as a model system.

Over the past 30 years, the study ofhas become a vibrant field that supports basic investigation into mycobacteria, wide-ranging studies ofpathogenesis, and drug and therapeutic development. In this minireview, we highlight the multiple ways in whichis a model.has emerged as a model for prokaryotic biology, revealing basic mechanisms of gene expression, genomic integrity, and mutagenesis that expand prokaryotic dogmas established in earlier model organisms. Next, we highlight the experimental systems used to modelhuman infection. As an obligate human pathogen, all attempts to understand the pathogenesis of TB disease seek to mimic the human infection, and a variety of systems have emerged from our field. Finally, we highlight that thefield is a model for a community-driven scientific approach to a pressing global health problem for which commercial interest is limited. Our field has taken on the challenge of drug and diagnostic development, based on a foundation of expanding knowledge of basicbiology, by working through academic and public/private partnerships, to make meaningful progress in therapeutics and diagnostics. Altogether, we present thefield as a model for the development of a productive community that spans basic, translational, and therapeutic research, supported by public and philanthropic funding, to ultimately positively impact the treatment of human TB and the advancement of our knowledge base of microbiology and microbial pathogenesis.