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Reductive evolution and massive pseudogene formation have shaped the 3.31-Mb genome of Mycobacterium leprae, an unculturable obligate pathogen that causes leprosy in humans. The complete genome sequence of M. leprae strain Br4923 from Brazil was obtained by conventional methods (6× coverage), and Illumina resequencing technology was used to obtain the sequences of strains Thai53 (38× coverage) and NHDP63 (46× coverage) from Thailand and the United States, respectively. Whole-genome comparisons with the previously sequenced TN strain from India revealed that the four strains share 99.995% sequence identity and differ only in 215 polymorphic sites, mainly SNPs, and by 5 pseudogenes. Sixteen interrelated SNP subtypes were defined by genotyping both extant and extinct strains of M. leprae from around the world. The 16 SNP subtypes showed a strong geographical association that reflects the migration patterns of early humans and trade routes, with the Silk Road linking Europe to China having contributed to the spread of leprosy.
Leprosy is a chronic dermatological and neurological disease that results from infection with the unculturable pathogen M. leprae1 and causes nerve damage that can lead to severe disabilities. There is no known reservoir for M. leprae other than human beings. New opportunities for understanding the transmission of the leprosy bacillus and its phylogeny have arisen following the determination of the complete 3.3-Mb genome sequence of the TN strain, from Tamil Nadu, India2.
A notable feature of the M. leprae genome is the exceptionally large number of pseudogenes, which occupy almost half of the TN chromosome2. The resulting loss of function most likely accounts for the exceptionally slow growth rate of the bacillus and for researchers' failure to culture it in vitro. Given this extensive genome decay, one might expect to find more genetic variability between different isolates of M. leprae, but initial analysis of SNPs demonstrated that these were very rare, occurring roughly once every 28 kb. Furthermore, all extant isolates of M. leprae were nearly indistinguishable, belonging to one of only four SNP types, and are derived from a single clone3. Variable number tandem repeats (VNTRs) have also been investigated in M. leprae3-8 and, in some cases, have proved useful for countrywide epidemiological surveys9. However, owing to variability of VNTR profiles in samples taken from different sites on the...