Mutants of Salmonella typhimurium responding to cysteine or methionine: their nature and possible role in the regulation of cysteine biosynthesis.

Nineteen mutants of Salmonella typhimurium responding to either cysteine or methionine (cym) have been identified amongst cysteine (cys) and methionine (met) auxotrophs. Their growth responses to known intermediates in the related pathways of cysteine and methionine biosynthesis and complementation patterns in abortive transduction tests divided the mutants into six groups. Results of conjugation, cotransduction and deletion mapping experiments substantiated these groups, each of which carried a lesion within known cys genes. Enzyme assays on cym mutants from five of the six groups confirmed their cys gene deficiencies. Growth response and enzyme assay data were not consistent with mutants being leaky cys mutants (spared by methionine). None of eight cym mutants tested were able to convert [35S]methionine into [35S]cysteine. Selenate specifically inhibits the early enzymes of cysteine synthesis. In cym mutants this inhibition was relieved by cysteine but not by methionine, indicating that cym mutants require active cys enzymes for growth on methionine. There was evidence that methionine stimulated in vivo activity of cys enzymes in a cym mutant. Resistance to inhibition by 1,2,4-triazole results in reduced levels of the O-acetyl serine sulphydrylase. In cym mutants triazole resistance gave unstable suppression of the cym phenotype. Cym mutants may result from mutation in regulatory regions common to each of the cys genes, with the precise role of methionine as yet unknown.