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PDBsum entry 1lkc
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Three-Dimensional structure of the l-Threonine-O-3-Phosphate decarboxylase (cobd) enzyme from salmonella enterica.
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Authors
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C.G.Cheong,
C.B.Bauer,
K.R.Brushaber,
J.C.Escalante-Semerena,
I.Rayment.
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Ref.
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Biochemistry, 2002,
41,
4798-4808.
[DOI no: ]
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PubMed id
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Abstract
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The three-dimensional structure of the pyridoxal 5'-phosphate (PLP)-dependent
L-threonine-O-3-phosphate decarboxylase (CobD) from Salmonella enterica is
described here. This enzyme is responsible for synthesizing
(R)-1-amino-2-propanol phosphate which is the precursor for the linkage between
the nucleotide loop and the corrin ring in cobalamin. The molecule is a
molecular dimer where each subunit consists of a large and small domain. Overall
the protein is very similar to the members of the family of aspartate
aminotransferases. Indeed, the arrangement of the ligands surrounding the
cofactor and putative substrate binding site are remarkably close to that
observed in histidinol phosphate aminotransferase, which suggests that this
latter enzyme might have been its progenitor. The only significant differences
in structure occur at the N-terminus, which is approximately 12 residues shorter
in CobD and does not form the same type of interdomain interaction common to
other aminotransferases. CobD is unusual since within the aspartate
aminotransferase subfamily of PLP-dependent enzymes the chemical transformations
are substantially conserved, where the only exceptions are
1-aminocyclopropane-1-carboxylate synthase and CobD. Although there are a large
number of PLP-dependent amino acid decarboxylases, these are generally larger
and structurally distinct from the members of the aspartate aminotransferase
subfamily of enzymes. The structure of CobD suggests that the chemical fate of
the external aldimine can be redirected by modifications at the N-terminus of
the protein. This study provides insight into the evolutionary history of the
cobalamin biosynthetic pathway and raises the question of why most PLP-dependent
decarboxylases are considerably larger enzymes.
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