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PDBsum entry 1a5o
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100 a.a.
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101 a.a.
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566 a.a.
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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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Chemical rescue of klebsiella aerogenes urease variants lacking the carbamylated-Lysine nickel ligand.
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Authors
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M.A.Pearson,
R.A.Schaller,
L.O.Michel,
P.A.Karplus,
R.P.Hausinger.
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Ref.
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Biochemistry, 1998,
37,
6214-6220.
[DOI no: ]
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PubMed id
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Abstract
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Klebsiella aerogenes urease possesses a dinuclear metallocenter in which two
nickel atoms are bridged by carbamylated Lys217. To assess whether
carbamate-specific chemistry is required for urease activity, site-directed
mutagenesis and chemical rescue strategies were combined in efforts to place a
carboxylate group at the location of this metal ligand. Urease variants with
Lys217 replaced by Glu, Cys, and Ala (K217E, K217C/C319A, and K217A proteins)
were purified, shown to be activated by incubation with small organic acids plus
Ni(II), and structurally characterized. K217C/C319A urease possessed a second
change in which Cys319 was replaced by Ala in order to facilitate efforts to
chemically modify Cys217; however, this covalent modification approach did not
produce active urease. Chemical rescue of the K217E, K217C/C319A, and K217A
variants required 2, 2, and 10 h, respectively, to reach maximal activity
levels. The highest activity generated [224 micromol of urea degraded.min-1.(mg
of protein)-1, for K217C/C319A urease incubated with 500 mM formic acid and 10
mM Ni at pH 6.5] corresponded to 56% of that measured for in vitro activation of
the wild-type apoprotein. While the K217E apoprotein showed minimal structural
perturbations, the K217C/C319A apoprotein showed a disordering of some active
site residues, and the K217A apoprotein revealed a repositioning of His219 to
allow the formation of a hydrogen bond with Thr169, thus replacing the hydrogen
bond between the amino group of Lys217 and Thr169 in the native enzyme.
Importantly, these structures allow rationalization of the relative rates and
yields of chemical rescue experiments. The crystal structures of chemically
rescued K217A and K217C/C319A ureases revealed a return of the active site
residues to their wild-type positions. In both cases, noncovalently bound
formate was structurally equivalent to the Lys-carbamate as the bridging
metallocenter ligand. We conclude that carbamate-specific chemistry is not
required for urease catalysis.
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Secondary reference #1
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Title
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70 years of crystalline urease: what have we learned?
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Authors
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P.A.Karplus,
M.A.Pearson,
R.P.Hausinger.
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Ref.
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acc chem res, 1997,
30,
330.
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Secondary reference #2
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Title
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The crystal structure of urease from klebsiella aerogenes.
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Authors
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E.Jabri,
M.B.Carr,
R.P.Hausinger,
P.A.Karplus.
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Ref.
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Science, 1995,
268,
998.
[DOI no: ]
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PubMed id
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