The maximum rate of gene expression is dependent on the downstream context of unfavourable codons.

Presented here is an experimental demonstration of our theoretical predictions on the role of the downstream context of unfavourable codons in a gene on its expression level. Six non clustered AGG codons were inserted in the chloramphenicol acetyltransferase (cat) gene of E. coli and the expression of this modified gene (cat4) was compared with that of a cat gene in which four clustered AGG codons were inserted (cat2 gene).

The membrane channel-forming colicin A: synthesis, secretion, structure, action and immunity.

The study of colicin release from producing cells has revealed a novel mechanism of secretion. Instead of a built-in 'tag', such as a signal peptide containing information for secretion, the mechanism employs coordinate expression of a small protein which causes an increase in the envelope permeability, resulting in the release of the colicin as well as other proteins. On the other hand, the mechanism of entry of colicins into sensitive cells involves the same three stages of protein translocation that have been demonstrated for various cellular organelles.

Effect of distribution of unfavourable codons on the maximum rate of gene expression by an heterologous organism.

We have analysed theoretically the effect of the relative position of unfavourable codons on the maximum level of synthesis of foreign proteins in E. coli. We predict that the occurrence of such codons scattered in the corresponding genes has little effect.

Translation is a non-uniform process. Effect of tRNA availability on the rate of elongation of nascent polypeptide chains.

We reported elsewhere (Varenne et al., 1982) that, during synthesis of a number of colicins in Escherichia coli, intermediate nascent chains of discrete sizes accumulated, suggesting a variable rate of translation. In this paper, a detailed analysis provides arguments that this phenomenon, at least for the proteins under study, is not related to aspects of messenger RNA such as secondary structure.

Nucleotide sequence of the gene for the immunity protein to colicin A. Analysis of codon usage of immunity proteins as compared to colicins.

The nucleotide sequence of the structural gene for the immunity protein to colicin A (cai) has been established. This sequence consists of 534 base pairs. According to the predicted amino acid sequence, the polypeptide chain of this immunity protein comprises 178 amino acids and has a relative molecular mass of 20462.