. The binding and release of the factor were analyzed by sucrose density gradient centrifugation. The results show that: 1. Initiation factor IF-2 is part of the complete 30 S initia- tion complex formed in the presence of A-U-G, N-formyl- methionyl transfer RNA, initiation factor IF-l, and 5’-guano- sine triphosphate or 5’-guanylyl methylenediphosphonate. 2. Initiation factor IF-2 binds to 30 S ribosomes in the absence of the other components of the 30 S initiation com- plex. The binding is stabilized by the addition of 5’-guano- sine triphosphate and by low salt concentrations in the gradi- ents. 3. Initiation factors IF-l and IF-3 greatly enhance the stability of initiation factor IF-2 binding to 30 S ribosomes. It is proposed that a complex of the 30 S ribosome and the three initiation factors may be an intermediate in the forma- tion of the complete 30 S initiation complex. 4. Initiation factor IF-2 binds stoichiometrically to active 30 S ribosomes in the presence of saturating amounts of initiation factors IF-2, IF-l, and IF-3. If the binding reac- tions are treated with glutaraldehyde before gradient analysis, 2 molecules of initiation factor IF-2 are bound per 30 S ribosome. 5. Initiation factor IF-2 and iV-formylmethionyl transfer RNA bind in equal proportions to the 70 S initiation complex formed with 5’-guanylyl methylenediphosphonate. When the 70 S complex is formed with 5’-guanosine triphosphate, however, initiation factor IF-2 no longer is bound to the complex. It is suggested that the role of 5’-guanosine tri- phosphate hydrolysis is to increase the rate of ejection of initiation factor IF-2 from the 70 S initiation complex. Initiation factor IF-2 from

Highlights

  • Growth of Cells-E. coli strain MREGOO was grown in loo-liter batches in a fermentor (New Brunswick model F-130) in a buffered, rich medium (11) (per liter: 20 g of glucose, IO g of yeast extract (Difco), 34 g of KH2POI, and 9 g of KOH; pH 6.8)

  • 30 S initiation complex in the presence of [3H]fMet-tItNA, A-U-G, IF-l, and GTP can be demonstrated by sucroc‘e gradient centrifugation (Fig. I A)

  • This result Fhows directly that IF-2 is a constituent of the complete initiation complex

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Summary

Methods

Maferiuls-Biochemical compounds were obtained as follows : GTP from Calbiochem; guanylyl-5’.methylenediphosphonatc from Miles Laboratories; dithiothreitol from Pierce ChemicalCo., and glutaraldehyde 5Oy,, biological grade, from FisherScientific. Co., and glutaraldehyde 5Oy,, biological grade, from Fisher. A-I-G was prepared according to the method of Sundararajan and Thach (9). Domestic grade, was purified by passage of a 72 y0 w/v aqueous solution through a column of mixed bed resin, Amberlite AG 501-X8 (Bio-Rad). [3H]fMet-tRNA was prepared from unfractionated E. coli B tRNA (Schwarz-Mann) and 13H]-. Methionine (Schwarz-Mann, specific activity 2.8 Ci per mmole) according to the method of Hershey and Thach (10). Growth of Cells-E. coli strain MREGOO was grown in loo-liter batches in a fermentor (New Brunswick model F-130) in a buffered, rich medium (11) (per liter: 20 g of glucose, IO g of yeast extract (Difco), 34 g of KH2POI, and 9 g of KOH; pH 6.8).

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Conclusion

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