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Abstract
The crystal structure of the class II fructose-1,6-bisphosphatase (FBPaseII) from the important pathogen Francisella tularensis is presented at 2.4 Å resolution. Its structural and functional relationships to the closely related phosphatases from Mycobacterium tuberculosis (MtFBPaseII) and Escherichia coli (EcFBPaseII) and to the dual phosphatase from Synechocystis strain 6803 are discussed. FBPaseII from F. tularensis (FtFBPaseII) was crystallized in a monoclinic crystal form (space group P21, unit-cell parameters a = 76.30, b = 100.17, c=92.02 Å, β=90.003°) with four chains in the asymmetric unit. Chain A had two coordinated Mg2+ ions in its active center, which is distinct from previous findings, and is presumably deactivated by their presence. The structure revealed an approximate 222 (D2) symmetry homotetramer analogous to that previously described for MtFBPaseII, which is formed by a crystallographic dyad and which differs from the exact tetramer found in EcFBPaseII at a 222 symmetry site in the crystal. Instead, the approximate homotetramer is very similar to that found in the dual phosphatase from Synechocystis, even though no allosteric effector was found in FtFBPase. The amino-acid sequence and folding of the active site of FtFBPaseII result in structural characteristics that are more similar to those of the previously published EcFBPaseII than to those of MtFBPaseII. The kinetic parameters of native FtFBPaseII were found to be in agreement with published studies. Kinetic analyses of the Thr89Ser and Thr89Ala mutations in the active site of the enzyme are consistent with the previously proposed mechanism for other class II bisphosphatases. The Thr89Ala variant enzyme was inactive but the Thr89Ser variant was partially active, with an approximately fourfold lower Km and Vmax than the native enzyme. The structural and functional insights derived from the structure of FtFBPaseII will provide valuable information for the design of specific inhibitors.
Highlights
Francisella tularensis, which causes tularemia, is one of the most virulent and deadly pathogens to be registered as a biological weapon (Dennis et al, 2001)
The quaternary structure of FtFBPaseII is dependent on the protein concentration (Gutka et al, 2017), with the tetrameric aggregate predominating in highly concentrated samples
Protein purification using size-exclusion chromatography suggested the presence of both dimers and tetramers in solution, which was confirmed by the presence of a tetramer in the asymmetric unit of the FtFBPaseII crystals
Summary
Francisella tularensis, which causes tularemia, is one of the most virulent and deadly pathogens to be registered as a biological weapon (Dennis et al, 2001). Pathogenic biovars of F. tularensis have been discovered in all parts of the world. The first isolation of F. tularensis subsp. Tularensis occurred in Europe (Gurycova , 1998). The pathogen is capable of infecting various types of cells from more than 250 hosts, but in humans it is thought to replicate intracellularly to high densities mainly in macrophages (Santic et al, 2006; Sjostedt, 2006; Keim et al, 2007). Clinical outcomes in the treatment of tularemia often correlate poorly with the results from in vitro experiments on susceptibility to antibiotics. Antibiotic therapies for tularemia have been determined empirically by testing the bactericidal or bacteriostatic effect using whole cells, and most of the useful drugs
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Schedule a callMore From: Acta crystallographica. Section F, Structural biology communications
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