| 1. |
- Murina, Victoriia, et al.
(författare)
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ABCF ATPases Involved in Protein Synthesis, Ribosome Assembly and Antibiotic Resistance : Structural and Functional Diversification across the Tree of Life
- 2019
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Ingår i: Journal of Molecular Biology. - : Elsevier. - 0022-2836 .- 1089-8638. ; 431:18, s. 3568-3590
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Tidskriftsartikel (refereegranskat)abstract
- Within the larger ABC superfamily of ATPases, ABCF family members eEF3 in Saccharomyces cerevisiae and EttA in Escherichia coli have been found to function as ribosomal translation factors. Several other ABCFs including biochemically characterized VgaA, LsaA and MsrE confer resistance to antibiotics that target the peptidyl transferase center and exit tunnel of the ribosome. However, the diversity of ABCF subfamilies, the relationships among subfamilies and the evolution of antibiotic resistance (ARE) factors from other ABCFs have not been explored. To address this, we analyzed the presence of ABCFs and their domain architectures in 4505 genomes across the tree of life. We find 45 distinct subfamilies of ABCFs that are widespread across bacterial and eukaryotic phyla, suggesting that they were present in the last common ancestor of both. Surprisingly, currently known ARE ABCFs are not confined to a distinct lineage of the ABCF family tree, suggesting that ARE can readily evolve from other ABCF functions. Our data suggest that there are a number of previously unidentified ARE ABCFs in antibiotic producers and important human pathogens. We also find that ATPase-deficient mutants of all four E. coli ABCFs (EttA, YbiT, YheS and Uup) inhibit protein synthesis, indicative of their ribosomal function, and demonstrate a genetic interaction of ABCFs Uup and YheS with translational GTPase BipA involved in assembly of the 50S ribosome subunit. Finally, we show that the ribosome-binding resistance factor VmlR from Bacillus subtilis is localized to the cytoplasm, ruling out a role in antibiotic efflux.
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| 2. |
- Van Nerom, Katleen, et al.
(författare)
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The Rel stringent factor from Thermus thermophilus : crystallization and X-ray analysis
- 2019
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Ingår i: Acta Crystallographica Section F. - : International Union of Crystallography. - 2053-230X. ; 75, s. 561-569
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Tidskriftsartikel (refereegranskat)abstract
- 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 (RelTtNTD) in the resting state and bound to nucleotides are described. RelTt and RelTtNTD are monomers in solution that are stabilized by the binding of Mn2+ and mellitic acid. RelTtNTD 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.
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