ADP ribosyl cyclase synthesizes the novel secondary messenger cyclic ADP ribose (cADPR) utilizing NAD as a substrate. The enzyme shares extensive sequence similarity with two lymphocyte antigens, CD38 and BST-1, which hydrolyse as well as synthesize cADPR. The crystal structure provides a model for these cell surface enzymes. Cyclase contains two spatially separated pockets composed of sequence conserved residues, suggesting that the cyclization reaction may entail use of distinct sites. The enzyme dimer encloses a cavity which may entrap the intermediate, ADP ribose.
We have determined the crystal structure of dUTP pyrophosphatase (dUTPase) from feline immunodeficiency virus (FIV) at 1.9 8, resolution. The structure has been solved by the multiple isomorphous replacement (MIR) method using a P63 crystal form. The results show that the enzyme is a trimer of 14.3 kDa subunits with marked structural similarity to E. coli dUTPase. In both enzymes the C-terminal strand of an anti-parallel P-barrel participates in the P-sheet of an adjacent subunit to form an interdigitated, biologically functional trimer. In the P63 crystal form one trimer packs on the 63 screw-axis and another on the threefold axis so that there are two independent monomers per asymmetric unit. A Mg'+ ion is coordinated by three asparate residues on the threefold axis of each trimer. Alignment of 17 viral, prokaryotic, and eukaryotic dUTPase sequences reveals five conserved motifs. Four of these map onto the interface between pairs of subunits, defining a putative active site region; the fifth resides in the C-terminal 16 residues, which is disordered in the crystals. Conserved motifs from all three subunits are required to create a given active site. With respect to viral protein expression, it is particularly interesting that the gene for dUTPase (DU) resides in the middle of the Pol gene, the enzyme cassette of the retroviral genome. Other enzymes encoded in the Pol polyprotein, including protease (PR), reverse transcriptase (RT), and most likely integrase (IN), are dimeric enzymes, which implies that the stoichiometry of expression of active trimeric dUTPase is distinct from the other Pol-encoded enzymes. Additionally, due to structural constraints, it is unlikely that dUTPase can attain an active form prior to cleavage from the polyprotein.
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