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PDBsum entry 1fc4
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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 2-Amino-3-Ketobutyrate CoA ligase from escherichia coli complexed with a plp-Substrate intermediate: inferred reaction mechanism.
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Authors
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A.Schmidt,
J.Sivaraman,
Y.Li,
R.Larocque,
J.A.Barbosa,
C.Smith,
A.Matte,
J.D.Schrag,
M.Cygler.
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Ref.
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Biochemistry, 2001,
40,
5151-5160.
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PubMed id
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Abstract
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2-Amino-3-ketobutyrate CoA ligase (KBL, EC 2.3.1.29) is a pyridoxal phosphate
(PLP) dependent enzyme, which catalyzes the second reaction step on the main
metabolic degradation pathway for threonine. It acts in concert with threonine
dehydrogenase and converts 2-amino-3-ketobutyrate, the product of threonine
dehydrogenation by the latter enzyme, with the participation of cofactor CoA, to
glycine and acetyl-CoA. The enzyme has been well conserved during evolution,
with 54% amino acid sequence identity between the Escherichia coli and human
enzymes. We present the three-dimensional structure of E. coli KBL determined at
2.0 A resolution. KBL belongs to the alpha family of PLP-dependent enzymes, for
which the prototypic member is aspartate aminotransferase. Its closest
structural homologue is E. coli 8-amino-7-oxononanoate synthase. Like many other
members of the alpha family, the functional form of KBL is a dimer, and one such
dimer is found in the asymmetric unit in the crystal. There are two active sites
per dimer, located at the dimer interface. Both monomers contribute side chains
to each active/substrate binding site. Electron density maps indicated the
presence in the crystal of the Schiff base intermediate of
2-amino-3-ketobutyrate and PLP, an external aldimine, which remained bound to
KBL throughout the protein purification procedure. The observed interactions
between the aldimine and the side chains in the substrate binding site explain
the specificity for the substrate and provide the basis for a detailed proposal
of the reaction mechanism of KBL. A putative binding site of the CoA cofactor
was assigned, and implications for the cooperation with threonine dehydrogenase
were considered.
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