The crystal structure of the P-protein of the glycine cleavage system from Thermus thermophilus HB8 has been determined. This is the first reported crystal structure of a P-protein, and it reveals that P-proteins do not involve the alpha(2)-type active dimer universally observed in the evolutionarily related pyridoxal 5'-phosphate (PLP)-dependent enzymes. Instead, novel alphabeta-type dimers associate to form an alpha(2)beta(2) tetramer, where the alpha- and beta-subunits are structurally similar and appear to have arisen by gene duplication and subsequent divergence with a loss of one active site. The binding of PLP to the apoenzyme induces large open-closed conformational changes, with residues moving up to 13.5 A. The structure of the complex formed by the holoenzyme bound to an inhibitor, (aminooxy)acetate, suggests residues that may be responsible for substrate recognition. The molecular surface around the lipoamide-binding channel shows conservation of positively charged residues, which are possibly involved in complex formation with the H-protein. These results provide insights into the molecular basis of nonketotic hyperglycinemia.
Thermus thermophilus (Tth) HB8 glycine decarboxylase (P-protein) is an alpha(2)beta(2) tetrameric enzyme with a total molecular mass of 200 kDa. The alpha- and beta-subunits of the Tth P-protein have been coexpressed in Escherichia coli and purified as a stable complex. Dynamic light-scattering measurements indicated the recombinant protein to be monodisperse and its size to be consistent with an alpha(2)beta(2) tetrameric composition. Crystals of the protein have been grown in polyethylene glycol 3350 using the vapour-diffusion method at 291 K. Synchrotron radiation from BL45XU at SPring-8 was used to measure a complete native data set to 2.4 A resolution. The crystals belong to the trigonal space group P3(1)21 or P3(2)21, with unit-cell parameters a = b = 89.5, c = 371.0 A. Estimation of the crystal packing (V(M) = 2.15 A(3) Da(-1)) and self-rotation function analysis suggest the presence of one alpha(2)beta(2) tetramer per asymmetric unit, with the molecules related by non-crystallographic twofold symmetry.
A 1:1 thioredoxin-Pt(bpy) complex was prepared by adding [Pt(bpy)(en)]Cl(2)(bpy = 2,2'-bipyridine, en = ethylenediamine) to Thermus thermophilus HB8 thioredoxin in pH 8 phosphate buffer. Matrix-assisted laser desorption-ionization time of flight mass spectrometry (MALDI-TOF MS) and UV spectra of indicate the formation of Pt(bpy)(cys-Ala-Pro-cys-containing peptide fragment). These findings suggest that the Pt(bpy)(2+) unit binds to the active site of thioredoxin. The thioredoxin-platinum complex has no catalytic activity for the reduction of glutathione disulfide in the presence of NADPH and thioredoxin reductase, so that the platinum complex functions as an inhibitor.
Ribosomal proteins are subjected to a variety of post-translational modifications, of which methylation is the most frequently found in all three kingdoms of life. PrmA is the only bacterial enzyme identified to date that catalyzes the methylation of a ribosomal protein. It is responsible for the introduction of nine methyl groups into the N-terminal domain of ribosomal protein L11. The PrmA protein from Thermus thermophilus HB8 was crystallized and a preliminary X-ray diffraction analysis was performed. A cryocooled crystal diffracted X-rays beyond 1.9 A using synchrotron radiation.
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