Nadine Honoré scite author profile

Leprosy, a chronic human neurological disease, results from infection with the obligate intracellular pathogen Mycobacterium leprae, a close relative of the tubercle bacillus. Mycobacterium leprae has the longest doubling time of all known bacteria and has thwarted every effort at culture in the laboratory. Comparing the 3.27-megabase (Mb) genome sequence of an armadillo-derived Indian isolate of the leprosy bacillus with that of Mycobacterium tuberculosis (4.41 Mb) provides clear explanations for these properties and reveals an extreme case of reductive evolution. Less than half of the genome contains functional genes but pseudogenes, with intact counterparts in M. tuberculosis, abound. Genome downsizing and the current mosaic arrangement appear to have resulted from extensive recombination events between dispersed repetitive sequences. Gene deletion and decay have eliminated many important metabolic activities including siderophore production, part of the oxidative and most of the microaerophilic and anaerobic respiratory chains, and numerous catabolic systems and their regulatory circuits.

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Comparative genomic and phylogeographic analysis of Mycobacterium leprae

Monot

et al. 2009

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Leprosy is a chronic, dermatological and neurological disease that results from infection with the unculturable pathogen Mycobacterium leprae 1 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, India 2 .A notable feature of the M. leprae genome is the exceptionally large number of pseudogenes, which occupy almost half of the TN chromosome 2 . 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. RESULTS Complete genome sequence of Br4923The Br4923 strain of M. leprae was chosen for complete genome analysis because it was originally isolated from a patient in Brazil, the country with the second highest leprosy burden, and because Brazil is geographically remote from India Recombination between dispersed repeats?The SNPs associated with dispersed repeats deserve some comment, as they provide evidence for genome plasticity in M. leprae. Variation between different copies of repeat family members had previously been reported 18, 19 , but analysis of two complete genomes provided a richer, more comprehensive dataset. Although all four repeat families (RLEP, REPLEP, LEPRPT and LEPREP) were present in the same copy number and location in both genomes, roughly half of the family members displayed sequence polymorphisms when pair-wise comparisons were performed (Fig. 1). The number of polymorphic sites ranged from one in LEPRPT and REPLEP to six in RLEP. With one exception, these resulted from G-A transitions in the RLEP, LEPRPT and LEPREP elements or single-base indels in LEPREP or REPLEP. The polymorphic sites tend to be occupied by A in the TN strain and by G in Br4923. Variation in REPLEP occurs at position 636, which is occupied either by GGG or GG (Fig. 1). Almost 25% of the total SNPs (38/155) occur in these repeats, which account for a mere 1.16% of the genome. The over-representation of SNPs in these elements may indicate that recombination events between different copies of the repetitive elements result in the dispersal of a particular SNP. This interpretation is supported by the strain-specific bias for A and G in the TN and Br4923 strains, respectively, and the finding that more differences are found toward the center of the element rather than near its ends. In turn, these combined findings render polymorphic sites in repetitive DNA unattractive as potential epidemiological tools. Search for informative SNPsFor phylogenetic and phylogeographic purposes, we determined which SNPs had been inhe...

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On the Origin of Leprosy

Monot

Honoré

Garnier

et al. 2005

Science

435

366

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Leprosy, a chronic human disease with potentially debilitating neurological consequences, results from infection with Mycobacterium leprae. This unculturable pathogen has undergone extensive reductive evolution, with half of its genome now occupied by pseudogenes. Using comparative genomics, we demonstrated that all extant cases of leprosy are attributable to a single clone whose dissemination worldwide can be retraced from analysis of very rare single-nucleotide polymorphisms. The disease seems to have originated in Eastern Africa or the Near East and spread with successive human migrations. Europeans or North Africans introduced leprosy into West Africa and the Americas within the past 500 years.

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Nadine Honoré

Massive gene decay in the leprosy bacillus

Comparative genomic and phylogeographic analysis of Mycobacterium leprae

On the Origin of Leprosy

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