par Van Nerom, Katleen ;Tamman, Hedvig ;Takada, Hiraku;Hauryliuk, Vasili;Garcia-Pino, Abel
Référence Acta Crystallographica Section F:Structural Biology Communications, 75, page (561-569)
Publication Publié, 2019-08-01
Référence Acta Crystallographica Section F:Structural Biology Communications, 75, page (561-569)
Publication Publié, 2019-08-01
Article révisé par les pairs
Résumé : | The stringent response, controlled by (p)ppGpp, enables bacteria to trigger a strong phenotypic resetting that is crucial to cope with adverse environmental changes and is required for stress survival and virulence. In the bacterial cell, (p)ppGpp levels are regulated by the concerted opposing activities of RSH (RelA/SpoT homologue) enzymes that can transfer a pyrophosphate group of ATP to the 3′ position of GDP (or GTP) or remove the 3′ pyrophosphate moiety from (p)ppGpp. Bifunctional Rel enzymes are notoriously difficult to crystallize owing to poor stability and a propensity for aggregation, usually leading to a loss of biological activity after purification. Here, the production, biochemical analysis and crystallization of the bifunctional catalytic region of the Rel stringent factor from Thermus thermophilus (Rel Tt NTD) in the resting state and bound to nucleotides are described. Rel Tt and Rel Tt NTD are monomers in solution that are stabilized by the binding of Mn2+ and mellitic acid. Rel Tt NTD crystallizes in space group P4122, with unit-cell parameters a = b = 88.4, c = 182.7 Å, at 4°C and in space group P41212, with unit-cell parameters a = b = 105.7, c = 241.4 Å, at 20°C. |