A functional study of the global transcriptional regulator PadR from a strain Streptomyces fradiae-nitR+bld, resistant to nitrone-oligomycin.

We describe Streptomyces fradiae mechanisms of sensitivity to nitrone-oligomycin A, a derivative of oligomycin A. We obtained S. fradiae-nitR+ bld, a nitrone-oligomycin A resistant mutant with a «bald» phenotype. Comparative genomic analysis of the wild-type S. fradiae ATCC19609 and S. fradiae-nitR+ bld revealed a mutation in padR - a gene encoding a multifunction transcription regulator, which resulted in the amino acid replacement in a highly conserved DNA-binding domain. Bioinformatics genome analysis of S. fradiae ATCC19609 discovered a PadR binding site 13 bp upstream the start codon of the marR transcription factor gene. Induction of S. fradiaenitR+ bld and w.t. strains with nitrone-oligomycin A lead to a significant increase in expression level of the marR gene in the w.t. strain, but no change observed in mutant strain. We identified differences between DNA-protein interactions of the mutant and native PadR proteins with its putative binding site in S. fradiae ATCC19609. This allowed us to suggest that the padR gene, that harbored a single nucleotide mutation in the S. fradiaenitR+ bld strain, might be involved in the mechanism of resistance to nitrone-oligomycin A. We assume the participation of the transcriptional factorpadR in the formation of the bald phenotype.