The complete genome sequence of Mycobacterium bovis.

Mycobacterium bovis is the causative agent of tuberculosis in a range of animal species and man, with worldwide annual losses to agriculture of $3 billion. The human burden of tuberculosis caused by the bovine tubercle bacillus is still largely unknown. M. bovis was also the progenitor for the M. bovis bacillus Calmette-Guérin vaccine strain, the most widely used human vaccine. Here we describe the 4,345,492-bp genome sequence of M. bovis AF2122/97 and its comparison with the genomes of Mycobacterium tuberculosis and Mycobacterium leprae. Strikingly, the genome sequence of M. bovis is >99.95% identical to that of M. tuberculosis, but deletion of genetic information has led to a reduced genome size. Comparison with M. leprae reveals a number of common gene losses, suggesting the removal of functional redundancy. Cell wall components and secreted proteins show the greatest variation, indicating their potential role in host-bacillus interactions or immune evasion. Furthermore, there are no genes unique to M. bovis, implying that differential gene expression may be the key to the host tropisms of human and bovine bacilli. The genome sequence therefore offers major insight on the evolution, host preference, and pathobiology of M. bovis.

Royal Society of Tropical Medicine and Hygiene Meeting at Manson House, London, 18th January 2001. Pathogen genomes and human health. Mycobacterial genomics.

The small size of their genomes made bacterial ideal model organisms for the emerging field of genomics. Elucidating the genome sequences of mycobacteria was particularly attractive owing to the difficulties inherent in their manipulation. The slow growth rate, clumping, and requirement for category III containment make manipulation of Mycobacterium tuberculosis-complex strains laborious. M. leprae presents even greater problems as it has resisted all attempts at axenic culture. Availability of genome sequence data promised to accelerate our knowledge of the fundamental biology of these organisms, and to offer clues to the basis for their virulence, tropism and persistence in the host. This article will focus on what the genome sequences of M. tuberculosis and M. leprae have taught us about these pathogens, and how comparative genomics has exposed some of the fundamental differences between the species.