Abstract

The sensitivity of intact cells and subcellular fractions of actinomycetes to kirromycin and pulvomycin was examined. These antibiotics block bacterial protein synthesis by acting on elongation factor Tu (EF-Tu). Two types of natural resistance were encountered in actinomycetes. Some strains were resistant to kirromycin and pulvomycin by virtue of inefficient cellular uptake of these drugs. In 3 strains, kirromycin resistance was attributable to a drug-insensitive EF-Tu. These 3 organisms produce kirromycin-type antibiotics: Streptomyces cinnamomeus, Streptomyces lactamdurans and Streptoverticillium mobaraense synthesize kirrothricin, efrotomycin and pulvomycin, respectively. In S. cinnamomeus and S. lactamdurans resistance to their own antibiotic is due to possession of a nonresponding EF-Tu factor, whereas pulvomycin resistance in Sv. mobaraense is more likely derived from the permeability properties of the cell envelope.