Comparison of Mycobacterium tuberculosis with Escherichia coli reveals a reduction in the diversity of DNA-managing proteins, such as DNA topoisomerases, although genome sizes are similar for the two species. The same is true for nucleoid-associated proteins (NAPs), important factors in bacterial chromosome compaction, chromosome remodeling, and regulation of gene expression. In a search for still uncharacterized NAPs, we found that M. tuberculosis protein Rv0430 has NAP-like features: it binds to DNA in a length- and supercoil-dependent fashion, prefers A/T-rich DNA sequences, protects DNA from damaging agents, and modulates DNA supercoiling. At a ratio of 1 dimer/40 bps of DNA, Rv0430 bridges distant DNA segments; at 1 dimer/20 bps, it coats DNA, forming inflexible rods. Rv0430 also stimulates the DNA relaxation activity of topoisomerase I. Remarkably, Rv0430 stimulates its own promoter in a supercoil-dependent manner. It is the first gene of an operon harboring two regulators of M. tuberculosis virulence (virR and sodC), and controls the expression of these downstream virulence regulators and therefore itself is a virulence regulator. The sensitivity of rv0430 expression to supercoiling is consistent with supercoiling being important for infection by M. tuberculosis. Thus, Rv0430 is a novel NAP, doubling up as a topology modulator of M. tuberculosis.
Keywords: DNA architecture; DNA binding; Mycobacterium tuberculosis; nucleoid-associated protein (NAP); transcription regulator.
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