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PDBsum entry 2owr
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References listed in PDB file
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Key reference
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Title
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Crystal structure of vaccinia virus uracil-Dna glycosylase reveals dimeric assembly.
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Authors
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N.Schormann,
A.Grigorian,
A.Samal,
R.Krishnan,
L.Delucas,
D.Chattopadhyay.
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Ref.
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Bmc Struct Biol, 2007,
7,
45.
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PubMed id
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Abstract
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BACKGROUND: Uracil-DNA glycosylases (UDGs) catalyze excision of uracil from DNA.
Vaccinia virus, which is the prototype of poxviruses, encodes a UDG (vvUDG) that
is significantly different from the UDGs of other organisms in primary,
secondary and tertiary structure and characteristic motifs. It adopted a novel
catalysis-independent role in DNA replication that involves interaction with a
viral protein, A20, to form the processivity factor. UDG:A20 association is
essential for assembling of the processive DNA polymerase complex. The structure
of the protein must have provisions for such interactions with A20. This paper
provides the first glimpse into the structure of a poxvirus UDG. RESULTS:
Results of dynamic light scattering experiments and native size exclusion
chromatography showed that vvUDG is a dimer in solution. The dimeric assembly is
also maintained in two crystal forms. The core of vvUDG is reasonably well
conserved but the structure contains one additional beta-sheet at each terminus.
A glycerol molecule is found in the active site of the enzyme in both crystal
forms. Interaction of this glycerol molecule with the protein possibly mimics
the enzyme-substrate (uracil) interactions. CONCLUSION: The crystal structures
reveal several distinctive features of vvUDG. The new structural features may
have evolved for adopting novel functions in the replication machinery of
poxviruses. The mode of interaction between the subunits in the dimers suggests
a possible model for binding to its partner and the nature of the processivity
factor in the polymerase complex.
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