A tRNA modification inMycobacterium tuberculosisfacilitates optimal intracellular growth

Abstract

AbstractDiverse chemical modifications fine-tune the function and metabolism of tRNA. Although tRNA modification is universal in all kingdoms of life, profiles of modifications, their functions, and physiological roles have not been elucidated in most organisms including the human pathogen,Mycobacterium tuberculosis(Mtb), the causative agent of tuberculosis. To identify physiologically important modifications, we surveyed the tRNA ofMtb, using tRNA sequencing (tRNA-seq) and genome-mining. Homology searches identified 23 candidate tRNA modifying enzymes that are predicted to create 16 tRNA modifications across all tRNA species. Reverse transcription-derived error signatures in tRNA-seq predicted the sites and presence of 9 modifications. Several chemical treatments prior to tRNA-seq expanded the number of predictable modifications. Deletion ofMtbgenes encoding two modifying enzymes, TruB and MnmA, eliminated their respective tRNA modifications, validating the presence of modified sites in tRNA species. Furthermore, the absence ofmnmAattenuatedMtbgrowth in macrophages, suggesting that MnmA-dependent tRNA uridine sulfation contributes toMtbintracellular growth. Our results lay the foundation for unveiling the roles of tRNA modifications inMtbpathogenesis and developing new therapeutics against tuberculosis.