Summary
As shown by gel electrophoresis analysis, E. coli mutant 219 is mutated on the gene coding for S4. This mutant and the parental strain have been studied at the permissive (30°) and the non-permissive temperature (42°) for ribosome assembly and r-protein biosynthesis.
The extracts of cells grown at the non-permissive temperature were analyzed by sucrose gradients: Particles sedimenting more slowly (28S) than normal 30S accumulate while 50S precursors undergo maturation and attach to the preformed 30S subunits yielding 70S ribosomes. In addition a small but detectable amount of 30S is also synthesized at 42°. The 28S particles contain all 30S r-proteins except S1, S2 and S12; S5, S7 and S21 are present in reduced amount.
The relative rate of biosynthesis of individual r-proteins was determined by pulse-labelling the cells with radioactive leucine. Individual r-proteins were purified from cell extract by the three-dimensional gel electrophoresis technique. The relative rate of biosynthesis of 50S proteins is unchanged in mutant cells grown at 42°. Only the rate of synthesis of five 30S proteins is modified by the temperature shift: S10, S13, S20 and S21 have an increased rate, while S18 is synthesized at a reduced rate. Thus in cells deficient in the assembly of 30S subunits, although the biosynthesis of a few 30S r-proteins is specifically altered, the synthesis of most r-proteins appears to be controlled in the same way as are total cell proteins.
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Communicated by H.G. Wittmann
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Pichon, J., Marvaldi, J. & Marchis-Mouren, G. On the control of ribosomal protein biosynthesis in E. coli . Molec. Gen. Genet. 171, 307–316 (1979). https://doi.org/10.1007/BF00267586
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DOI: https://doi.org/10.1007/BF00267586