ABSTRACT
In Streptomyces ambofaciens, the producer of the macrolide antibiotic spiramycin, an open reading frame (ORF) was found downstream of srmA, a gene conferring resistance to spiramycin. The deduced product of this ORF had high degrees of similarity to Streptomyces lividans glycosyl transferase, which inactivates macrolides, and this ORF was called gimA. The cloned gimA gene was expressed in a susceptible host mutant of S. lividans devoid of any background macrolide-inactivating glycosyl transferase activity. In the presence of UDP-glucose, cell extracts from this strain could inactivate various macrolides by glycosylation. Spiramycin was not inactivated but forocidin, a spiramycin precursor, was modified. In vivo studies showed that gimA could confer low levels of resistance to some macrolides. The spectrum of this resistance differs from the one conferred by a rRNA monomethylase, such as SrmA. InS. ambofaciens, gimA was inactivated by gene replacement, without any deleterious effect on the survival of the strain, even under spiramycin-producing conditions. But the overexpression of gimA led to a marked decrease in spiramycin production. Studies with extracts from wild-type and gimA-null mutant strains revealed the existence of another macrolide-inactivating glycosyl transferase activity with a different substrate specificity. This activity might compensate for the effect of gimA inactivation.
The glutathione transferase activity and tissue distribution of a cloned Mr28K protective antigen of Schistosoma mansoni.