Pyrimidine nucleoside analogues as inducers of pyrimidine nucleoside catabolizing enzymes in Salmonella typhimurium.

Various structural analogues of cytosine and uracil nucleosides were tested as potential inducers of the nucleoside catabolizing (cyt) enzymes in Salmonella typhimurium. Some analogues, e.g. 5'-O-alkyl cytidines and uridines, resistant to catabolic enzymes, were as effective as the natural inducers cytidine and uridine; but etherification of one of the cis 2' or 3'hydroxyls fully abolished activity, pointing to a requirement of an intact ribose cis-glycol system for activity. A uridine analogue in the syn conformation, 6-methyluridine, a good substrate for uridine phosphorylase, was inactive as an inducer. The behavior of various other analogues, in relation to their structure, conformation and substrate properties, indicated the absence of any correlation between inducing activity and substrate susceptibility. The overall findings are consistent with conclusions derived from genetic experiments. The active analogues apparently act via similar pathways, and probably affect the same regulatory mechanism(s) as the natural inducers.