Abstract
The rplK (= relC) gene, which codes for ribosomal protein L11, was cloned from Streptomyces griseus IFO13189 using a screening procedure based on polymerase chain reaction amplification of a gene segment that subsequently allowed the isolation of the complete gene from a gene library. rplK lies between the nusG gene, encoding a protein involved in antitermination of transcription, and the rplA gene, which encodes the ribosomal protein L1. Comparison of the rplK gene sequences of the wild-type strain and the presumed relC mutant strain 3-3 (originally isolated as a thiopeptin-resistant isolate) revealed a 12-bp deletion within the rplK gene from the mutant, flanked by a 4-bp repeat sequence in the corresponding region in the wild type. When the wild-type rplK gene was propagated on a low-copy-number vector in the relC mutant 3-3, the ability to produce guanosine 5'-diphosphate 3'-diphosphate, streptomycin, and submerged spores was completely restored to parental levels. The impaired ability to form aerial mycelium was, however, unaffected. Western blotting analysis showed that the ribosomes from the relC mutant 3-3 incorporate the mutant L11 protein normally, although the level of incorporation is approximately one-third that of the wild-type L11 protein in ribosomes of the parent strain. Propagation of the mutant rplK gene in the wild-type strain resulted in marked defects in growth, streptomycin production, and aerial mycelium formation, indicating that the mutant L11 protein exerts certain negative effects in the cells.
Published Version
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