Stability of ribosomal protein mRNA and translational feedback regulation in Escherichia coli

Knud Nierhaus, Who Has Studied The Ribosome For More Than 30 Years, Has Assembled Here The Combined Efforts Of Several Scientific Disciplines Into A Uniform Picture Of The Largest Enzyme Complex Found In Living Cells, Finally Resolving Many Decades-old Questions In Molecular Biology. In So Doing He

Two spontaneous mutants of Escherichia coli strain KMBL-146 selected for resistance to the aminoglycoside antibiotic neamine show severe restriction of amber suppressors in vivo. Purified ribosomes from the mutant strains exhibit low neamine-induced misreading in vitro and a decreased affinity for t

Protein S5 and S12 were isolated from 30S ribosomal subunits of two E. coli mutants highly resistant to the antibiotic neamine, and of the parental strain. Proteinchemical analyses on these proteins led to the following results: a) In protein S5 the arginine residue in peptide T2 of the parental str

The effect on translational fidelity of a particular mutation in the gene coding for protein S5(rpxE) has been investigated. This mutation has the opposite effect of a restrictive strA mutation; in vivo, it relieves the restriction imposed by strA on the suppression of T4 nonsense mutants and result

The effect of three different types of mutations in ribosomal protein S5 of Escherichia coli on translational fidelity has been studied. Two of them, namely that conferring resistance to spectinomycin and that selected for partial suppression of a temperature-sensitive analyl-tRNA synthetase mutatio

During Drosophila early development the translation of ribosomal protein mRNAs is regulated specifically and coordinately. In this study we assayed for changes of ribosomal protein rp49 gene expression in flies transformed with extra copies of the gene. RNA blot analysis revealed that the rp49 trans