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Identification of the Mycobacterium tuberculosis SUF Machinery as the Exclusive Mycobacterial System of [Fe-S] Cluster Assembly: Evidence for Its Implication in the Pathogen's Survival

Department of Molecular Mechanisms of Mycobacterial Infections, Institut de Pharmacologie et Biologie Structurale (UMR5089), C.N.R.S./Université Paul Sabatier Toulouse III, 205 Route de Narbonne, F-31077 Toulouse Cedex, France

Received 7 March 2005/ Accepted 13 June 2005

The worldwide recrudescence of tuberculosis and widespread antibiotic resistance have strengthened the need for the rapid development of new antituberculous drugs targeting essential functions of its etiologic agent, Mycobacterium tuberculosis. In our search for new targets, we found that the M. tuberculosis pps1 gene, which contains an intein coding sequence, belongs to a conserved locus of seven open reading frames. In silico analyses indicated that the mature Pps1 protein is orthologous to the SufB protein of many organisms, a highly conserved component of the [Fe-S] cluster assembly and repair SUF (mobilization of sulfur) machinery. We showed that the mycobacterial pps1 locus constitutes an operon which encodes Suf-like proteins. Interactions between these proteins were demonstrated, supporting the functionality of the M. tuberculosis SUF system. The noticeable absence of any alternative [Fe-S] cluster assembly systems in mycobacteria is in agreement with the apparent essentiality of the suf operon in Mycobacterium smegmatis. Altogether, these results establish that Pps1, as a central element of the SUF system, could play an essential function for M. tuberculosis survival virtually through its implication in the bacterial resistance to iron limitation and oxidative stress. As such, Pps1 may represent an interesting molecular target for new antituberculous drugs.

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