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PDBsum entry 1x7d
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References listed in PDB file
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Key reference
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Title
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Ornithine cyclodeaminase: structure, Mechanism of action, And implications for the mu-Crystallin family.
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Authors
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J.L.Goodman,
S.Wang,
S.Alam,
F.J.Ruzicka,
P.A.Frey,
J.E.Wedekind.
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Ref.
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Biochemistry, 2004,
43,
13883-13891.
[DOI no: ]
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PubMed id
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Abstract
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Ornithine cyclodeaminase catalyzes the conversion of L-ornithine to L-proline by
an NAD(+)-dependent hydride transfer reaction that culminates in ammonia
elimination. Phylogenetic comparisons of amino acid sequences revealed that the
enzyme belongs to the mu-crystallin protein family whose three-dimensional fold
has not been reported. Here we describe the crystal structure of ornithine
cyclodeaminase in complex with NADH, refined to 1.80 A resolution. The enzyme
consists of a homodimeric fold whose subunits comprise two functional regions:
(i) a novel substrate-binding domain whose antiparallel beta-strands form a
14-stranded barrel at the oligomeric interface and (ii) a canonical Rossmann
fold that interacts with a single dinucleotide positioned for re hydride
transfer. The adenosyl moiety of the cofactor resides in a solvent-exposed
crevice on the protein surface and makes contact with a "domain-swapped"-like
coil-helix module originating from the dyad-related molecule. Diffraction data
were also collected to 1.60 A resolution on crystals grown in the presence of
l-ornithine. The structure revealed that the substrate carboxyl group interacts
with the side chains of Arg45, Lys69, and Arg112. In addition, the ammonia
leaving group hydrogen bonds to the side chain of Asp228 and the site of hydride
transfer is 3.8 A from C4 of the nicotinamide. The absence of an appropriately
positioned water suggested that a previously proposed mechanism that calls for
hydrolytic elimination of the imino intermediate must be reconsidered. A more
parsimonious description of the chemical mechanism is proposed and discussed in
relation to the structure and function of mu-crystallins.
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