In many eubacteria, coexpression of recX with recA is essential for attenuation of the deleterious effects of recA overexpression; however, the molecular mechanism has remained enigmatic. Here T he past several years have seen a considerable progress in our understanding of the central role of Escherichia coli RecA protein in homologous recombination, DNA repair, restoration of stalled replication forks, induction of SOS response, and mutagenesis (1, 2). The much-studied homologous recombination process in vitro is the three-strand exchange reaction between circular single-and linear double-stranded DNA (1-3). In this model, the reaction proceeds in three sequential phases: (i) The presynaptic polymerization of RecA protein on singlestranded DNA; (ii) synapsis, the homologous alignment of nucleoprotein filament with linear double-stranded DNA; and (iii) unidirectional strand exchange (1-3). The mechanistic aspects of homologous recombination promoted by the prototype E. coli RecA protein may arguably be the best understood, but understanding its counterparts from other organisms will be essential to establish the generality of the phenomenon. To this end, we have described the biochemical characterization and x-ray structure of M. tuberculosis RecA (4-6).In some eubacteria, recX is located on the same coding strand downstream of recA (7). In Streptomyces lividans, Mycobacterium smegmatis, Mycobacterium tuberculosis, Pseudomonas aeruginosa, or Thiobacillus ferrooxidans, the ORFs of recA and recX overlap and the two genes are cotranscribed (7-12). It is known that overexpression of recA in recX mutants of S. lividans, M. smegmatis, or P. aeruginosa, but not mutant RecA, lead to induction of deleterious effects (8, 10, 13). However, the molecular mechanisms by which recX attenuates the deleterious effects induced by recA overexpression has remained unknown. Using M. tuberculosis as a model, we explored the mechanism by which RecA is regulated by RecX. Here, we show that RecX interacts directly with RecA in vitro and in vivo resulting in suppression of ATPase and strand exchange, processes that are central to homologous recombination. The negative regulation of RecA by RecX implies that RecX might act as an antirecombinase to quell inappropriate recombinational repair during normal DNA metabolism. (14) and their concentrations determined as described (15). Negatively supercoiled (form I) and circular single-stranded M13 DNA (ssDNA) was prepared as described (16). The concentrations are expressed in moles of nucleotide residues.
Materials and Methods
Purification of RecX. E. coli BL21(DE3)[pLysS] strain harboringM. tuberculosis recX gene on plasmid pET15b was cultured in 1 liter of LB medium containing 50 g͞ml ampicillin and 34 g͞ml chloramphenicol at 37°C. At mid-exponential phase (A 600 ϭ 0.4), recX expression was induced by adding isopropyl -Dthiogalactoside (IPTG) to a final concentration of 0.5 mM and incubated for 4 h. All subsequent steps were performed at 4°C unless indicated otherwise. Cell paste (8 g) was...
