thiostrepton and Chromosome-Deletion

A plasmid designated pSN2 (molecular size 32.0 kb) was isolated from the wild type of Streptomyces niveus ATCC 19793. To permit phenotypic identification of pSN2 the 1.9 kb BclI fragment was replaced in vitro by the 1.1 kb BclI fragment of pIJ702 carrying the thiostrepton resistance (tsr) gene to form the plasmid pSN3. pSN3 transforms S. lividans to thiostrepton resistance at high frequency and is stably maintained. However, when used to transform S. niveus pSN3 was unstable and produced a 5.5 kb thiostrepton resistant deletion derivative pLG5. pLG5 is also stable and expresses thiostrepton resistance in S. lividans but on transformation of S. niveus was unstable and produced a further thiostrepton resistant derivative, pLG10, of 6.5 kb. pLG5 and pLG10 like pSN3 transform S. lividans at high frequency and produce pocks. DNA hybridizations with a probe derived from pLG5 confirm that pLG5 is derived from DNA sequences present on pSN2 and pSN3.

Topics: Chromosome Deletion; Cloning, Molecular; DNA, Bacterial; Drug Resistance, Microbial; Electrophoresis, Agar Gel; Nucleic Acid Hybridization; Phenotype; Plasmids; Protoplasts; Restriction Mapping; Streptomyces; Thiostrepton; Transformation, Bacterial

Nuclease S1 protection experiments indicated that the thiostrepton resistance gene (tsr) of Streptomyces azureus is transcribed from tandem promoters, tsrp1 and tsrp2, that initiate transcription 45 and 173 nucleotides, respectively, upstream of the presumptive translational start codon. The -10 regions of both promoters show similarity to the consensus sequence for the major class of prokaryotic promoters, but the -35 regions do not, although they show some similarity to each other. Replacement of sequences upstream of position -22 relative to the tsrp2 start site with two different DNA segments affected the levels of the tsrp2 transcript but did not alter the tsrp2 initiation site. In vitro transcription assays using RNA polymerase from Streptomyces coelicolor A3(2) also confirmed the location of tsrp2 and identified additional start sites near tsrp2 that were barely detectable with in vivo synthesised RNA. Transcripts corresponding to initiation in vitro at trsp1 could not be detected, suggesting that additional factors are required for utilisation of this promoter.

Topics: Amino Acid Sequence; Anti-Bacterial Agents; Base Sequence; Chromosome Deletion; DNA, Fungal; Drug Resistance, Microbial; Molecular Sequence Data; Promoter Regions, Genetic; Restriction Mapping; Single-Strand Specific DNA and RNA Endonucleases; Streptomyces; Thiostrepton; Transcription, Genetic