Reverse gyrase and genome stability in hyperthermophilic organisms.

Reverse gyrase is a DNA topoisomerase that is peculiar in many aspects: it has the unique ability to introduce positive supercoils into DNA molecules; it comprises a type IA topoisomerase fused to a helicase-like domain; although it is a type IA topoisomerase, its reaction is ATP-dependent; and it is the only hyperthermophile-specific protein. All these features have made reverse gyrase the subject of biochemical, structural and functional studies, although they have not shed complete light on the evolution, mechanism and function of this distinctive enzyme. In the present article, we review the latest progress on structure-function relationships of reverse gyrase, and discuss old and recent data linking reverse gyrase to DNA stability, protection and repair in hyperthermophilic organisms.

The prefoldin of the crenarchaeon Sulfolobus solfataricus.

Prefoldin is a hetero-hexameric ATP-independent chaperone, shared by eukaryotes and archaea, which binds non-native proteins preventing them from aggregation. We report the identification and characterization in vivo and in vitro of the first prefoldin from a crenarchaeon, the hyperthermophile Sulfolobus solfataricus. A functional complex was obtained either co-expressing the alpha- and beta-prefoldin subunits in Escherichia coli, or incubating at high temperature the separately expressed subunits.

Dissection of reverse gyrase activities: insight into the evolution of a thermostable molecular machine.

Reverse gyrase is a peculiar DNA topoisomerase, specific of thermophilic microorganisms, which induces positive supercoiling into DNA molecules in an ATP-dependent reaction. It is a modular enzyme and comprises an N-terminal helicase-like module fused to a C-terminal topoisomerase IA-like domain. The exact molecular mechanism of this unique reaction is not understood, and a fundamental mechanistic question is how its distinct steps are coordinated.

Reverse gyrase: an unusual DNA manipulator of hyperthermophilic organisms.

Reverse gyrase is the only DNA topoisomerase capable of introducing positive supercoiling into DNA molecules. This unique activity reflects a distinctive arrangement of the protein, which is composed of a topoisomerase IA module fused to a domain containing sequence motives typical of helicases; however, reverse gyrase works neither like a canonical topoisomerase IA nor like a helicase. Extensive genomic analysis has shown that reverse gyrase is present in all organisms living above 70 degrees C and in some of those living at 60- 70 degrees C, but is invariably absent in organisms living at mesophilic temperatures.