Showing papers by "Richard Lathe published in 1980"

Cell-free synthesis of enterotoxin of E. coli from a cloned gene.

Abstract: In a variety of mammalian species including humans the newborn young are particularly susceptible to diarrhoeal disease brought about by toxin-producing strains of the common gut bacterium, Escherichia coli1. Two types of enterotoxin have been described2. The first, heat-labile toxin (LT), sharing partial antigenic identity with cholera toxin2,3 is comprised of two subunits having molecular weights of 25,500 and 11,5004 and, like cholera toxin, stimulates adenyl cyclase activity in the gut5. The second type, heat-stable toxin (ST), is a low-molecular weight protein which is excreted into the medium during the growth of ST-elaborating strains. Unlike LT, ST is poorly antigenic and for this reason the identification of ST-producing strains has relied on an assay involving the intragastric injection of infant mice, a test specific for ST6. Although many strains produce both ST and LT, strains producing ST alone are especially common in E. coli diarrhoeal disease of calves7,8, pigs2 and have also been implicated in outbreaks of diarrhoea in humans9,10. Recent evidence suggests that ST activates guanyl cyclase in the gut11,12 and its molecular weight has been estimated to be 4,400–5,100 (ref. 13). We have now applied gene cloning techniques to the isolation of ST genes from two porcine E. coli isolates and report here the identification of the protein product of molecular weight 7,000, synthesised in an in vitro system directed by the cloned DNA template. This in vitro gene product elicits a typical ST enterotoxin response in the infant mouse assay and is most probably synthesised as a 10,000 molecular weight precursor, as might be expected for an exported protein. The gene cloning data also provide evidence that the ST genes and their surrounding transposon structures are probably identical in both porcine and bovine strains of entero-pathogenic E. coli.

Prokaryotic histone-like protein interacting with RNA polymerase

Abstract: firA mutation of Escherichia coli can render RNA synthesis thermosensitive and confer abnormal sensitivity to rifampicin, an antibiotic that specifically inhibits the activity of RNA polymerase. We previously described the cloning of a chromosomal HindIII fragment containing the firA gene, and we now present strong evidence that the product of this gene is a 17,000-dalton polypeptide which, by various criteria, closely resembles the eukaryotic histones. This protein forms the largest of a unique set of three abundant histone-like proteins (HLP) found in E. coli and is hence referred to as HLPI. We discuss possible routes by which these proteins might affect transcription.