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The frequency of transcriptional and translational errors at nonsense codons in the lacZ gene of Escherichia coli

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Summary

Nonsense alleles in the lacZ gene of E. coli do not completely eliminate enzyme activity as errors during protein synthesis allow some chains to be completed. The relative contributions of transcriptional and translational errors to this leakiness were investigated by two methods: the introduction of rho alleles into extreme-polar mutants and the kinetics of β-galactosidase induction. Virtually all the errors appeared to be transcriptional in the case of two extreme-polar and one non-polar mutation. These alleles should prove useful for further in vivo investigations of RNA polymerase accuracy. With two other non-polar alleles, transcriptional mistakes were low and translational ones high. The frequency of RNA polymerase errors was context-dependent and varied for different nonsense codons in the same position and for the same codon in different positions. The reasons why some alleles showed no activity due to translational errors could not be clearly established. However, increasing the rates of ribosomal errors from one such allele with streptomycin raised the contribution of ribosomal errors to activity markedly and non-linearly. Translational mistakes may give rise to active enzyme only if the monomers are formed at a rate sufficient for effective aggregation to the normal tetramer.

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References

  • Alpers DH, Appel SH, Tomkins GM (1965) A spectrophotometric assay for thioglactoside transacetylase. J Biol Chem 240:10–13

    Google Scholar 

  • Andersson DI, Bohman K, Isaksson LA, Kurland CG (1982) Translation rates and misreading characteristics of rpsD mutants in Escherichia coli. Mol Gen Genet 187:467–472

    Google Scholar 

  • Bouadloun F, Kurland CG (1983) Codon-specific missense errors in vitro. EMBO J (in press)

  • Brake AJ, Fowler AV, Zabin T, Kassia J, Muller-Hill B (1978) β-galactosidase chimeras: Primary structure of a lac repressor β-galactosidase protein. Proc Nat Acad Sci USA 75:4824–4827

    Google Scholar 

  • Carter T, Newton A (1971) New polarity suppressors in Escherichia coli: suppression and messenger RNA stability. Proc Nat Acad Sci USA 68:2962–2966

    Google Scholar 

  • Dabbs ER, Looman K (1981) An antibiotic-dependant conditional lethal mutant with a lesion affecting transcription and translation. Mol Gen Genet 184:224–229

    Google Scholar 

  • Davis BD, Mingioli ES (1950) Mutants of Escherichia coli requiring methionine or vitamin B12. J Bacteriol 60:17–28

    Google Scholar 

  • Edelmann P, Gallant J (1977) On the translational theory of aging. Proc Nat Acad Sci USA 74:3396–3398

    Google Scholar 

  • Fowler AV, Zabin I (1978) Amino acid sequence of β-galactosidase. XI. Peptide ordering procedures and the complete sequence. J. Biol. Chem, pp 5521–5525

  • Friedman DI, Schaner AT, Baumann MR, Baron LS, Adhya SL (1981) Evidence that ribosomal protein S10 participates in control of transcription termination. Proc Nat Acad Sci USA 78:1115–1118

    Google Scholar 

  • Gallant J, Palmer (1979) Error propagation in viable cells. Mech Ageing Dev 10:27–38

    Google Scholar 

  • Gallant J, Foley D (1980) On the causes and prevention of mistranslation. In: Chambliss G, Craven CR, Davis T, Kahan L, Nomura M (eds) Ribosomes: Structure, function and genetics. University Park Press, Baltimore, pp 615–640

    Google Scholar 

  • Gallant J, Erlich H, Weiss R, Palmer L, Nyari L (1982) Nonsense suppression in aminoacyl-t-RNA limited cells. Mol Gen Genet 186:221–227

    Google Scholar 

  • Gorini L (1971) Ribosomal discrimination of tRNAs. Nature (London) New Biol 234:261–264

    Google Scholar 

  • Gorini L (1974) Streptomycin and misreading of the genetic code. In: Nomura M, Tissieres A, Lengyell P (eds) Ribosomes. Cold Spring Harbor Laboratory, New York, pp 791–803

    Google Scholar 

  • Kelley RL, Yanofsky C (1982) trp aporepressor production is controlled by autogenous regulation and inefficient translation. Proc Nat Acad Sci USA 79:3120–3124

    Google Scholar 

  • Kogut M, Lightbown JW, Isaacson P (1965) Effects of dihydrostreptomycin treatment on the growth of Escherichia coli after removal of extracellular antibiotic. J Gen Microbiol 39:165–183

    Google Scholar 

  • Miller JH (1972) Experiments in molecular genetics. Cold Spring Harbor Laboratory, New York

    Google Scholar 

  • Morse DE, Guertin M (1972) Amber SuA mutations which relieve polarity. J Mol Biol 63:605–608

    Google Scholar 

  • O'Farrell P (1978) The suppression of defective translation by ppGpp and its role in the stringent response. Cell 14:545–557

    Google Scholar 

  • Parker T, Friesen JD (1980) Two out of three codon reading leading to mistranslation in vivo. Mol Gen Genet 177:439–445

    Google Scholar 

  • Parker J, Johnson TC, Borgia PT (1980) Mistranslation in cells infected with the bacteriophate MS2: direct evidence of Lys for Asn substitution. Mol Gen Genet 180:275–281

    Google Scholar 

  • Piepersberg W, Böck A, Wittmann HG (1975) Effect, of different mutations in ribosomal protein S5 of Escherichia coli on translational fidelity. Mol Gen Genet 140:91–100

    Google Scholar 

  • Piepersberg W, Noseda V, Böck A (1979) Bacterial ribosomes with two ambiguity mutations: effects on translational fidelity, on the response to aminoglycosides and on the rate of protein synthesis. Mol Gen Genet 171:23–34

    Google Scholar 

  • Read SM, Northcote DH (1981) Minimisation of variation in the response to different proteins of the Coomassie Blue G dyebinding assay for protein. Anal Biochem 116:53–64

    Google Scholar 

  • Richardson JP, Grimley C, Lowery C (1975) Transcription termination factor rho activity is altered in E. coli with SuA mutations. Proc Nat Acad Sci USA 72:1725–1728

    Google Scholar 

  • Rosenberger RF, Foskett G (1981) An estimate of the frequency of in vivo transcriptional errors at a nonsense codon in E. coli. Mol Gen Genet 183:561–563

    Google Scholar 

  • Rosner JL (1972) Formation, induction and curing of P1 lysogens. Virology 48:679–689

    Google Scholar 

  • Sarthy A, Fowler A, Zabin I, Beckwith J (1979) Use of a gene fusion to determine a partial sequence of alkaline phosphatase. J Bacteriol 139:932–939

    Google Scholar 

  • Schlessinger D, Medoff G (1975) Streptomycin, dihydrostreptomycin and the gentamycins. In: Corcoran JW, Hahn FE (eds) Antibiotics, vol III. Springer, Berlin Heidelberg New York, pp 535–550

    Google Scholar 

  • Ullman A, Monod J (1969) On the effect of divalent ions and protein concentration upon the renaturation of β-galactosidase from E. coli. Biochem Biophys Res Commun 35:35–42

    Google Scholar 

  • Welpy TK, Fowler AV, Beckwith JR, Zabin I (1980) Position of early nonsense and deletion mutations in lacZ. J Bacteriol 142:732–734

    Google Scholar 

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Authors and Affiliations

  1. Genetics Division, The Natonal Institute for Medical Research, The Ridgeway, Mill Hill, NW7, London, England

    R. F. Rosenberger & J. Hilton

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  1. R. F. Rosenberger
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  2. J. Hilton
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Communicated by A.Böck

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Rosenberger, R.F., Hilton, J. The frequency of transcriptional and translational errors at nonsense codons in the lacZ gene of Escherichia coli . Mol Gen Genet 191, 207–212 (1983). https://doi.org/10.1007/BF00334815

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  • DOI: https://doi.org/10.1007/BF00334815

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