Actinobacterial genus Streptomyces (streptomycetes) represents one of the largest cultivable group of bacteria famous for their ability to produce valuable specialized (secondary) metabolites. Regulation of secondary metabolic pathways inextricably couples the latter to essential cellular processes that determine levels of amino acids, carbohydrates, phosphate, etc. Post-transcriptional tRNA modifications remain one of the least studied aspects of streptomycete physiology, albeit a few of them were recently shown to impact antibiotic production. In this study, we describe the diversity of post-transcriptional tRNA modifications in model strain Streptomyces albus (albidoflavus) J1074 by combining mass spectrometry and genomic data. Our results show that J1074 can produce more chemically distinct tRNA modifications than previously thought. An in silico approach identified orthologs for enzymes governing most of the identified tRNA modifications. Yet, genetic control of certain modifications remained elusive, suggesting early divergence of tRNA modification pathways in Streptomyces from the better studied model bacteria, such as Escherichia coli and Bacillus subtilis. As a first point in case, our data point to the presence of a non-canonical MiaE enzyme performing hydroxylation of prenylated adenosines. A further finding concerns the methylthiotransferase MiaB, which requires previous modification of adenosines by MiaA to i6A for thiomethylation to ms2i6A. We show here that the J1074 ortholog, when overexpressed, yields ms2A in a ΔmiaA background. Our results set the working ground for and justify a more detailed studies of biological significance of tRNA modification pathways in streptomycetes. IMPORTANCE Post-transcriptional tRNA modifications (PTTMs) play an important role in maturation and functionality of tRNAs. Little is known about tRNA modifications in the antibiotic-producing actinobacterial genus Streptomyces, even though peculiar tRNA-based regulatory mechanisms operate in this taxon. We provide a first detailed description of the chemical diversity of PTTMs in the model species, S. albidoflavus J1074, and identify most plausible genes for these PTTMs. Some of the PTTMs are described for the first time for Streptomyces. Production of certain PTTMs in J1074 appears to depend on enzymes that show no sequence similarity to known PTTM enzymes from model species. Our findings are of relevance for interrogation of genetic basis of PTTMs in pathogenic actinobacteria, such as M. tuberculosis.
Keywords: MiaB; MiaE; Streptomyces albidoflavus (albus) J1074; post-transcriptional tRNA modifications; tRNA.