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PDBsum entry 2ddm
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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 pyridoxal kinase from the escherichia coli pdxk gene: implications for the classification of pyridoxal kinases.
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Authors
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M.K.Safo,
F.N.Musayev,
M.L.Di salvo,
S.Hunt,
J.B.Claude,
V.Schirch.
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Ref.
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J Bacteriol, 2006,
188,
4542-4552.
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PubMed id
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Abstract
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The pdxK and pdxY genes have been found to code for pyridoxal kinases, enzymes
involved in the pyridoxal phosphate salvage pathway. Two pyridoxal kinase
structures have recently been published, including Escherichia coli pyridoxal
kinase 2 (ePL kinase 2) and sheep pyridoxal kinase, products of the pdxY and
pdxK genes, respectively. We now report the crystal structure of E. coli
pyridoxal kinase 1 (ePL kinase 1), encoded by a pdxK gene, and an isoform of ePL
kinase 2. The structures were determined in the unliganded and binary complexes
with either MgATP or pyridoxal to 2.1-, 2.6-, and 3.2-A resolutions,
respectively. The active site of ePL kinase 1 does not show significant
conformational change upon binding of either pyridoxal or MgATP. Like sheep PL
kinase, ePL kinase 1 exhibits a sequential random mechanism. Unlike sheep
pyridoxal kinase, ePL kinase 1 may not tolerate wide variation in the size and
chemical nature of the 4' substituent on the substrate. This is the result of
differences in a key residue at position 59 on a loop (loop II) that partially
forms the active site. Residue 59, which is His in ePL kinase 1, interacts with
the formyl group at C-4' of pyridoxal and may also determine if residues from
another loop (loop I) can fill the active site in the absence of the substrate.
Both loop I and loop II are suggested to play significant roles in the functions
of PL kinases.
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