Cloning of a DNA Fragment from Streptomyces griseus which Directs Streptomycin Phosphotransferase Activity

Abstract

DNA from S. griseus ATCC 12475 was partially digested with Sau3A and fragments were ligated into BglII-cleaved pIJ702. When the ligation mixture was used to transform protoplasts of S. lividans TK54, 2 transformants resistant to both thiostrepton and streptomycin were isolated. The hybrid plasmids pBV3 and pBV4 which they contained, carrying inserts of sizes 4.45 and 11.55 kbp kilo base pair, respectively, each retransformed S. lividans to streptomycin resistance at high efficiency. Both plasmids hybridized to restriction digests of S. griseus chromosomal DNA in Southern blot experiments. In vitro deletion and sub-cloning experiments showed the sequence conferring streptomycin resistance to lie within a segment of 1.95 kbp. Extracts of TK54(pBV3) and TK54(pBV4) contained a streptomycin phosphotransferase similar to that in extracts of S. griseus. Streptomycin phosphotransferase activity appeared in extracts of S. griseus, TK54(pBV3) and TK54(pBV4) within 2 days of inoculation. When pBV3 and pBV4 were retransformed into S. griseus with selection for thiostrepton resistance, plasmid DNA of sizes corresponding to the incoming plasmids was found in the transformants. In these transformants the phosphotransferase appeared at 1.5 rather than 2 days and reached a level over twice that of the original S. griseus strain.