Horizontal Gene Transfer of Short-Chain Dehydrogenase Coding Genes Contribute to the Biofilm Formation and Pathogenicity on Mycobacterium grossiae sp. nov. PB739T (=DSM 104744T)

Mycobacterium grossiae sp. nov. of type strain PB739 T is a Gram-positive acid–alcohol–fast rod-shaped bacterium, which was recently isolated from a 76-year-old male who suffered from a 1-year history of hemoptysis. This strain was described as novel species in Mycobacterium genus. In this study, its genome was completely sequenced by PacBio technology, analyzed, and compared with other selected complete genome sequences of Mycobacterium to elucidate the distinct pathogenic features of the strain. The genomic analysis revealed that the genome of PB739 T consists of one circular DNA chromosome of 5,637,923 bp with a GC content of 70.48% and one plasmid of 43,679 bp with a GC content of 66.24%. The entire genome contains 5434 predicted coding genes, 48 tRNAs, and 6 rRNA genes. Genome and comparative genomics against M. grossiae SCH identified three tandem short-chain dehydrogenase (SDR) genes which only exist in PB739 T . These three tandem SDR genes locate in a Genomic island which was identified by Island Viewer. These SDR genes were predicted to be horizontally transferred from a Streptomyces ancestor based on phylogeny. Analysis of the mutant ΔSDR confirmed the relationship between these tandem genes with biofilm and pathogenicity. This report will provide us with an extended understanding of M. grossiae at the genomic level and would be helpful for understanding the evolution of Mycobacterium genus.