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PDBsum entry 1b7b
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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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Carbamate kinase: new structural machinery for making carbamoyl phosphate, The common precursor of pyrimidines and arginine.
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Authors
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A.Marina,
P.M.Alzari,
J.Bravo,
M.Uriarte,
B.Barcelona,
I.Fita,
V.Rubio.
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Ref.
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Protein Sci, 1999,
8,
934-940.
[DOI no: ]
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PubMed id
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Abstract
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The enzymes carbamoyl phosphate synthetase (CPS) and carbamate kinase (CK) make
carbamoyl phosphate in the same way: by ATP-phosphorylation of carbamate. The
carbamate used by CK is made chemically, whereas CPS itself synthesizes its own
carbamate in a process involving the phosphorylation of bicarbonate. Bicarbonate
and carbamate are analogs and the phosphorylations are carried out by homologous
40 kDa regions of the 120 kDa CPS polypeptide. CK can also phosphorylate
bicarbonate and is a homodimer of a 33 kDa subunit that was believed to resemble
the 40 kDa regions of CPS. Such belief is disproven now by the CK structure
reported here. The structure does not conform to the biotin carboxylase fold
found in the 40 kDa regions of CPS, and presents a new type of fold possibly
shared by homologous acylphosphate-making enzymes. A molecular 16-stranded open
beta-sheet surrounded by alpha-helices is the hallmark of the CK dimer. Each
subunit also contains two smaller sheets and a large crevice found at the
location expected for the active center. Intersubunit interactions are very
large and involve a central hydrophobic patch and more hydrophilic peripheral
contacts. The crevice holds a sulfate that may occupy the site of an ATP
phosphate, and is lined by conserved residues. Site-directed mutations tested at
two of these residues inactivate the enzyme. These findings support active site
location in the crevice. The orientation of the crevices in the dimer precludes
their physical cooperation in the catalytic process. Such cooperation is not
needed in the CK reaction but is a requirement of the mechanism of CPSs.
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