Abstract
DNA gyrase, the sole negative supercoiling type II topoisomerase, is composed of two subunits, GyrA and GyrB, encoded by the gyrA and gyrB genes, respectively, that form a quaternary complex of A2 B2 . In this study, we have investigated the assembly of mycobacterial DNA gyrase from its individual subunits, a step prerequisite for its activity. Using analytical size-exclusion chromatography, we show that GyrA from Mycobacterium tuberculosis and Mycobacterium smegmatis forms tetramers (A4 ) in solution unlike in Escherichia coli and other bacteria where GyrA exists as a dimer. GyrB, however, persists as a monomer, resembling the pattern found in E. coli. GyrB in both mycobacterial species interacts with GyrA and triggers the dissociation of the GyrA tetramer to facilitate the formation of catalytically active A2 B2 . Despite oligomerisation, the GyrA tetramer retained its DNA binding ability, and DNA binding had no effect on GyrA's oligomeric state in both species. Moreover, the presence of DNA facilitated the assembly of holoenzyme in the case of M. smegmatis by stabilising the GyrA2 B2 tetramer but with little effect in M. tuberculosis. Thus, in addition to the distinct organisation and regulation of the gyr locus in mycobacteria, the enzyme assembly also follows a different pattern.
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