Structural studies of glyceraldehyde-3-phosphate dehydrogenase from Naegleria gruberi, the first one from phylum Percolozoa.

Naegleria gruberi is a free life amoeba believed to have more than one billion years of existence; it is not pathogenic and had its genome sequenced, which revealed a high complexity in the metabolic pathways. This paper presents the experimental structure of GAPDH from N. gruberi, the first one belonging to the phylum Percolozoa, comparisons to structures from various species and molecular dynamics studies of some particular features. The final refined structure presents Rcryst = 15.54% and Rfree = 19.84%. The catalytic domain formed by residues 134 to 313 is highly conserved, as expected, with the exception of Asn145, present only in NgGAPDH, while the other GAPDHs present either Ser or Thr on the corresponding position. Molecular dynamics analysis revealed that Asn145 has correlated motions with residues Ala123, Thr125 and Pro126 that belong to what was called "bonded loop". NgGAPDH residue Met35 presents an extended side chain, closer to the cofactor adenine ring than corresponding (different) residues and conformations found in some parasitic protozoa and the human GAPDHs. The enzyme was previously reported to present positive cooperativity, which is hypothesized to be related to certain atom distances.

Conformational variability of the stationary phase survival protein E from Xylella fastidiosa revealed by X-ray crystallography, small-angle X-ray scattering studies, and normal mode analysis.

Xylella fastidiosa is a xylem-limited bacterium that infects a wide variety of plants. Stationary phase survival protein E is classified as a nucleotidase, which is expressed when bacterial cells are in the stationary growth phase and subjected to environmental stresses. Here, we report four refined X-ray structures of this protein from X. fastidiosa in four different crystal forms in the presence and/or absence of the substrate 3'-AMP. In all chains, the conserved loop verified in family members assumes a closed conformation in either condition. Therefore, the enzymatic mechanism for the target protein might be different of its homologs. Two crystal forms exhibit two monomers whereas the other two show four monomers in the asymmetric unit. While the biological unit has been characterized as a tetramer, differences of their sizes and symmetry are remarkable. Four conformers identified by Small-Angle X-ray Scattering (SAXS) in a ligand-free solution are related to the low frequency normal modes of the crystallographic structures associated with rigid body-like protomer arrangements responsible for the longitudinal and symmetric adjustments between tetramers. When the substrate is present in solution, only two conformers are selected. The most prominent conformer for each case is associated to a normal mode able to elongate the protein by moving apart two dimers. To our knowledge, this work was the first investigation based on the normal modes that analyzed the quaternary structure variability for an enzyme of the SurE family followed by crystallography and SAXS validation. The combined results raise new directions to study allosteric features of XfSurE protein.

Expression, purification, enzymatic characterization and crystallization of glyceraldehyde-3-phosphate dehydrogenase from Naegleria gruberi, the first one from phylum Percolozoa.

Naegleria gruberi had its genome sequenced by Fritz-Laylin and collaborators in 2010. It is not pathogenic, but has characteristics similar to those of Naegleria fowleri, opportunistic pathogen that can cause fatal encephalitis in humans. N. gruberi genome has contributed to a better understanding of the primitive eukaryotic metabolism and revealed the complexity of several metabolic pathways. In this paper we describe the expression, purification, enzyme characterization and crystallization of N. gruberi GAPDH, the first one for an organism belonging to phylum Percolozoa. The results indicated that 10 mM, 8.0 and 25 °C are the optimum arsenate concentration, pH and temperature, respectively. The enzyme presents allosteric positive cooperativity for substrates NAD(+) and G3P as indicated by the Hill coefficients. The phylogenetic proximity between N. fowleri and N. gruberi suggests that contributions from the study of the latter might provide information to assist the search for treatments of Primary Amebic Meningoencephalitis, especially, in this work, taking into account that GAPDH is identified as a therapeutic target.