S U M M A R YCysteine appeared to have two classes of growth inhibitory effect onEscherichia coli: (I) above 0.2 m i t inhibited growth on minimal medium by a mechanism which may involve interference with leucine, isoleucine, threonine and valine biosynthesis ; ( 2 ) above 2 mM, in media with these amino acids, it had an effect which may involve interaction with membrane bound respiratory enzymes.Cysteamine showed only effect ( 2 ) .
I N T R O D U C T I O NRoberts, Abelson, Cowie, Bolton & Britten (1957) reported that exogenous cysteine inhibits the growth of Escherichia coli, but the mechanism of this action is still unclarified. Nagy, Hernadi, Kovhcs, Valyi-Nagy (1968a) and Nagy, Kovacs, Kari & Hernidi (1970) found that, in E. coli 1 5~-, the net synthesis of RNA and protein, but not that of DNA, was quickly inhibited by cysteine. An antagonism could be detected between cysteine and leucine (leu), isoleucine (ileu), threonine (threo) and valine (Val) and it was suggested that the biosynthesis of these amino acids (AAs) is inhibited by cysteine (Kovhcs, Kari, Nagy & Hernidi, 1968). However, not all the effects of cysteine could be explained in this way (Nagy, Kari & Hernadi, 1969 Hernadi, 1971). Each of these effects may be responsible for its cytotoxic action, but it is difficult to demonstrate which of these many reactions is involved in growth inhibition. Enzyme experiments in vitro and the various metabolic actions of cysteine need to be assessed in the light of detailed growth studies.
M E T H O D SBacterial strains, Escherichia coli strain B (prototroph, from T. Alper of Hammersmith Hospital, London) ; Hfr CAVALLI met-rel-(a relaxed strain, auxotrophic for methionine) ; CP 99 his-arg-ser-Bl-reE+ (a stringent strain, auxotrophic for histidine, arginine, serine and B~) ; and CPIOO his-arg-ser-B,-rel-(a relaxed mutant of ~~9 9 ) .The latter three strains were obtained from L. Alfoldi (Medical University of Szeged, Hungary).Growth. Organisms were cultivated on mineral salts medium C (Roberts et al. 1957)
